[][Remove slic si3218x driver]
[Description]
Remove slic si3218x driver
[Release-log]
N/A
Change-Id: Ifb9545f2233bd1eed45667eda8a7f36bee6c345d
Reviewed-on: https://gerrit.mediatek.inc/c/openwrt/feeds/mtk_openwrt_feeds/+/5944488
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x-spi.c b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x-spi.c
deleted file mode 100644
index 0708def..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x-spi.c
+++ /dev/null
@@ -1,86 +0,0 @@
-// SPDX-License-Identifier: GPL-2.0
-
-#include <linux/module.h>
-#include <linux/kernel.h>
-#include <linux/init.h>
-#include <linux/err.h>
-#include <linux/spi/spi.h>
-
-/* alsa sound header */
-#include <sound/soc.h>
-#include <sound/pcm_params.h>
-
-#include "si3218x/si3218x.h"
-
-enum si3218x_spi_type {
- MTK_EXT_PROSLIC = 0,
- MTK_EXT_TYPE_NUM
-};
-
-struct mtk_ext_spi_ctrl {
- int (*spi_probe)(struct spi_device *spi, struct spi_driver *spi_drv);
- int (*spi_remove)(struct spi_device *spi);
- const char *stream_name;
- const char *codec_dai_name;
- const char *codec_name;
-};
-
-static struct mtk_ext_spi_ctrl mtk_ext_list[MTK_EXT_TYPE_NUM] = {
- [MTK_EXT_PROSLIC] = {
- .spi_probe = si3218x_spi_probe,
- .spi_remove = si3218x_spi_remove,
- },
-};
-
-static unsigned int mtk_ext_type;
-
-static int mtk_ext_spi_probe(struct spi_device *spi);
-static int mtk_ext_spi_remove(struct spi_device *spi)
-{
- dev_info(&spi->dev, "%s()\n", __func__);
-
- if (mtk_ext_list[mtk_ext_type].spi_remove)
- mtk_ext_list[mtk_ext_type].spi_remove(spi);
-
- return 0;
-}
-
-static const struct of_device_id mtk_ext_match_table[] = {
- {.compatible = "silabs,proslic_spi",},
- {},
-};
-MODULE_DEVICE_TABLE(of, mtk_ext_match_table);
-
-static struct spi_driver mtk_ext_spi_driver = {
- .driver = {
- .name = "proslic_spi",
- .owner = THIS_MODULE,
- .of_match_table = of_match_ptr(mtk_ext_match_table),
- },
- .probe = mtk_ext_spi_probe,
- .remove = mtk_ext_spi_remove,
-};
-
-module_spi_driver(mtk_ext_spi_driver);
-
-static int mtk_ext_spi_probe(struct spi_device *spi)
-{
- int i, ret = 0;
-
- dev_err(&spi->dev, "%s()\n", __func__);
-
- mtk_ext_type = MTK_EXT_PROSLIC;
- for (i = 0; i < MTK_EXT_TYPE_NUM; i++) {
- if (!mtk_ext_list[i].spi_probe)
- continue;
-
- ret = mtk_ext_list[i].spi_probe(spi, &mtk_ext_spi_driver);
- if (ret)
- continue;
-
- mtk_ext_type = i;
- break;
- }
-
- return ret;
-}
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/Makefile b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/Makefile
deleted file mode 100644
index 907bb61..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/Makefile
+++ /dev/null
@@ -1,17 +0,0 @@
-# Release Version 1.0.4
-# Add config define "CONFIG_SND_SOC_PROSLIC" to "y"
-# Add to Makefile of prented folder: obj-$(CONFIG_SND_SOC_PROSLIC) += proslic/
-
-# Platform
-subdir-ccflags-y += -DSI3218X
-subdir-ccflags-y += -DPROSLIC_LINUX_KERNEL
-subdir-ccflags-y += -Iinc
-subdir-ccflags-y += -Iconfig_inc
-
-
-# Basic
-snd-soc-si3218x-objs := proslic_sys_main.o proslic_sys_spi.o proslic_sys_timer.o si3218x.o proslic_spi_api.o proslic_timer_intf_linux.o
-
-obj-$(CONFIG_SND_SOC_SI3218X) += src/proslic.o src/proslic_tstin.o src/si_voice.o src/si_voice_version.o src/si3218x_intf.o src/vdaa.o src/vdaa_constants.o src/si3218x_LCCB_constants.o
-obj-$(CONFIG_SND_SOC_SI3218X) += patch_files/si3218x_patch_A_2017MAY25.o
-obj-$(CONFIG_SND_SOC_SI3218X) += snd-soc-si3218x.o
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/config_inc/proslic_api_config.h b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/config_inc/proslic_api_config.h
deleted file mode 100644
index d75a2ef..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/config_inc/proslic_api_config.h
+++ /dev/null
@@ -1,210 +0,0 @@
-/* SPDX-License-Identifier: GPL-2.0 */
-/*
- * Author(s):
- * laj
- *
- * Distributed by:
- * Silicon Laboratories, Inc
- *
- * This file contains proprietary information.
- * No dissemination allowed without prior written permission from
- * Silicon Laboratories, Inc.
- *
- *
- */
-#ifndef PROSLIC_API_CFG
-#define PROSLIC_API_CFG
-
-/** @defgroup PROSLIC_CFG ProSLIC Configuration Options
- * @{
- */
-
-/** @defgroup PROSLIC_DRIVER_SEL ProSLIC Driver Selection
-* Define device driver to be compiled.
-* @{
-*/
-#ifdef PROSLIC_DOXYGEN
-#define SI3217X /**< Define to support Si3217x chipset family in the build */
-#undef SI3217X
-#define SI3217X_REVC_ONLY /**< Define to ONLY have Si3217x Rev C support (drop Rev B support) */
-#undef SI3217X_REVC_ONLY
-#define SI3217X_REVB_ONLY /**< Define to ONLY have Si3217x Rev B support (drop Rev C support) */
-#undef SI3217X_REVB_ONLY
-#define SI3218X /**< Define to support Si3218x chipset family in the build */
-#undef SI3218X
-#define SI3219X /**< Define to support Si3219x chipset family in the build */
-#undef SI3219X
-#define SI3226X /**< Define to support Si3226x chipset family in the build */
-#undef SI3226X
-#define SI3228X /**< Define to support Si3228x chipset family in the build */
-#undef SI3228X
-#error DO NOT BUILD WITH PROSLIC_DOXYGEN ENABLED
-#endif
-
-/** @} PROSLIC_DRIVER_SEL*/
-
-/** @defgroup CODE_OPTS Code feature options
- * Select which options NOT to build - just uncomment out the undef to disable feature.
- * @{
- */
-#define DISABLE_VERIFY_PATCH /**< Disable patch load verification */
-#undef DISABLE_VERIFY_PATCH
-#define DISABLE_FSK_SETUP /**< Disable the FSK setup & associated functions */
-#undef DISABLE_FSK_SETUP
-#define DISABLE_TONE_SETUP /**< Disable Tone setup API */
-#undef DISABLE_TONE_SETUP
-#define DISABLE_RING_SETUP /**< Disable Ring setup API */
-#undef DISABLE_RING_SETUP
-#define DISABLE_DCFEED_SETUP /**< Disable DC FEED setup API */
-#undef DISABLE_DCFEED_SETUP
-#define DISABLE_GPIO_SETUP /**< Disable GPIO setup API */
-#undef DISABLE_GPIO_SETUP
-#define DISABLE_PCM_SETUP /**< Disable PCM setup API */
-#undef DISABLE_PCM_SETUP
-#define ENABLE_DEBUG /**< Enable debug messages - function entry, etc. */
-/* #undef ENABLE_DEBUG */
-#define DISABLE_CI_SETUP /**< Disable CI Setup */
-#undef DISABLE_CI_SETUP
-#define DISABLE_ZSYNTH_SETUP /**< Disable Zsyth/impedance setup */
-#undef DISABLE_ZSYNTH_SETUP
-#define DISABLE_MALLOC /**< Don't use MALLOC/FREE, instead assume user will statically allocate */
-#undef DISABLE_MALLOC
-#define DISABLE_HPF_WIDEBAND /**< Disable RX and TX HPF when in WIDEBAND mode */
-#undef DISABLE_HPF_WIDEBAND
-#define PROSLIC_OPTIMIZE_INTERRUPTS /**< Enable optimization for interrupts for dual channel devices. This
- optimization assumes channel number is on even boundaries - that is
- 0,2,4, are the first channel for each dual channel devices.
- */
-#define ENABLE_TRACES /**< Enable this to see major API calls during software execution. NOT recommended for production code since it does add code space + can generate compiler warnings. */
-#undef ENABLE_TRACES
-
-#define SI_ENABLE_LOGGING /**< This will enable the ability to log to a file - this assumes the application supports this. See api_demo for example implementation */
-#undef SI_ENABLE_LOGGING
-
-#define DISABLE_HOOKCHANGE /**< Disable ProSLIC_HookChangeDetect() and associated functions */
-#undef DISABLE_HOOKCHANGE
-
-#define DISABLE_PULSEMETERING /**< Disable pulse metering functions */
-#undef DISABLE_PULSEMETERING
-
-/**@} */
-
-
-#define SIVOICE_NEON_MWI_SUPPORT /**< Enable NEON Message Waiting Indicator support */
-#undef SIVOICE_NEON_MWI_SUPPORT
-
-#define GCI_MODE /**< Set if GCI vs. SPI/PCM mode is to be used */
-#undef GCI_MODE
-
-#define ENABLE_HIRES_GAIN /**< Set for zsynth preset gains in dB*10 rather than dB */
-#undef ENABLE_HIRES_GAIN
-
-#define PRINT_TO_STRING 0 /**< Set this to 1 if printing to a string buffer vs. console - you may change/remove this*/
-
-
-/** @defgroup MULTI_BOM Multiple Device/BOM Option Support
- * Assign patch structure names to macros used in device drivers
-* @{ */
-#define SIVOICE_MULTI_BOM_SUPPORT /**< Enable Multiple General Configuration Support */
-#undef SIVOICE_MULTI_BOM_SUPPORT
-
-#ifdef SIVOICE_MULTI_BOM_SUPPORT
-#define SI3217X_PATCH_B_FLBK si3217xPatchRevBFlbk /**< Si3217x B Flyback DCDC Converter patch */
-#define SI3217X_PATCH_B_BKBT si3217xPatchRevBBkbt /**< Si3217x B Buck-boost DCDC Converter patch */
-#define SI3217X_PATCH_B_PBB si3217xPatchRevBBkbt /**< Si3217x B PMOS Buck-boost DCDC Converter patch */
-#define SI3217X_PATCH_B_LCQCUK si3217xPatchRevBFlbk /**< Si3217x C Quasi-CUK DCDC Converter patch */
-#define SI3217X_PATCH_C_FLBK si3217xPatchRevCFlbk /**< Si3217x C Flyback DCDC Converter patch */
-#define SI3217X_PATCH_C_BKBT si3217xPatchRevCFlbk /**< Si3217x C Buck-boost DCDC Converter patch */
-#define SI3217X_PATCH_C_PBB si3217xPatchRevCFlbk /**< Si3217x C PMOS Buck-boost DCDC Converter patch */
-#define SI3217X_PATCH_C_LCQCUK si3217xPatchRevCFlbk /**< Si3217x C Quasi-CUK DCDC Converter patch */
-
-#define SI3218X_PATCH_A si3218xPatchRevALCQC /**< Si3218x LCQC 5W DCDC Converter patch */
-
-#define SI3219X_PATCH_A si3219xPatchRevALCQC /**< SI3219x patch */
-
-#define SI3226X_PATCH_C_FLBK si3226xPatchRevCFlbk /**< Si3226x RevC Flyback DCDC Converter Patch */
-#define SI3226X_PATCH_C_CUK si3226xPatchRevCFlbk /**< Si3226x RevC Full CUK DCDC Converter Patch */
-#define SI3226X_PATCH_C_QCUK si3226xPatchRevCFlbk /**< Si3226x RevC Quasi-CUK DCDC Converter Patch */
-#define SI3226X_PATCH_C_LCQCUK si3226xPatchRevCFlbk /**< Si3226x RevC Low-cost QCUK DCDC Converter Patch */
-#define SI3226X_PATCH_C_TSS si3226xPatchRevCTss /**< Si3226x RevC TSS DCDC Converter Patch */
-#define SI3226X_PATCH_C_TSS_ISO si3226xPatchRevCTssIso /**< Si3226x RevC TSS (isolated) DCDC Converter Patch */
-#define SI3226X_PATCH_C_PBB si3226xPatchRevCFlbk /**< Si3226x PMOS Buck-boost DCDC Converter patch */
-#define SI3226x_PATCH_C_FIXRL SI3226X_PATCH_C_TSS
-#define SI3226X_PATCH_C_QSS si3226xPatchRevCTss /**< Si3226x RevC QSS DCDC Converter Patch */
-#define SI3226X_PATCH_C_BB si3226xPatchRevCFlbk /**< Si3226x BJT Buck-boost DCDC Converter patch */
-
-#define SI3228X_PATCH_A si3228xPatchRevALCQC /**< Si3228x LCQC 5W DCDC Converter patch */
-
-#endif
-
-/* Default patch names for backwards compatibility */
-#define SI3217X_PATCH_B_DEFAULT RevBPatch
-#define SI3217X_PATCH_C_DEFAULT RevCPatch
-#define SI3218X_PATCH_A_DEFAULT RevAPatch
-#define SI3219X_PATCH_A_DEFAULT RevAPatch
-#define SI3226X_PATCH_C_DEFAULT RevCPatch
-#define SI3228X_PATCH_A_DEFAULT RevAPatch
-
-/** @} MULTI_BOM */
-
-
-#include <linux/module.h>
-#define LOGPRINT(...) printk(KERN_ERR __VA_ARGS__)
-#ifdef SI_ENABLE_LOGGING
-
-#ifdef PROSLIC_LINUX_KERNEL
-#error "Logging currently implemented only for userspace programs."
-#endif
-
-extern FILE *SILABS_LOG_FP; /* This global variable would need to be initialized by the user's program - see the api demo for example */
-#endif /* SI_ENABLE_LOGGING */
-
-#ifdef ENABLE_DEBUG
-#define DEBUG_ENABLED(X) ((X)->debugMode & 1)
-
-#ifdef SI_ENABLE_LOGGING
-#define DEBUG_PRINT(CHPTR,...) if( DEBUG_ENABLED(CHPTR) ){ fprintf(SILABS_LOG_FP, __VA_ARGS__); fflush(SILABS_LOG_FP);}
-#else
-#define DEBUG_PRINT(CHPTR,...) if( DEBUG_ENABLED(CHPTR) ) LOGPRINT(__VA_ARGS__)
-#endif /* Logging */
-
-#else /* No Debug */
-/* Handled in si_voice.h */
-#endif
-#define SI_ENABLE_LOGGING
-#ifdef ENABLE_TRACES
-#define TRACE_ENABLED(X) ((X)->debugMode & 2)
-
-#ifdef SI_ENABLE_LOGGING
-#define TRACEPRINT(CHPTR,FMT,...) if(TRACE_ENABLED(CHPTR)) {fprintf(SILABS_LOG_FP, "#TRC:%s channel: %d "FMT,__FUNCTION__, (CHPTR)->channel,__VA_ARGS__); fflush(SILABS_LOG_FP); }
-#define TRACEPRINT_NOCHAN(FMT,...) fprintf(SILABS_LOG_FP, "#TRC:%s "FMT,__FUNCTION__, __VA_ARGS__); fflush(SILABS_LOG_FP)
-#else
-#define TRACEPRINT(CHPTR,FMT,...) if(TRACE_ENABLED(CHPTR)) LOGPRINT("TRC:%s channel: %d "FMT,__FUNCTION__, (CHPTR)->channel,__VA_ARGS__)
-#define TRACEPRINT_NOCHAN(FMT,...) LOGPRINT("TRC:%s "FMT,__FUNCTION__, __VA_ARGS__)
-
-#endif /* SI_ENABLE_LOGGING */
-#else
-/* Handled in si_voice.h */
-#endif
-
-
-/** @defgroup PSTN_CFG PSTN Detection Options
-* @{ */
-#define PSTN_DET_ENABLE /**< Define to include Differential PSTN detection code */
-#undef PSTN_DET_ENABLE
-
-#define PSTN_DET_OPEN_FEMF_SETTLE 1500 /**< OPEN foreign voltage measurement settle time */
-#define PSTN_DET_DIFF_SAMPLES 4 /**< Number of I/V samples averaged [1 to 16] */
-#define PSTN_DET_MIN_ILOOP 700 /**< Minimum acceptable loop current */
-#define PSTN_DET_MAX_FEMF 10000 /**< Maximum OPEN state foreign voltage */
-#define PSTN_DET_POLL_RATE 10 /**< Rate of re-entrant code in ms */
-#define PSTN_DET_DIFF_IV1_SETTLE 1000 /**< Settle time before first I/V measurment in ms */
-#define PSTN_DET_DIFF_IV2_SETTLE 1000 /**< Settle time before first I/V measurment in ms */
-
-/** @} PSTN_CFG */
-#define SIVOICE_CFG_NEWTYPES_ONLY 1 /**< Set if not supporting Legacy types */
-
-
-/**@} */
-#endif
-
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/config_inc/si3218x_LCCB_constants.h b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/config_inc/si3218x_LCCB_constants.h
deleted file mode 100644
index 94bdac1..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/config_inc/si3218x_LCCB_constants.h
+++ /dev/null
@@ -1,83 +0,0 @@
-/* SPDX-License-Identifier: GPL-2.0 */
-/*
- *
- * Si3218x ProSLIC API Configuration Tool Version 4.2.1
- * Last Updated in API Release: 9.2.0
- * source XML file: si3218x_LCCB_constants.xml
- *
- * Auto generated file from configuration tool.
- */
-
-
-#ifndef SI3218X_CONSTANTS_H
-#define SI3218X_CONSTANTS_H
-
-/** Ringing Presets */
-enum {
- DEFAULT_RINGING,
- RING_F20_45VRMS_0VDC_LPR,
- RINGING_LAST_ENUM
-};
-
-/** DC_Feed Presets */
-enum {
- DCFEED_48V_20MA,
- DCFEED_48V_25MA,
- DCFEED_PSTN_DET_1,
- DCFEED_PSTN_DET_2,
- DC_FEED_LAST_ENUM
-};
-
-/** Impedance Presets */
-enum {
- ZSYN_600_0_0_30_0,
- ZSYN_270_750_150_30_0,
- ZSYN_370_620_310_30_0,
- ZSYN_220_820_120_30_0,
- ZSYN_600_0_1000_30_0,
- ZSYN_200_680_100_30_0,
- ZSYN_220_820_115_30_0,
- WB_ZSYN_600_0_0_20_0,
- IMPEDANCE_LAST_ENUM
-};
-
-/** FSK Presets */
-enum {
- DEFAULT_FSK,
- ETSI_FSK,
- FSK_LAST_ENUM
-};
-
-/** Pulse_Metering Presets */
-enum {
- DEFAULT_PULSE_METERING,
- PULSE_METERING_LAST_ENUM
-};
-
-/** Tone Presets */
-enum {
- TONEGEN_FCC_DIAL,
- TONEGEN_FCC_BUSY,
- TONEGEN_FCC_RINGBACK,
- TONEGEN_FCC_REORDER,
- TONEGEN_FCC_CONGESTION,
- TONEGEN_FCC_CAS,
- TONEGEN_FCC_SAS,
- TONEGEN_ETSI_DTAS,
- TONEGEN_1004,
- TONE_LAST_ENUM
-};
-
-/** PCM Presets */
-enum {
- PCM_8ULAW,
- PCM_8ALAW,
- PCM_16LIN,
- PCM_16LIN_WB,
- PCM_LAST_ENUM
-};
-
-
-
-#endif
-
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/config_inc/si_voice_datatypes.h b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/config_inc/si_voice_datatypes.h
deleted file mode 100644
index 520a79d..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/config_inc/si_voice_datatypes.h
+++ /dev/null
@@ -1,60 +0,0 @@
-/* SPDX-License-Identifier: GPL-2.0 */
-/*
- * si_voice_datatypes.h
- * ProSLIC datatypes file
- *
- * Author(s):
- * laj
- *
- * Distributed by:
- * Silicon Laboratories, Inc
- *
- * This file contains proprietary information.
- * No dissemination allowed without prior written permission from
- * Silicon Laboratories, Inc.
- *
- * File Description:
- * This is the header file that contains
- * type definitions for the data types
- * used in the demonstration code.
- *
- */
-#ifndef DATATYPES_H
-#define DATATYPES_H
-#include "proslic_api_config.h"
-
-#ifndef TRUE
-#define TRUE (1)
-#endif
-#ifndef FALSE
-#define FALSE (0)
-#endif
-
-#ifndef NULL
-#define NULL ((void *) 0)
-#endif
-
-#include <linux/types.h>
-typedef u_int8_t BOOLEAN;
-typedef int8_t int8;
-typedef u_int8_t uInt8;
-typedef uInt8 uChar;
-typedef int16_t int16;
-typedef u_int16_t uInt16;
-typedef int32_t int32;
-typedef u_int32_t uInt32;
-typedef u_int32_t ramData;
-
-
-#include <linux/slab.h>
-#include <linux/kernel.h> /* for abs() */
-/* NOTE: kcalloc was introduced in ~2.6.14, otherwise use kzalloc() with (X)*(Y) for the block size */
-#define SIVOICE_CALLOC(X,Y) kcalloc((X),(Y), GFP_KERNEL)
-#define SIVOICE_FREE(X) kfree((X))
-#define SIVOICE_MALLOC(X) kmalloc((X), GFP_KERNEL)
-#define SIVOICE_STRCPY strcpy
-#define SIVOICE_STRNCPY strncpy
-#define SIVOICE_MEMSET memset
-#define SIVOICE_ABS abs
-#endif
-
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/config_inc/vdaa_api_config.h b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/config_inc/vdaa_api_config.h
deleted file mode 100644
index 4967170..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/config_inc/vdaa_api_config.h
+++ /dev/null
@@ -1,42 +0,0 @@
-/* SPDX-License-Identifier: GPL-2.0 */
-/*
- * vdaa_api_config.h
- * VoiceDAA header config file
- *
- * Author(s):
- * naqamar, laj
- *
- * Distributed by:
- * Silicon Laboratories, Inc
- *
- * This file contains proprietary information.
- * No dissemination allowed without prior written permission from
- * Silicon Laboratories, Inc.
- *
- * File Description:
- * This file is used
- * in the VoiceDAA demonstration code.
- *
- *
- */
-
-#ifndef VDAA_API_CFG_H
-#define VDAA_API_CFG_H
-
-/* #define DISABLE_MALLOC */
-/* #define DISABLE_VDAA_RING_DETECT_SETUP */
-/* #define DISABLE_VDAA_AUDIO_GAIN_SETUP */
-/* #define DISABLE_VDAA_PCM_SETUP */
-/* #define DISABLE_VDAA_COUNTRY_SETUP */
-/* #define DISABLE_VDAA_HYBRID_SETUP */
-#define DISABLE_VDAA_LOOPBACK_SETUP
-#define DISABLE_VDAA_IMPEDANCE_SETUP
-
-#ifndef ENABLE_DEBUG
-#define ENABLE_DEBUG
-#endif
-//#include "stdio.h"
-#include <linux/kernel.h>
-//#define LOGPRINT printf
-
-#endif
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/config_inc/vdaa_constants.h b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/config_inc/vdaa_constants.h
deleted file mode 100644
index 11940a6..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/config_inc/vdaa_constants.h
+++ /dev/null
@@ -1,57 +0,0 @@
-/* SPDX-License-Identifier: GPL-2.0 */
-/*
- * Si3217x ProSLIC API Configuration Tool Version 4.2.1
- * Last Updated in API Release: 9.2.0
- * source XML file: si3217x_FLBK_GDRV_constants.xml
- *
- * Auto generated file from configuration tool.
-*/
-
-
-#ifndef VDAA_CONSTANTS_H
-#define VDAA_CONSTANTS_H
-
-/** Vdaa_Country Presets */
-enum {
- COU_USA,
- COU_GERMANY,
- COU_CHINA,
- COU_AUSTRALIA,
- VDAA_COUNTRY_LAST_ENUM
-};
-
-/** Vdaa_Audio_Gain Presets */
-enum {
- AUDIO_GAIN_0DB,
- AUDIO_ATTEN_4DB,
- AUDIO_ATTEN_6DB,
- AUDIO_ATTEN_11DB,
- VDAA_AUDIO_GAIN_LAST_ENUM
-};
-
-/** Vdaa_Ring_Validation Presets */
-enum {
- RING_DET_NOVAL_LOWV,
- RING_DET_VAL_HIGHV,
- VDAA_RING_VALIDATION_LAST_ENUM
-};
-
-/** Vdaa_PCM Presets */
-enum {
- DAA_PCM_8ULAW,
- DAA_PCM_8ALAW,
- DAA_PCM_16LIN,
- VDAA_PCM_LAST_ENUM
-};
-
-/** Vdaa_Hybrid Presets */
-enum {
- HYB_600_0_0_500FT_24AWG,
- HYB_270_750_150_500FT_24AWG,
- HYB_200_680_100_500FT_24AWG,
- HYB_220_820_120_500FT_24AWG,
- VDAA_HYBRID_LAST_ENUM
-};
-
-#endif
-
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/proslic.h b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/proslic.h
deleted file mode 100644
index a85c342..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/proslic.h
+++ /dev/null
@@ -1,2697 +0,0 @@
-/* SPDX-License-Identifier: GPL-2.0 */
-/*
- * Distributed by:
- * Silicon Laboratories, Inc
- *
- * This file contains proprietary information.
- * No dissemination allowed without prior written permission from
- * Silicon Laboratories, Inc.
- *
- * File Description:
- * This is the header file for the ProSLIC driver.
- *
- */
-
-#ifndef PROSLIC_H
-#define PROSLIC_H
-
-/*include all the required headers*/
-#include "../config_inc/proslic_api_config.h"
-#include "../config_inc/si_voice_datatypes.h"
-#include "../inc/si_voice_ctrl.h"
-#include "../inc/si_voice_timer_intf.h"
-#include "../inc/si_voice.h"
-
-
-/* UNSORTED ADDITIONS - These common parameters have been moved from
- the drivers to here to support simultaneous compile of multiple devices
- */
-/* Patch Parameters */
-#define PATCH_NUM_LOW_ENTRIES 8
-#define PATCH_NUM_HIGH_ENTRIES 8
-#define PATCH_MAX_SUPPORT_RAM 128
-#define PATCH_MAX_SIZE 1024
-
-#define PROSLIC_RAM_MADC_VBAT 3
-#define PROSLIC_RAM_PATCHID 448
-#define PROSLIC_RAM_VERIFY_IO 449
-#define PROSLIC_RAM_PD_DCDC 1538
-#define PROSLIC_RAM_PRAM_ADDR 1358
-#define PROSLIC_RAM_PRAM_DATA 1359
-#define PATCH_JMPTBL_HIGH_ADDR 1597
-
-/* Common register values for 17x, 26x, 18x, 19x & 28x */
-#define PROSLIC_REG_ID 0
-#define PROSLIC_REG_RESET 1
-#define PROSLIC_REG_MSTRSTAT 3
-#define PROSLIC_REG_RAM_ADDR_HI 5
-#define PROSLIC_REG_PCMMODE 11
-#define PROSLIC_REG_PCMTXLO 12
-#define PROSLIC_REG_PCMTXHI 13
-#define PROSLIC_REG_PCMRXLO 14
-#define PROSLIC_REG_PCMRXHI 15
-#define PROSLIC_REG_IRQ 16
-#define PROSLIC_REG_IRQ0 17
-#define PROSLIC_REG_IRQ1 18
-#define PROSLIC_REG_IRQ4 21
-#define PROSLIC_REG_IRQEN1 22
-#define PROSLIC_REG_IRQEN2 23
-#define PROSLIC_REG_IRQEN3 24
-#define PROSLIC_REG_IRQEN4 25
-#define PROSLIC_REG_CALR0 26
-#define PROSLIC_REG_CALR3 29
-#define PROSLIC_REG_LINEFEED 30
-#define PROSLIC_REG_POLREV 31
-#define PROSLIC_REG_LCRRTP 34
-#define PROSLIC_REG_RINGCON 38
-#define PROSLIC_REG_RINGTALO 39
-#define PROSLIC_REG_RINGTAHI 40
-#define PROSLIC_REG_RINGTILO 41
-#define PROSLIC_REG_RINGTIHI 42
-#define PROSLIC_REG_LOOPBACK 43
-#define PROSLIC_REG_DIGCON 44
-#define PROSLIC_REG_ZCAL_EN 46
-#define PROSLIC_REG_ENHANCE 47
-#define PROSLIC_REG_OMODE 48
-#define PROSLIC_REG_OCON 49
-#define PROSLIC_REG_O1TALO 50
-#define PROSLIC_REG_O1TAHI 51
-#define PROSLIC_REG_O1TILO 52
-#define PROSLIC_REG_O1TIHI 53
-#define PROSLIC_REG_O2TALO 54
-#define PROSLIC_REG_O2TAHI 55
-#define PROSLIC_REG_O2TILO 56
-#define PROSLIC_REG_O2TIHI 57
-#define PROSLIC_REG_FSKDAT 58
-#define PROSLIC_REG_FSKDEPTH 59
-#define PROSLIC_REG_TONDTMF 60
-#define PROSLIC_REG_USERSTAT 66
-#define PROSLIC_REG_GPIO 67
-#define PROSLIC_REG_PMCON 75
-#define PROSLIC_REG_AUTORD 80
-#define PROSLIC_REG_JMPEN 81
-#define PATCH_JMPTBL_START_ADDR 82
-#define PATCH_JMPTBL_LOW_ADDR 82
-#define PROSLIC_REG_USERMODE_ENABLE 126
-
-/* Common RAM locations for most ProSLICs */
-#define PROSLIC_RAM_OSC1FREQ 26
-#define PROSLIC_RAM_OSC1AMP 27
-#define PROSLIC_RAM_OSC1PHAS 28
-#define PROSLIC_RAM_OSC2FREQ 29
-#define PROSLIC_RAM_OSC2AMP 30
-#define PROSLIC_RAM_OSC2PHAS 31
-#define PROSLIC_RAM_SLOPE_RING 637
-#define PROSLIC_RAM_V_VLIM 640
-#define PROSLIC_RAM_VOV_RING_BAT 753
-#define PROSLIC_RAM_RTPER 755
-#define PROSLIC_RAM_VBATR_EXPECT 768
-#define PROSLIC_RAM_FSKFREQ0 834
-#define PROSLIC_RAM_FSKFREQ1 835
-#define PROSLIC_RAM_FSKAMP0 836
-#define PROSLIC_RAM_FSKAMP1 837
-#define PROSLIC_RAM_FSK01 838
-#define PROSLIC_RAM_FSK10 839
-#define PROSLIC_RAM_RINGOF 843
-#define PROSLIC_RAM_RINGFR 844
-#define PROSLIC_RAM_RINGAMP 845
-#define PROSLIC_RAM_RTDCTH 847
-#define PROSLIC_RAM_RTACTH 848
-#define PROSLIC_RAM_RTDCDB 849
-#define PROSLIC_RAM_LCRMASK 854
-#define PROSLIC_RAM_IRING_LIM 860
-#define PROSLIC_RAM_VOV_RING_GND 896
-#define PROSLIC_RAM_MWI_V 914
-#define PROSLIC_RAM_DCDC_OITHRESH_LO 1006
-#define PROSLIC_RAM_DCDC_OITHRESH_HI 1007
-#define PROSLIC_RAM_CMDAC_FWD 1476
-#define PROSLIC_RAM_CMDAC_REV 1477
-#define PROSLIC_RAM_CAL_TRNRD_DACT 1458
-#define PROSLIC_RAM_CAL_TRNRD_DACR 1459
-#define PROSLIC_RAM_RDC_SUM 1499
-#define PROSLIC_RAM_DCDC_STATUS 1551
-#define PROSLIC_RAM_DCDC_RNGTYPE 1560
-
-#define PROSLIC_CHAN_BROADCAST 0xFF
-
-/* BOM Constants */
-#define BOM_KAUDIO_PM 0x8000000L
-#define BOM_KAUDIO_NO_PM 0x3A2E8BAL
-#define BOM_AC_ADC_GAIN_PM 0x151EB80L
-#define BOM_AC_ADC_GAIN_NO_PM 0x99999AL
-#define FIXRL_VDC_SCALE 0xAE924B9L /** vdc sense scale when using fixed-rail */
-
-/* Generic Constants */
-#define COMP_5V 0x51EB82L
-#define VBATL_13V 0xF00000L
-#define COMP_10V 0xA3D705L
-#define ZCAL_V_RASUM_IDEAL_VAL 0x8F00000L
-#define ZCAL_DC_DAC_OS_VAL 0x1FFE0000L
-
-/* MADC Constants */
-#define SCALE_V_MADC 1074 /* 1/(1000*931.32e-9) mV */
-#define SCALE_I_MADC 597 /* 1/(1e6*1.676e-9) uA */
-#define SCALE_P_MADC 2386 /* 1/(1e3*419.095e-9) mW */
-#define SCALE_R_MADC 1609 /* 1/(1e3*621.554e-9) mV */
-
-/* Calibration Constants */
-#define CAL_LB_CMDAC 0x0C
-#define CAL_LB_TRNRD 0x03
-#define CAL_LB_ALL 0x0F
-#define TIMEOUT_MADC_CAL 100
-#define TIMEOUT_GEN_CAL 300
-#define TIMEOUT_LB_CAL 2410
-
-/* MWI Constants */
-#define SIL_MWI_USTAT_SET 0x04
-#define SIL_MWI_USTAT_CLEAR 0xFB
-#define SIL_MWI_VPK_MAX 110
-#define SIL_MWI_VPK_MAX_LO 95
-#define SIL_MWI_VPK_MIN 80
-#define SIL_MWI_LCRMASK_MAX 2000
-#define SIL_MWI_LCRMASK_MIN 5
-#define SIL_MWI_LCRMASK_SCALE 65536
-#define SIL_MWI_FLASH_OFF 0
-#define SIL_MWI_FLASH_ON 1
-
-/* Depricated functions now mapped directly to SiVoice versions... */
-
-#define ProSLIC_clearErrorFlag SiVoice_clearErrorFlag
-#define ProSLIC_createChannel SiVoice_createChannel
-#define ProSLIC_createControlInterface SiVoice_createControlInterface
-#define ProSLIC_createDevice SiVoice_createDevice
-#define ProSLIC_destroyChannel SiVoice_destroyChannel
-#define ProSLIC_destroyControlInterface SiVoice_destroyControlInterface
-#define ProSLIC_destroyDevice SiVoice_destroyDevice
-#define ProSLIC_getChannelEnable SiVoice_getChannelEnable
-#define ProSLIC_getErrorFlag SiVoice_getErrorFlag
-#define ProSLIC_Reset SiVoice_Reset
-#define ProSLIC_setChannelEnable SiVoice_setChannelEnable
-#define ProSLIC_setControlInterfaceCtrlObj SiVoice_setControlInterfaceCtrlObj
-#define ProSLIC_setControlInterfaceDelay SiVoice_setControlInterfaceDelay
-#define ProSLIC_setControlInterfaceGetTime SiVoice_setControlInterfaceGetTime
-#define ProSLIC_setControlInterfaceReadRAM SiVoice_setControlInterfaceReadRAM
-#define ProSLIC_setControlInterfaceReadRegister SiVoice_setControlInterfaceReadRegister
-#define ProSLIC_setControlInterfaceReset SiVoice_setControlInterfaceReset
-#define ProSLIC_setControlInterfaceSemaphore SiVoice_setControlInterfaceSemaphore
-#define ProSLIC_setControlInterfaceTimeElapsed SiVoice_setControlInterfaceTimeElapsed
-#define ProSLIC_setControlInterfaceTimerObj SiVoice_setControlInterfaceTimerObj
-#define ProSLIC_setControlInterfaceWriteRAM SiVoice_setControlInterfaceWriteRAM
-#define ProSLIC_setControlInterfaceWriteRegister SiVoice_setControlInterfaceWriteRegister
-#define ProSLIC_setSWDebugMode SiVoice_setSWDebugMode
-#define ProSLIC_SWInitChan SiVoice_SWInitChan
-#define ProSLIC_Version SiVoice_Version
-#define ProSLIC_ReadReg SiVoice_ReadReg
-#define ProSLIC_WriteReg SiVoice_WriteReg
-#define ProSLIC_ShutdownChannel ProSLIC_PowerDownConverter
-#define ProSLIC_MWISetup(PCHAN,VPK,LCR) ProSLIC_MWISetV(PCHAN,VPK)
-#define ProSLIC_MWI ProSLIC_MWISetState
-
-#define SI_MAX_INTERRUPTS 4
-
-#define PROSLIC_EXTENDED_GAIN_MAX 9
-#define PROSLIC_GAIN_MAX 6
-#define PROSLIC_GAIN_MIN -30
-/*
-** Initialization Sequence Location - Used by 18x & 17x
-*/
-typedef enum
-{
- INIT_SEQ_BEGINNING,
- INIT_SEQ_READ_ID,
- INIT_SEQ_PRE_PATCH_LOAD,
- INIT_SEQ_POST_PATCH_LOAD,
- INIT_SEQ_PRE_CAL,
- INIT_SEQ_POST_CAL,
- INIT_SEQ_END
-} initSeqType;
-
-/** @mainpage
- * This document is a supplement to the ProSLIC API User Guide. It has most
- * of the APIs documented and hyperlinked.
- *
- * This document has the following tabs:
- *
- * - Main Page (this page) - introduction to the document.
- * - Related pages - mainly the deprecated list is located here.
- * Although these identifiers are present in the current release, they are
- * targeted for deletion in a future release. Any existing customer code
- * using deprecated identifiers should be modified as indicated.
- * - Modules - this is the meat of the document - this has each functional group in outline format listed here.
- * - Data Structures - This has every data structure listed in in the ProSLIC API in alphabetical order.
- * - Files - this has the source files in hyperlink format. @note In some cases the hyperlink generator will not properly
- * generate the correct reference or not be able to find it. In this case please use an alternative method.
- *
- */
-
-/** @defgroup PROSLIC_TYPES ProSLIC General Datatypes/Function Definitions
- * This section documents functions and data structures related to the
- * ProSLIC/FXS chipsets.
- * @{
- */
-
-/*
-* ----------------ProSLIC Generic DataTypes/Function Definitions----
-**********************************************************************
-*/
-
-#define MAX_PROSLIC_IRQS 32 /**< How many interrupts are supported in the ProSLIC */
-
-#ifdef ENABLE_DEBUG
-#define PROSLIC_PRINT_ERROR(CHAN, ERROR)\
- LOGPRINT("%sError encountered on channel: %d fault code: %d\n",\
- LOGPRINT_PREFIX, (CHAN)->channel, (ERROR))
-#else
-#define PROSLIC_PRINT_ERROR(CHAN, ERROR)
-#endif
-
-/**********************************************************************/
-/**
-* Map Proslic types to SiVoice types
-*/
-typedef SiVoiceControlInterfaceType controlInterfaceType; /**< Map ProSLIC to SiVoice type */
-typedef SiVoiceControlInterfaceType proslicControlInterfaceType; /**< Map ProSLIC to SiVoice type */
-typedef SiVoiceDeviceType ProslicDeviceType; /**< Map ProSLIC to SiVoice type */
-typedef SiVoiceChanType proslicChanType; /**< Map ProSLIC to SiVoice type */
-
-/**
-* Define channel and device type pointers
-*/
-typedef ProslicDeviceType
-*proslicDeviceType_ptr; /**< Shortcut for pointer to a ProSLIC device type */
-typedef proslicChanType
-*proslicChanType_ptr; /**< Shortcut for pointer to a ProSLIC channel type */
-
-/** @} PROSLIC_TYPES */
-
-/** @addtogroup HC_DETECT
- * @{
- */
-/**
-* This is structure used to store pulse dial information
-*/
-typedef struct {
- uInt8 currentPulseDigit;
- void *onHookTime; /**< Timestamp for when the onhook detection occured */
- void *offHookTime; /**< Timestamp for when the offhook detection occured */
-} pulseDialType;
-
-/**
-* Defines structure for configuring pulse dial detection
-*/
-typedef struct {
- uInt8 minOnHook; /**< Min mSec for onhook */
- uInt8 maxOnHook; /**< Max mSec for onhook */
- uInt8 minOffHook; /**< Min mSec for offhook */
- uInt8 maxOffHook; /**< Max mSec for offhook */
-} pulseDial_Cfg;
-/** @} PD_DETECT */
-
-/**
-* This is structure used to store pulse dial information
-*/
-#define SI_HC_NO_ACTIVITY 0x10
-#define SI_HC_NEED_MORE_POLLS 0x20
-#define SI_HC_ONHOOK_TIMEOUT 0x41
-#define SI_HC_OFFHOOK_TIMEOUT 0x42
-#define SI_HC_HOOKFLASH 0x43
-
-#define SI_HC_NONDIGIT_DONE(X) ((X) & 0x40)
-#define SI_HC_DIGIT_DONE(X) ((X) && ((X) < 11))
-
-typedef struct
-{
- uInt8 currentPulseDigit;
- uInt8 last_hook_state;
- uInt8 lookingForTimeout;
- uInt8 last_state_reported;
- void *hookTime; /**< Timestamp for when the onhook detection occurred */
-} hookChangeType;
-
-/**
-* Defines structure for configuring hook change detection. Times are in mSec.
-*/
-typedef struct
-{
- uInt16 minOnHook; /**< Min mSec for onhook/break time */
- uInt16 maxOnHook; /**< Max mSec for onhook/break time */
- uInt16 minOffHook; /**< Min mSec for offhook/make time */
- uInt16 maxOffHook; /**< Max mSec for offhook/make time */
- uInt16 minInterDigit; /**< Minimum interdigit time */
- uInt16 minHookFlash; /**< minimum hook flash time */
- uInt16 maxHookFlash; /**< maximum hook flash time */
- uInt16 minHook; /**< Minimum hook time, which should be >> than maxHookFlash */
-} hookChange_Cfg;
-/** @} HC_DETECT*/
-
-
-/** @addtogroup PROSLIC_INTERRUPTS
- * @{
- */
-/**
-* Interrupt tags
-*/
-
-/* MAINTAINER NOTE: if this enum changes, update interrupt.c in the API demo */
-typedef enum
-{
- IRQ_OSC1_T1,
- IRQ_OSC1_T2,
- IRQ_OSC2_T1,
- IRQ_OSC2_T2,
- IRQ_RING_T1,
- IRQ_RING_T2,
- IRQ_PM_T1,
- IRQ_PM_T2,
- IRQ_FSKBUF_AVAIL, /**< FSK FIFO depth reached */
- IRQ_VBAT,
- IRQ_RING_TRIP, /**< Ring Trip detected */
- IRQ_LOOP_STATUS, /**< Loop Current changed */
- IRQ_LONG_STAT,
- IRQ_VOC_TRACK,
- IRQ_DTMF, /**< DTMF Detected - call @ref ProSLIC_DTMFReadDigit to decode the value */
- IRQ_INDIRECT, /**< Indirect/RAM access completed */
- IRQ_TXMDM,
- IRQ_RXMDM,
- IRQ_PQ1, /**< Power alarm 1 */
- IRQ_PQ2, /**< Power alarm 2 */
- IRQ_PQ3, /**< Power alarm 3 */
- IRQ_PQ4, /**< Power alarm 4 */
- IRQ_PQ5, /**< Power alarm 5 */
- IRQ_PQ6, /**< Power alarm 6 */
- IRQ_RING_FAIL,
- IRQ_CM_BAL,
- IRQ_USER_0,
- IRQ_USER_1,
- IRQ_USER_2,
- IRQ_USER_3,
- IRQ_USER_4,
- IRQ_USER_5,
- IRQ_USER_6,
- IRQ_USER_7,
- IRQ_DSP,
- IRQ_MADC_FS,
- IRQ_P_HVIC,
- IRQ_P_THERM, /**< Thermal alarm */
- IRQ_P_OFFLD
-} ProslicInt;
-
-/**
-* Defines structure of interrupt data - used by @ref ProSLIC_GetInterrupts
-*/
-typedef struct
-{
- ProslicInt
- *irqs; /**< Pointer of an array of size MAX_PROSLIC_IRQS (this is to be allocated by the caller) */
- uInt8 number; /**< Number of IRQs detected/pending */
-} proslicIntType;
-
-
-/** @} PROSLIC_INTERRUPTS */
-
-/** @addtogroup TONE_GEN
- * @{
- */
-/**
-* Defines structure for configuring 1 oscillator - see your data sheet for specifics or use the configuration
-* tool to have this filled in for you.
-*/
-typedef struct
-{
- ramData freq;
- ramData amp;
- ramData phas;
- uInt8 talo;
- uInt8 tahi;
- uInt8 tilo;
- uInt8 tihi;
-} Oscillator_Cfg;
-
-/**
- * Defines structure for tone configuration.
- */
-typedef struct
-{
- Oscillator_Cfg osc1;
- Oscillator_Cfg osc2;
- uInt8 omode;
-} ProSLIC_Tone_Cfg;
-
-typedef struct
-{
- ramData fsk[2];
- ramData fskamp[2];
- ramData fskfreq[2];
- uInt8 eightBit;
- uInt8 fskdepth;
-} ProSLIC_FSK_Cfg;
-/** @} TONE_GEN */
-
-/*****************************************************************************/
-/** @addtogroup SIGNALING
- * @{
- */
-/**
-* Hook states - returned by @ref ProSLIC_ReadHookStatus()
-*/
-enum
-{
- PROSLIC_ONHOOK, /**< Hook state is onhook */
- PROSLIC_OFFHOOK /**< Hook state is offhook */
-};
-
-#ifndef SIVOICE_CFG_NEWTYPES_ONLY
-enum
-{
- ONHOOK = PROSLIC_ONHOOK, /**< @deprecated- Please use PROSLIC_ONHOOK and PROSLIC_OFFHOOK for future code development */
- OFFHOOK = PROSLIC_OFFHOOK
-};
-#endif
-
-/** @} SIGNALING */
-
-/*****************************************************************************/
-/** @addtogroup PCM_CONTROL
- * @{
-* Loopback modes
-*/
-typedef enum
-{
- PROSLIC_LOOPBACK_NONE, /**< Loopback disabled */
- PROSLIC_LOOPBACK_DIG, /**< Loopback is toward the PCM side */
- PROSLIC_LOOPBACK_ANA /**< Loopback is toward the analog side */
-} ProslicLoopbackModes;
-
-/**
-* Mute options - which direction to mute
-*/
-typedef enum
-{
- PROSLIC_MUTE_NONE = 0, /**< Don't mute */
- PROSLIC_MUTE_RX = 0x1, /**< Mute toward the RX side */
- PROSLIC_MUTE_TX = 0x2, /**< Mute toward the TX side */
- PROSLIC_MUTE_ALL = 0x3 /**< Mute both directions */
-} ProslicMuteModes;
-
-/** @} PCM_CONTROL */
-
-/*****************************************************************************/
-/** @addtogroup GAIN_CONTROL
- * @{
-* Path Selector
-*/
-enum
-{
- TXACGAIN_SEL = 0,
- RXACGAIN_SEL = 1
-};
-
-
-/*
-** Defines structure for configuring audio gain on the fly
-*/
-typedef struct
-{
- ramData acgain;
- uInt8 mute;
- ramData aceq_c0;
- ramData aceq_c1;
- ramData aceq_c2;
- ramData aceq_c3;
-} ProSLIC_audioGain_Cfg;
-
-/** @} GAIN_CONTROL */
-
-/*****************************************************************************/
-/** @addtogroup LINESTATUS
- * @{
- */
-/**
-* enumeration of the Proslic polarity reversal states - used by ProSLIC_PolRev API
-*/
-enum
-{
- POLREV_STOP, /**< Stop Polarity reversal */
- POLREV_START, /**< Start Polarity reversal */
- WINK_START, /**< Start Wink */
- WINK_STOP /**< Stop Wink */
-};
-
-/**
-* Defines initialization data structures
-* Linefeed states - used in @ref ProSLIC_SetLinefeedStatus and @ref ProSLIC_SetLinefeedStatusBroadcast
-*/
-enum
-{
- LF_OPEN, /**< Open circuit */
- LF_FWD_ACTIVE, /**< Forward active */
- LF_FWD_OHT, /**< Forward active, onhook transmission (used for CID/VMWI) */
- LF_TIP_OPEN, /**< Tip open */
- LF_RINGING, /**< Ringing */
- LF_REV_ACTIVE, /**< Reverse battery/polarity reversed, active */
- LF_REV_OHT, /**< Reverse battery/polarity reversed, active, onhook transmission (used for CID/VMWI) */
- LF_RING_OPEN /**< Ring open */
-} ;
-/** @} LINESTATUS */
-
-
-
-
-/*****************************************************************************/
-/** @addtogroup GEN_CFG
- * @{
- */
-
-/**
-* Defines initialization data structures
-*/
-typedef struct
-{
- uInt8 address;
- uInt8 initValue;
-} ProslicRegInit;
-
-typedef struct
-{
- uInt16 address;
- ramData initValue;
-} ProslicRAMInit;
-
-/**
-* ProSLIC patch object
-*/
-typedef struct
-{
- const ramData *patchData; /**< 1024 max*/
- const uInt16 *patchEntries; /**< 8 max */
- const uInt32 patchSerial;
- const uInt16 *psRamAddr; /**< 128 max */
- const ramData *psRamData; /**< 128 max */
-} proslicPatch;
-
-/** @} GEN_CFG */
-
-
-/*****************************************************************************/
-/** @addtogroup RING_CONTROL
- * @{
- */
-/**
-* Ringing type options
-* Ringing type options - Trapezoidal w/ a Crest factor CF11= Crest factor 1.1 or sinusoidal.
-*/
-typedef enum
-{
- ProSLIC_RING_TRAP_CF11,
- ProSLIC_RING_TRAP_CF12,
- ProSLIC_RING_TRAP_CF13,
- ProSLIC_RING_TRAP_CF14,
- ProSLIC_RING_TRAP_CF15,
- ProSLIC_RING_TRAP_CF16,
- ProSLIC_RING_SINE /***< Plain old sinusoidal ringing */
-} ProSLIC_RINGTYPE_T;
-
-/**
-* Ringing (provisioned) object
-*/
-typedef struct
-{
- ProSLIC_RINGTYPE_T
- ringtype; /**< Is this a sinusoid or a trapezoidal ring shape? */
- uInt8 freq; /**< In terms of Hz */
- uInt8 amp; /**< in terms of 1 volt units */
- uInt8 offset; /**< In terms of 1 volt units */
-} ProSLIC_dbgRingCfg;
-
-
-/** @} RING_CONTROL */
-
-/*****************************************************************************/
-/**
-* Line Monitor - returned by @ref ProSLIC_LineMonitor
-*/
-typedef struct
-{
- int32 vtr; /**< Voltage, tip-ring in mV */
- int32 vtip; /**< Voltage, tip-ground in mV */
- int32 vring; /**< Voltage, ring-ground in mV */
- int32 vbat; /**< Voltage, battery in mV */
- int32 vdc; /**< Voltage, Vdc in mV */
- int32 vlong; /**< Voltage, longitudinal in mV */
- int32 itr; /**< Loop current, in uA tip-ring */
- int32 itip; /**< Loop current, in uA tip */
- int32 iring; /**< Loop current, in uA ring */
- int32 ilong; /**< Loop current, in uA longitudinal */
- int32 p_hvic; /**< On-chip Power Calculation in mw */
-} proslicMonitorType;
-
-/*****************************************************************************/
-/** @addtogroup PROSLIC_DCFEED
- * @{
- */
-/**
-* Powersave
-*/
-enum
-{
- PWRSAVE_DISABLE = 0, /**< Disable power savings mode */
- PWRSAVE_ENABLE = 1 /**< Enable power savings mode */
-};
-
-/**
-** DC Feed Preset
-*/
-typedef struct
-{
- ramData slope_vlim;
- ramData slope_rfeed;
- ramData slope_ilim;
- ramData delta1;
- ramData delta2;
- ramData v_vlim;
- ramData v_rfeed;
- ramData v_ilim;
- ramData const_rfeed;
- ramData const_ilim;
- ramData i_vlim;
- ramData lcronhk;
- ramData lcroffhk;
- ramData lcrdbi;
- ramData longhith;
- ramData longloth;
- ramData longdbi;
- ramData lcrmask;
- ramData lcrmask_polrev;
- ramData lcrmask_state;
- ramData lcrmask_linecap;
- ramData vcm_oh;
- ramData vov_bat;
- ramData vov_gnd;
-} ProSLIC_DCfeed_Cfg;
-
-/** @} PROSLIC_DCFEED */
-
-/*****************************************************************************/
-/** @defgroup ProSLIC_API ProSLIC API
-* proslic.c function declarations
-* @{
-*/
-
-/*****************************************************************************/
-/** @defgroup DIAGNOSTICS Diagnostics
- * The functions in this group allow one to monitor the line state for abnormal
- * situations.
- * @{
- */
-
-/**
-* Test State - used in polled tests (such as PSTN Check)
-*/
-typedef struct
-{
- int32 stage; /**< What state is the test in */
- int32 waitIterations; /**< How many iterations to stay in a particular state */
- int32 sampleIterations; /**< How many samples have been collected */
-} proslicTestStateType;
-
-/**
- * @brief
- * This function allows one to monitor the instantaneous voltage and
- * loop current values seen on tip/ring.
- *
- * @param[in] pProslic - which channel should the data be collected from
- * @param[in,out] *monitor - the data collected
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- */
-
-int ProSLIC_LineMonitor(proslicChanType_ptr pProslic,
- proslicMonitorType *monitor);
-
-/**
- * @brief
- * This function reads the MADC a scaled value
- *
- * @param[in] pProslic - which channel should the data be collected from
- * @param[in] addr - address to read from (MADC_ILOOP, MADC_ITIP, etc).
- * @param[in] scale - scale to use (0 = determine based upon MADC address)
- * @retval int32 - scaled value requested or -1 if not supported.
- *
- */
-
-int32 ProSLIC_ReadMADCScaled(proslicChanType_ptr pProslic, uInt16 addr,
- int32 scale);
-
-/** @defgroup PSTN_CHECK PSTN Check
- * Monitor for excessive longitudinal current, which
- * would be present if a live pstn line was connected
- * to the port. To operate these sets of functions:
- *
- * - Iniitalize the PSTN object by calling @ref ProSLIC_InitPSTNCheckObj
- * - Poll at a constant rate and call @ref ProSLIC_PSTNCheck. Check the return code of this function.
- *
- * Alternatively, you can call the DiffPSTNCheck versions of the above two functions.
- *
- * @note These functions may be disabled by doing a undef of @ref PSTN_DET_ENABLE in the configuration file.
- * @{
-*/
-#define MAX_ILONG_SAMPLES 32 /**< How many samples to collect for PSTN check */
-#define MAX_PSTN_SAMPLES 16 /**< Used in the PSTN check status code to indicate the number of samples to collect */
-
-/**
-* FEMF OPEN voltage test enable
-*/
-enum
-{
- FEMF_MEAS_DISABLE, /**< Do not measure FEMF as part of PSTN Check */
- FEMF_MEAS_ENABLE /**< Do measure FEMF as part of PSTN Check */
-};
-
-/** Standard line interfaces */
-typedef struct
-{
- int32 avgThresh;
- int32 singleThresh;
- int32 ilong[MAX_ILONG_SAMPLES];
- uInt8 count;
- uInt8 samples;
- int32 avgIlong;
- BOOLEAN buffFull;
-} proslicPSTNCheckObjType;
-
-typedef proslicPSTNCheckObjType *proslicPSTNCheckObjType_ptr;
-
-
-/** Re-Injection line interfaces (differential) */
-typedef struct
-{
- proslicTestStateType pState;
- int dcfPreset1;
- int dcfPreset2;
- int entryDCFeedPreset;
- uInt8 lfstate_entry;
- uInt8 enhanceRegSave;
- uInt8 samples;
- int32 vdiff1[MAX_PSTN_SAMPLES];
- int32 vdiff2[MAX_PSTN_SAMPLES];
- int32 iloop1[MAX_PSTN_SAMPLES];
- int32 iloop2[MAX_PSTN_SAMPLES];
- int32 vdiff1_avg;
- int32 vdiff2_avg;
- int32 iloop1_avg;
- int32 iloop2_avg;
- int32 rl1;
- int32 rl2;
- int32 rl_ratio;
- int femf_enable;
- int32 vdiff_open;
- int32 max_femf_vopen;
- int return_status;
-} proslicDiffPSTNCheckObjType;
-
-typedef proslicDiffPSTNCheckObjType *proslicDiffPSTNCheckObjType_ptr;
-
-/** @}PSTN_CHECK */
-/** @}DIAGNOSTICS */
-/*****************************************************************************/
-/*
-** proslic.c function declarations
-*/
-
-/*****************************************************************************/
-/** @defgroup GEN_CFG General configuration
- * @{
- */
-
-/**
- * @brief
- * Loads patch and initializes all ProSLIC devices. Performs all calibrations except
- * longitudinal balance.
- *
- * @param[in] hProslic - which channel(s) to initialize, if size > 1, then the start of the array
- * of channels to be initialized.
- * @param[in] size - the number of channels to initialize.
- * @param[in] preset - general configuration preset to apply
- *
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- * @sa ProSLIC_Init
- */
-
-int ProSLIC_Init_MultiBOM (proslicChanType_ptr *hProslic, int size, int preset);
-
-/**
- * @brief
- * Loads patch and initializes all ProSLIC devices. Performs all calibrations except
- * longitudinal balance.
- *
- * @param[in] hProslic - which channel(s) to initialize, if size > 1, then the start of the array
- * of channels to be initialized.
- * @param[in] size - the number of channels to initialize.
- *
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int ProSLIC_Init (proslicChanType_ptr *hProslic, int size);
-
-/**
- * @brief
- * Loads patch and initializes all ProSLIC devices.
- *
- * @param[in] hProslic - which channel(s) to initialize, if size > 1, then the start of the array
- * of channels to be initialized.
- * @param[in] size - the number of channels to initialize.
- * @param[in] option - see initOptionsType
- *
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int ProSLIC_Init_with_Options (proslicChanType_ptr *hProslic, int size,
- int option);
-
-/**
- * @brief
- * Performs soft reset then calls ProSLIC_Init()
- *
- * @param[in] hProslic - which channel(s) to re-initialize.
- * of channels to be initialized.
- * @param[in] size - the number of channels to initialize.
- *
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int ProSLIC_Reinit (proslicChanType_ptr *hProslic, int size);
-
-/**
- * @brief
- * Loads registers and RAM in the ProSLICs specified.
- *
- * @param[in] pProslic - array of channels
- * @param[in] pRamTable - array of RAM locations and values to write
- * @param[in] pRegTable - array of register locations and values to write
- * @param[in] bcast- is broadcast enabled.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @note This function should NOT be used since it can bypass the standard initialization/operational state of the
- * ProSLIC.
- */
-
-int ProSLIC_LoadRegTable (proslicChanType *pProslic,
- const ProslicRAMInit *pRamTable,
- const ProslicRegInit *pRegTable,
- int bcast);
-
-/**
- * @brief
- * Loads registers and RAM in the ProSLICs specified.
- *
- * @param[in] pProslic - array of channels
- * @param[in] pRamTable - array of RAM locations and values to write
- * @param[in] pRegTable - array of register locations and values to write
- * @param[in] size - number of ProSLICS to write to.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @note This function should NOT be used since it can bypass the standard initialization/operational state of the
- * ProSLIC.
- */
-
-int ProSLIC_LoadRegTables (proslicChanType_ptr *pProslic,
- const ProslicRAMInit *pRamTable, const ProslicRegInit *pRegTable, int size);
-
-/**
- * @brief
- * Implement soft reset. For dual channel devices, you can specify a hard reset
- * (which impacts both channels) or if the channel is actually the second
- * channel. The default is to do a soft reset on the 1st channel.
- *
- * @param[in] hProslic - which channel to reset
- * @param[in] resetOptions - PROSLIC_HARD_RESET (dual channel devices ONLY) | PROSLIC_SOFT_RESET_SECOND_CHAN (dual channel devices) | PROSLIC_BCAST_RESET | PROSLIC_SOFT_RESET
- *
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @note Will abort reset if in free run mode.
- * @note Only perform a soft reset on 1 channel at a time.
- */
-
-#define PROSLIC_BCAST_RESET 0x8000
-#define PROSLIC_HARD_RESET 3
-#define PROSLIC_SOFT_RESET_SECOND_CHAN 2
-#define PROSLIC_SOFT_RESET 1
-
-int ProSLIC_SoftReset(proslicChanType_ptr hProslic, uInt16 resetOptions);
-
-/**
- * @brief
- * Configure impedance synthesis
- *
- * @param[in] hProslic - which channel to configure
- * @param[in] preset - which impedance configuration to load from the constants file.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @note This function can be disabled by @ref DISABLE_ZSYNTH_SETUP
- */
-
-int ProSLIC_ZsynthSetup (proslicChanType_ptr hProslic,int preset);
-
-/**
- * @brief
- * This function configures the CI bits (GCI mode)
- *
- * @param[in] hProslic - which channel to configure
- * @param[in] preset - which GCI preset to use from the constants file
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @note This function can be disabled by @ref DISABLE_CI_SETUP
- */
-#ifndef DISABLE_CI_SETUP
-int ProSLIC_GciCISetup (proslicChanType_ptr hProslic,int preset);
-#endif
-
-/*****************************************************************************/
-/** @defgroup PROSLIC_DEBUG Debug
- * This group of functions enables/disables debug messages as well as dump
- * register contents.
- * @{
- */
-
-
-/**
- * @brief
- * This function allows access to SPI read RAM function pointer from interface
- *
- * @param[in] pProslic - pointer to channel structure
- * @param[in] addr - address to read
- * @retval ramData - RAM contents
- *
- */
-ramData ProSLIC_ReadRAM (proslicChanType *pProslic, uInt16 addr);
-
-/**
- * @brief
- * This function allows access to SPI write RAM function pointer from interface
- *
- * @param[in] pProslic - pointer to channel structure
- * @param[in] addr - address to write
- * @param[in] data to be written
- * @retval int - @ref RC_NONE
- *
- */
-int ProSLIC_WriteRAM (proslicChanType *pProslic, uInt16 addr, ramData data);
-
-/**
- * @brief
- * This function dumps to console the register contents of several
- * registers and RAM locations.
- *
- * @param[in] pProslic - which channel to dump the register contents of.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- */
-int ProSLIC_PrintDebugData (proslicChanType *pProslic);
-
-/**
- * @brief
- * This function dumps the registers to the console using whatever
- * I/O method is defined by LOGPRINT
- *
- * @param[in] pProslic - which channel to dump the register contents of.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- */
-int ProSLIC_PrintDebugReg (proslicChanType *pProslic);
-
-/**
- * @brief
- * This function dumps the RAM to the console using whatever
- * I/O method is defined by LOGPRINT
- *
- * @param[in] pProslic - which channel to dump the RAM contents of.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- */
-int ProSLIC_PrintDebugRAM (proslicChanType *pProslic);
-
-/** @} PROSLIC_DEBUG */
-/*****************************************************************************/
-/** @defgroup PROSLIC_ENABLE Enable/disable channels (for init)
- * @{
- */
-
-/**
- * @brief
- * This function sets the channel enable status of the FXO channel on ProSLIC devices
- * with integrated FXO. If NOT set, then when
- * the various initialization routines such as @ref SiVoice_SWInitChan is called,
- * then this particular channel will NOT be initialized.
- *
- * This function does not access the chipset directly, so SPI/GCI
- * does not need to be up during this function call.
- *
- * @param[in,out] pProslic - which channel to return the status.
- * @param[in] enable - The new value of the channel enable field. 0 = NOT enabled, 1 = enabled.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @sa ProSLIC_getChannelEnable
- */
-
-int ProSLIC_SetDAAEnable(proslicChanType *pProslic, int enable);
-
-/** @} PROSLIC_ENABLE */
-
-/*****************************************************************************/
-/** @defgroup PROSLIC_PATCH Patch management.
- * This group of functions write and verify the patch data needed by the
- * ProSLIC chipset.
- * @{
- */
-
-/**
- * @brief
- * Calls patch loading function for a particular channel/ProSLIC
- *
- * @param[in] hProslic - which channel/ProSLIC should be patched
- * @param[in] pPatch - the patch data
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @note This function should not be called directly under normal circumstances since the initialization function should
- * perform this operation.
- *
- * @sa ProSLIC_Init
- */
-
-int ProSLIC_LoadPatch (proslicChanType_ptr hProslic,const proslicPatch *pPatch);
-
-/**
- * @brief
- * Verifies patch loading function for a particular channel/ProSLIC
- *
- * @param[in] hProslic - which channel/ProSLIC should be patched
- * @param[in] pPatch - the patch data to verify was written to.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @note This function should not be called directly under normal circumstances since the initialization function should
- * perform this operation, unless @ref DISABLE_VERIFY_PATCH is defined.
- *
- * @sa ProSLIC_Init
- */
-
-int ProSLIC_VerifyPatch (proslicChanType_ptr hProslic,const proslicPatch *pPatch);
-
-/** @} PROSLIC_PATCH */
-
-/*****************************************************************************/
-/** @defgroup PROSLIC_GPIO GPIO Control
- * This group of functions configure, read and write the GPIO status pins.
- * @{
- */
-
-/**
- * @brief
- * This function configures the ProSLIC GPIOs by loading a gpio preset that was
- * set in the configuration tool.
- * @param[in] hProslic - which channel to configure the GPIO pins.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- * @sa ProSLIC_GPIOControl
- */
-
-int ProSLIC_GPIOSetup (proslicChanType_ptr hProslic);
-
-/**
- * @brief
- * This function controls the GPIOs of the ProSLIC.
- *
- * @param[in] hProslic - which channel to modify
- * @param[in,out] pGpioData - pointer to GPIO status (typically 1 byte)
- * @param[in] read - 1 = Read the status, 0 = write the status
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- * @sa ProSLIC_GPIOSetup
- */
-
-int ProSLIC_GPIOControl (proslicChanType_ptr hProslic,uInt8 *pGpioData,
- uInt8 read);
-
-/** @} PROSLIC_GPIO */
-/** @} GEN_CFG */
-
-/*****************************************************************************/
-/** @defgroup PROSLIC_PULSE_METER Pulse Metering
- *
- * This group contains functions related to pulse metering.
- * @{
- */
-
-/**
-* @brief
-* This function configures the ProSLIC pulse metering by loading a pulse metering preset.
-*
-* @param[in] hProslic - which channel should be configured
-* @param[in] preset - which preset to load from the defined settings made in the configuration tool.
-* @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
-*
-* @sa ProSLIC_PulseMeterStart ProSLIC_PulseMeterStop
-*/
-
-int ProSLIC_PulseMeterSetup (proslicChanType_ptr hProslic,int preset);
-
-/**
- * @brief
- * This function enables the pulse metering generator.
- *
- * @param[in] hProslic - which channel should play the tone.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- * @sa ProSLIC_PulseMeterSetup ProSLIC_PulseMeterStop ProSLIC_PulseMeterDisable
- *
- */
-int ProSLIC_PulseMeterEnable (proslicChanType_ptr hProslic);
-
-/**
- * @brief
- * This function disables the pulse metering generator..
- *
- * @param[in] hProslic - which channel should play the tone.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- * @sa ProSLIC_PulseMeterSetup ProSLIC_PulseMeterStop ProSLIC_PulseMeterEnable
- *
- */
-
-int ProSLIC_PulseMeterDisable (proslicChanType_ptr hProslic);
-
-/**
- * @brief
- * This function starts the pulse metering tone.
- *
- * @param[in] hProslic - which channel should play the tone.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- * @sa ProSLIC_PulseMeterSetup ProSLIC_PulseMeterStop
- *
- */
-
-int ProSLIC_PulseMeterStart (proslicChanType_ptr hProslic);
-
-/**
- * @brief
- * This function stops the pulse metering tone.
- *
- * @param[in] hProslic - which channel should play the tone.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- * @sa PProSLIC_PulseMeterStart ProSLIC_PulseMeterSetup
- *
- */
-
-int ProSLIC_PulseMeterStop (proslicChanType_ptr hProslic);
-
-/** @} PROSLIC_PULSE_METER */
-
-/*****************************************************************************/
-/** @defgroup PROSLIC_INTERRUPTS Interrupt control and decode
- * @{
- */
-
-/**
- * @brief
- * Enables interrupts configured in the general configuration data structure.
- *
- * @param[in] hProslic - which channel to enable the interrupts.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- */
-
-int ProSLIC_EnableInterrupts (proslicChanType_ptr hProslic);
-
-/**
- * @brief
- * This function reads the interrupts from the ProSLIC and places them into
- * a @ref proslicIntType structure which contains up to @ref MAX_PROSLIC_IRQS
- * interrupts.
- *
- * @param[in] hProslic - which channel to enable the interrupts.
- * @param[in,out] pIntData - this structure contains the interrupts pending and the number of interrupts.
- * @retval int - number of interrupts pending or RC_CHANNEL_TYPE_ERR if wrong chip type or 0 for no interrupts.
- *
- */
-
-int ProSLIC_GetInterrupts (proslicChanType_ptr hProslic,
- proslicIntType *pIntData);
-
-/**
- * @brief
- * This function disables and clears interrupts on the given channel.
- *
- * @param[in] hProslic - which channel to disable
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int ProSLIC_DisableInterrupts (proslicChanType_ptr hProslic);
-
-/** @} PROSLIC_INTERRUPTS */
-
-/*****************************************************************************/
-/** @defgroup SIGNALING Signaling - ring & line state, and hook state
- * @{
- */
-
-/**
-* Function: PROSLIC_ReadHookStatus
-*
-* @brief
-* Determine hook status
-* @param[in] hProslic - which channel to read from.
-* @param[out] *pHookStat - will contain either @ref PROSLIC_ONHOOK or @ref PROSLIC_OFFHOOK
-*
-*/
-
-int ProSLIC_ReadHookStatus (proslicChanType_ptr hProslic,uInt8 *pHookStat);
-
-/*****************************************************************************/
-/** @defgroup LINESTATUS Line Feed status
- * @{
- */
-
-/**
- * @brief
- * This function sets the linefeed state.
- *
- * @param[in] hProslic - which channel to modify
- * @param[in] newLinefeed - new line feed state - examples: LF_OPEN, LF_FWD_ACTIVE
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int ProSLIC_SetLinefeedStatus (proslicChanType_ptr hProslic,uInt8 newLinefeed);
-
-/**
- * @brief
- * This function sets the linefeed state for all channels on the same daisychain.
- *
- * @param[in] hProslic - which channel to modify
- * @param[in] newLinefeed - new line feed state - examples: LF_OPEN, LF_FWD_ACTIVE
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int ProSLIC_SetLinefeedStatusBroadcast (proslicChanType_ptr hProslic,
- uInt8 newLinefeed);
-
-/**
- * @brief
- * This function sets the polarity/wink state of the channel.
- *
- * @param[in] hProslic - which channel to modify
- * @param[in] abrupt - to change the state immediately
- * @param[in] newPolRevState - new polarity state - examples: POLREV_STOP, POLREV_START and WINK_START
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int ProSLIC_PolRev (proslicChanType_ptr hProslic,uInt8 abrupt,
- uInt8 newPolRevState);
-
-/** @} LINESTATUS */
-
-/*****************************************************************************/
-/** @defgroup RING_CONTROL Ring generation
- * @{
- */
-
-/**
- * @brief
- * Configure the ringer to the given preset (see your constants header file for exact value to use).
- * This includes timing, cadence, OHT mode, voltage levels, etc.
- *
- * @param[in] hProslic - which channel to configure
- * @param[in] preset - which of the xxxx_Ring_Cfg structures to use to configure the channel.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @note This function can be compiled out by defining @ref DISABLE_RING_SETUP
- *
- * @sa ProSLIC_dbgSetRinging ProSLIC_RingStart ProSLIC_RingStop
- */
-
-int ProSLIC_RingSetup (proslicChanType_ptr hProslic,int preset);
-
-/**
- * @brief
- * Starts the ringer as confgured by @ref ProSLIC_RingSetup . If the active and inactive timers are enabled,
- * the ProSLIC will automatically turn on/off the ringer as programmed, else one will need to
- * manually implement the ring cadence. In either case, one will need to call ProSLIC_RingStop to
- * stop the ringer or one may call @ref ProSLIC_SetLinefeedStatus to change the state directly.
- *
- * @param[in] hProslic - which channel to enable ringing.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @note This function can be compiled out by defining @ref DISABLE_RING_SETUP
- * @deprecated - Will become a macro in a future release and later removed. Customers should just call ProSLIC_SetLinefeedStatus w/ LF_RINGING.
- *
- * @sa ProSLIC_dbgSetRinging ProSLIC_RingStop ProSLIC_RingSetup
- */
-
-int ProSLIC_RingStart (proslicChanType_ptr hProslic);
-
-/**
- * @brief
- * Stop the ringer on the given channel and set the line state to forward active.
- * @deprecated - Will become a macro in a future release. Customers should just call ProSLIC_SetLinefeedStatus w/ LF_FWD_ACTIVE.
- *
- * @param[in] hProslic - which channel to modify.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- * @sa ProSLIC_RingSetup ProSLIC_RingStart
- *
- * @deprecated customers are encouraged to use ProSLIC_SetLinefeedStatus
- */
-
-int ProSLIC_RingStop (proslicChanType_ptr hProslic);
-
-/**
- * @brief
- * Provision function for setting up Ring type, frequency, amplitude and dc offset and
- * to store them in the given preset.
- *
- * @note: This function calculates the values, it does not set them.
- * @note: This code assumes ProSLIC_RingSetup() was called earlier with the highest ringer
- * requirements (possibly during initialization). After that, this function can
- * be used for meeting provisioning requirements.
- *
- * @param[in] pProslic - which channel to modify
- * @param[in] ringCfg - how to configure the channel's ringer
- * @param[in] preset - where to store the new configuration.
- * @sa ProSLIC_RingSetup ProSLIC_RingStart ProSLIC_RingStop
- */
-
-int ProSLIC_dbgSetRinging (proslicChanType *pProslic,
- ProSLIC_dbgRingCfg *ringCfg, int preset);
-
-/**
- * @brief
- * Enable abrupt ringing. Normally the ProSLIC would perform a smooth transistion
- * to start the ring signal, but in cases where a delay is not acceptable, this
- * function disables this feature.
- *
- * @param[in] pProslic - which channel to modify
- * @param[in] isEnabled - is the abrupt ringing enbaled (smooth transistion disabled).
- *
- * @note Not all chipsets support this feature.
- *
- */
-
-int ProSLIC_EnableFastRingStart(proslicChanType_ptr pProslic, BOOLEAN isEnabled);
-
-/** @} RING_CONTROL */
-/** @} SIGNALING */
-
-/*****************************************************************************/
-/** @defgroup PROSLIC_AUDIO Audio
- * This group of functions contains routines to configure the PCM bus, to generate tones, and to send FSK data.
- *
- * In order to start using the PCM bus, you would typically initialize the PCM bus with code similar to
- * the following:
- *
- * @code
- * if( (ProSLIC_PCMSetup(myProSLIC, MY_COMPANDING) != RC_NONE)
- * || (ProSLIC_PCMTimeSlotSetup(myProSLIC, pcm_ts, pcm_ts) != RC_NONE)
- * || (ProSLIC_PCMStart(myProSLIC) != RC_NONE))
- * {
- * return MY_PCM_INIT_ERROR;
- * }
- * @endcode
- *
- * @{
- * @defgroup TONE_GEN Tone generation
- * This group of functions is related to playing out general tones - such as dial tone, busy tone, etc. One would
- * typically call @ref ProSLIC_ToneGenSetup first followed by @ref ProSLIC_ToneGenStart and after some time, a call to
- * @ref ProSLIC_ToneGenStop to stop the tone. The direction of the tone and cadence (if any) are configured using the
- * GUI configuration tool's TONE dialog box and then saved in the constants file.
- *
- * @{
- */
-/**
- * @brief
- * Configure the tone generator to the given preset (see your constants header file for exact value to use). It does NOT
- * play a particular tone out.
- *
- * @warning If @ref ProSLIC_FSKSetup was called earlier, this function will need to be called again.
- *
- * @param[in] hProslic - which channel to configure
- * @param[in] preset - which of the xxxx_Tone_Cfg structures to use to configure the channel.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @note This function can be compiled out by defining @ref DISABLE_TONE_SETUP.
- *
- * @note Typically, if one is using the ProSLIC for tone generation, you will be calling this function prior to each call
- * into @ref ProSLIC_ToneGenStart so that the correct tone is played out.
- */
-
-int ProSLIC_ToneGenSetup (proslicChanType_ptr hProslic,int preset);
-
-/**
- * @brief
- * Configure the tone generator to the given preset (see your constants header file for exact value to use). It does NOT
- * play a particular tone out.
- *
- * @warning If @ref ProSLIC_FSKSetup was called earlier, this function will need to be called again.
- *
- * @param[in] pProslic - which channel to configure
- * @param[in] cfg - which of the xxxx_Tone_Cfg structures to use to configure the channel.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @note This function can be compiled out by defining @ref DISABLE_TONE_SETUP.
- *
- * @note Typically, if one is using the ProSLIC for tone generation, you will be calling this function prior to each call
- * into @ref ProSLIC_ToneGenStart so that the correct tone is played out.
- */
-
-int ProSLIC_ToneGenSetupPtr(proslicChanType_ptr pProslic,
- ProSLIC_Tone_Cfg *cfg);
-
-/**
- * @brief
- * This function starts the tone configured by @ref ProSLIC_ToneGenSetup.
- * It is assumed that the @ref PROSLIC_AUDIO setup was performed
- * prior to calling this function. Also, it is suggested that
- * @ref ProSLIC_ToneGenSetup be called if @ref FSK_CONTROL
- * functions were used.
- *
- * @param[in] hProslic - which channel should play the tone.
- * @param[in] timerEn - are the timers to be enabled? 1 = Yes, 0 = No. When in doubt, set to 1.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @sa ProSLIC_ToneGenSetup ProSLIC_ToneGenStop
- */
-
-int ProSLIC_ToneGenStart (proslicChanType_ptr hProslic, uInt8 timerEn);
-
-/**
- * @brief
- * This function turns off tone generation initiated by @ref ProSLIC_ToneGenStart.
- *
- * @param[in] hProslic - which channel should stop playing the tone.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @sa ProSLIC_ToneGenStart ProSLIC_ToneGenSetup
- */
-
-int ProSLIC_ToneGenStop (proslicChanType_ptr hProslic);
-
-/** @} TONE_GEN */
-
-/*****************************************************************************/
-/** @defgroup FSK_CONTROL FSK/Caller ID generation
- * This group of functions is related to FSK generation, typically used with Caller ID/Call Waiting
- * functionality. To set the frequencies, the data rate, and the FSK FIFO depth, please use the configuration
- * GUI FSK dialog box.
- *
- * Here's a simple example code fragment to send data via FSK:
- *
- * @note In a "real" application, you should not use ProSLIC_CheckCIDBuffer(), but instead
- * call ProSLIC_GetInterrupts() and check if the FSK interrrupt fired off since the
- * ProSLIC_GetInterrupts() will also report on loop closure/ring trip in addition FSK buffer
- * interrupt and the two functions will conflict with each other.
- *
- * @code
- *
- * #define FIFO_DEPTH (7-FSKBUF_DEPTH) //When we report the buffer at FSK BUFFER DEPTH, we can send
- * //at most 1 less than the maximum since that byte maybe still
- * //be modulated. Therefore, we say we can send 7 bytes, not
- * //8 after the interrupt.
- *
- * //ASSUME: FSK Buffer depth interrupt has been enabled in the constants file earlier...
- *
- * // This should be called every time since it is likely a tone was played
- * // earlier which reprograms the oscillators...
- * if( ProSLIC_FSKSetup(myProSLICChan, PROSLIC_NORTH_AMERICA_FSK) == RC_NONE)
- * {
- *
- * // Enable the CID block, at this point no tones other than the FSK ones
- * // should be played out...
- * ProSLIC_EnableCID(myProSLICChan);
- *
- * // Pre-load the FSK FIFO buffer with at most 8 bytes.
- * ProSLIC_SendCID(myProSLICChan,buf,MIN(bufsz,8));
- *
- * bytes_left_to_send = bufsz - MIN(bufsz,8);
- *
- * while(bytes_left_to_send > 0)
- * {
- * if(bytes_left_to_send < FIFO_DEPTH)
- * {
- * bytes_to_send = bytes_left_to_send;
- * }
- * else
- * {
- * bytes_to_send = FIFO_DEPTH;
- * }
- *
- * if( ProSLIC_SendCID(myProSLICChan,buf,bytes_to_send) != RC_NONE)
- * {
- * ProSLIC_DisableCID(myProSLICChan);
- * return MY_FSK_ERROR;
- * }
- *
- * bytes_left_to_send -= bytes_to_send;
- *
- * if(bytes_left_to_send)
- * {
- * do
- * {
- * // See note above about this function...
- * ProSLIC_CheckCIDBuffer(myProSLICChan, &is_fifo_empty);
- *
- * } while( is_fifo_empty != 1 );
- * }
- *
- * };
- *
- * ProSLIC_DisableCID(myProSLICChan);
- * @endcode
- *
- * @note The above code fragment is sub-optimal since it does constantly poll the CID buffer
- * state - one may want to implement the actual code using interrupts.
- *
- * @note The ProSLIC API demo does have a working example for Type 1 CID MDMF format.
- *
- * @{
- */
-
-/**
- * @brief
- * Configures the FSK generator from a configuration generated by the config tool.
- *
- * @warning If @ref ProSLIC_ToneGenSetup was called earlier, this function will need to be called again.
- *
- * @param[in] hProslic - which channel to configure
- * @param[in] preset - which FSK configuration to use.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @note This function can be compiled out by defining DISABLE_FSK_SETUP
- */
-
-int ProSLIC_FSKSetup (proslicChanType_ptr hProslic,int preset);
-
-/**
- * @brief
- * Configures the FSK generator from a configuration generated by the config tool.
- *
- * @warning If @ref ProSLIC_ToneGenSetup was called earlier, this function will need to be called again.
- *
- * @param[in] pProslic - which channel to configure
- * @param[in] cfg - which FSK configuration to use.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @note This function can be compiled out by defining DISABLE_FSK_SETUP
- */
-
-int ProSLIC_FSKSetupPtr (proslicChanType_ptr pProslic, ProSLIC_FSK_Cfg *cfg);
-
-/**
- * @brief
- * This function enables FSK mode and clears the FSK FIFO. It is assumed that PCM has been enabled and that @ref ProSLIC_FSKSetup
- * has been called at some point.
- *
- * @warning If @ref ProSLIC_ToneGenSetup was called earlier, @ref ProSLIC_FSKSetup will need to be called again.
- *
- * @param[in] hProslic - which channel to check upon.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- */
-
-int ProSLIC_EnableCID (proslicChanType_ptr hProslic);
-
-/**
- * @brief
- * This function disables FSK mode.
- *
- * @param[in] hProslic - which channel to disable FSK mode.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- */
-
-int ProSLIC_DisableCID (proslicChanType_ptr hProslic);
-
-/**
- * @brief
- * Check if the FSK FIFO is empty or not. This should only be called after ProSLIC_SendCID.
- *
- * @param[in] hProslic - which channel to check upon.
- * @param[out] fsk_buf_avail - is the buffer available? 1 = Yes, 0 = No.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @note - This modifies the IRQ1 register contents, so some other interrupts may be lost. An alternative is to enable the
- * FSK FIFO interrupt and trigger off of it when it does occur in your interrupt service routine and call ProSLIC_GetInterrupts() to decode the interrupts present.
- */
-
-int ProSLIC_CheckCIDBuffer (proslicChanType_ptr hProslic, uInt8 *fsk_buf_avail);
-
-/**
- * @brief
- * Send numBytes as FSK encoded data. It is assumed that numBytes <= FIFO Depth (typically 8) and that the FIFO
- * is free. It is also assumed that @ref ProSLIC_PCMStart has been called and that we're in
- * @ref LF_FWD_OHT or @ref LF_REV_OHT mode for Type-1 or @ref LF_REV_ACTIVE or @ref LF_FWD_ACTIVE
- * if we're in Type-2 caller ID.
- *
- * @param[in] hProslic - which channel to send the data through.
- * @param[in] buffer - byte array of data to send.
- * @param[in] numBytes - number of bytes to send. MUST be less than or equal to the FIFO size
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @sa ProSLIC_CheckCIDBuffer ProSLIC_FSKSetup ProSLIC_EnableCID ProSLIC_DisableCID
- */
-
-int ProSLIC_SendCID (proslicChanType_ptr hProslic, uInt8 *buffer,
- uInt8 numBytes);
-
-/**
- * @brief Control if the start/stop bits are enabled.
- *
- * @param[in] hProslic - which channel to adjust
- * @param[in] enable_startStop - TRUE - start/stop bits are enabled, FALSE - disabled
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @note: This does not replace @ref ProSLIC_FSKSetup, but is a supplement that toggles
- * one of the registers that the preset modifies. It is assumed that @ref ProSLIC_FSKSetup
- * was called at some point earlier in the code flow.
- */
-
-int ProSLIC_ModifyCIDStartBits(proslicChanType_ptr hProslic,
- uInt8 enable_startStop);
-
-
-/** @} FSK_CONTROL */
-
-/*****************************************************************************/
-/** @defgroup AUDIO_CONTROL Audio control/configuration
- * @{
- */
-/** @defgroup PCM_CONTROL PCM control
- * This group of functions is used to configure and control the PCM bus. It is essential that @ref ProSLIC_PCMSetup,
- * @ref ProSLIC_PCMTimeSlotSetup and @ref ProSLIC_PCMStart are called prior to any tone or FSK generation.
- *
- * See @ref PROSLIC_AUDIO code fragment on how the functions relate during initialization.
- *
- * @{
- */
-
-/**
- * @brief
- * This configures the PCM bus with parameters such as companding and data latching timing.
- *
- * @param[in] hProslic - which channel should be configured
- * @param[in] preset - which preset to use from the constants file (see configuration tool, PCM dialog box)
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @sa ProSLIC_PCMTimeSlotSetup ProSLIC_PCMStart
- */
-
-int ProSLIC_PCMSetup (proslicChanType_ptr hProslic,int preset);
-
-/**
- * @brief
- * This configures the ProSLIC to latch and send the PCM data at a particular timeslot in terms of PCM clocks (PCLK).
- *
- * Typically, for aLaw and uLaw, one can use the following calculation to set the rxcount and txcount parameters:
- *
- * rxcount = txcount = (channel_number)*8;
- *
- * For 16 bit linear, one can do the following:
- *
- * rxcount = txcount = (channel_number)*16;
- *
- * where channel_number = which ProSLIC channel on the PCM bus. For example, if one were to have 2 dual channel
- * ProSLIC's on the same PCM bus, this value would range from 0 to 3.
- *
- * @param[in] hProslic - which channel should be configured
- * @param[in] rxcount - how many clocks until reading data from the PCM bus
- * @param[in] txcount - how many clocks until writing data to the PCM bus.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @sa ProSLIC_PCMSetup ProSLIC_PCMStart
- */
-
-int ProSLIC_PCMTimeSlotSetup (proslicChanType_ptr hProslic, uInt16 rxcount,
- uInt16 txcount);
-
-/**
- * @brief
- * This enables PCM transfer on the given ProSLIC channel.
- *
- * @param[in] hProslic - - which channel should be enabled
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @sa ProSLIC_PCMSetup ProSLIC_PCMTimeSlotSetup ProSLIC_PCMStop
- */
-
-int ProSLIC_PCMStart (proslicChanType_ptr hProslic);
-
-/**
- * @brief
- * This disables PCM transfer on the given ProSLIC channel. Typically, this is called for debugging
- * purposes only.
- *
- * @param[in] hProslic - - which channel should be disabled
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @sa ProSLIC_PCMSetup ProSLIC_PCMTimeSlotSetup ProSLIC_PCMStart
- */
-
-int ProSLIC_PCMStop (proslicChanType_ptr hProslic);
-
-/**
- * @brief
- * Program desired loopback test mode for the given channel.
- *
- * @param[in] hProslic - which channel should be modified
- * @param[in] newMode - what is the desired loopback mode.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- */
-
-int ProSLIC_SetLoopbackMode (proslicChanType_ptr hProslic,
- ProslicLoopbackModes newMode);
-
-/**
- * @brief
- * Program desired mute test mode for the given channel.
- *
- * @param[in] hProslic - which channel should be modified
- * @param[in] muteEn - what is the desired mode.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- */
-
-int ProSLIC_SetMuteStatus (proslicChanType_ptr hProslic,
- ProslicMuteModes muteEn);
-
-/** @} PCM_CONTROL */
-
-/*****************************************************************************/
-/** @defgroup GAIN_CONTROL Gain control
- * @{
- */
-
-/**
- * @brief
- * Sets the TX audio gain (toward the network). This funcion DOES NOT actually calculate the values for the preset.
- * To dynamically calculate the values, you would need to call @ref ProSLIC_dbgSetTXGain .
- *
- * @param[in] hProslic - which channel to configure
- * @param[in] preset - which preset to use (this may be from the constants file)
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @note One can use this in conjunction with @ref ProSLIC_dbgSetTXGain to dynamically
- * change the audio gain. It is important to have the presets of both routines match.
- *
- * The following code * fragment will set the TX audio gain to -5 dB:
- *
- * @code
- * ProSLIC_dbgSetTXGain(myChannel, -5, MY_IMPEDENCE,0);
- * ProSLIC_TXAudioGainSetup(myChannel,0);
- * @endcode
- *
- * @sa ProSLIC_RXAudioGainSetup ProSLIC_dbgSetTXGain ProSLIC_AudioGainSetup
- */
-
-int ProSLIC_TXAudioGainSetup (proslicChanType_ptr hProslic,int preset);
-
-/**
- * @brief
- * Adjusts gain of TX audio path by scaling the PGA and Equalizer coefficients by the supplied values.
- *
- * @param[in] hProslic - which channel to configure
- * @param[in] preset - which preset to use (this may be from the constants file)
- * @param[in] pga_scale - scale factor which pga coefficients are to be multiplied
- * @param[in] eq_scale - scale factor which equalizer coefficients are to be multiplied
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @note This function can be used in lieu of @ref ProSLIC_dbgSetTXGain to dynamically
- * change the audio gain when gain steps of 0.1dB do not suffice, or if an attenuation
- * > 30dB is required.
- *
- * The following code * fragment will scale the TX audio gain by a factor of (0.707)*(0.500)
- *
- * @code
- * uInt32 pga_gain_scale = 707;
- * uInt32 eq_gain_scale = 500;
- * ProSLIC_TXAudioGainScale(pProslic,DEFAULT_PRESET,pga_gain_scale,eq_gain_scale);
- * @endcode
- *
- * @sa ProSLIC_RXAudioGainScale
- */
-int ProSLIC_TXAudioGainScale (proslicChanType_ptr hProslic,int preset,
- uInt32 pga_scale,uInt32 eq_scale);
-
-/**
- * @brief
- * Configures the RX audio gain (toward the telephone). This function DOES NOT actually calculate the values for the preset.
- * To dynamically calculate the values, you would need to call @ref ProSLIC_dbgSetRXGain .
- *
- * @param[in] hProslic - which channel to configure
- * @param[in] preset - which preset to use (this may be from the constants file)
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @note One can use this in conjunction with @ref ProSLIC_dbgSetRXGain to dynamically
- * change the audio gain. It is important to have the presets of both routines match.
- *
- * The following code * fragment will set the RX audio gain to -1 dB:
- *
- * @code
- * ProSLIC_dbgSetRXGain(myChannel, -1, MY_IMPEDENCE,0);
- * ProSLIC_RXAudioGainSetup(myChannel,0);
- * @endcode
- *
- * @sa ProSLIC_TXAudioGainSetup ProSLIC_dbgSetRXGain ProSLIC_AudioGainSetup
- */
-
-int ProSLIC_RXAudioGainSetup (proslicChanType_ptr hProslic,int preset);
-
-/**
- * @brief
- * Adjusts gain of RX audio path by scaling the PGA and Equalizer coefficients by the supplied values.
- *
- * @param[in] hProslic - which channel to configure
- * @param[in] preset - which preset to use (this may be from the constants file)
- * @param[in] pga_scale - scale factor which pga coefficients are to be multiplied
- * @param[in] eq_scale - scale factor which equalizer coefficients are to be multiplied
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @note This function can be used in lieu of @ref ProSLIC_dbgSetRXGain to dynamically
- * change the audio gain when gain steps of 0.1dB do not suffice, or if an attenuation
- * > 30dB is required.
- *
- * The following code * fragment will scale the TX audio gain by a factor of (0.707)*(0.500)
- *
- * @code
- * uInt32 pga_gain_scale = 707;
- * uInt32 eq_gain_scale = 500;
- * ProSLIC_RXAudioGainScale(pProslic,DEFAULT_PRESET,pga_gain_scale,eq_gain_scale);
- * @endcode
- *
- * @sa ProSLIC_TXAudioGainScale
- */
-int ProSLIC_RXAudioGainScale (proslicChanType_ptr hProslic,int preset,
- uInt32 pga_scale,uInt32 eq_scale);
-
-/**
- * @brief
- * Configures and sets the audio gains - for both RX (toward the phone) and the TX (toward the network). Unlike
- * the @ref ProSLIC_RXAudioGainSetup and @ref ProSLIC_TXAudioGainSetup this does both the calculations and then
- * configures the given channel in one step. It is assumed that the preset gain array is at least 2 elements in size.
- *
- * @param[in] hProslic - which channel to configure
- * @param[in] rxgain - what is the gain/loss of the RX transmit path in 1 dB units (negative = attenuation)
- * @param[in] txgain - what is the gain/loss of the TX transmit path in 1 dB units (negative = attenuation)
- * @param[in] preset - what is the impedance preset value
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * The following code * fragment will set the RX audio gain to -1 dB snd TX audio gain to -5 dB:
- *
- * @code
- * ProSLIC_AudioGain(myChannel, -1, -5, MY_IMPEDENCE);
- * @endcode
- *
- * @sa ProSLIC_TXAudioGainSetup ProSLIC_dbgSetRXGain ProSLIC_dbgSetRXGain ProSLIC_dbgSetTXGain
- */
-
-int ProSLIC_AudioGainSetup (proslicChanType_ptr hProslic,int32 rxgain,
- int32 txgain,int preset);
-
-/**
- * @brief
- * This function calculates the preset values for the RX audio (toward the telephone) - it does NOT set the
- * actual register values. For that, please use @ref ProSLIC_RXAudioGainSetup .
- *
- * @param[in] pProslic - which channel to configure
- * @param[in] gain - gain to set the preset values to.
- * @param[in] impedance_preset - impedence preset in the constants file.
- * @param[in] audio_gain_preset - index to the audio gain preset to store the value.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @sa ProSLIC_RXAudioGainSetup ProSLIC_AudioGainSetup ProSLIC_dbgSetTXGain
- */
-
-int ProSLIC_dbgSetRXGain (proslicChanType *pProslic, int32 gain,
- int impedance_preset, int audio_gain_preset);
-
-/**
- * @brief
- * This function calculates the preset values for the TX audio (toward the network) - it does NOT set the
- * actual register values. For that, please use @ref ProSLIC_TXAudioGainSetup .
- *
- * @param[in] pProslic - which channel to configure
- * @param[in] gain - gain to set the preset values to.
- * @param[in] impedance_preset - impedance preset in the constants file.
- * @param[in] audio_gain_preset - index to the audio gain preset to store the value.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @sa ProSLIC_TXAudioGainSetup ProSLIC_AudioGainSetup ProSLIC_dbgSetRXGain
- */
-
-int ProSLIC_dbgSetTXGain (proslicChanType *pProslic, int32 gain,
- int impedance_preset, int audio_gain_preset);
-
-/** @} GAIN_CONTROL */
-/** @} AUDIO_CONTROL */
-/** @} PROSLIC_AUDIO */
-
-/*****************************************************************************/
-/** @defgroup HC_DETECT Hook Change detection
- *
- * This function group has routines used to implement a pulse dial, hook flash
- * and general hook change detection. The outline of how to use these
- * functions is as follows:
- *
- * - Initialize the data structure w/ @ref ProSLIC_InitializeHookChangeDetect
- * - When hook change is detected or if there has been no activity for a minimum
- * of the interdigit time, call @ref ProSLIC_HookChangeDetect. Keep on calling
- * the function until we have a return code not equal to SI_HC_NEED_MORE_POLLS.
- * Again, the function should be called, when no hook activity is detected at
- * minimum of the interdigit time.
- *
- * General theory (pulse digit):
- *
- * ---|___|-----|__|---------
- *
- * A B C B D
- *
- * A - Offhook (time unknown)
- * B - Onhook (break time)
- * C - Offhook (make time)
- * D - Interdigit delay
- *
- * We report after D occurs a pulse digit as long as the duration for B
- * is met.
- *
- * For hook flash, we are looking at
- *
- * ----|________________|-----------
- *
- *
- * Here we're looking for the pulse width meets a certain min/max time. If the
- * time is exceeded, then we have likely a onhook or offhook event.
- *
- * @note This set of functions require that the elapsed timer functions
- * documented in @ref PROSLIC_CUSTOMER_TIMER are implemented.
- *
- * @{
- */
-
-/**
- * @brief
- * Initialize pulse dial/hook detection parameters.
- *
- * @param[in,out] pPulse - the structure that is to be initialized. Refer to your target market's pulse dial standard for exact values.
- * @param[in] hookTime - a timer object suitable to be passed to a function of type @ref system_timeElapsed_fptr
- *
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int ProSLIC_InitializeHookChangeDetect(hookChangeType *pPulse,void *hookTime);
-
-/**
- * @brief
- * Implements pulse dial detection and should be called at every hook transition and after the minimum interdigit delay time (should continue calling until
- * the function returns back with a value other than SI_HC_NEED_MORE_POLLS.
- *
- * @param[in] pProslic - which channel had a hook transition.
- * @param[in] pPulsedialCfg - what is the criteria to determine on/off hook states.
- * @param[in,out] pPulseDialData - contians the timer information that was set in
- * @ref ProSLIC_InitializeHookChangeDetect as well as the pulse digit detected
- *
- * @retval int - either SI_HC_xxx values or a value between 1-10 for the number of pulses detected. In most cases, a 0 is 10 pulses. Please refer to
- * your country's pulse dial standard for exact encoding.
- */
-
-uInt8 ProSLIC_HookChangeDetect (proslicChanType *pProslic,
- hookChange_Cfg *pPulsedialCfg, hookChangeType *pPulseDialData);
-
-/** @} HC_DETECT */
-
-/*****************************************************************************/
-/** @addtogroup PROSLIC_AUDIO
- * @{
- * @defgroup PROSLIC_DTMF_DECODE DTMF Decode
- * This section covers DTMF decoding.
- *
- * @note Not all chipsets support this capability. Please review your chipset
- * documentation to confirm this capability is supported.
- * @{
- */
-
-/**
- * @brief
- * Read/Decode DTMF digits. The "raw" hexcode is returned in this function and would require
- * further processing. For example, on the Si3217x chipset, the following mapping exists:
- *
- * DTMF Digit | API output value
- * :-|:---
- * 0 | 0xA
- * 1 | 1
- * 2 | 2
- * 3 | 3
- * 4 | 4
- * 5 | 5
- * 6 | 6
- * 7 | 7
- * 8 | 8
- * 9 | 9
- * A | 0xD
- * B | 0xE
- * C | 0xF
- * D | 0
- * \*| 0xB
- * \# |0xC
- *
- * @note This function is only valid after @ref IRQ_DTMF occurred and should be called shortly
- * thereafter.
- *
- * @warning Not all ProSLIC chipsets have a DTMF decoder. Please review your chipset to make
- * sure this capability exists.
- *
- * @param[in] hProslic - which channel is to be decoded.
- * @param[out] pDigit - "raw" DTMF value (see comments in description)
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- *
- */
-
-int ProSLIC_DTMFReadDigit (proslicChanType_ptr hProslic,uInt8 *pDigit);
-
-/** @} PROSLIC_DTMF_DECODE */
-/** @} PROSLIC_AUDIO */
-
-/*****************************************************************************/
-/** @defgroup PROSLIC_POWER_CONVERTER Power Converter control
- * @{
- */
-/**
-* @brief
-* Powers all DC/DC converters sequentially with delay to minimize peak power draw on VDC.
-* @param[in] hProslic - which channel to change state.
-* @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
-*
-* @sa ProSLIC_PowerDownConverter
-*
-*/
-
-int ProSLIC_PowerUpConverter(proslicChanType_ptr hProslic);
-
-/**
-* @brief
-* Safely power down dcdc converter after ensuring linefeed
-* is in the open state. Test power down by setting error
-* flag if detected voltage does no fall below 5v.
-*
-* @param[in] hProslic - which channel to change state.
-* @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
-*
-* @sa ProSLIC_PowerUpConverter
-*
-*/
-
-int ProSLIC_PowerDownConverter(proslicChanType_ptr hProslic);
-
-/**
-* @brief
-* Set channel flag to indicate that the polarity of the
-* DC-DC converter drive signal is to be inverted from what
-* is indicated in the General Parameters. This inversion is
-* relative to the polarity established by the General Parameters,
-* not an absolute polarity.
-*
-*
-* @param[in] hProslic - which channel to change state.
-* @param[in] flag - inversion flag (1 - inverted, 0 - no inversion)
-* @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
-*
-* @sa ProSLIC_PowerUpConverter
-*
-*/
-int ProSLIC_SetDCDCInversionFlag(proslicChanType_ptr hProslic, uInt8 flag);
-
-
-/** @} PROSLIC_POWER_CONVERTER */
-/*****************************************************************************/
-/** @defgroup PROSLIC_LB_CALIBRATION LB Calibration
- * @{
- */
-
-/**
- * @brief
- * Run canned longitudinal balance calibration.
- *
- * @param[in] pProslic - start channel to start from for calibration.
- * @param[in] size - number of channels to calibrate
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @note
- * Use the @ref ProSLIC_Init function to perform all calibrations except Longitudinal Balance (LB).
- * Use the @ref ProSLIC_LBCal function to perform LB calibration. LB Calibration typically needs
- * to execute LB calibration once per system setup without a load connected. The LB calibration
- * results can be stored in non-volatile storage (flash, eeprom) and retrieved during your normal
- * ProSLIC initialization.
- *
-* @sa ProSLIC_GetLBCalResult ProSLIC_LoadPreviousLBCal ProSLIC_LoadPreviousLBCalPacked ProSLIC_GetLBCalResultPacked
- */
-
-int ProSLIC_LBCal (proslicChanType_ptr *pProslic, int size);
-
-/**
- * @brief
- * This function returns the coefficient results of the last LB calibration.
- *
- * @param[in] pProslic - which channel to retrieve the values from.
- * @param[out] result1 - results read from the last calibration
- * @param[out] result2 - results read from the last calibration
- * @param[out] result3 - results read from the last calibration
- * @param[out] result4 - results read from the last calibration
-* @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
-*
-* @sa ProSLIC_LBCal ProSLIC_LoadPreviousLBCal ProSLIC_LoadPreviousLBCalPacked ProSLIC_LBCal ProSLIC_GetLBCalResultPacked
-*/
-
-int ProSLIC_GetLBCalResult (proslicChanType *pProslic,int32 *result1,
- int32 *result2,int32 *result3,int32 *result4);
-
-/**
- * @brief
- * This function loads previously stored LB calibration results to the appropriate ProSLIC
- * RAM locations.
- *
- * @param[in] pProslic - which channel to program the values
- * @param[in] result1 - values to be written
- * @param[in] result2 - values to be written
- * @param[in] result3 - values to be written
- * @param[in] result4 - values to be written
-* @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
-*
-* @sa ProSLIC_LBCal ProSLIC_LoadPreviousLBCalPacked ProSLIC_LBCal ProSLIC_GetLBCalResult ProSLIC_GetLBCalResultPacked
-*/
-
-int ProSLIC_LoadPreviousLBCal (proslicChanType *pProslic,int32 result1,
- int32 result2,int32 result3,int32 result4);
-
-/**
- * @brief
- * This function returns the results of the last LB calibration packed into single int32.
- *
- * @param[in] pProslic - which channel to retrieve the values from.
- * @param[out] result - results - where to store the value
-* @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
-*
-* @sa ProSLIC_LBCal ProSLIC_LoadPreviousLBCal ProSLIC_LoadPreviousLBCalPacked ProSLIC_LBCal
-*/
-
-int ProSLIC_GetLBCalResultPacked (proslicChanType *pProslic,int32 *result);
-
-/**
- * @brief
- * This function loads previously stored LB calibration results that are in the packed format.
- *
- * @param[in] pProslic - which channel to retrieve the values from.
- * @param[in] result - results read from @ref ProSLIC_GetLBCalResultPacked
-* @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
-*
-* @sa ProSLIC_LBCal ProSLIC_LoadPreviousLBCal ProSLIC_LBCal ProSLIC_GetLBCalResultPacked
-*
-*/
-
-int ProSLIC_LoadPreviousLBCalPacked (proslicChanType *pProslic,int32 *result);
-
-/** @} PROSLIC_LB_CALIBRATION */
-
-
-/*****************************************************************************/
-/** @addtogroup DIAGNOSTICS
- * @{
- */
-
-/**
- * @brief
- * This function can be used to verify that the SPI interface is functioning
- * properly by performing a series of read back tests. This test DOES modify
- * certain registers, so a reinitialization will be required. This test is
- * recommended only for development use.
- *
- * @param[in] pProslic - This should point to the channel that is to be verified.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error amd will typically return back
- * @ref RC_SPI_FAIL if a SPI failure occured.
- */
-
-int ProSLIC_VerifyControlInterface (proslicChanType_ptr pProslic);
-
-/** @addtogroup PSTN_CHECK PSTN Check
- * @{
- */
-
-/**
- * @brief
- * Allocates memory for a PSTN check object. One channel object is needed per
- * ProSLIC channel.
- *
- * @param[in,out] pstnCheckObj - pointer to the object that is to be initialized.
- * @param[in] num_objs - number of objects to allocate
- *
- * @retval 0 = OK
- */
-
-int ProSLIC_CreatePSTNCheckObjs(proslicPSTNCheckObjType_ptr *pstnCheckObj,
- unsigned int num_objs);
-#define ProSLIC_CreatePSTNCheckObj(PTRPTR) ProSLIC_CreatePSTNCheckObjs((PTRPTR), 1)
-
-/**
- * @brief
- * Allocates memory for a differential PSTN check object. One channel object is needed per
- * ProSLIC channel.
- *
- * @param[in,out] pstnCheckObj - pointer to the object that is to be initialized.
- * @param[in] num_objs - number of objects to allocate
- *
- * @retval 0 = OK
- */
-
-int ProSLIC_CreateDiffPSTNCheckObjs(proslicDiffPSTNCheckObjType_ptr
- *pstnCheckObj, unsigned int num_objs);
-#define ProSLIC_CreateDiffPSTNCheckObj(PTRPTR) ProSLIC_CreateDiffPSTNCheckObjs((PTRPTR), 1)
-
-/**
- * @brief
- * Destroys a PSTN check object and deallocates memory.
- *
- * @param[in] pstnCheckObj - object to deallocate.
- *
- * @retval 0 = OK
- */
-
-#define ProSLIC_DestroyPSTNCheckObj ProSLIC_DestroyPSTNCheckObjs
-int ProSLIC_DestroyPSTNCheckObjs(proslicPSTNCheckObjType_ptr *pstnCheckObj);
-
-/**
- * @brief
- * Destroys a differential PSTN check object and deallocates memory.
- *
- * @param[in] pstnCheckObj - object to deallocate.
- *
- * @retval 0 = OK
- */
-
-#define ProSLIC_DestroyDiffPSTNCheckObj ProSLIC_DestroyDiffPSTNCheckObjs
-int ProSLIC_DestroyDiffPSTNCheckObjs(proslicDiffPSTNCheckObjType_ptr
- *pstnCheckObj);
-
-/**
- * @brief
- * Initialize pstnCheckObj structure members
- *
- * @param[in] pstnCheckObj - which object to initialize
- * @param[in] avgThresh - Average current threshold that indicates a PSTN is present (uA).
- * @param[in] singleThresh - Single current threshold that indicates a PSTN is present (uA).
- * @param[in] samples - number of samples to collect
- * @retval 0 = OK
- */
-
-int ProSLIC_InitPSTNCheckObj(proslicPSTNCheckObjType_ptr pstnCheckObj,
- int32 avgThresh, int32 singleThresh, uInt8 samples);
-
-/**
- * @brief
- * This function initializes a differential PSTN detection object.
- *
- * @param[in,out] pstnDiffCheckObj - object to be initialized
- * @param[in] preset1 - DC Feed preset to be used for first loop I/V measurement
- * @param[in] preset2 - DC Feed preset to be used for second loop I/V measurement
- * @param[in] entry_preset - restore_preset DC Feed preset that is restored after PSTN check is complete.
- * @param[in] femf_enable - Flag to enable OPEN state hazardous voltage measurement (0 = disabled, 1 = enabled)
- * @retval 0 = OK
- */
-
-int ProSLIC_InitDiffPSTNCheckObj(proslicDiffPSTNCheckObjType_ptr
- pstnDiffCheckObj, int preset1, int preset2, int entry_preset, int femf_enable);
-
-/**
- * @brief
- * This function monitors longitudinal current (average and single sample) to quickly identify
- * the presence of a live PSTN line. Sufficient polling needs to occur in order to quickly determine
- * if a PSTN line is preset or not.
- *
- * @param[in] pProslic - which channel to run this test on.
- * @param[in] pPSTNCheck - the initialized data structure that contains the intermediate results of this test.
- * @retval 0 = no PSTN detected/thresholds have not been exceeded, 1 = PSTN detected, state machine reset.
- *
- * @note
- * If wanting to restart the test, one will need to call @ref ProSLIC_InitPSTNCheckObj again. However, if the
- * number of samples exceeds the buffer then the function will "wrap".
- */
-
-int ProSLIC_PSTNCheck(proslicChanType *pProslic,
- proslicPSTNCheckObjType *pPSTNCheck);
-
-/**
- * @brief
- * This function monitors for a foreign voltage (if enabled) and measures the differential I/V
- * characteristics of the loop at 2 unique settings to detect a foreign PSTN. It is assumed that polling will
- * occur at the configured value found in @ref PSTN_DET_POLL_RATE.
- *
- * @param[in] pProslic - channel to be monitored
- * @param[in,out] pPSTNCheck - pointer to an initialized structure that is used by the function to
- * store state information.
- * @retval int @ref RC_NONE - test is in progress, @ref RC_COMPLETE_NO_ERR - test complete, no errors, @ref RC_PSTN_OPEN_FEMF - detected foreign voltage, RC_CHANNEL_TYPE_ERR = a non-ProSLIC device was called to perform this function
- */
-int ProSLIC_DiffPSTNCheck(proslicChanType *pProslic,
- proslicDiffPSTNCheckObjType *pPSTNCheck);
-
-/** @} PSTN_CHECK */
-/** @} DIAGNOSTICS*/
-
-/*****************************************************************************/
-/** @defgroup PROSLIC_DCFEED DC Feed Setup and control
- * @{
- */
-
-/**
- * @brief
- * Configures the DC feed from a preset.
- *
- * @param[in] hProslic - which channel to configure
- * @param[in] preset - the preset to use
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @note This function can be disabled by @ref DISABLE_DCFEED_SETUP
- */
-
-int ProSLIC_DCFeedSetup (proslicChanType_ptr hProslic,int preset);
-
-/**
- * @brief
- * Configures the DC feed from a preset.
- *
- * @param[in] hProslic - which channel to configure
- * @param[in] cfg - pointer to preset storage structure
- * @param[in] preset - the preset to use
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @note This function can be disabled by @ref DISABLE_DCFEED_SETUP
- */
-int ProSLIC_DCFeedSetupCfg (proslicChanType_ptr hProslic,
- ProSLIC_DCfeed_Cfg *cfg, int preset);
-
-/**
- * @brief
- * This function allows one to adjust the DC open circuit voltage level dynamically. Boundary checking is done.
- *
- * @note This function does NOT modify the register sets needed, it calculates the correct values and stores
- * them in the correct preset. Use @ref ProSLIC_DCFeedSetup to program the device with the new values.
- *
- * @param[in] pProslic - which channel to configure
- * @param[in] v_vlim_val - absolute voltage level
- * @param[in] preset - DC Feed preset to be modified.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @sa ProSLIC_dbgSetDCFeedIloop ProSLIC_DCFeedSetup
- */
-
-int ProSLIC_dbgSetDCFeedVopen (proslicChanType *pProslic, uInt32 v_vlim_val,
- int32 preset);
-
-/**
- * @brief
- * This function allows one to adjust the loop current level dynamically. Boundary checking is done.
- *
- * @note This function does NOT modify the register sets needed, it calculates the correct values and stores
- * them in the correct preset. Use @ref ProSLIC_DCFeedSetup to program the device with the new values.
- *
- * @param[in] pProslic - which channel to configure
- * @param[in] i_ilim_val - loop current level
- * @param[in] preset - DC Feed preset to be modified.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @sa ProSLIC_dbgSetDCFeedVopen ProSLIC_DCFeedSetup
- */
-
-int ProSLIC_dbgSetDCFeedIloop (proslicChanType *pProslic, uInt32 i_ilim_val,
- int32 preset);
-
-/**
- * @brief
- * This function allows one to enable/disable power savings mode found on some of the chipsets. This allows one
- * to change the default value set in the GUI config tool.
- *
- * @param[in] pProslic - which channel to configure
- * @param[in] pwrsave - power savings mode enabled or disabled - value expected: @ref PWRSAVE_DISABLE or @ref PWRSAVE_ENABLE
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- */
-
-int ProSLIC_SetPowersaveMode(proslicChanType *pProslic, int pwrsave);
-
-/** @} PROSLIC_DCFEED */
-
-/*****************************************************************************/
-/** @defgroup MESSAGE_WAITING Message Waiting Indicator routines
- * @{
- */
-
-/**
- * @brief
- * Configure optional MWI voltage settings. Default value is 95v.
- *
- * @details
- * Set MWI flashing voltage level (Vpk).
- *
- * @note
- * Proper patch must be loaded for this feature to work properly. Code does not
- * automatically verify that this patch is loaded.
- *
- * @param[in] hProslic - channel to modify
- * @param[in] vpk_mag - MWI voltage level (vpk) (no change is made if 0)
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-int ProSLIC_MWISetV (proslicChanType_ptr hProslic,uInt16 vpk_mag);
-
-/**
- * @brief
- * Enables message waiting indicator feature
- *
- * @details
- * Message waiting (neon flashing) enabled if device is in the onhook state.
- * Otherwise, function will not execute and return RC_MWI_ENABLE_FAIL. This
- * function must be called to ENABLE MWI prior to calling ProSLIC_MWI to toggle
- * the voltage level on TIP-RING.
- *
- * @note
- * Proper patch must be loaded for this feature to work properly. Code does not
- * automatically verify that this patch is loaded.
- *
- * @param[in] hProslic - channel to modify
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-int ProSLIC_MWIEnable (proslicChanType_ptr hProslic);
-
-/**
- * @brief
- * Disables message waiting indicator feature
- *
- * @details
- * Message waiting (neon flashing) disable. Turns off flashing and disabled
- * MWI feature.
- *
- * @note
- * Proper patch must be loaded for this feature to work properly. Code does not
- * automatically verify that this patch is loaded.
- *
- * @param[in] hProslic - channel to modify
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-int ProSLIC_MWIDisable (proslicChanType_ptr hProslic);
-
-/**
- * @brief
- * Implements message waiting indicator
- *
- * @details
- * Message waiting (neon flashing) state toggling. If MWI feature has not been
- * enabled by calling ProSLIC_SetMWIEnable(), then this function will return
- * RC_MWI_NOT_ENABLED
- *
- * @note
- * Proper patch must be loaded for this feature to work properly. Code does not
- * automatically verify that this patch is loaded.
- *
- * @param[in] hProslic - channel to modify
- * @param[in] flash_on - 0 = lamp off, 1 = lamp on.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int ProSLIC_SetMWIState(proslicChanType_ptr hProslic,uInt8 flash_on);
-
-/**
- * @brief
- * Intializes message waiting indicator with ramp configurability
- *
- * @details
- * Message waiting (neon flashing) initialization. If MWI feature has not been
- * enabled by calling ProSLIC_SetMWIEnable(), then this function will return
- * RC_MWI_NOT_ENABLED
- *
- * @note
- * Proper patch must be loaded for this feature to work properly. Code does not
- * automatically verify that this patch is loaded.
- *
- * @param[in] pProslic - channel to modify
- * @param[in] steps - number of steps in ramp, tick duration is time of one step
- * @param[in] onTime - number of ticks MWI is in the ON state
- * @param[in] offTime - number of ticks MWI is in the OFF state
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int ProSLIC_MWIRampStart(proslicChanType_ptr pProslic, uInt32 steps, uInt32 onTime, uInt32 offTime);
-
-/**
- * @brief
- * Implements message waiting indicator with ramp between ON and OFF states
- *
- * @details
- * Message waiting (neon flashing) polling function. If MWI feature has not been
- * enabled by calling ProSLIC_SetMWIEnable(), then this function will return
- * RC_MWI_NOT_ENABLED
- *
- * @note
- * Proper patch must be loaded for this feature to work properly. Code does not
- * automatically verify that this patch is loaded.
- *
- * @param[in] pProslic - channel to modify
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int ProSLIC_MWIRampPoll(proslicChanType_ptr pProslic);
-
-/**
- * @brief
- * Restores ramping message waiting indicator state
- *
- * @details
- * Message waiting (neon flashing) stop function. If MWI feature has not been
- * enabled by calling ProSLIC_SetMWIEnable(), then this function will return
- * RC_MWI_NOT_ENABLED
- *
- * @note
- * Proper patch must be loaded for this feature to work properly. Code does not
- * automatically verify that this patch is loaded.
- *
- * @param[in] pProslic - channel to modify
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int ProSLIC_MWIRampStop(proslicChanType_ptr pProslic);
-
-/**
- * @brief
- * Read MWI output state
- *
- * @details
- * Message waiting (neon flashing) state read. If MWI feature has not been
- * enabled by calling ProSLIC_SetMWIEnable(), then this function will return
- * RC_MWI_NOT_ENABLED
- *
- * @note
- * Proper patch must be loaded for this feature to work properly. Code does not
- * automatically verify that this patch is loaded.
- *
- * @param[in] hProslic - channel to modify
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int ProSLIC_GetMWIState(proslicChanType_ptr hProslic);
-
-/** @} MESSAGE_WAITING */
-
-/*****************************************************************************/
-/** @defgroup MISC MISC. routines
- * @{
- */
-
-/**
- * @brief
- * This function initiates PLL free run mode.
- *
- * @param[in] hProslic - which channel to modify
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int ProSLIC_PLLFreeRunStart (proslicChanType_ptr hProslic);
-
-/**
- * @brief
- * This function terminates PLL free run mode.
- *
- * @param[in] hProslic - which channel to modify
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int ProSLIC_PLLFreeRunStop (proslicChanType_ptr hProslic);
-
-/**
- * @brief
- * This function returns PLL free run status.
- *
- * @param[in] hProslic - which channel to report upon.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int ProSLIC_GetPLLFreeRunStatus (proslicChanType_ptr hProslic);
-
-/**
- *
- * @brief
- * Sets the ProSLIC into User Access Mode (UAM) on parts that support this. This is mainly
- * used internally within the API.
- *
- * @param[in] pProslic - which channel to modify
- * @param[in] isEnabled - is the User Access Mode enabled (NOTE: once enabled, it can not be disabled)
- * @param[in] isBcast - is this a broadcast on the daisychain
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-int ProSLIC_SetUserMode(proslicChanType *pProslic,BOOLEAN isEnabled,
- BOOLEAN isBcast);
-
-/*
-** @brief
-** Checks for improper ring exit (this is used internally by the API) and
-** not all chipsets need to call this.
-**
-** @param[in] pProslic - which ProSLIC to check.
-** Returns:
-** RC_NONE - Reinit not required
-** RC_REINIT_REQUIRED - Corrupted state machine - reinit required
-**
-*/
-int ProSLIC_isReinitRequired(proslicChanType *pProslic);
-
-/** @} MISC */
-/** @} */
-
-/* Hopefully customer's code will never call this function... */
-int ProSLIC_UnsupportedFeatureNoArg(proslicChanType_ptr pProslic,
- const char *function_name);
-
-/* Helper function used by PSTN routines */
-#ifdef PSTN_DET_ENABLE
-void ProSLIC_PSTN_delay_poll(proslicTestStateType *pState, uInt16 delay);
-#endif
-
-#if defined(SI3218X) || defined(SI3226X) || defined(SI3228X) || defined(SI3217X) || defined(SI3219X)
-int ProSLIC_Calibrate(proslicChanType_ptr *hProslic, int maxChan, uInt8 *calr,
- int maxTime);
-#endif
-/**
- * @brief determine if the given channel is a ProSLIC or DAA
- *
- * @param[in,out] pProslic - channel to be probed.
- * @retval PROSLIC | DAA | UNKNOWN
- */
-int ProSLIC_identifyChannelType(proslicChanType *pProslic);
-
-/* The following functions are used as part of the chipset init functions, not meant to be called
- outside this scope.
-*/
-int ProSLIC_ReInit_helper(proslicChanType_ptr *pProslic, int size,
- initOptionsType init_option, int numChanPerDevice);
-int ProSLIC_VerifyMasterStat(proslicChanType_ptr);
-
-void ProSLIC_LoadSupportRAM(proslicChanType *pProslic, uInt8 channel,
- const uInt16 *address, const ramData *data);
-
-#endif /*end ifdef PROSLIC_H*/
-
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/proslic_tstin.h b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/proslic_tstin.h
deleted file mode 100644
index 0283473..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/proslic_tstin.h
+++ /dev/null
@@ -1,437 +0,0 @@
-/* SPDX-License-Identifier: GPL-2.0 */
-/*
- * Author(s):
- * cdp
- *
- * Distributed by:
- * Silicon Laboratories, Inc
- *
- * This file contains proprietary information.
- * No dissemination allowed without prior written permission from
- * Silicon Laboratories, Inc.
- *
- * File Description:
- * This is the header file for the inward test implementations.
- *
- */
-#ifndef PROSLIC_TSTIN_H
-#define PROSLIC_TSTIN_H
-
-#include "../config_inc/si_voice_datatypes.h"
-#include "proslic.h"
-
-/** @addtogroup DIAGNOSTICS
- * @{
- */
-/** @defgroup PROSLIC_TSTIN ProSLIC Inward Tests (Test-In)
- * This section documents functions and data structures related to the
- * ProSLIC/FXS inward test implementations.
- * @{
- */
-
-#define MIN_RINGING_SAMPLES 16 /**< Minimum number of ringing samples for measuring ring amplitude */
-#define MAX_RINGING_SAMPLES 255 /**< Maximum number of ringing samples for measuring ring amplitude */
-#define MIN_RINGING_SAMPLE_INTERVAL 1 /**< Minimum sample interval for measuring ring amplitude */
-#define MAX_RINGING_SAMPLE_INTERVAL 10 /**< Maximum sample interval for measuring ring amplitude */
-
-/**
-* Test-In results status
-*/
-enum
-{
- TSTIN_RESULTS_INVALID,
- TSTIN_RESULTS_VALID
-};
-
-/**
-* PCM format options
-*/
-enum
-{
- PCM_8BIT,
- PCM_16BIT
-};
-
-/**
-* Abort if Line-in-use option
-*/
-enum
-{
- ABORT_LIU_DISABLED,
- ABORT_LIU_ENABLED
-};
-
-/**
-* Check for loop closure option
-*/
-enum
-{
- LCR_CHECK_DISABLED,
- LCR_CHECK_ENABLED
-};
-
-/**
-* Check for ringtrip option
-*/
-enum
-{
- RTP_CHECK_DISABLED,
- RTP_CHECK_ENABLED
-};
-
-
-/**
- * Defines generic test limit/value/status structure
- */
-typedef struct
-{
- int32 lowerLimit; /**< Lower test limit */
- int32 upperLimit; /**< Upper test limit */
- int32 value; /**< Numeric test result */
- uInt8 testResult; /**< 0 - Fail, 1 - pass */
-} proslicTestObj;
-
-/**
- * Defines structure for PCM Loopback Test
- */
-typedef struct
-{
- BOOLEAN testEnable; /**< Gate execution/updating of results with this flag */
- BOOLEAN pcmLpbkEnabled; /**< Indicates if test data is valid (1) or stale (0) */
- BOOLEAN pcm8BitLinear; /**< Set to use 8 bit linear mode (used if normally using ulaw or alaw) */
- uInt8 pcmModeSave; /**< Store entry PCMMODE value */
- uInt8 testResult; /**< OR of all test results in this structure */
-} proslicPcmLpbkTest;
-
-
-/**
- * Defines structure for DC Feed Test
- */
-typedef struct
-{
- BOOLEAN testEnable; /**< Gate execution/updating of results with this flag */
- BOOLEAN testDataValid; /**< Indicates if test data is valid (1) or stale (0) */
- BOOLEAN abortIfLineInUse; /**< Abort test if LCR set at the start of test. Leaves results invalid */
- BOOLEAN applyLcrThresh; /**< Apply alternate LCR thresholds to ensure LCR event occurs */
- uInt32
- altLcrOffThresh; /**< Optional LCROFFHK threshold to apply during test */
- uInt32 altLcrOnThresh; /**< Optional LCRONHK threshold to apply during test */
- BOOLEAN lcrStatus; /**< Indicates LCR status after applying test load */
- proslicTestObj dcfeedVtipOnhook; /**< On-hook VTIP test results */
- proslicTestObj dcfeedVringOnhook; /**< On-hook VRING test results */
- proslicTestObj dcfeedVloopOnhook; /**< On-hook VLOOP test results */
- proslicTestObj dcfeedVbatOnhook; /**< On-hook VBAT test results */
- proslicTestObj dcfeedItipOnhook; /**< On-hook ITIP test results */
- proslicTestObj dcfeedIringOnhook; /**< On-hook IRING test results */
- proslicTestObj dcfeedIloopOnhook; /**< On-hook ILOOP test results */
- proslicTestObj dcfeedIlongOnhook; /**< On-hook ILONG test results */
- proslicTestObj dcfeedVtipOffhook; /**< Off-hook VTIP test results */
- proslicTestObj dcfeedVringOffhook; /**< Off-hook VRING test results */
- proslicTestObj dcfeedVloopOffhook; /**< Off-hook VLOOP test results */
- proslicTestObj dcfeedVbatOffhook; /**< Off-hook VBAT test results */
- proslicTestObj dcfeedItipOffhook; /**< Off-hook ITIP test results */
- proslicTestObj dcfeedIringOffhook; /**< Off-hook IRING test results */
- proslicTestObj dcfeedIloopOffhook; /**< Off-hook ILOOP test results */
- proslicTestObj dcfeedIlongOffhook; /**< Off-hook ILONG test results */
- uInt8 testResult; /**< OR of all test results in this structure */
-} proslicDcFeedTest;
-
-
-/**
- * Defines structure for Ringing Test
- */
-typedef struct
-{
- BOOLEAN testEnable; /**< Gate execution/updating of results with this flag */
- BOOLEAN testDataValid; /**< Indicates if test data is valid (1) or stale (0) */
- BOOLEAN abortIfLineInUse; /**< Abort test if LCR set at the start of test. Leaves results invalid */
- uInt16 numSamples; /**< Number of samples taken */
- uInt8
- sampleInterval; /**< Sample interval (in ms - range 1 to 100) */
- BOOLEAN ringtripTestEnable; /**< Enable ringtrip test */
- BOOLEAN rtpStatus; /**< RTP Bit */
- proslicTestObj ringingVac; /**< Ringing AC Voltage test results */
- proslicTestObj ringingVdc; /**< Ringing DC Voltage test results */
- uInt8 testResult; /**< OR of all test results in this structure */
-} proslicRingingTest;
-
-/**
- * Defines structure for Battery Test
- */
-typedef struct
-{
- BOOLEAN testEnable; /**< Gate execution/updating of results with this flag */
- BOOLEAN testDataValid; /**< Indicates if test data is valid (1) or stale (0) */
- proslicTestObj vbat; /**< VBAT test results */
- uInt8 testResult; /**< OR of all test results in this structure */
-} proslicBatteryTest;
-
-/**
- * Defines structure for Audio Test
- */
-typedef struct
-{
- BOOLEAN testEnable; /**< Gate execution/updating of results with this flag */
- BOOLEAN testDataValid; /**< Indicates if test data is valid (1) or stale (0) */
- BOOLEAN abortIfLineInUse; /**< Abort test if LCR set at the start of test. Leaves results invalid */
- int32
- zerodBm_mVpk; /**< 0dBm voltage (in mVpk) of ref impedance */
- proslicTestObj txGain; /**< TX path gain test results */
- proslicTestObj rxGain; /**< RX path gain test results */
- uInt8 testResult; /**< OR of all test results in this structure */
-} proslicAudioTest;
-
-
-/**
- * Defines structure for all tests
- */
-typedef struct
-{
- proslicPcmLpbkTest pcmLpbkTest;
- proslicDcFeedTest dcFeedTest;
- proslicRingingTest ringingTest;
- proslicBatteryTest batteryTest;
- proslicAudioTest audioTest;
-} proslicTestInObjType;
-
-typedef proslicTestInObjType *proslicTestInObjType_ptr;
-
-
-/**
- * @brief
- * Allocate memory and initialize the given structure.
- *
- * @param[in,out] *pTstin - the structure to initialize
- * @param[in] num_objs - number of Testin structures to allocate.
- *
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- * @sa ProSLIC_DestroyTestInObjs
- */
-int ProSLIC_createTestInObjs(proslicTestInObjType_ptr *pTstin, uInt32 num_objs);
-#define ProSLIC_createTestInObj(X) ProSLIC_createTestInObjs((X),1)
-
-/**
- * @brief
- * Free memory reserved by the given structure.
- *
- * @param[in,out] *pTstin - the structure to initialize
- *
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-int ProSLIC_destroyTestInObjs(proslicTestInObjType_ptr *pTstin);
-#define ProSLIC_destroyTestInObj ProSLIC_destroyTestInObjs
-
-/**
- * @brief
- * Enable PCM loopback.
- *
- * @param[in] pProslic - channel data structure
- * @param[in,out] pTstin - all control, limits, and results
- *
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-int ProSLIC_testInPCMLpbkEnable(proslicChanType_ptr pProslic,
- proslicTestInObjType_ptr pTstin);
-
-
-/**
- * @brief
- * Disable PCM loopback.
- *
- * @param[in] pProslic - channel data structure
- * @param[in,out] pTstin - all control, limits, and results
- *
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-int ProSLIC_testInPCMLpbkDisable(proslicChanType_ptr pProslic,
- proslicTestInObjType_ptr pTstin);
-
-
-/**
- * @brief
- * DC Feed Test - the pTstin->dcFeedTest contains control, limits and test result information.
- *
- * @param[in] pProslic - channel data structure
- * @param[in,out] pTstin - all control, limits, and results
- *
- * @retval int - error from @ref errorCodeType
- * @retval RC_TEST_PASSED indicates test completed and passed
- * @retval RC_TEST_FAILED indicates test completed and failed
- * @retval RC_UNSUPPORTED_FEATURE indicates feature not supported on this device
- * @retval RC_TEST_DISABLED indicates test has not been initialized/enabled
- * @retval RC_LINE_IN_USE indicates LCS already set
- *
- */
-int ProSLIC_testInDCFeed(proslicChanType_ptr pProslic,
- proslicTestInObjType_ptr pTstin);
-
-
-/**
- * @brief
- * Ringing and Ringtrip Test
- *
- * @param[in] pProslic - channel data structure
- * @param[in,out] pTstin - all control, limits, and results
- *
- * @retval int - error from @ref errorCodeType
- * @retval RC_TEST_PASSED indicates test completed and passed
- * @retval RC_TEST_FAILED indicates test completed and failed
- * @retval RC_UNSUPPORTED_FEATURE indicates feature not supported on this device
- * @retval RC_TEST_DISABLED indicates test has not been initialized/enabled
- * @retval RC_LINE_IN_USE indicates LCS already set
- *
- */
-int ProSLIC_testInRinging(proslicChanType_ptr pProslic,
- proslicTestInObjType_ptr pTstin);
-
-/**
- * @brief
- * Battery Test -
- * pTstin contains both the configuration data and test results.
- * See **pTstin->batteryTest.testResult - Pass/Fail result
- *
- * @param[in] pProslic - channel data structure
- * @param[in,out] pTstin - configuration and test results
- *
- * @retval int - error from @ref errorCodeType
- * @retval RC_TEST_PASSED indicates test completed and passed
- * @retval RC_TEST_FAILED indicates test completed and failed
- * @retval RC_UNSUPPORTED_FEATURE indicates feature not supported on this device
- * @retval RC_TEST_DISABLED indicates test has not been initialized/enabled
- *
- */
-int ProSLIC_testInBattery(proslicChanType_ptr pProslic,
- proslicTestInObjType_ptr pTstin);
-
-/**
- * @brief
- * Audio level inward test. pTstin->audioTest contains all control, limits and results.
- *
- * @param[in] pProslic - channel data structure
- * @param[in,out] pTstin - all control, limits, and results
- *
- * @retval int - error from @ref errorCodeType
- * @retval RC_TEST_PASSED indicates test completed and passed
- * @retval RC_TEST_FAILED indicates test completed and failed
- * @retval RC_UNSUPPORTED_FEATURE indicates feature not supported on this device
- * @retval RC_TEST_DISABLED indicates test has not been initialized/enabled
- * @retval RC_LINE_IN_USE indicates LCS already set
- *
- */
-int ProSLIC_testInAudio(proslicChanType_ptr pProslic,
- proslicTestInObjType_ptr pTstin);
-
-/**
- * @brief
- * Initialize/Enable PCM Loopback Test. Links test config/limits
- * to inward test data structure.
- *
- * @param[in,out] pTstin->pcmLpbkTest - all control, limits, and results
- * @param[in] pcmLpbkTest - test config and limits to link to pTstin->pcmLpbkTest
- *
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-int ProSLIC_testInPcmLpbkSetup(proslicTestInObjType *pTstin,
- proslicPcmLpbkTest *pcmLpbkTest);
-
-/**
- * @brief
- * Initialize/Enable DC Feed Test. Links test config/limits
- * to inward test data structure.
- *
- * @param[in,out] pTstin->dcFeedTest - all control, limits, and results
- * @param[in] dcFeedTest - test config and limits to link to pTstin->dcFeedTest
- *
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-int ProSLIC_testInDcFeedSetup(proslicTestInObjType *pTstin,
- proslicDcFeedTest *dcFeedTest);
-
-/**
- * @brief
- * Initialize/Enable Ringing Test. Links test config/limits
- * to inward test data structure.
- *
- * @param[in,out] pTstin->ringingTest - all control, limits, and results
- * @param[in] ringingTest - test config and limits to link to pTstin->ringingTest
- *
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-int ProSLIC_testInRingingSetup(proslicTestInObjType *pTstin,
- proslicRingingTest *ringingTest);
-
-/**
- * @brief
- * Initialize/Enable Battery Test. Links test config/limits
- * to inward test data structure.
- *
- * @param[in,out] pTstin->batteryTest - all control, limits, and results
- * @param[in] batteryTest - test config and limits to link to pTstin->batteryTest
- *
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-int ProSLIC_testInBatterySetup(proslicTestInObjType *pTstin,
- proslicBatteryTest *batteryTest);
-
-/**
- * @brief
- * Initialize/Enable Audio Test. Links test config/limits
- * to inward test data structure.
- *
- * @param[in,out] pTstin->audioTest - all control, limits, and results
- * @param[in] audioTest - test config and limits to link to pTstin->audioTest
- *
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-int ProSLIC_testInAudioSetup(proslicTestInObjType *pTstin,
- proslicAudioTest *audioTest);
-
-
-/**
- * @brief
- * Debug utility to log presently loaded test limits
- *
- * @param[in] pProslic - channel data structure
- * @param[in] pTstin - inward test data structure
- *
- * @retval int - error from @ref errorCodeType
- * @retval RC_NONE indicates no error.
- * @retval RC_UNSUPPORTED_FEATURE indicates feature not supported on this device
- */
-int ProSLIC_testInPrintLimits(proslicChanType *pProslic,
- proslicTestInObjType *pTstin);
-
-/**
- * @brief
- * Provide a simulated offhook using the ProSLIC test load. You would call
- * this function twice: once to enable the simulated test load
- * (is_testStart = TRUE) and check if the upper layer correctly detected
- * the hook state change and possibly pass some audio. After you have
- * completed this test/check, you would call the same function again to
- * restore the system to normal state (is_testStart = FALSE).
- *
- * @note This test can only be executed one at a time. Running this on
- * multiple channels that have different DC Feed and digital control
- * settings will cause problems. If the all the channels have the
- * same settings, this restriction can be loosened.
- *
- *
- * @param[in] pProslic - channel data structure
- * @param[in] is_testStart - is the the start or end of test.
- * @param[in] timeDelayMsec - how may mSec to delay prior to returning from
- the function.
- *
- * @retval int - error from @ref errorCodeType
- * @retval RC_NONE indicates no error.
- * @retval RC_UNSUPPORTED_FEATURE indicates feature not supported on this device
- */
-
-int ProSLIC_testLoadTest(
- SiVoiceChanType_ptr pProslic,
- BOOLEAN is_testStart,
- uint32_t timeDelayMsec);
-
-/** @} PROSLIC_TSTIN */
-/** @} DIAGNOSTICS */
-#endif
-
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/si3218x.h b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/si3218x.h
deleted file mode 100644
index e2fd9d2..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/si3218x.h
+++ /dev/null
@@ -1,305 +0,0 @@
-/* SPDX-License-Identifier: GPL-2.0 */
-/*
- * Distributed by:
- * Silicon Laboratories, Inc
- *
- * This file contains proprietary information.
- * No dissemination allowed without prior written permission from
- * Silicon Laboratories, Inc.
- *
- */
-
-#ifndef SI3218XH_H
-#define SI3218XH_H
-
-#include "proslic.h"
-
-#define SI3218X_CHAN_PER_DEVICE 1
-
-
-/*
-** Calibration Constants
-*/
-
-#define SI3218X_CAL_STD_CALR1 0xC0
-#define SI3218X_CAL_STD_CALR2 0x18
-
-/* Timeouts in 10s of ms */
-#define SI3218X_TIMEOUT_DCDC_UP 200
-#define SI3218X_TIMEOUT_DCDC_DOWN 200
-
-
-/*
-** SI3218X DataTypes/Function Definitions
-*/
-
-
-typedef ProSLIC_DCfeed_Cfg Si3218x_DCfeed_Cfg;
-
-/*
-** Si3218x General Parameter Struct
-*/
-typedef struct
-{
- /* Flags */
- uInt8 device_key;
- bomOptionsType bom_option;
- vdcRangeType vdc_range;
- autoZcalType zcal_en;
- pmBomType pm_bom;
- /* Raw Parameters */
- ramData i_oithresh_lo;
- ramData i_oithresh_hi;
- ramData v_ovthresh;
- ramData v_uvthresh;
- ramData v_uvhyst;
- /* RAM Updates */
- ramData dcdc_fsw_vthlo;
- ramData dcdc_fsw_vhyst;
- ramData p_th_hvic;
- ramData coef_p_hvic;
- ramData bat_hyst;
- ramData
- vbath_expect; /* default - this is overwritten by dc feed preset */
- ramData
- vbatr_expect; /* default - this is overwritten by ring preset */
- ramData pwrsave_timer;
- ramData pwrsave_ofhk_thresh;
- ramData vbat_track_min; /* Same as DCDC_VREF_MIN */
- ramData vbat_track_min_rng; /* Same as DCDC_VREF_MIN_RNG */
- ramData dcdc_ana_scale;
- ramData therm_dbi;
- ramData vov_dcdc_slope;
- ramData vov_dcdc_os;
- ramData vov_ring_bat_dcdc;
- ramData vov_ring_bat_max;
- ramData dcdc_verr;
- ramData dcdc_verr_hyst;
- ramData pd_uvlo;
- ramData pd_ovlo;
- ramData pd_oclo;
- ramData pd_swdrv;
- ramData dcdc_uvpol;
- ramData dcdc_rngtype;
- ramData dcdc_ana_toff;
- ramData dcdc_ana_tonmin;
- ramData dcdc_ana_tonmax;
- uInt8 irqen1;
- uInt8 irqen2;
- uInt8 irqen3;
- uInt8 irqen4;
- uInt8 enhance;
- uInt8 auto_reg;
-} Si3218x_General_Cfg;
-
-/*
-** Defines structure for configuring pcm
-*/
-typedef struct
-{
- uInt8 pcmFormat;
- uInt8 widebandEn;
- uInt8 pcm_tri;
- uInt8 tx_edge;
- uInt8 alaw_inv;
-} Si3218x_PCM_Cfg;
-
-/*
-** Defines structure for configuring pulse metering
-*/
-typedef struct
-{
- ramData pm_amp_thresh;
- uInt8 pmFreq;
- uInt8 pmAuto;
- ramData pmActive;
- ramData pmInactive;
-} Si3218x_PulseMeter_Cfg;
-/*
-** Defines structure for configuring FSK generation
-*/
-typedef ProSLIC_FSK_Cfg Si3218x_FSK_Cfg;
-
-
-/*
-** Defines structure for configuring impedance synthesis
-*/
-typedef struct
-{
- ramData zsynth_b0;
- ramData zsynth_b1;
- ramData zsynth_b2;
- ramData zsynth_a1;
- ramData zsynth_a2;
- uInt8 ra;
-} Si3218x_Zsynth_Cfg;
-
-/*
-** Defines structure for configuring hybrid
-*/
-typedef struct
-{
- ramData ecfir_c2;
- ramData ecfir_c3;
- ramData ecfir_c4;
- ramData ecfir_c5;
- ramData ecfir_c6;
- ramData ecfir_c7;
- ramData ecfir_c8;
- ramData ecfir_c9;
- ramData ecfir_b0;
- ramData ecfir_b1;
- ramData ecfir_a1;
- ramData ecfir_a2;
-} Si3218x_hybrid_Cfg;
-
-/*
-** Defines structure for configuring GCI CI bits
-*/
-typedef struct
-{
- uInt8 gci_ci;
-} Si3218x_CI_Cfg;
-
-/*
-** Defines structure for configuring audio eq
-*/
-
-typedef struct
-{
- ramData txaceq_c0;
- ramData txaceq_c1;
- ramData txaceq_c2;
- ramData txaceq_c3;
-
- ramData rxaceq_c0;
- ramData rxaceq_c1;
- ramData rxaceq_c2;
- ramData rxaceq_c3;
-} Si3218x_audioEQ_Cfg;
-
-/*
-** Defines structure for configuring audio gain
-*/
-typedef ProSLIC_audioGain_Cfg Si3218x_audioGain_Cfg;
-
-
-
-typedef struct
-{
- Si3218x_audioEQ_Cfg audioEQ;
- Si3218x_hybrid_Cfg hybrid;
- Si3218x_Zsynth_Cfg zsynth;
- ramData txgain;
- ramData rxgain;
- ramData rxachpf_b0_1;
- ramData rxachpf_b1_1;
- ramData rxachpf_a1_1;
- int16 txgain_db; /*overall gain associated with this configuration*/
- int16 rxgain_db;
-} Si3218x_Impedance_Cfg;
-
-
-
-/*
-** Defines structure for configuring tone generator
-*/
-typedef ProSLIC_Tone_Cfg Si3218x_Tone_Cfg;
-
-/*
-** Defines structure for configuring ring generator
-*/
-typedef struct
-{
- ramData rtper;
- ramData freq;
- ramData amp;
- ramData phas;
- ramData offset;
- ramData slope_ring;
- ramData iring_lim;
- ramData rtacth;
- ramData rtdcth;
- ramData rtacdb;
- ramData rtdcdb;
- ramData vov_ring_bat;
- ramData vov_ring_gnd;
- ramData vbatr_expect;
- uInt8 talo;
- uInt8 tahi;
- uInt8 tilo;
- uInt8 tihi;
- ramData adap_ring_min_i;
- ramData counter_iring_val;
- ramData counter_vtr_val;
- ramData ar_const28;
- ramData ar_const32;
- ramData ar_const38;
- ramData ar_const46;
- ramData rrd_delay;
- ramData rrd_delay2;
- ramData dcdc_vref_min_rng;
- uInt8 ringcon;
- uInt8 userstat;
- ramData vcm_ring;
- ramData vcm_ring_fixed;
- ramData delta_vcm;
- ramData dcdc_rngtype;
-} Si3218x_Ring_Cfg;
-
-
-
-
-
-/*
-** Function: Si3218x_RevC_GenParamUpdate
-**
-** Description:
-** Update Si3218x general parameters and other required modifications
-** to default reg/ram values
-**
-** Returns:
-** int (error)
-**
-*/
-int Si3218x_GenParamUpdate(proslicChanType_ptr hProslic,initSeqType seq);
-
-
-/*
-** Function: Si3217x_RevC_SelectPatch
-**
-** Description:
-** Select appropriate patch based on general parameters
-**
-** Returns:
-** int (error)
-**
-*/
-int Si3218x_SelectPatch(proslicChanType_ptr hProslic,
- const proslicPatch **patch);
-
-/*
-** Function: Si3217x_RevC_ConverterSetup
-**
-** Description:
-** Program revision specific settings before powering converter
-**
-** Specifically, from general parameters and knowledge that this
-** is Rev C, setup dcff drive, gate drive polarity, and charge pump.
-**
-** Returns:
-** int (error)
-**
-*/
-int Si3218x_ConverterSetup(proslicChanType_ptr pProslic);
-
-/*
-** Function: Si3217x_RevC_PulseMeterSetup
-**
-** Description:
-** configure pulse metering
-*/
-int Si3218x_PulseMeterSetup (proslicChanType_ptr hProslic, int preset);
-
-#endif
-
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/si3218x_intf.h b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/si3218x_intf.h
deleted file mode 100644
index af9b057..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/si3218x_intf.h
+++ /dev/null
@@ -1,479 +0,0 @@
-/* SPDX-License-Identifier: GPL-2.0 */
-/*
- * Si3218x ProSLIC interface header file
- *
- * Distributed by:
- * Silicon Laboratories, Inc
- *
- * This file contains proprietary information.
- * No dissemination allowed without prior written permission from
- * Silicon Laboratories, Inc.
- *
- * File Description:
- * This is the header file for the ProSLIC driver.
- *
- *
- */
-
-#ifndef SI3218X_INTF_H
-#define SI3218X_INTF_H
-#include "si3218x.h"
-
-/* The following macros are for backward compatibility */
-#define Si3218x_LoadPatch ProSLIC_LoadPatch
-#define Si3218x_ReadHookStatus ProSLIC_ReadHookStatus
-#define Si3218x_DCFeedSetup(PCHAN, NDX) Si3218x_DCFeedSetupCfg((PCHAN),Si3218x_DCfeed_Presets, (NDX))
-#define Si3218x_VerifyPatch ProSLIC_VerifyPatch
-#define Si3218x_SetPowersaveMode ProSLIC_SetPowersaveMode
-#define Si3218x_Init(PCHAN, SZ) Si3218x_Init_with_Options((PCHAN), (SZ), INIT_NO_OPT)
-#define Si3218x_LoadRegTables ProSLIC_LoadRegTables
-#define Si3218x_VerifyControlInterface ProSLIC_VefifyControlInterface
-#define Si3218x_ShutdownChannel ProSLIC_PowerDownConverter
-#define Si3218x_PowerDownConverter ProSLIC_PowerDownConverter
-#define Si3218x_Calibrate ProSLIC_Calibrate
-#define Si3218x_SetLinefeedStatusBroadcast ProSLIC_SetLinefeedStatusBroadcast
-#define Si3218x_SetLinefeedStatus ProSLIC_SetLinefeedStatus
-#define Si3218x_MWIEnable ProSLIC_MWIEnable
-#define Si3218x_MWIDisable ProSLIC_MWIDisable
-#define Si3218x_SetMWIState ProSLIC_SetMWIState
-#define Si3218x_GetMWIState ProSLIC_GetMWIState
-#define Si3218x_MWISetup(PCHAN,VPK,LCR) ProSLIC_MWISetV(PCHAN,VPK)
-
-/* DC Feed */
-#ifndef DISABLE_DCFEED_SETUP
-extern Si3218x_DCfeed_Cfg Si3218x_DCfeed_Presets[];
-#endif
-
-/*
-**
-** PROSLIC INITIALIZATION FUNCTIONS
-**
-*/
-
-/*
-** Function: PROSLIC_Init_MultiBOM
-**
-** Description:
-** Initializes the ProSLIC w/ selected general parameters
-**
-** Input Parameters:
-** pProslic: pointer to PROSLIC object
-** size: number of channels
-** preset: General configuration preset
-**
-** Return:
-** none
-*/
-#ifdef SIVOICE_MULTI_BOM_SUPPORT
-int Si3218x_Init_MultiBOM (proslicChanType_ptr *hProslic,int size,int preset);
-#endif
-
-/*
-** Function: Si3218x_Init_with_Options
-**
-** Description:
-** Initializes the ProSLIC with an option.
-**
-** Input Parameters:
-** pProslic: pointer to PROSLIC object
-** size - number of continuous channels to initialize
-** init_opt - which initialization type to do.
-**
-** Return:
-** none
-*/
-int Si3218x_Init_with_Options (proslicChanType_ptr *pProslic, int size,
- initOptionsType init_opt);
-
-/*
-** Function: PROSLIC_VerifyControlInterface
-**
-** Description:
-** Verify SPI port read capabilities
-**
-** Input Parameters:
-** pProslic: pointer to PROSLIC object
-**
-** Return:
-** none
-*/
-int Si3218x_VerifyControlInterface (proslicChanType_ptr hProslic);
-
-/*
-** Function: Si3218x_PowerUpConverter
-**
-** Description:
-** Powers all DC/DC converters sequentially with delay to minimize
-** peak power draw on VDC.
-**
-** Returns:
-** int (error)
-**
-*/
-int Si3218x_PowerUpConverter(proslicChanType_ptr hProslic);
-
-/*
-** Function: Si3218x_PowerDownConverter
-**
-** Description:
-** Power down DCDC converter (selected channel only)
-**
-** Returns:
-** int (error)
-**
-*/
-int Si3218x_PowerDownConverter(proslicChanType_ptr hProslic);
-
-/*
-** Function: PROSLIC_EnableInterrupts
-**
-** Description:
-** Enables interrupts
-**
-** Input Parameters:
-** hProslic: pointer to Proslic object
-**
-** Return:
-**
-*/
-int Si3218x_EnableInterrupts (proslicChanType_ptr hProslic);
-
-/*
-**
-** PROSLIC CONFIGURATION FUNCTIONS
-**
-*/
-
-/*
-** Function: PROSLIC_RingSetup
-**
-** Description:
-** configure ringing
-**
-** Input Parameters:
-** pProslic: pointer to Proslic object
-** pRingSetup: pointer to ringing config structure
-**
-** Return:
-** none
-*/
-int Si3218x_RingSetup (proslicChanType *pProslic, int preset);
-
-/*
-** Function: PROSLIC_ZsynthSetup
-**
-** Description:
-** configure impedance synthesis
-**
-** Input Parameters:
-** pProslic: pointer to Proslic object
-** pZynth: pointer to zsynth config structure
-**
-** Return:
-** none
-*/
-int Si3218x_ZsynthSetup (proslicChanType *pProslic, int preset);
-
-/*
-** Function: PROSLIC_AudioGainSetup
-**
-** Description:
-** configure audio gains
-**
-** Input Parameters:
-** pProslic: pointer to Proslic object
-** preset: impedance preset to scale
-**
-** Return:
-** none
-*/
-int Si3218x_TXAudioGainSetup (proslicChanType *pProslic, int preset);
-int Si3218x_RXAudioGainSetup (proslicChanType *pProslic, int preset);
-#define Si3218x_AudioGainSetup ProSLIC_AudioGainSetup
-
-/*
-** Function: PROSLIC_TXAudioGainScale
-**
-** Description:
-** configure audio gains
-**
-** Input Parameters:
-** pProslic: pointer to Proslic object
-** preset: pointer to audio gains config structure
-** pga_scale: pga_scaling constant
-** eq_scale: equalizer scaling constant
-**
-** Return:
-** none
-*/
-int Si3218x_TXAudioGainScale (proslicChanType *pProslic, int preset,
- uInt32 pga_scale, uInt32 eq_scale);
-
-/*
-** Function: PROSLIC_RXAudioGainScale
-**
-** Description:
-** configure audio gains
-**
-** Input Parameters:
-** pProslic: pointer to Proslic object
-** preset: pointer to audio gains config structure
-** pga_scale: pga_scaling constant
-** eq_scale: equalizer scaling constant
-**
-** Return:
-** none
-*/
-int Si3218x_RXAudioGainScale (proslicChanType *pProslic, int preset,
- uInt32 pga_scale, uInt32 eq_scale);
-
-/*
-** Function: PROSLIC_AudioEQSetup
-**
-** Description:
-** configure audio equalizers
-**
-** Input Parameters:
-** pProslic: pointer to Proslic object
-** pAudioEQ: pointer to ringing config structure
-**
-** Return:
-** none
-*/
-int Si3218x_AudioEQSetup (proslicChanType *pProslic, int preset);
-
-/*
-** Function: PROSLIC_DCFeedSetup
-**
-** Description:
-** configure dc feed
-**
-** Input Parameters:
-** pProslic: pointer to Proslic object
-** pDcFeed: pointer to dc feed config structure
-**
-** Return:
-** none
-*/
-int Si3218x_DCFeedSetupCfg (proslicChanType *pProslic, ProSLIC_DCfeed_Cfg *cfg,
- int preset);
-
-/*
-** Function: PROSLIC_PCMSetup
-**
-** Description:
-** configure pcm
-**
-** Input Parameters:
-** pProslic: pointer to Proslic object
-** pPcm: pointer to pcm config structure
-**
-** Return:
-** none
-*/
-int Si3218x_PCMSetup(proslicChanType *pProslic, int preset);
-
-/*
-**
-** PROSLIC CONTROL FUNCTIONS
-**
-*/
-
-/*
-** Function: PROSLIC_GetInterrupts
-**
-** Description:
-** Enables interrupts
-**
-** Input Parameters:
-** hProslic: pointer to Proslic object
-** pIntData: pointer to interrupt info retrieved
-**
-** Return:
-**
-*/
-int Si3218x_GetInterrupts (proslicChanType_ptr hProslic,
- proslicIntType *pIntData);
-
-/*
-** Function: PROSLIC_PulseMeterSetup
-**
-** Description:
-** configure pulse metering
-**
-** Input Parameters:
-** pProslic: pointer to Proslic object
-** pPulseCfg: pointer to pulse metering config structure
-**
-** Return:
-** none
-*/
-int Si3218x_PulseMeterSetup (proslicChanType *pProslic, int preset);
-
-/*
-** Function: PROSLIC_dbgSetDCFeed
-**
-** Description:
-** provision function for setting up
-** dcfeed given desired open circuit voltage
-** and loop current.
-*/
-int Si3218x_dbgSetDCFeed (proslicChanType *pProslic, uInt32 v_vlim_val,
- uInt32 i_ilim_val, int32 preset);
-
-/*
-** Function: PROSLIC_dbgSetDCFeedVopen
-**
-** Description:
-** provision function for setting up
-** dcfeed given desired open circuit voltage
-** and loop current.
-*/
-int Si3218x_dbgSetDCFeedVopen (proslicChanType *pProslic, uInt32 v_vlim_val,
- int32 preset);
-
-
-/*
-** Function: PROSLIC_dbgSetDCFeedIloop
-**
-** Description:
-** provision function for setting up
-** dcfeed given desired open circuit voltage
-** and loop current.
-*/
-int Si3218x_dbgSetDCFeedIloop (proslicChanType *pProslic, uInt32 i_ilim_val,
- int32 preset);
-
-
-/*
-** Function: PROSLIC_dbgRingingSetup
-**
-** Description:
-** Provision function for setting up
-** Ring type, frequency, amplitude and dc offset.
-** Main use will be by peek/poke applications.
-*/
-int Si3218x_dbgSetRinging (proslicChanType *pProslic,
- ProSLIC_dbgRingCfg *ringCfg, int preset);
-
-/*
-** Function: PROSLIC_dbgSetRXGain
-**
-** Description:
-** Provision function for setting up
-** RX path gain.
-*/
-int Si3218x_dbgSetRXGain (proslicChanType *pProslic, int32 gain,
- int impedance_preset, int audio_gain_preset);
-
-/*
-** Function: PROSLIC_dbgSetTXGain
-**
-** Description:
-** Provision function for setting up
-** TX path gain.
-*/
-int Si3218x_dbgSetTXGain (proslicChanType *pProslic, int32 gain,
- int impedance_preset, int audio_gain_preset);
-
-
-/*
-** Function: PROSLIC_LineMonitor
-**
-** Description:
-** Monitor line voltages and currents
-*/
-int Si3218x_LineMonitor(proslicChanType *pProslic, proslicMonitorType *monitor);
-
-
-/*
-** Function: PROSLIC_PSTNCheck
-**
-** Description:
-** Continuous monitor of ilong to detect hot pstn line
-*/
-int Si3218x_PSTNCheck(proslicChanType *pProslic,
- proslicPSTNCheckObjType *pstnCheckObj);
-
-
-/*
-** Function: PROSLIC_PSTNCheck
-**
-** Description:
-** Continuous monitor of ilong to detect hot pstn line
-*/
-int Si3218x_DiffPSTNCheck(proslicChanType *pProslic,
- proslicDiffPSTNCheckObjType *pstnCheckObj);
-
-/*
-** Function: PROSLIC_ReadMADCScaled
-**
-** Description:
-** Read MADC (or other sensed voltages/currents) and
-** return scaled value in int32 format
-*/
-int32 Si3218x_ReadMADCScaled(proslicChanType_ptr pProslic, uInt16 addr,
- int32 scale);
-
-/*
-** Function: Si3218x_GenParamUpdate
-**
-** Description:
-** Update Si3218x general parameters and other required modifications
-** to default reg/ram values
-**
-** Returns:
-** int (error)
-**
-*/
-int Si3218x_GenParamUpdate(proslicChanType_ptr hProslic,initSeqType seq);
-
-
-/*
-** Function: Si3218x_SelectPatch
-**
-** Description:
-** Select appropriate patch based on general parameters
-**
-** Returns:
-** int (error)
-**
-*/
-int Si3218x_SelectPatch(proslicChanType_ptr hProslic,
- const proslicPatch **patch);
-
-/*
-** Function: Si3218x_ConverterSetup
-**
-** Description:
-** Program revision specific settings before powering converter
-**
-** Specifically, from general parameters and knowledge that this
-** is Rev C, setup dcff drive, gate drive polarity, and charge pump.
-**
-** Returns:
-** int (error)
-**
-*/
-int Si3218x_ConverterSetup(proslicChanType_ptr pProslic);
-
-/*
-** Function: Si3218x8_PulseMeterSetup
-**
-** Description:
-** configure pulse metering
-*/
-int Si3218x_PulseMeterSetup (proslicChanType_ptr hProslic, int preset);
-
-
-/*
-** Function: Si3218x_GetChipInfo
-** Description: Returns the specific chipset in the Si3218x family.
-** Input parameters: channel pointer
-** output: either RC_SPI_FAIL or RC_NONE. channel pointer deviceId will be updated.
-**/
-int Si3218x_GetChipInfo(proslicChanType_ptr pProslic);
-
-
-#endif
-
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/si3218x_registers.h b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/si3218x_registers.h
deleted file mode 100644
index 2812803..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/si3218x_registers.h
+++ /dev/null
@@ -1,1518 +0,0 @@
-/* SPDX-License-Identifier: GPL-2.0 */
-/*
- * Distributed by:
- * Silicon Laboratories, Inc
- *
- * This file contains proprietary information.
- * No dissemination allowed without prior written permission from
- * Silicon Laboratories, Inc.
- */
-
-#ifndef SI3218X_REGS_H
-#define SI3218X_REGS_H
-
-/*
-** SI3218X SPI Registers
-*/
-enum SI3218X_REG
-{
- SI3218X_REG_ID = 0,
- SI3218X_REG_RESET = 1,
- SI3218X_REG_MSTREN = 2,
- SI3218X_REG_MSTRSTAT = 3,
- SI3218X_REG_RAMSTAT = 4,
- SI3218X_REG_RAM_ADDR_HI = 5,
- SI3218X_REG_RAM_DATA_B0 = 6,
- SI3218X_REG_RAM_DATA_B1 = 7,
- SI3218X_REG_RAM_DATA_B2 = 8,
- SI3218X_REG_RAM_DATA_B3 = 9,
- SI3218X_REG_RAM_ADDR_LO = 10,
- SI3218X_REG_PCMMODE = 11,
- SI3218X_REG_PCMTXLO = 12,
- SI3218X_REG_PCMTXHI = 13,
- SI3218X_REG_PCMRXLO = 14,
- SI3218X_REG_PCMRXHI = 15,
- SI3218X_REG_IRQ = 16,
- SI3218X_REG_IRQ0 = 17,
- SI3218X_REG_IRQ1 = 18,
- SI3218X_REG_IRQ2 = 19,
- SI3218X_REG_IRQ3 = 20,
- SI3218X_REG_IRQ4 = 21,
- SI3218X_REG_IRQEN1 = 22,
- SI3218X_REG_IRQEN2 = 23,
- SI3218X_REG_IRQEN3 = 24,
- SI3218X_REG_IRQEN4 = 25,
- SI3218X_REG_CALR0 = 26,
- SI3218X_REG_CALR1 = 27,
- SI3218X_REG_CALR2 = 28,
- SI3218X_REG_CALR3 = 29,
- SI3218X_REG_LINEFEED = 30,
- SI3218X_REG_POLREV = 31,
- SI3218X_REG_SPEEDUP_DIS = 32,
- SI3218X_REG_SPEEDUP = 33,
- SI3218X_REG_LCRRTP = 34,
- SI3218X_REG_OFFLOAD = 35,
- SI3218X_REG_BATSELMAP = 36,
- SI3218X_REG_BATSEL = 37,
- SI3218X_REG_RINGCON = 38,
- SI3218X_REG_RINGTALO = 39,
- SI3218X_REG_RINGTAHI = 40,
- SI3218X_REG_RINGTILO = 41,
- SI3218X_REG_RINGTIHI = 42,
- SI3218X_REG_LOOPBACK = 43,
- SI3218X_REG_DIGCON = 44,
- SI3218X_REG_RA = 45,
- SI3218X_REG_ZCAL_EN = 46,
- SI3218X_REG_ENHANCE = 47,
- SI3218X_REG_OMODE = 48,
- SI3218X_REG_OCON = 49,
- SI3218X_REG_O1TALO = 50,
- SI3218X_REG_O1TAHI = 51,
- SI3218X_REG_O1TILO = 52,
- SI3218X_REG_O1TIHI = 53,
- SI3218X_REG_O2TALO = 54,
- SI3218X_REG_O2TAHI = 55,
- SI3218X_REG_O2TILO = 56,
- SI3218X_REG_O2TIHI = 57,
- SI3218X_REG_FSKDAT = 58,
- SI3218X_REG_FSKDEPTH = 59,
- SI3218X_REG_TONDTMF = 60,
- SI3218X_REG_TONDET = 61,
- SI3218X_REG_TONEN = 62,
- SI3218X_REG_GCI_CI = 63,
- SI3218X_REG_GLOBSTAT1 = 64,
- SI3218X_REG_GLOBSTAT2 = 65,
- SI3218X_REG_USERSTAT = 66,
- SI3218X_REG_GPIO_CFG1 = 68,
- SI3218X_REG_DIAG1 = 71,
- SI3218X_REG_DIAG2 = 72,
- SI3218X_REG_CM_CLAMP = 73,
- SI3218X_REG_DIAG3 = 74,
- SI3218X_REG_PMCON = 75,
- SI3218X_REG_PCLK_FAULT_CNTL = 76,
- SI3218X_REG_AUTO = 80,
- SI3218X_REG_JMPEN = 81,
- SI3218X_REG_JMP0LO = 82,
- SI3218X_REG_JMP0HI = 83,
- SI3218X_REG_JMP1LO = 84,
- SI3218X_REG_JMP1HI = 85,
- SI3218X_REG_JMP2LO = 86,
- SI3218X_REG_JMP2HI = 87,
- SI3218X_REG_JMP3LO = 88,
- SI3218X_REG_JMP3HI = 89,
- SI3218X_REG_JMP4LO = 90,
- SI3218X_REG_JMP4HI = 91,
- SI3218X_REG_JMP5LO = 92,
- SI3218X_REG_JMP5HI = 93,
- SI3218X_REG_JMP6LO = 94,
- SI3218X_REG_JMP6HI = 95,
- SI3218X_REG_JMP7LO = 96,
- SI3218X_REG_JMP7HI = 97,
- SI3218X_REG_PDN = 98,
- SI3218X_REG_PDN_STAT = 99,
- SI3218X_REG_PDN2 = 100,
- SI3218X_REG_PDN2_STAT = 101,
- SI3218X_REG_M1_OSC_LO = 112,
- SI3218X_REG_M1_OSC_HI = 113,
- SI3218X_REG_BITCNT_LO = 114,
- SI3218X_REG_BITCNT_HI = 115,
- SI3218X_REG_PCLK_MULT = 116,
- SI3218X_REG_RAM_DATA_16 = 117,
- SI3218X_REG_BYPASS_ADDR_LO = 118,
- SI3218X_REG_BYPASS_ADDR_HI = 119,
- SI3218X_REG_PC_LO = 120,
- SI3218X_REG_PC_HI = 121,
- SI3218X_REG_PC_SHAD_LO = 122,
- SI3218X_REG_PC_SHAD_HI = 123,
- SI3218X_REG_PASS_LO = 124,
- SI3218X_REG_PASS_HI = 125,
- SI3218X_REG_TEST_CNTL = 126,
- SI3218X_REG_TEST_MODE = 127,
-};
-
-/*
-** SI3218X_RAM
-*/
-enum SI3218X_RAM
-{
- SI3218X_RAM_IRNGNG_SENSE = 0,
- SI3218X_RAM_MADC_VTIPC = 1,
- SI3218X_RAM_MADC_VRINGC = 2,
- SI3218X_RAM_MADC_VBAT = 3,
- SI3218X_RAM_MADC_VLONG = 4,
- SI3218X_RAM_UNUSED5 = 5,
- SI3218X_RAM_MADC_VDC = 6,
- SI3218X_RAM_MADC_ILONG = 7,
- SI3218X_RAM_MADC_ITIP = 8,
- SI3218X_RAM_MADC_IRING = 9,
- SI3218X_RAM_MADC_ILOOP = 10,
- SI3218X_RAM_VDIFF_SENSE = 11,
- SI3218X_RAM_VTIP = 12,
- SI3218X_RAM_VRING = 13,
- SI3218X_RAM_P_Q1_D = 14,
- SI3218X_RAM_INIT_GUESS = 15,
- SI3218X_RAM_Y1 = 16,
- SI3218X_RAM_Y2 = 17,
- SI3218X_RAM_Y3 = 18,
- SI3218X_RAM_UNUSED19 = 19,
- SI3218X_RAM_P_Q1 = 20,
- SI3218X_RAM_DIAG_EX1 = 21,
- SI3218X_RAM_DIAG_EX2 = 22,
- SI3218X_RAM_DIAG_LPF_MADC = 23,
- SI3218X_RAM_DIAG_DMM_I = 24,
- SI3218X_RAM_DIAG_DMM_V = 25,
- SI3218X_RAM_OSC1FREQ = 26,
- SI3218X_RAM_OSC1AMP = 27,
- SI3218X_RAM_OSC1PHAS = 28,
- SI3218X_RAM_OSC2FREQ = 29,
- SI3218X_RAM_OSC2AMP = 30,
- SI3218X_RAM_OSC2PHAS = 31,
- SI3218X_RAM_TESTB0_1 = 32,
- SI3218X_RAM_TESTB1_1 = 33,
- SI3218X_RAM_TESTB2_1 = 34,
- SI3218X_RAM_TESTA1_1 = 35,
- SI3218X_RAM_TESTA2_1 = 36,
- SI3218X_RAM_TESTB0_2 = 37,
- SI3218X_RAM_TESTB1_2 = 38,
- SI3218X_RAM_TESTB2_2 = 39,
- SI3218X_RAM_TESTA1_2 = 40,
- SI3218X_RAM_TESTA2_2 = 41,
- SI3218X_RAM_TESTB0_3 = 42,
- SI3218X_RAM_TESTB1_3 = 43,
- SI3218X_RAM_TESTB2_3 = 44,
- SI3218X_RAM_TESTA1_3 = 45,
- SI3218X_RAM_TESTA2_3 = 46,
- SI3218X_RAM_TESTPKO = 47,
- SI3218X_RAM_TESTABO = 48,
- SI3218X_RAM_TESTWLN = 49,
- SI3218X_RAM_TESTAVBW = 50,
- SI3218X_RAM_TESTPKFL = 51,
- SI3218X_RAM_TESTAVFL = 52,
- SI3218X_RAM_TESTPKTH = 53,
- SI3218X_RAM_TESTAVTH = 54,
- SI3218X_RAM_DAC_IN_SYNC1 = 55,
- SI3218X_RAM_BYPASS_REG = 56,
- SI3218X_RAM_LCRMASK_CNT = 57,
- SI3218X_RAM_DAC_IN_SYNC = 58,
- SI3218X_RAM_TEMP = 59,
- SI3218X_RAM_TEMP_ISR = 60,
- SI3218X_RAM_P_Q2 = 61,
- SI3218X_RAM_P_Q3 = 62,
- SI3218X_RAM_P_Q4 = 63,
- SI3218X_RAM_P_Q5 = 64,
- SI3218X_RAM_P_Q6 = 65,
- SI3218X_RAM_ILOOP_FILT = 66,
- SI3218X_RAM_ILONG_FILT = 67,
- SI3218X_RAM_VBAT_FILT = 68,
- SI3218X_RAM_VDIFF_FILT = 69,
- SI3218X_RAM_VCM_FILT = 70,
- SI3218X_RAM_VBAT_CNT = 71,
- SI3218X_RAM_V_VLIM_SCALED = 72,
- SI3218X_RAM_V_VLIM_TRACK = 73,
- SI3218X_RAM_V_VLIM_MODFEED = 74,
- SI3218X_RAM_DIAG_P_OUT = 75,
- SI3218X_RAM_DIAG_COUNT = 76,
- SI3218X_RAM_ROW0_MAG = 77,
- SI3218X_RAM_ROW1_MAG = 78,
- SI3218X_RAM_ROW2_MAG = 79,
- SI3218X_RAM_ROW3_MAG = 80,
- SI3218X_RAM_COL0_MAG = 81,
- SI3218X_RAM_COL1_MAG = 82,
- SI3218X_RAM_COL2_MAG = 83,
- SI3218X_RAM_COL3_MAG = 84,
- SI3218X_RAM_ROW0_2ND_Y1 = 85,
- SI3218X_RAM_ROW1_2ND_Y1 = 86,
- SI3218X_RAM_ROW2_2ND_Y1 = 87,
- SI3218X_RAM_ROW3_2ND_Y1 = 88,
- SI3218X_RAM_COL0_2ND_Y1 = 89,
- SI3218X_RAM_COL1_2ND_Y1 = 90,
- SI3218X_RAM_COL2_2ND_Y1 = 91,
- SI3218X_RAM_COL3_2ND_Y1 = 92,
- SI3218X_RAM_ROW0_2ND_Y2 = 93,
- SI3218X_RAM_ROW1_2ND_Y2 = 94,
- SI3218X_RAM_ROW2_2ND_Y2 = 95,
- SI3218X_RAM_ROW3_2ND_Y2 = 96,
- SI3218X_RAM_COL0_2ND_Y2 = 97,
- SI3218X_RAM_COL1_2ND_Y2 = 98,
- SI3218X_RAM_COL2_2ND_Y2 = 99,
- SI3218X_RAM_COL3_2ND_Y2 = 100,
- SI3218X_RAM_DTMF_IN = 101,
- SI3218X_RAM_DTMFDTF_D2_1 = 102,
- SI3218X_RAM_DTMFDTF_D1_1 = 103,
- SI3218X_RAM_DTMFDTF_OUT_1 = 104,
- SI3218X_RAM_DTMFDTF_D2_2 = 105,
- SI3218X_RAM_DTMFDTF_D1_2 = 106,
- SI3218X_RAM_DTMFDTF_OUT_2 = 107,
- SI3218X_RAM_DTMFDTF_D2_3 = 108,
- SI3218X_RAM_DTMFDTF_D1_3 = 109,
- SI3218X_RAM_DTMFDTF_OUT_3 = 110,
- SI3218X_RAM_DTMFDTF_OUT = 111,
- SI3218X_RAM_DTMFLPF_D2_1 = 112,
- SI3218X_RAM_DTMFLPF_D1_1 = 113,
- SI3218X_RAM_DTMFLPF_OUT_1 = 114,
- SI3218X_RAM_DTMFLPF_D2_2 = 115,
- SI3218X_RAM_DTMFLPF_D1_2 = 116,
- SI3218X_RAM_DTMFLPF_OUT_2 = 117,
- SI3218X_RAM_DTMF_ROW = 118,
- SI3218X_RAM_DTMFHPF_D2_1 = 119,
- SI3218X_RAM_DTMFHPF_D1_1 = 120,
- SI3218X_RAM_DTMFHPF_OUT_1 = 121,
- SI3218X_RAM_DTMFHPF_D2_2 = 122,
- SI3218X_RAM_DTMFHPF_D1_2 = 123,
- SI3218X_RAM_DTMFHPF_OUT_2 = 124,
- SI3218X_RAM_DTMF_COL = 125,
- SI3218X_RAM_ROW_POWER = 126,
- SI3218X_RAM_COL_POWER = 127,
- SI3218X_RAM_GP_TIMER = 128,
- SI3218X_RAM_SPR_INTERP_DIF = 129,
- SI3218X_RAM_SPR_INTERP_DIF_OUT = 130,
- SI3218X_RAM_SPR_INTERP_INT = 131,
- SI3218X_RAM_SPR_CNT = 132,
- SI3218X_RAM_ROW0_Y1 = 133,
- SI3218X_RAM_ROW0_Y2 = 134,
- SI3218X_RAM_ROW1_Y1 = 135,
- SI3218X_RAM_ROW1_Y2 = 136,
- SI3218X_RAM_ROW2_Y1 = 137,
- SI3218X_RAM_ROW2_Y2 = 138,
- SI3218X_RAM_ROW3_Y1 = 139,
- SI3218X_RAM_ROW3_Y2 = 140,
- SI3218X_RAM_COL0_Y1 = 141,
- SI3218X_RAM_COL0_Y2 = 142,
- SI3218X_RAM_COL1_Y1 = 143,
- SI3218X_RAM_COL1_Y2 = 144,
- SI3218X_RAM_COL2_Y1 = 145,
- SI3218X_RAM_COL2_Y2 = 146,
- SI3218X_RAM_COL3_Y1 = 147,
- SI3218X_RAM_COL3_Y2 = 148,
- SI3218X_RAM_ROWMAX_MAG = 149,
- SI3218X_RAM_COLMAX_MAG = 150,
- SI3218X_RAM_ROW0_2ND_MAG = 151,
- SI3218X_RAM_COL0_2ND_MAG = 152,
- SI3218X_RAM_ROW_THR = 153,
- SI3218X_RAM_COL_THR = 154,
- SI3218X_RAM_OSC1_Y = 155,
- SI3218X_RAM_OSC2_Y = 156,
- SI3218X_RAM_OSC1_X = 157,
- SI3218X_RAM_OSC1_COEFF = 158,
- SI3218X_RAM_OSC2_X = 159,
- SI3218X_RAM_OSC2_COEFF = 160,
- SI3218X_RAM_RXACIIR_D2_1 = 161,
- SI3218X_RAM_RXACIIR_OUT_1 = 162,
- SI3218X_RAM_RXACIIR_D2_2 = 163,
- SI3218X_RAM_RXACIIR_D1_2 = 164,
- SI3218X_RAM_RXACIIR_OUT_2 = 165,
- SI3218X_RAM_RXACIIR_D2_3 = 166,
- SI3218X_RAM_RXACIIR_D1_3 = 167,
- SI3218X_RAM_RXACIIR_OUT = 168,
- SI3218X_RAM_RXACIIR_OUT_3 = 169,
- SI3218X_RAM_TXACCOMB_D1 = 170,
- SI3218X_RAM_TXACCOMB_D2 = 171,
- SI3218X_RAM_TXACCOMB_D3 = 172,
- SI3218X_RAM_TXACSINC_OUT = 173,
- SI3218X_RAM_TXACHPF_D1_2 = 174,
- SI3218X_RAM_TXACHPF_D2_1 = 175,
- SI3218X_RAM_TXACHPF_D2_2 = 176,
- SI3218X_RAM_TXACHPF_OUT = 177,
- SI3218X_RAM_TXACHPF_OUT_1 = 178,
- SI3218X_RAM_TXACHPF_OUT_2 = 179,
- SI3218X_RAM_TXACIIR_D2_1 = 180,
- SI3218X_RAM_TXACIIR_OUT_1 = 181,
- SI3218X_RAM_TXACIIR_D2_2 = 182,
- SI3218X_RAM_TXACIIR_D1_2 = 183,
- SI3218X_RAM_TXACIIR_OUT_2 = 184,
- SI3218X_RAM_TXACIIR_D2_3 = 185,
- SI3218X_RAM_TXACIIR_D1_3 = 186,
- SI3218X_RAM_TXACIIR_OUT_3 = 187,
- SI3218X_RAM_TXACIIR_OUT = 188,
- SI3218X_RAM_ECIIR_D1 = 189,
- SI3218X_RAM_ECIIR_D2 = 190,
- SI3218X_RAM_EC_DELAY1 = 191,
- SI3218X_RAM_EC_DELAY2 = 192,
- SI3218X_RAM_EC_DELAY3 = 193,
- SI3218X_RAM_EC_DELAY4 = 194,
- SI3218X_RAM_EC_DELAY5 = 195,
- SI3218X_RAM_EC_DELAY6 = 196,
- SI3218X_RAM_EC_DELAY7 = 197,
- SI3218X_RAM_EC_DELAY8 = 198,
- SI3218X_RAM_EC_DELAY9 = 199,
- SI3218X_RAM_EC_DELAY10 = 200,
- SI3218X_RAM_EC_DELAY11 = 201,
- SI3218X_RAM_ECHO_EST = 202,
- SI3218X_RAM_EC_OUT = 203,
- SI3218X_RAM_TESTFILT_OUT_1 = 204,
- SI3218X_RAM_TESTFILT_D1_1 = 205,
- SI3218X_RAM_TESTFILT_D2_1 = 206,
- SI3218X_RAM_TESTFILT_OUT_2 = 207,
- SI3218X_RAM_TESTFILT_D1_2 = 208,
- SI3218X_RAM_TESTFILT_D2_2 = 209,
- SI3218X_RAM_TESTFILT_OUT_3 = 210,
- SI3218X_RAM_TESTFILT_D1_3 = 211,
- SI3218X_RAM_TESTFILT_D2_3 = 212,
- SI3218X_RAM_TESTFILT_PEAK = 213,
- SI3218X_RAM_TESTFILT_ABS = 214,
- SI3218X_RAM_TESTFILT_MEANACC = 215,
- SI3218X_RAM_TESTFILT_COUNT = 216,
- SI3218X_RAM_TESTFILT_NO_OFFSET = 217,
- SI3218X_RAM_RING_X = 218,
- SI3218X_RAM_RING_Y = 219,
- SI3218X_RAM_RING_INT = 220,
- SI3218X_RAM_RING_Y_D1 = 221,
- SI3218X_RAM_RING_DIFF = 222,
- SI3218X_RAM_RING_DELTA = 223,
- SI3218X_RAM_WTCHDOG_CNT = 224,
- SI3218X_RAM_RING_WAVE = 225,
- SI3218X_RAM_UNUSED226 = 226,
- SI3218X_RAM_ONEKHZ_COUNT = 227,
- SI3218X_RAM_TX2100_Y1 = 228,
- SI3218X_RAM_TX2100_Y2 = 229,
- SI3218X_RAM_TX2100_MAG = 230,
- SI3218X_RAM_RX2100_Y1 = 231,
- SI3218X_RAM_RX2100_Y2 = 232,
- SI3218X_RAM_RX2100_MAG = 233,
- SI3218X_RAM_TX2100_POWER = 234,
- SI3218X_RAM_RX2100_POWER = 235,
- SI3218X_RAM_TX2100_IN = 236,
- SI3218X_RAM_RX2100_IN = 237,
- SI3218X_RAM_RINGTRIP_COUNT = 238,
- SI3218X_RAM_RINGTRIP_DC1 = 239,
- SI3218X_RAM_RINGTRIP_DC2 = 240,
- SI3218X_RAM_RINGTRIP_AC1 = 241,
- SI3218X_RAM_RINGTRIP_AC2 = 242,
- SI3218X_RAM_RINGTRIP_AC_COUNT = 243,
- SI3218X_RAM_RINGTRIP_DC_COUNT = 244,
- SI3218X_RAM_RINGTRIP_AC_RESULT = 245,
- SI3218X_RAM_RINGTRIP_DC_RESULT = 246,
- SI3218X_RAM_RINGTRIP_ABS = 247,
- SI3218X_RAM_TXACEQ_OUT = 248,
- SI3218X_RAM_LCR_DBI_CNT = 249,
- SI3218X_RAM_BAT_DBI_CNT = 250,
- SI3218X_RAM_LONG_DBI_CNT = 251,
- SI3218X_RAM_TXACEQ_DELAY3 = 252,
- SI3218X_RAM_TXACEQ_DELAY2 = 253,
- SI3218X_RAM_TXACEQ_DELAY1 = 254,
- SI3218X_RAM_RXACEQ_DELAY3 = 255,
- SI3218X_RAM_RXACEQ_DELAY2 = 256,
- SI3218X_RAM_RXACEQ_DELAY1 = 257,
- SI3218X_RAM_RXACEQ_IN = 258,
- SI3218X_RAM_TXDCCOMB_D1 = 259,
- SI3218X_RAM_TXDCCOMB_D2 = 260,
- SI3218X_RAM_TXDCSINC_OUT = 261,
- SI3218X_RAM_RXACDIFF_D1 = 262,
- SI3218X_RAM_DC_NOTCH_1 = 263,
- SI3218X_RAM_DC_NOTCH_2 = 264,
- SI3218X_RAM_DC_NOTCH_OUT = 265,
- SI3218X_RAM_DC_NOTCH_SCALED = 266,
- SI3218X_RAM_V_FEED_IN = 267,
- SI3218X_RAM_I_TAR = 268,
- SI3218X_RAM_CONST_VLIM = 269,
- SI3218X_RAM_UNITY = 270,
- SI3218X_RAM_TXACNOTCH_1 = 271,
- SI3218X_RAM_TXACNOTCH_2 = 272,
- SI3218X_RAM_TXACNOTCH_OUT = 273,
- SI3218X_RAM_ZSYNTH_1 = 274,
- SI3218X_RAM_ZSYNTH_2 = 275,
- SI3218X_RAM_ZSYNTH_OUT_1 = 276,
- SI3218X_RAM_TXACD2_1_0 = 277,
- SI3218X_RAM_TXACD2_1_1 = 278,
- SI3218X_RAM_TXACD2_1_2 = 279,
- SI3218X_RAM_TXACD2_1_3 = 280,
- SI3218X_RAM_TXACD2_1_4 = 281,
- SI3218X_RAM_TXACD2_1_5 = 282,
- SI3218X_RAM_TXACD2_1_OUT = 283,
- SI3218X_RAM_TXACD2_2_0 = 284,
- SI3218X_RAM_TXACD2_2_1 = 285,
- SI3218X_RAM_TXACD2_2_2 = 286,
- SI3218X_RAM_TXACD2_2_3 = 287,
- SI3218X_RAM_TXACD2_2_4 = 288,
- SI3218X_RAM_TXACD2_2_5 = 289,
- SI3218X_RAM_TXACD2_2_OUT = 290,
- SI3218X_RAM_TXACD2_3_0 = 291,
- SI3218X_RAM_TXACD2_3_1 = 292,
- SI3218X_RAM_TXACD2_3_2 = 293,
- SI3218X_RAM_TXACD2_3_3 = 294,
- SI3218X_RAM_TXACD2_3_4 = 295,
- SI3218X_RAM_TXACD2_3_5 = 296,
- SI3218X_RAM_TXACD2_3_OUT = 297,
- SI3218X_RAM_RXACI2_1_1 = 298,
- SI3218X_RAM_RXACI2_1_2 = 299,
- SI3218X_RAM_RXACI2_1_3 = 300,
- SI3218X_RAM_RXACI2_1_4 = 301,
- SI3218X_RAM_RXACI2_1_OUT = 302,
- SI3218X_RAM_RXACI2_2_1 = 303,
- SI3218X_RAM_RXACI2_2_2 = 304,
- SI3218X_RAM_RXACI2_2_3 = 305,
- SI3218X_RAM_RXACI2_2_4 = 306,
- SI3218X_RAM_RXACI2_2_OUT = 307,
- SI3218X_RAM_RXACI2_3_1 = 308,
- SI3218X_RAM_RXACI2_3_2 = 309,
- SI3218X_RAM_RXACI2_3_3 = 310,
- SI3218X_RAM_RXACI2_3_4 = 311,
- SI3218X_RAM_RXACI2_3_OUT = 312,
- SI3218X_RAM_TXACCOMP1 = 313,
- SI3218X_RAM_TXACCOMP_OUT = 314,
- SI3218X_RAM_RXACCOMP1 = 315,
- SI3218X_RAM_RXACCOMP_OUT = 316,
- SI3218X_RAM_RXACHPF_D1_2 = 317,
- SI3218X_RAM_RXACHPF_D2_1 = 318,
- SI3218X_RAM_RXACHPF_D2_2 = 319,
- SI3218X_RAM_RXACHPF_OUT = 320,
- SI3218X_RAM_RXACHPF_OUT_1 = 321,
- SI3218X_RAM_RXACHPF_OUT_2 = 322,
- SI3218X_RAM_RXACEQ_OUT = 323,
- SI3218X_RAM_METER_I_1 = 324,
- SI3218X_RAM_METER_I_OUT = 325,
- SI3218X_RAM_METER_LPF_1 = 326,
- SI3218X_RAM_METER_LPF_2 = 327,
- SI3218X_RAM_METER_LPF_OUT = 328,
- SI3218X_RAM_METER_BP_1 = 329,
- SI3218X_RAM_METER_BP_2 = 330,
- SI3218X_RAM_METER_BP_OUT = 331,
- SI3218X_RAM_METER_SRC_OUT = 332,
- SI3218X_RAM_UNUSED333 = 333,
- SI3218X_RAM_UNUSED334 = 334,
- SI3218X_RAM_RING_LPF_1 = 335,
- SI3218X_RAM_RING_LPF_2 = 336,
- SI3218X_RAM_RING_LPF_OUT = 337,
- SI3218X_RAM_RING_INTERP_DIFF = 338,
- SI3218X_RAM_RING_INTERP_DIFF_OUT = 339,
- SI3218X_RAM_RING_INTERP_INT = 340,
- SI3218X_RAM_RING_INTERP_INT_OUT = 341,
- SI3218X_RAM_V_ILIM_TRACK = 342,
- SI3218X_RAM_V_RFEED_TRACK = 343,
- SI3218X_RAM_LF_SPEEDUP_CNT = 344,
- SI3218X_RAM_DC_SPEEDUP_CNT = 345,
- SI3218X_RAM_AC_SPEEDUP_CNT = 346,
- SI3218X_RAM_LCR_SPEEDUP_CNT = 347,
- SI3218X_RAM_CM_SPEEDUP_CNT = 348,
- SI3218X_RAM_DC_SPEEDUP_MASK = 349,
- SI3218X_RAM_ZSYNTH_IN = 350,
- SI3218X_RAM_I_TAR_SAVE = 351,
- SI3218X_RAM_UNUSED352 = 352,
- SI3218X_RAM_UNUSED353 = 353,
- SI3218X_RAM_COUNTER_VTR = 354,
- SI3218X_RAM_I_RING_AVG = 355,
- SI3218X_RAM_COUNTER_IRING = 356,
- SI3218X_RAM_COMP_RATIO = 357,
- SI3218X_RAM_MADC_VBAT_DIV2 = 358,
- SI3218X_RAM_VDIFF_PK_T = 359,
- SI3218X_RAM_PEAK_CNT = 360,
- SI3218X_RAM_CM_DBI_CNT = 361,
- SI3218X_RAM_VCM_LAST = 362,
- SI3218X_RAM_VBATL_SENSE = 363,
- SI3218X_RAM_VBATH_SENSE = 364,
- SI3218X_RAM_VBATR_SENSE = 365,
- SI3218X_RAM_BAT_SETTLE_CNT = 366,
- SI3218X_RAM_VBAT_TGT = 367,
- SI3218X_RAM_VBAT_REQ = 368,
- SI3218X_RAM_VCM_HIRES = 369,
- SI3218X_RAM_VCM_LORES = 370,
- SI3218X_RAM_ILOOP1 = 371,
- SI3218X_RAM_ILONG2 = 372,
- SI3218X_RAM_ITIP1 = 373,
- SI3218X_RAM_IRING1 = 374,
- SI3218X_RAM_CAL_TEMP1 = 375,
- SI3218X_RAM_CAL_TEMP2 = 376,
- SI3218X_RAM_CAL_TEMP3 = 377,
- SI3218X_RAM_CAL_TEMP4 = 378,
- SI3218X_RAM_CAL_TEMP5 = 379,
- SI3218X_RAM_CAL_TEMP6 = 380,
- SI3218X_RAM_CAL_TEMP7 = 381,
- SI3218X_RAM_CMRR_DIVISOR = 382,
- SI3218X_RAM_CMRR_REMAINDER = 383,
- SI3218X_RAM_CMRR_Q_PTR = 384,
- SI3218X_RAM_I_SOURCE1 = 385,
- SI3218X_RAM_I_SOURCE2 = 386,
- SI3218X_RAM_VTR1 = 387,
- SI3218X_RAM_VTR2 = 388,
- SI3218X_RAM_STOP_TIMER1 = 389,
- SI3218X_RAM_STOP_TIMER2 = 390,
- SI3218X_RAM_UNUSED391 = 391,
- SI3218X_RAM_UNUSED392 = 392,
- SI3218X_RAM_CAL_ONHK_Z = 393,
- SI3218X_RAM_CAL_LB_SETTLE = 394,
- SI3218X_RAM_CAL_DECLPF_V0 = 395,
- SI3218X_RAM_CAL_DECLPF_V1 = 396,
- SI3218X_RAM_CAL_DECLPF_V2 = 397,
- SI3218X_RAM_CAL_GOERTZEL_V0 = 398,
- SI3218X_RAM_CAL_GOERTZEL_V1 = 399,
- SI3218X_RAM_CAL_DECLPF_Y = 400,
- SI3218X_RAM_CAL_GOERTZEL_Y = 401,
- SI3218X_RAM_P_HVIC = 402,
- SI3218X_RAM_VBATL_MIRROR = 403,
- SI3218X_RAM_VBATH_MIRROR = 404,
- SI3218X_RAM_VBATR_MIRROR = 405,
- SI3218X_RAM_DIAG_EX1_OUT = 406,
- SI3218X_RAM_DIAG_EX2_OUT = 407,
- SI3218X_RAM_DIAG_DMM_V_OUT = 408,
- SI3218X_RAM_DIAG_DMM_I_OUT = 409,
- SI3218X_RAM_DIAG_P = 410,
- SI3218X_RAM_DIAG_LPF_V = 411,
- SI3218X_RAM_DIAG_LPF_I = 412,
- SI3218X_RAM_DIAG_TONE_FLAG = 413,
- SI3218X_RAM_ILOOP1_LAST = 414,
- SI3218X_RAM_RING_ENTRY_VOC = 415,
- SI3218X_RAM_UNUSED416 = 416,
- SI3218X_RAM_OSC1_X_SAVE = 417,
- SI3218X_RAM_EZSYNTH_1 = 418,
- SI3218X_RAM_EZSYNTH_2 = 419,
- SI3218X_RAM_ZSYNTH_OUT = 420,
- SI3218X_RAM_UNUSED421 = 421,
- SI3218X_RAM_CAL_SUBSTATE = 422,
- SI3218X_RAM_DIAG_EX1_DC_OUT = 423,
- SI3218X_RAM_DIAG_EX1_DC = 424,
- SI3218X_RAM_EZSYNTH_B1 = 425,
- SI3218X_RAM_EZSYNTH_B2 = 426,
- SI3218X_RAM_EZSYNTH_A1 = 427,
- SI3218X_RAM_EZSYNTH_A2 = 428,
- SI3218X_RAM_ILOOP1_FILT = 429,
- SI3218X_RAM_AC_PU_DELTA1_CNT = 430,
- SI3218X_RAM_AC_PU_DELTA2_CNT = 431,
- SI3218X_RAM_UNUSED432 = 432,
- SI3218X_RAM_UNUSED433 = 433,
- SI3218X_RAM_UNUSED434 = 434,
- SI3218X_RAM_AC_DAC_GAIN_SAVE = 435,
- SI3218X_RAM_RING_FLUSH_CNT = 436,
- SI3218X_RAM_UNUSED437 = 437,
- SI3218X_RAM_DIAG_VAR_OUT = 438,
- SI3218X_RAM_I_VBAT = 439,
- SI3218X_RAM_UNUSED440 = 440,
- SI3218X_RAM_CALTMP_LOOPCNT = 441,
- SI3218X_RAM_CALTMP_LOOPINC = 442,
- SI3218X_RAM_UNUSED443 = 443,
- SI3218X_RAM_CALTMP_CODEINC = 444,
- SI3218X_RAM_CALTMP_TAUINC = 445,
- SI3218X_RAM_CALTMP_TAU = 446,
- SI3218X_RAM_CAL_TEMP8 = 447,
- SI3218X_RAM_PATCHID = 448,
- SI3218X_RAM_UNUSED449 = 449,
- SI3218X_RAM_UNUSED450 = 450,
- SI3218X_RAM_UNUSED451 = 451,
- SI3218X_RAM_CAL_LB_OFFSET_FWD = 452,
- SI3218X_RAM_CAL_LB_OFFSET_RVS = 453,
- SI3218X_RAM_COUNT_SPEEDUP = 454,
- SI3218X_RAM_SWEEP_COUNT = 455,
- SI3218X_RAM_AMP_RAMP = 456,
- SI3218X_RAM_DIAG_LPF_MADC_D = 457,
- SI3218X_RAM_DIAG_HPF_MADC = 458,
- SI3218X_RAM_UNUSED459 = 459,
- SI3218X_RAM_TXDEC_OUT = 460,
- SI3218X_RAM_TXDEC_D1 = 461,
- SI3218X_RAM_TXDEC_D2 = 462,
- SI3218X_RAM_RXDEC_D1 = 463,
- SI3218X_RAM_RXDEC_D2 = 464,
- SI3218X_RAM_OSCINT1_D2_1 = 465,
- SI3218X_RAM_OSCINT1_D1_1 = 466,
- SI3218X_RAM_OSCINT1_OUT_1 = 467,
- SI3218X_RAM_OSCINT1_D2_2 = 468,
- SI3218X_RAM_OSCINT1_D1_2 = 469,
- SI3218X_RAM_OSCINT1_OUT = 470,
- SI3218X_RAM_OSCINT2_D2_1 = 471,
- SI3218X_RAM_OSCINT2_D1_1 = 472,
- SI3218X_RAM_OSCINT2_OUT_1 = 473,
- SI3218X_RAM_OSCINT2_D2_2 = 474,
- SI3218X_RAM_OSCINT2_D1_2 = 475,
- SI3218X_RAM_OSCINT2_OUT = 476,
- SI3218X_RAM_OSC1_Y_SAVE = 477,
- SI3218X_RAM_OSC2_Y_SAVE = 478,
- SI3218X_RAM_PWRSAVE_CNT = 479,
- SI3218X_RAM_VBATR_PK = 480,
- SI3218X_RAM_SPEEDUP_MASK_CNT = 481,
- SI3218X_RAM_VCM_RING_FIXED = 482,
- SI3218X_RAM_DELTA_VCM = 483,
- SI3218X_RAM_MADC_VTIPC_DIAG_OS = 484,
- SI3218X_RAM_MADC_VRINGC_DIAG_OS = 485,
- SI3218X_RAM_MADC_VLONG_DIAG_OS = 486,
- SI3218X_RAM_UNUSED487 = 487,
- SI3218X_RAM_UNUSED488 = 488,
- SI3218X_RAM_UNUSED489 = 489,
- SI3218X_RAM_UNUSED490 = 490,
- SI3218X_RAM_UNUSED491 = 491,
- SI3218X_RAM_PWRSAVE_DBI_CNT = 492,
- SI3218X_RAM_COMP_RATIO_SAVE = 493,
- SI3218X_RAM_CAL_TEMP9 = 494,
- SI3218X_RAM_CAL_TEMP10 = 495,
- SI3218X_RAM_DAC_OFFSET_TEMP = 496,
- SI3218X_RAM_CAL_DAC_CODE = 497,
- SI3218X_RAM_DCDAC_OFFSET = 498,
- SI3218X_RAM_VDIFF_COARSE = 499,
- SI3218X_RAM_RXACIIR_OUT_4 = 500,
- SI3218X_RAM_CAL_TEMP11 = 501,
- SI3218X_RAM_METER_RAMP = 502,
- SI3218X_RAM_METER_RAMP_DIR = 503,
- SI3218X_RAM_METER_ON_T = 504,
- SI3218X_RAM_METER_PK_DET = 505,
- SI3218X_RAM_METER_PK_DET_T = 506,
- SI3218X_RAM_THERM_CNT = 507,
- SI3218X_RAM_VDIFF_SENSE_DELAY = 508,
- SI3218X_RAM_RING_INTERP_DIFF_SYNC = 509,
- SI3218X_RAM_CPUMP_DEB_CNT = 510,
- SI3218X_RAM_UNUSED511 = 511,
- SI3218X_RAM_MINUS_ONE = 512,
- SI3218X_RAM_ILOOPLPF = 513,
- SI3218X_RAM_ILONGLPF = 514,
- SI3218X_RAM_BATLPF = 515,
- SI3218X_RAM_VDIFFLPF = 516,
- SI3218X_RAM_VCMLPF = 517,
- SI3218X_RAM_TXACIIR_B0_1 = 518,
- SI3218X_RAM_TXACIIR_B1_1 = 519,
- SI3218X_RAM_TXACIIR_A1_1 = 520,
- SI3218X_RAM_TXACIIR_B0_2 = 521,
- SI3218X_RAM_TXACIIR_B1_2 = 522,
- SI3218X_RAM_TXACIIR_B2_2 = 523,
- SI3218X_RAM_TXACIIR_A1_2 = 524,
- SI3218X_RAM_TXACIIR_A2_2 = 525,
- SI3218X_RAM_TXACIIR_B0_3 = 526,
- SI3218X_RAM_TXACIIR_B1_3 = 527,
- SI3218X_RAM_TXACIIR_B2_3 = 528,
- SI3218X_RAM_TXACIIR_A1_3 = 529,
- SI3218X_RAM_TXACIIR_A2_3 = 530,
- SI3218X_RAM_TXACHPF_B0_1 = 531,
- SI3218X_RAM_TXACHPF_B1_1 = 532,
- SI3218X_RAM_TXACHPF_A1_1 = 533,
- SI3218X_RAM_TXACHPF_B0_2 = 534,
- SI3218X_RAM_TXACHPF_B1_2 = 535,
- SI3218X_RAM_TXACHPF_B2_2 = 536,
- SI3218X_RAM_TXACHPF_A1_2 = 537,
- SI3218X_RAM_TXACHPF_A2_2 = 538,
- SI3218X_RAM_TXACHPF_GAIN = 539,
- SI3218X_RAM_TXACEQ_C0 = 540,
- SI3218X_RAM_TXACEQ_C1 = 541,
- SI3218X_RAM_TXACEQ_C2 = 542,
- SI3218X_RAM_TXACEQ_C3 = 543,
- SI3218X_RAM_TXACGAIN = 544,
- SI3218X_RAM_RXACGAIN = 545,
- SI3218X_RAM_RXACEQ_C0 = 546,
- SI3218X_RAM_RXACEQ_C1 = 547,
- SI3218X_RAM_RXACEQ_C2 = 548,
- SI3218X_RAM_RXACEQ_C3 = 549,
- SI3218X_RAM_RXACIIR_B0_1 = 550,
- SI3218X_RAM_RXACIIR_B1_1 = 551,
- SI3218X_RAM_RXACIIR_A1_1 = 552,
- SI3218X_RAM_RXACIIR_B0_2 = 553,
- SI3218X_RAM_RXACIIR_B1_2 = 554,
- SI3218X_RAM_RXACIIR_B2_2 = 555,
- SI3218X_RAM_RXACIIR_A1_2 = 556,
- SI3218X_RAM_RXACIIR_A2_2 = 557,
- SI3218X_RAM_RXACIIR_B0_3 = 558,
- SI3218X_RAM_RXACIIR_B1_3 = 559,
- SI3218X_RAM_RXACIIR_B2_3 = 560,
- SI3218X_RAM_RXACIIR_A1_3 = 561,
- SI3218X_RAM_RXACIIR_A2_3 = 562,
- SI3218X_RAM_ECFIR_C2 = 563,
- SI3218X_RAM_ECFIR_C3 = 564,
- SI3218X_RAM_ECFIR_C4 = 565,
- SI3218X_RAM_ECFIR_C5 = 566,
- SI3218X_RAM_ECFIR_C6 = 567,
- SI3218X_RAM_ECFIR_C7 = 568,
- SI3218X_RAM_ECFIR_C8 = 569,
- SI3218X_RAM_ECFIR_C9 = 570,
- SI3218X_RAM_ECIIR_B0 = 571,
- SI3218X_RAM_ECIIR_B1 = 572,
- SI3218X_RAM_ECIIR_A1 = 573,
- SI3218X_RAM_ECIIR_A2 = 574,
- SI3218X_RAM_DTMFDTF_B0_1 = 575,
- SI3218X_RAM_DTMFDTF_B1_1 = 576,
- SI3218X_RAM_DTMFDTF_B2_1 = 577,
- SI3218X_RAM_DTMFDTF_A1_1 = 578,
- SI3218X_RAM_DTMFDTF_A2_1 = 579,
- SI3218X_RAM_DTMFDTF_B0_2 = 580,
- SI3218X_RAM_DTMFDTF_B1_2 = 581,
- SI3218X_RAM_DTMFDTF_B2_2 = 582,
- SI3218X_RAM_DTMFDTF_A1_2 = 583,
- SI3218X_RAM_DTMFDTF_A2_2 = 584,
- SI3218X_RAM_DTMFDTF_B0_3 = 585,
- SI3218X_RAM_DTMFDTF_B1_3 = 586,
- SI3218X_RAM_DTMFDTF_B2_3 = 587,
- SI3218X_RAM_DTMFDTF_A1_3 = 588,
- SI3218X_RAM_DTMFDTF_A2_3 = 589,
- SI3218X_RAM_DTMFDTF_GAIN = 590,
- SI3218X_RAM_DTMFLPF_B0_1 = 591,
- SI3218X_RAM_DTMFLPF_B1_1 = 592,
- SI3218X_RAM_DTMFLPF_B2_1 = 593,
- SI3218X_RAM_DTMFLPF_A1_1 = 594,
- SI3218X_RAM_DTMFLPF_A2_1 = 595,
- SI3218X_RAM_DTMFLPF_B0_2 = 596,
- SI3218X_RAM_DTMFLPF_B1_2 = 597,
- SI3218X_RAM_DTMFLPF_B2_2 = 598,
- SI3218X_RAM_DTMFLPF_A1_2 = 599,
- SI3218X_RAM_DTMFLPF_A2_2 = 600,
- SI3218X_RAM_DTMFLPF_GAIN = 601,
- SI3218X_RAM_DTMFHPF_B0_1 = 602,
- SI3218X_RAM_DTMFHPF_B1_1 = 603,
- SI3218X_RAM_DTMFHPF_B2_1 = 604,
- SI3218X_RAM_DTMFHPF_A1_1 = 605,
- SI3218X_RAM_DTMFHPF_A2_1 = 606,
- SI3218X_RAM_DTMFHPF_B0_2 = 607,
- SI3218X_RAM_DTMFHPF_B1_2 = 608,
- SI3218X_RAM_DTMFHPF_B2_2 = 609,
- SI3218X_RAM_DTMFHPF_A1_2 = 610,
- SI3218X_RAM_DTMFHPF_A2_2 = 611,
- SI3218X_RAM_DTMFHPF_GAIN = 612,
- SI3218X_RAM_POWER_GAIN = 613,
- SI3218X_RAM_GOERTZEL_GAIN = 614,
- SI3218X_RAM_MODEM_GAIN = 615,
- SI3218X_RAM_HOTBIT1 = 616,
- SI3218X_RAM_HOTBIT0 = 617,
- SI3218X_RAM_ROW0_C1 = 618,
- SI3218X_RAM_ROW1_C1 = 619,
- SI3218X_RAM_ROW2_C1 = 620,
- SI3218X_RAM_ROW3_C1 = 621,
- SI3218X_RAM_COL0_C1 = 622,
- SI3218X_RAM_COL1_C1 = 623,
- SI3218X_RAM_COL2_C1 = 624,
- SI3218X_RAM_COL3_C1 = 625,
- SI3218X_RAM_ROW0_C2 = 626,
- SI3218X_RAM_ROW1_C2 = 627,
- SI3218X_RAM_ROW2_C2 = 628,
- SI3218X_RAM_ROW3_C2 = 629,
- SI3218X_RAM_COL0_C2 = 630,
- SI3218X_RAM_COL1_C2 = 631,
- SI3218X_RAM_COL2_C2 = 632,
- SI3218X_RAM_COL3_C2 = 633,
- SI3218X_RAM_SLOPE_VLIM = 634,
- SI3218X_RAM_SLOPE_RFEED = 635,
- SI3218X_RAM_SLOPE_ILIM = 636,
- SI3218X_RAM_SLOPE_RING = 637,
- SI3218X_RAM_SLOPE_DELTA1 = 638,
- SI3218X_RAM_SLOPE_DELTA2 = 639,
- SI3218X_RAM_V_VLIM = 640,
- SI3218X_RAM_V_RFEED = 641,
- SI3218X_RAM_V_ILIM = 642,
- SI3218X_RAM_CONST_RFEED = 643,
- SI3218X_RAM_CONST_ILIM = 644,
- SI3218X_RAM_I_VLIM = 645,
- SI3218X_RAM_DC_DAC_GAIN = 646,
- SI3218X_RAM_VDIFF_TH = 647,
- SI3218X_RAM_TXDEC_B0 = 648,
- SI3218X_RAM_TXDEC_B1 = 649,
- SI3218X_RAM_TXDEC_B2 = 650,
- SI3218X_RAM_TXDEC_A1 = 651,
- SI3218X_RAM_TXDEC_A2 = 652,
- SI3218X_RAM_ZSYNTH_B0 = 653,
- SI3218X_RAM_ZSYNTH_B1 = 654,
- SI3218X_RAM_ZSYNTH_B2 = 655,
- SI3218X_RAM_ZSYNTH_A1 = 656,
- SI3218X_RAM_ZSYNTH_A2 = 657,
- SI3218X_RAM_RXACHPF_B0_1 = 658,
- SI3218X_RAM_RXACHPF_B1_1 = 659,
- SI3218X_RAM_RXACHPF_A1_1 = 660,
- SI3218X_RAM_RXACHPF_B0_2 = 661,
- SI3218X_RAM_RXACHPF_B1_2 = 662,
- SI3218X_RAM_RXACHPF_B2_2 = 663,
- SI3218X_RAM_RXACHPF_A1_2 = 664,
- SI3218X_RAM_RXACHPF_A2_2 = 665,
- SI3218X_RAM_RXACHPF_GAIN = 666,
- SI3218X_RAM_MASK7LSB = 667,
- SI3218X_RAM_RXDEC_B0 = 668,
- SI3218X_RAM_RXDEC_B1 = 669,
- SI3218X_RAM_RXDEC_B2 = 670,
- SI3218X_RAM_RXDEC_A1 = 671,
- SI3218X_RAM_RXDEC_A2 = 672,
- SI3218X_RAM_OSCINT1_B0_1 = 673,
- SI3218X_RAM_OSCINT1_B1_1 = 674,
- SI3218X_RAM_OSCINT1_B2_1 = 675,
- SI3218X_RAM_OSCINT1_A1_1 = 676,
- SI3218X_RAM_OSCINT1_A2_1 = 677,
- SI3218X_RAM_OSCINT1_B0_2 = 678,
- SI3218X_RAM_OSCINT1_B1_2 = 679,
- SI3218X_RAM_OSCINT1_B2_2 = 680,
- SI3218X_RAM_OSCINT1_A1_2 = 681,
- SI3218X_RAM_OSCINT1_A2_2 = 682,
- SI3218X_RAM_OSCINT2_B0_1 = 683,
- SI3218X_RAM_OSCINT2_B1_1 = 684,
- SI3218X_RAM_OSCINT2_B2_1 = 685,
- SI3218X_RAM_OSCINT2_A1_1 = 686,
- SI3218X_RAM_OSCINT2_A2_1 = 687,
- SI3218X_RAM_OSCINT2_B0_2 = 688,
- SI3218X_RAM_OSCINT2_B1_2 = 689,
- SI3218X_RAM_OSCINT2_B2_2 = 690,
- SI3218X_RAM_OSCINT2_A1_2 = 691,
- SI3218X_RAM_OSCINT2_A2_2 = 692,
- SI3218X_RAM_UNUSED693 = 693,
- SI3218X_RAM_UNUSED694 = 694,
- SI3218X_RAM_UNUSED695 = 695,
- SI3218X_RAM_RING_LPF_B0 = 696,
- SI3218X_RAM_RING_LPF_B1 = 697,
- SI3218X_RAM_RING_LPF_B2 = 698,
- SI3218X_RAM_RING_LPF_A1 = 699,
- SI3218X_RAM_RING_LPF_A2 = 700,
- SI3218X_RAM_LCRDBI = 701,
- SI3218X_RAM_LONGDBI = 702,
- SI3218X_RAM_VBAT_TIMER = 703,
- SI3218X_RAM_LF_SPEEDUP_TIMER = 704,
- SI3218X_RAM_DC_SPEEDUP_TIMER = 705,
- SI3218X_RAM_AC_SPEEDUP_TIMER = 706,
- SI3218X_RAM_LCR_SPEEDUP_TIMER = 707,
- SI3218X_RAM_CM_SPEEDUP_TIMER = 708,
- SI3218X_RAM_VCM_TH = 709,
- SI3218X_RAM_AC_SPEEDUP_TH = 710,
- SI3218X_RAM_SPR_SIG_0 = 711,
- SI3218X_RAM_SPR_SIG_1 = 712,
- SI3218X_RAM_SPR_SIG_2 = 713,
- SI3218X_RAM_SPR_SIG_3 = 714,
- SI3218X_RAM_SPR_SIG_4 = 715,
- SI3218X_RAM_SPR_SIG_5 = 716,
- SI3218X_RAM_SPR_SIG_6 = 717,
- SI3218X_RAM_SPR_SIG_7 = 718,
- SI3218X_RAM_SPR_SIG_8 = 719,
- SI3218X_RAM_SPR_SIG_9 = 720,
- SI3218X_RAM_SPR_SIG_10 = 721,
- SI3218X_RAM_SPR_SIG_11 = 722,
- SI3218X_RAM_SPR_SIG_12 = 723,
- SI3218X_RAM_SPR_SIG_13 = 724,
- SI3218X_RAM_SPR_SIG_14 = 725,
- SI3218X_RAM_SPR_SIG_15 = 726,
- SI3218X_RAM_SPR_SIG_16 = 727,
- SI3218X_RAM_SPR_SIG_17 = 728,
- SI3218X_RAM_SPR_SIG_18 = 729,
- SI3218X_RAM_COUNTER_VTR_VAL = 730,
- SI3218X_RAM_CONST_028 = 731,
- SI3218X_RAM_CONST_032 = 732,
- SI3218X_RAM_CONST_038 = 733,
- SI3218X_RAM_CONST_046 = 734,
- SI3218X_RAM_COUNTER_IRING_VAL = 735,
- SI3218X_RAM_GAIN_RING = 736,
- SI3218X_RAM_RING_HYST = 737,
- SI3218X_RAM_COMP_Z = 738,
- SI3218X_RAM_CONST_115 = 739,
- SI3218X_RAM_CONST_110 = 740,
- SI3218X_RAM_CONST_105 = 741,
- SI3218X_RAM_CONST_100 = 742,
- SI3218X_RAM_CONST_095 = 743,
- SI3218X_RAM_CONST_090 = 744,
- SI3218X_RAM_CONST_085 = 745,
- SI3218X_RAM_V_RASUM_IDEAL = 746,
- SI3218X_RAM_CONST_ONE = 747,
- SI3218X_RAM_VCM_OH = 748,
- SI3218X_RAM_VCM_RING = 749,
- SI3218X_RAM_VCM_HYST = 750,
- SI3218X_RAM_VOV_GND = 751,
- SI3218X_RAM_VOV_BAT = 752,
- SI3218X_RAM_VOV_RING_BAT = 753,
- SI3218X_RAM_CM_DBI = 754,
- SI3218X_RAM_RTPER = 755,
- SI3218X_RAM_P_TH_HVIC = 756,
- SI3218X_RAM_UNUSED757 = 757,
- SI3218X_RAM_UNUSED758 = 758,
- SI3218X_RAM_COEF_P_HVIC = 759,
- SI3218X_RAM_UNUSED760 = 760,
- SI3218X_RAM_UNUSED761 = 761,
- SI3218X_RAM_UNUSED762 = 762,
- SI3218X_RAM_UNUSED763 = 763,
- SI3218X_RAM_BAT_HYST = 764,
- SI3218X_RAM_BAT_DBI = 765,
- SI3218X_RAM_VBATL_EXPECT = 766,
- SI3218X_RAM_VBATH_EXPECT = 767,
- SI3218X_RAM_VBATR_EXPECT = 768,
- SI3218X_RAM_BAT_SETTLE = 769,
- SI3218X_RAM_VBAT_IRQ_TH = 770,
- SI3218X_RAM_MADC_VTIPC_OS = 771,
- SI3218X_RAM_MADC_VRINGC_OS = 772,
- SI3218X_RAM_MADC_VBAT_OS = 773,
- SI3218X_RAM_MADC_VLONG_OS = 774,
- SI3218X_RAM_UNUSED775 = 775,
- SI3218X_RAM_MADC_VDC_OS = 776,
- SI3218X_RAM_MADC_ILONG_OS = 777,
- SI3218X_RAM_UNUSED778 = 778,
- SI3218X_RAM_UNUSED779 = 779,
- SI3218X_RAM_MADC_ILOOP_OS = 780,
- SI3218X_RAM_MADC_ILOOP_SCALE = 781,
- SI3218X_RAM_UNUSED782 = 782,
- SI3218X_RAM_UNUSED783 = 783,
- SI3218X_RAM_DC_ADC_OS = 784,
- SI3218X_RAM_CAL_UNITY = 785,
- SI3218X_RAM_UNUSED786 = 786,
- SI3218X_RAM_UNUSED787 = 787,
- SI3218X_RAM_ACADC_OFFSET = 788,
- SI3218X_RAM_ACDAC_OFFSET = 789,
- SI3218X_RAM_CAL_DCDAC_CODE = 790,
- SI3218X_RAM_CAL_DCDAC_15MA = 791,
- SI3218X_RAM_UNUSED792 = 792,
- SI3218X_RAM_UNUSED793 = 793,
- SI3218X_RAM_UNUSED794 = 794,
- SI3218X_RAM_UNUSED795 = 795,
- SI3218X_RAM_UNUSED796 = 796,
- SI3218X_RAM_UNUSED797 = 797,
- SI3218X_RAM_UNUSED798 = 798,
- SI3218X_RAM_UNUSED799 = 799,
- SI3218X_RAM_UNUSED800 = 800,
- SI3218X_RAM_CAL_LB_TSQUELCH = 801,
- SI3218X_RAM_CAL_LB_TCHARGE = 802,
- SI3218X_RAM_CAL_LB_TSETTLE0 = 803,
- SI3218X_RAM_CAL_GOERTZEL_DLY = 804,
- SI3218X_RAM_CAL_GOERTZEL_ALPHA = 805,
- SI3218X_RAM_CAL_DECLPF_K = 806,
- SI3218X_RAM_CAL_DECLPF_B1 = 807,
- SI3218X_RAM_CAL_DECLPF_B2 = 808,
- SI3218X_RAM_CAL_DECLPF_A1 = 809,
- SI3218X_RAM_CAL_DECLPF_A2 = 810,
- SI3218X_RAM_CAL_ACADC_THRL = 811,
- SI3218X_RAM_CAL_ACADC_THRH = 812,
- SI3218X_RAM_CAL_ACADC_TSETTLE = 813,
- SI3218X_RAM_DTROW0TH = 814,
- SI3218X_RAM_DTROW1TH = 815,
- SI3218X_RAM_DTROW2TH = 816,
- SI3218X_RAM_DTROW3TH = 817,
- SI3218X_RAM_DTCOL0TH = 818,
- SI3218X_RAM_DTCOL1TH = 819,
- SI3218X_RAM_DTCOL2TH = 820,
- SI3218X_RAM_DTCOL3TH = 821,
- SI3218X_RAM_DTFTWTH = 822,
- SI3218X_RAM_DTRTWTH = 823,
- SI3218X_RAM_DTROWRTH = 824,
- SI3218X_RAM_DTCOLRTH = 825,
- SI3218X_RAM_DTROW2HTH = 826,
- SI3218X_RAM_DTCOL2HTH = 827,
- SI3218X_RAM_DTMINPTH = 828,
- SI3218X_RAM_DTHOTTH = 829,
- SI3218X_RAM_RXPWR = 830,
- SI3218X_RAM_TXPWR = 831,
- SI3218X_RAM_RXMODPWR = 832,
- SI3218X_RAM_TXMODPWR = 833,
- SI3218X_RAM_FSKFREQ0 = 834,
- SI3218X_RAM_FSKFREQ1 = 835,
- SI3218X_RAM_FSKAMP0 = 836,
- SI3218X_RAM_FSKAMP1 = 837,
- SI3218X_RAM_FSK01 = 838,
- SI3218X_RAM_FSK10 = 839,
- SI3218X_RAM_VOCDELTA = 840,
- SI3218X_RAM_VOCLTH = 841,
- SI3218X_RAM_VOCHTH = 842,
- SI3218X_RAM_RINGOF = 843,
- SI3218X_RAM_RINGFR = 844,
- SI3218X_RAM_RINGAMP = 845,
- SI3218X_RAM_RINGPHAS = 846,
- SI3218X_RAM_RTDCTH = 847,
- SI3218X_RAM_RTACTH = 848,
- SI3218X_RAM_RTDCDB = 849,
- SI3218X_RAM_RTACDB = 850,
- SI3218X_RAM_RTCOUNT = 851,
- SI3218X_RAM_LCROFFHK = 852,
- SI3218X_RAM_LCRONHK = 853,
- SI3218X_RAM_LCRMASK = 854,
- SI3218X_RAM_LCRMASK_POLREV = 855,
- SI3218X_RAM_LCRMASK_STATE = 856,
- SI3218X_RAM_LCRMASK_LINECAP = 857,
- SI3218X_RAM_LONGHITH = 858,
- SI3218X_RAM_LONGLOTH = 859,
- SI3218X_RAM_IRING_LIM = 860,
- SI3218X_RAM_AC_PU_DELTA1 = 861,
- SI3218X_RAM_AC_PU_DELTA2 = 862,
- SI3218X_RAM_DIAG_LPF_8K = 863,
- SI3218X_RAM_DIAG_LPF_128K = 864,
- SI3218X_RAM_DIAG_INV_N = 865,
- SI3218X_RAM_DIAG_GAIN = 866,
- SI3218X_RAM_DIAG_G_CAL = 867,
- SI3218X_RAM_DIAG_OS_CAL = 868,
- SI3218X_RAM_SPR_GAIN_TRIM = 869,
- SI3218X_RAM_UNUSED870 = 870,
- SI3218X_RAM_AC_DAC_GAIN = 871,
- SI3218X_RAM_UNUSED872 = 872,
- SI3218X_RAM_UNUSED873 = 873,
- SI3218X_RAM_AC_DAC_GAIN0 = 874,
- SI3218X_RAM_EZSYNTH_B0 = 875,
- SI3218X_RAM_UNUSED876 = 876,
- SI3218X_RAM_UNUSED877 = 877,
- SI3218X_RAM_UNUSED878 = 878,
- SI3218X_RAM_UNUSED879 = 879,
- SI3218X_RAM_AC_ADC_GAIN = 880,
- SI3218X_RAM_ILOOP1LPF = 881,
- SI3218X_RAM_RING_FLUSH_TIMER = 882,
- SI3218X_RAM_ALAW_BIAS = 883,
- SI3218X_RAM_MADC_VTRC_SCALE = 884,
- SI3218X_RAM_UNUSED885 = 885,
- SI3218X_RAM_MADC_VBAT_SCALE = 886,
- SI3218X_RAM_MADC_VLONG_SCALE = 887,
- SI3218X_RAM_MADC_VLONG_SCALE_RING = 888,
- SI3218X_RAM_UNUSED889 = 889,
- SI3218X_RAM_MADC_VDC_SCALE = 890,
- SI3218X_RAM_MADC_ILONG_SCALE = 891,
- SI3218X_RAM_UNUSED892 = 892,
- SI3218X_RAM_UNUSED893 = 893,
- SI3218X_RAM_VDIFF_SENSE_SCALE = 894,
- SI3218X_RAM_VDIFF_SENSE_SCALE_RING = 895,
- SI3218X_RAM_VOV_RING_GND = 896,
- SI3218X_RAM_DIAG_GAIN_DC = 897,
- SI3218X_RAM_CAL_LB_OSC1_FREQ = 898,
- SI3218X_RAM_CAL_DCDAC_9TAU = 899,
- SI3218X_RAM_CAL_MADC_9TAU = 900,
- SI3218X_RAM_ADAP_RING_MIN_I = 901,
- SI3218X_RAM_SWEEP_STEP = 902,
- SI3218X_RAM_SWEEP_STEP_SAVE = 903,
- SI3218X_RAM_SWEEP_REF = 904,
- SI3218X_RAM_AMP_STEP = 905,
- SI3218X_RAM_RXACGAIN_SAVE = 906,
- SI3218X_RAM_AMP_RAMP_INIT = 907,
- SI3218X_RAM_DIAG_HPF_GAIN = 908,
- SI3218X_RAM_DIAG_HPF_8K = 909,
- SI3218X_RAM_DIAG_ADJ_STEP = 910,
- SI3218X_RAM_UNUSED911 = 911,
- SI3218X_RAM_UNUSED912 = 912,
- SI3218X_RAM_MADC_SCALE_INV = 913,
- SI3218X_RAM_UNUSED914 = 914,
- SI3218X_RAM_PWRSAVE_TIMER = 915,
- SI3218X_RAM_OFFHOOK_THRESH = 916,
- SI3218X_RAM_SPEEDUP_MASK_TIMER = 917,
- SI3218X_RAM_UNUSED918 = 918,
- SI3218X_RAM_VBAT_TRACK_MIN = 919,
- SI3218X_RAM_VBAT_TRACK_MIN_RNG = 920,
- SI3218X_RAM_UNUSED921 = 921,
- SI3218X_RAM_UNUSED922 = 922,
- SI3218X_RAM_UNUSED923 = 923,
- SI3218X_RAM_UNUSED924 = 924,
- SI3218X_RAM_UNUSED925 = 925,
- SI3218X_RAM_UNUSED926 = 926,
- SI3218X_RAM_DC_HOLD_DAC_OS = 927,
- SI3218X_RAM_UNUSED928 = 928,
- SI3218X_RAM_NOTCH_B0 = 929,
- SI3218X_RAM_NOTCH_B1 = 930,
- SI3218X_RAM_NOTCH_B2 = 931,
- SI3218X_RAM_NOTCH_A1 = 932,
- SI3218X_RAM_NOTCH_A2 = 933,
- SI3218X_RAM_METER_LPF_B0 = 934,
- SI3218X_RAM_METER_LPF_B1 = 935,
- SI3218X_RAM_METER_LPF_B2 = 936,
- SI3218X_RAM_METER_LPF_A1 = 937,
- SI3218X_RAM_METER_LPF_A2 = 938,
- SI3218X_RAM_METER_SIG_0 = 939,
- SI3218X_RAM_METER_SIG_1 = 940,
- SI3218X_RAM_METER_SIG_2 = 941,
- SI3218X_RAM_METER_SIG_3 = 942,
- SI3218X_RAM_METER_SIG_4 = 943,
- SI3218X_RAM_METER_SIG_5 = 944,
- SI3218X_RAM_METER_SIG_6 = 945,
- SI3218X_RAM_METER_SIG_7 = 946,
- SI3218X_RAM_METER_SIG_8 = 947,
- SI3218X_RAM_METER_SIG_9 = 948,
- SI3218X_RAM_METER_SIG_10 = 949,
- SI3218X_RAM_METER_SIG_11 = 950,
- SI3218X_RAM_METER_SIG_12 = 951,
- SI3218X_RAM_METER_SIG_13 = 952,
- SI3218X_RAM_METER_SIG_14 = 953,
- SI3218X_RAM_METER_SIG_15 = 954,
- SI3218X_RAM_METER_BP_B0 = 955,
- SI3218X_RAM_METER_BP_B1 = 956,
- SI3218X_RAM_METER_BP_B2 = 957,
- SI3218X_RAM_METER_BP_A1 = 958,
- SI3218X_RAM_METER_BP_A2 = 959,
- SI3218X_RAM_PM_AMP_THRESH = 960,
- SI3218X_RAM_METER_GAIN = 961,
- SI3218X_RAM_PWRSAVE_DBI = 962,
- SI3218X_RAM_DCDC_ANA_SCALE = 963,
- SI3218X_RAM_VOV_BAT_PWRSAVE_LO = 964,
- SI3218X_RAM_VOV_BAT_PWRSAVE_HI = 965,
- SI3218X_RAM_AC_ADC_GAIN0 = 966,
- SI3218X_RAM_SCALE_KAUDIO = 967,
- SI3218X_RAM_METER_GAIN_TEMP = 968,
- SI3218X_RAM_METER_RAMP_STEP = 969,
- SI3218X_RAM_THERM_DBI = 970,
- SI3218X_RAM_LPR_SCALE = 971,
- SI3218X_RAM_LPR_CM_OS = 972,
- SI3218X_RAM_VOV_DCDC_SLOPE = 973,
- SI3218X_RAM_VOV_DCDC_OS = 974,
- SI3218X_RAM_VOV_RING_BAT_MAX = 975,
- SI3218X_RAM_SLOPE_VLIM1 = 976,
- SI3218X_RAM_SLOPE_RFEED1 = 977,
- SI3218X_RAM_SLOPE_ILIM1 = 978,
- SI3218X_RAM_V_VLIM1 = 979,
- SI3218X_RAM_V_RFEED1 = 980,
- SI3218X_RAM_V_ILIM1 = 981,
- SI3218X_RAM_CONST_RFEED1 = 982,
- SI3218X_RAM_CONST_ILIM1 = 983,
- SI3218X_RAM_I_VLIM1 = 984,
- SI3218X_RAM_SLOPE_VLIM2 = 985,
- SI3218X_RAM_SLOPE_RFEED2 = 986,
- SI3218X_RAM_SLOPE_ILIM2 = 987,
- SI3218X_RAM_V_VLIM2 = 988,
- SI3218X_RAM_V_RFEED2 = 989,
- SI3218X_RAM_V_ILIM2 = 990,
- SI3218X_RAM_CONST_RFEED2 = 991,
- SI3218X_RAM_CONST_ILIM2 = 992,
- SI3218X_RAM_I_VLIM2 = 993,
- SI3218X_RAM_DIAG_V_TAR = 994,
- SI3218X_RAM_DIAG_V_TAR2 = 995,
- SI3218X_RAM_STOP_TIMER1_VAL = 996,
- SI3218X_RAM_STOP_TIMER2_VAL = 997,
- SI3218X_RAM_DIAG_VCM1_TAR = 998,
- SI3218X_RAM_DIAG_VCM_STEP = 999,
- SI3218X_RAM_LKG_DNT_HIRES = 1000,
- SI3218X_RAM_LKG_DNR_HIRES = 1001,
- SI3218X_RAM_LINEAR_OS = 1002,
- SI3218X_RAM_CPUMP_DEB = 1003,
- SI3218X_RAM_DCDC_VERR = 1004,
- SI3218X_RAM_DCDC_VERR_HYST = 1005,
- SI3218X_RAM_DCDC_OITHRESH_LO = 1006,
- SI3218X_RAM_DCDC_OITHRESH_HI = 1007,
- SI3218X_RAM_HV_BIAS_ONHK = 1008,
- SI3218X_RAM_HV_BIAS_OFFHK = 1009,
- SI3218X_RAM_UNUSED1010 = 1010,
- SI3218X_RAM_UNUSED1011 = 1011,
- SI3218X_RAM_UNUSED1012 = 1012,
- SI3218X_RAM_UNUSED1013 = 1013,
- SI3218X_RAM_ILONG_RT_THRESH = 1014,
- SI3218X_RAM_VOV_RING_BAT_DCDC = 1015,
- SI3218X_RAM_UNUSED1016 = 1016,
- SI3218X_RAM_LKG_LB_OFFSET = 1017,
- SI3218X_RAM_LKG_OFHK_OFFSET = 1018,
- SI3218X_RAM_SWEEP_FREQ_TH = 1019,
- SI3218X_RAM_AMP_MOD_G = 1020,
- SI3218X_RAM_AMP_MOD_OS = 1021,
- SI3218X_RAM_UNUSED1022 = 1022,
- SI3218X_RAM_UNUSED1023 = 1023,
- SI3218X_RAM_UNUSED_REG256 = 1280,
- SI3218X_RAM_DAC_IN = 1281,
- SI3218X_RAM_ADC_OUT = 1282,
- SI3218X_RAM_PASS1 = 1283,
- SI3218X_RAM_TX_AC_INT = 1284,
- SI3218X_RAM_RX_AC_DIFF = 1285,
- SI3218X_RAM_INDIRECT_WR = 1286,
- SI3218X_RAM_INDIRECT_RD = 1287,
- SI3218X_RAM_BYPASS_OUT = 1288,
- SI3218X_RAM_ACC = 1289,
- SI3218X_RAM_INDIRECT_RAM_A = 1290,
- SI3218X_RAM_INDIRECT_RAM_B = 1291,
- SI3218X_RAM_HOT_BIT1 = 1292,
- SI3218X_RAM_HOT_BIT0 = 1293,
- SI3218X_RAM_PASS0_ROW_PWR = 1294,
- SI3218X_RAM_PASS0_COL_PWR = 1295,
- SI3218X_RAM_PASS0_ROW = 1296,
- SI3218X_RAM_PASS0_COL = 1297,
- SI3218X_RAM_PASS0_ROW_REL = 1298,
- SI3218X_RAM_PASS0_COL_REL = 1299,
- SI3218X_RAM_PASS0_ROW_2ND = 1300,
- SI3218X_RAM_PASS0_COL_2ND = 1301,
- SI3218X_RAM_PASS0_REV_TW = 1302,
- SI3218X_RAM_PASS0_FWD_TW = 1303,
- SI3218X_RAM_DAA_ADC_OUT = 1304,
- SI3218X_RAM_CAL_CM_BAL_TEST = 1305,
- SI3218X_RAM_UNUSED_REG282 = 1306,
- SI3218X_RAM_TONE1 = 1307,
- SI3218X_RAM_TONE2 = 1308,
- SI3218X_RAM_RING_TRIG = 1309,
- SI3218X_RAM_VCM_DAC = 1310,
- SI3218X_RAM_UNUSED_REG287 = 1311,
- SI3218X_RAM_RING_DAC = 1312,
- SI3218X_RAM_VRING_CROSSING = 1313,
- SI3218X_RAM_UNUSED_REG290 = 1314,
- SI3218X_RAM_LINEFEED_SHADOW = 1315,
- SI3218X_RAM_UNUSED_REG292 = 1316,
- SI3218X_RAM_UNUSED_REG293 = 1317,
- SI3218X_RAM_UNUSED_REG294 = 1318,
- SI3218X_RAM_ROW_DIGIT = 1319,
- SI3218X_RAM_COL_DIGIT = 1320,
- SI3218X_RAM_UNUSED_REG297 = 1321,
- SI3218X_RAM_PQ1_IRQ = 1322,
- SI3218X_RAM_PQ2_IRQ = 1323,
- SI3218X_RAM_PQ3_IRQ = 1324,
- SI3218X_RAM_PQ4_IRQ = 1325,
- SI3218X_RAM_PQ5_IRQ = 1326,
- SI3218X_RAM_PQ6_IRQ = 1327,
- SI3218X_RAM_LCR_SET = 1328,
- SI3218X_RAM_LCR_CLR = 1329,
- SI3218X_RAM_RTP_SET = 1330,
- SI3218X_RAM_LONG_SET = 1331,
- SI3218X_RAM_LONG_CLR = 1332,
- SI3218X_RAM_VDIFF_IRQ = 1333,
- SI3218X_RAM_MODFEED_SET = 1334,
- SI3218X_RAM_MODFEED_CLR = 1335,
- SI3218X_RAM_LF_SPEEDUP_SET = 1336,
- SI3218X_RAM_LF_SPEEDUP_CLR = 1337,
- SI3218X_RAM_DC_SPEEDUP_SET = 1338,
- SI3218X_RAM_DC_SPEEDUP_CLR = 1339,
- SI3218X_RAM_AC_SPEEDUP_SET = 1340,
- SI3218X_RAM_AC_SPEEDUP_CLR = 1341,
- SI3218X_RAM_LCR_SPEEDUP_SET = 1342,
- SI3218X_RAM_LCR_SPEEDUP_CLR = 1343,
- SI3218X_RAM_CM_SPEEDUP_SET = 1344,
- SI3218X_RAM_CM_SPEEDUP_CLR = 1345,
- SI3218X_RAM_MODEMPASS0 = 1346,
- SI3218X_RAM_RX2100_PASS1_PWR = 1347,
- SI3218X_RAM_RX2100_PASS1_THR = 1348,
- SI3218X_RAM_TX2100_PASS1_PWR = 1349,
- SI3218X_RAM_TX2100_PASS1_THR = 1350,
- SI3218X_RAM_TXMDM_TRIG = 1351,
- SI3218X_RAM_RXMDM_TRIG = 1352,
- SI3218X_RAM_UNUSED_REG329 = 1353,
- SI3218X_RAM_TX_FILT_CLR = 1354,
- SI3218X_RAM_TX_DC_INT = 1355,
- SI3218X_RAM_RX_DC_MOD_IN = 1356,
- SI3218X_RAM_DSP_ACCESS = 1357,
- SI3218X_RAM_PRAM_ADDR = 1358,
- SI3218X_RAM_PRAM_DATA = 1359,
- SI3218X_RAM_IND_RAM_A_BASE = 1360,
- SI3218X_RAM_IND_RAM_A_ADDR = 1361,
- SI3218X_RAM_IND_RAM_A_MOD = 1362,
- SI3218X_RAM_IND_RAM_B_BASE = 1363,
- SI3218X_RAM_IND_RAM_B_ADDR = 1364,
- SI3218X_RAM_IND_RAM_B_MOD = 1365,
- SI3218X_RAM_UNUSED_REG342 = 1366,
- SI3218X_RAM_UNUSED_REG343 = 1367,
- SI3218X_RAM_UNUSED_REG344 = 1368,
- SI3218X_RAM_USER_B0 = 1369,
- SI3218X_RAM_USER_B1 = 1370,
- SI3218X_RAM_USER_B2 = 1371,
- SI3218X_RAM_USER_B3 = 1372,
- SI3218X_RAM_USER_B4 = 1373,
- SI3218X_RAM_USER_B5 = 1374,
- SI3218X_RAM_USER_B6 = 1375,
- SI3218X_RAM_USER_B7 = 1376,
- SI3218X_RAM_FLUSH_AUDIO_CLR = 1377,
- SI3218X_RAM_FLUSH_DC_CLR = 1378,
- SI3218X_RAM_SPR_CLR = 1379,
- SI3218X_RAM_GPI0 = 1380,
- SI3218X_RAM_GPI1 = 1381,
- SI3218X_RAM_GPI2 = 1382,
- SI3218X_RAM_GPI3 = 1383,
- SI3218X_RAM_GPO0 = 1384,
- SI3218X_RAM_GPO1 = 1385,
- SI3218X_RAM_GPO2 = 1386,
- SI3218X_RAM_GPO3 = 1387,
- SI3218X_RAM_GPO0_OE = 1388,
- SI3218X_RAM_GPO1_OE = 1389,
- SI3218X_RAM_GPO2_OE = 1390,
- SI3218X_RAM_GPO3_OE = 1391,
- SI3218X_RAM_BATSEL_L_SET = 1392,
- SI3218X_RAM_BATSEL_H_SET = 1393,
- SI3218X_RAM_BATSEL_R_SET = 1394,
- SI3218X_RAM_BATSEL_CLR = 1395,
- SI3218X_RAM_VBAT_IRQ = 1396,
- SI3218X_RAM_MADC_VTIPC_RAW = 1397,
- SI3218X_RAM_MADC_VRINGC_RAW = 1398,
- SI3218X_RAM_MADC_VBAT_RAW = 1399,
- SI3218X_RAM_MADC_VLONG_RAW = 1400,
- SI3218X_RAM_UNUSED_REG377 = 1401,
- SI3218X_RAM_MADC_VDC_RAW = 1402,
- SI3218X_RAM_MADC_ILONG_RAW = 1403,
- SI3218X_RAM_UNUSED_REG380 = 1404,
- SI3218X_RAM_UNUSED_REG381 = 1405,
- SI3218X_RAM_MADC_ILOOP_RAW = 1406,
- SI3218X_RAM_MADC_DIAG_RAW = 1407,
- SI3218X_RAM_UNUSED_REG384 = 1408,
- SI3218X_RAM_UNUSED_REG385 = 1409,
- SI3218X_RAM_CALR3_DSP = 1410,
- SI3218X_RAM_PD_MADC = 1411,
- SI3218X_RAM_UNUSED_REG388 = 1412,
- SI3218X_RAM_PD_BIAS = 1413,
- SI3218X_RAM_PD_DC_ADC = 1414,
- SI3218X_RAM_PD_DC_DAC = 1415,
- SI3218X_RAM_PD_DC_SNS = 1416,
- SI3218X_RAM_PD_DC_COARSE_SNS = 1417,
- SI3218X_RAM_PD_VBAT_SNS = 1418,
- SI3218X_RAM_PD_DC_BUF = 1419,
- SI3218X_RAM_PD_AC_ADC = 1420,
- SI3218X_RAM_PD_AC_DAC = 1421,
- SI3218X_RAM_PD_AC_SNS = 1422,
- SI3218X_RAM_PD_CM_SNS = 1423,
- SI3218X_RAM_PD_CM = 1424,
- SI3218X_RAM_UNUSED_REG401 = 1425,
- SI3218X_RAM_UNUSED_REG402 = 1426,
- SI3218X_RAM_PD_SUM = 1427,
- SI3218X_RAM_PD_LKGDAC = 1428,
- SI3218X_RAM_UNUSED_REG405 = 1429,
- SI3218X_RAM_PD_HVIC = 1430,
- SI3218X_RAM_UNUSED_REG407 = 1431,
- SI3218X_RAM_CMDAC_CHEN_B = 1432,
- SI3218X_RAM_SUM_CHEN_B = 1433,
- SI3218X_RAM_TRNRD_CHEN_B = 1434,
- SI3218X_RAM_UNUSED_REG411 = 1435,
- SI3218X_RAM_DC_BUF_CHEN_B = 1436,
- SI3218X_RAM_AC_SNS_CHEN_B = 1437,
- SI3218X_RAM_DC_SNS_CHEN_B = 1438,
- SI3218X_RAM_LB_MUX_CHEN_B = 1439,
- SI3218X_RAM_UNUSED_REG416 = 1440,
- SI3218X_RAM_CMDAC_EN_B = 1441,
- SI3218X_RAM_RA_EN_B = 1442,
- SI3218X_RAM_RD_EN_B = 1443,
- SI3218X_RAM_VCTL = 1444,
- SI3218X_RAM_UNUSED_REG421 = 1445,
- SI3218X_RAM_UNUSED_REG422 = 1446,
- SI3218X_RAM_HVIC_STATE = 1447,
- SI3218X_RAM_HVIC_STATE_OBSERVE = 1448,
- SI3218X_RAM_HVIC_STATE_MAN = 1449,
- SI3218X_RAM_HVIC_STATE_READ = 1450,
- SI3218X_RAM_UNUSED_REG427 = 1451,
- SI3218X_RAM_VCMDAC_SCALE_MAN = 1452,
- SI3218X_RAM_CAL_ACADC_CNTL = 1453,
- SI3218X_RAM_CAL_ACDAC_CNTL = 1454,
- SI3218X_RAM_UNUSED_REG431 = 1455,
- SI3218X_RAM_CAL_DCDAC_CNTL = 1456,
- SI3218X_RAM_CAL_TRNRD_CNTL = 1457,
- SI3218X_RAM_CAL_TRNRD_DACT = 1458,
- SI3218X_RAM_CAL_TRNRD_DACR = 1459,
- SI3218X_RAM_LKG_UPT_ACTIVE = 1460,
- SI3218X_RAM_LKG_UPR_ACTIVE = 1461,
- SI3218X_RAM_LKG_DNT_ACTIVE = 1462,
- SI3218X_RAM_LKG_DNR_ACTIVE = 1463,
- SI3218X_RAM_LKG_UPT_OHT = 1464,
- SI3218X_RAM_LKG_UPR_OHT = 1465,
- SI3218X_RAM_LKG_DNT_OHT = 1466,
- SI3218X_RAM_LKG_DNR_OHT = 1467,
- SI3218X_RAM_CAL_LKG_EN_CNTL = 1468,
- SI3218X_RAM_CAL_PUPD_CNTL = 1469,
- SI3218X_RAM_UNUSED_REG446 = 1470,
- SI3218X_RAM_CAL_AC_RCAL = 1471,
- SI3218X_RAM_CAL_DC_RCAL = 1472,
- SI3218X_RAM_KAC_MOD = 1473,
- SI3218X_RAM_KAC_SEL = 1474,
- SI3218X_RAM_SEL_RING = 1475,
- SI3218X_RAM_CMDAC_FWD = 1476,
- SI3218X_RAM_CMDAC_RVS = 1477,
- SI3218X_RAM_CAL_INC_STATE = 1478,
- SI3218X_RAM_CAL_DCDAC_COMP = 1479,
- SI3218X_RAM_BAT_SWITCH = 1480,
- SI3218X_RAM_CH_IRQ = 1481,
- SI3218X_RAM_ILOOP_CROSSING = 1482,
- SI3218X_RAM_VOC_FAILSAFE = 1483,
- SI3218X_RAM_UNUSED_REG460 = 1484,
- SI3218X_RAM_UNUSED_REG461 = 1485,
- SI3218X_RAM_GENERIC_0 = 1486,
- SI3218X_RAM_GENERIC_1 = 1487,
- SI3218X_RAM_GENERIC_2 = 1488,
- SI3218X_RAM_GENERIC_3 = 1489,
- SI3218X_RAM_GENERIC_4 = 1490,
- SI3218X_RAM_GENERIC_5 = 1491,
- SI3218X_RAM_GENERIC_6 = 1492,
- SI3218X_RAM_GENERIC_7 = 1493,
- SI3218X_RAM_UNUSED_REG470 = 1494,
- SI3218X_RAM_UNUSED_REG471 = 1495,
- SI3218X_RAM_QHI_SET = 1496,
- SI3218X_RAM_QHI_CLR = 1497,
- SI3218X_RAM_UNUSED_REG474 = 1498,
- SI3218X_RAM_RDC_SUM = 1499,
- SI3218X_RAM_UNUSED_REG476 = 1500,
- SI3218X_RAM_UNUSED_REG477 = 1501,
- SI3218X_RAM_UNUSED_REG478 = 1502,
- SI3218X_RAM_UNUSED_REG479 = 1503,
- SI3218X_RAM_UNUSED_REG480 = 1504,
- SI3218X_RAM_UNUSED_REG481 = 1505,
- SI3218X_RAM_FLUSH_AUDIO_MAN = 1506,
- SI3218X_RAM_FLUSH_DC_MAN = 1507,
- SI3218X_RAM_TIP_RING_CNTL = 1508,
- SI3218X_RAM_SQUELCH_SET = 1509,
- SI3218X_RAM_SQUELCH_CLR = 1510,
- SI3218X_RAM_CAL_STATE_MAN = 1511,
- SI3218X_RAM_UNUSED_REG488 = 1512,
- SI3218X_RAM_UNUSED_REG489 = 1513,
- SI3218X_RAM_RINGING_BW = 1514,
- SI3218X_RAM_AUDIO_MAN = 1515,
- SI3218X_RAM_HVIC_STATE_SPARE = 1516,
- SI3218X_RAM_RINGING_FAST_MAN = 1517,
- SI3218X_RAM_VCM_DAC_MAN = 1518,
- SI3218X_RAM_UNUSED_REG495 = 1519,
- SI3218X_RAM_UNUSED_REG496 = 1520,
- SI3218X_RAM_UNUSED_REG497 = 1521,
- SI3218X_RAM_GENERIC_8 = 1522,
- SI3218X_RAM_GENERIC_9 = 1523,
- SI3218X_RAM_GENERIC_10 = 1524,
- SI3218X_RAM_GENERIC_11 = 1525,
- SI3218X_RAM_UNUSED_REG502 = 1526,
- SI3218X_RAM_GENERIC_12 = 1527,
- SI3218X_RAM_GENERIC_13 = 1528,
- SI3218X_RAM_UNUSED_REG505 = 1529,
- SI3218X_RAM_DC_HOLD_DAC = 1530,
- SI3218X_RAM_OFFHOOK_CMP = 1531,
- SI3218X_RAM_PWRSAVE_SET = 1532,
- SI3218X_RAM_PWRSAVE_CLR = 1533,
- SI3218X_RAM_PD_WKUP = 1534,
- SI3218X_RAM_SPEEDUP_MASK_SET = 1535,
- SI3218X_RAM_SPEEDUP_MASK_CLR = 1536,
- SI3218X_RAM_UNUSED_REG513 = 1537,
- SI3218X_RAM_PD_DCDC = 1538,
- SI3218X_RAM_UNUSED_REG515 = 1539,
- SI3218X_RAM_PD_UVLO = 1540,
- SI3218X_RAM_PD_OVLO = 1541,
- SI3218X_RAM_PD_OCLO = 1542,
- SI3218X_RAM_PD_SWDRV = 1543,
- SI3218X_RAM_UNUSED_REG520 = 1544,
- SI3218X_RAM_DCDC_UVHYST = 1545,
- SI3218X_RAM_DCDC_UVTHRESH = 1546,
- SI3218X_RAM_DCDC_OVTHRESH = 1547,
- SI3218X_RAM_DCDC_OITHRESH = 1548,
- SI3218X_RAM_UNUSED_REG525 = 1549,
- SI3218X_RAM_UNUSED_REG526 = 1550,
- SI3218X_RAM_DCDC_STATUS = 1551,
- SI3218X_RAM_UNUSED_REG528 = 1552,
- SI3218X_RAM_DCDC_SWDRV_POL = 1553,
- SI3218X_RAM_DCDC_UVPOL = 1554,
- SI3218X_RAM_DCDC_CPUMP = 1555,
- SI3218X_RAM_UNUSED_REG532 = 1556,
- SI3218X_RAM_DCDC_VREF_MAN = 1557,
- SI3218X_RAM_DCDC_VREF_CTRL = 1558,
- SI3218X_RAM_UNUSED_REG535 = 1559,
- SI3218X_RAM_DCDC_RNGTYPE = 1560,
- SI3218X_RAM_DCDC_DIN_FILT = 1561,
- SI3218X_RAM_UNUSED_REG538 = 1562,
- SI3218X_RAM_DCDC_DOUT = 1563,
- SI3218X_RAM_UNUSED_REG540 = 1564,
- SI3218X_RAM_DCDC_OIMASK = 1565,
- SI3218X_RAM_UNUSED_REG542 = 1566,
- SI3218X_RAM_UNUSED_REG543 = 1567,
- SI3218X_RAM_DCDC_SC_SET = 1568,
- SI3218X_RAM_WAKE_HOLD = 1569,
- SI3218X_RAM_PD_AC_SQUELCH = 1570,
- SI3218X_RAM_PD_REF_OSC = 1571,
- SI3218X_RAM_UNUSED_REG548 = 1572,
- SI3218X_RAM_PWRSAVE_MAN = 1573,
- SI3218X_RAM_PWRSAVE_SEL = 1574,
- SI3218X_RAM_PWRSAVE_CTRL_LO = 1575,
- SI3218X_RAM_PWRSAVE_CTRL_HI = 1576,
- SI3218X_RAM_PWRSAVE_HVIC_LO = 1577,
- SI3218X_RAM_PWRSAVE_HVIC_HI = 1578,
- SI3218X_RAM_DSP_PROM_MISR = 1579,
- SI3218X_RAM_DSP_CROM_MISR = 1580,
- SI3218X_RAM_DAA_PROM_MISR = 1581,
- SI3218X_RAM_DAA_CROM_MISR = 1582,
- SI3218X_RAM_RAMBIST_ERROR = 1583,
- SI3218X_RAM_DCDC_ANA_VREF = 1584,
- SI3218X_RAM_DCDC_ANA_GAIN = 1585,
- SI3218X_RAM_DCDC_ANA_TOFF = 1586,
- SI3218X_RAM_DCDC_ANA_TONMIN = 1587,
- SI3218X_RAM_DCDC_ANA_TONMAX = 1588,
- SI3218X_RAM_DCDC_ANA_DSHIFT = 1589,
- SI3218X_RAM_DCDC_ANA_LPOLY = 1590,
- SI3218X_RAM_DCDC_ANA_PSKIP = 1591,
- SI3218X_RAM_PD_DCDC_ANA = 1592,
- SI3218X_RAM_UNUSED_REG569 = 1593,
- SI3218X_RAM_UNUSED_REG570 = 1594,
- SI3218X_RAM_PWRPEND_SET = 1595,
- SI3218X_RAM_PD_CM_BUF = 1596,
- SI3218X_RAM_JMP8 = 1597,
- SI3218X_RAM_JMP9 = 1598,
- SI3218X_RAM_JMP10 = 1599,
- SI3218X_RAM_JMP11 = 1600,
- SI3218X_RAM_JMP12 = 1601,
- SI3218X_RAM_JMP13 = 1602,
- SI3218X_RAM_JMP14 = 1603,
- SI3218X_RAM_JMP15 = 1604,
- SI3218X_RAM_METER_TRIG = 1605,
- SI3218X_RAM_PM_ACTIVE = 1606,
- SI3218X_RAM_PM_INACTIVE = 1607,
- SI3218X_RAM_HVIC_VERSION = 1608,
- SI3218X_RAM_THERM_OFF = 1609,
- SI3218X_RAM_THERM_HI = 1610,
- SI3218X_RAM_TEST_LOAD = 1611,
- SI3218X_RAM_DC_HOLD_MAN = 1612,
- SI3218X_RAM_DC_HOLD_DAC_MAN = 1613,
- SI3218X_RAM_UNUSED_REG590 = 1614,
- SI3218X_RAM_DCDC_CPUMP_LP = 1615,
- SI3218X_RAM_DCDC_CPUMP_LP_MASK = 1616,
- SI3218X_RAM_DCDC_CPUMP_PULLDOWN = 1617,
- SI3218X_RAM_BOND_STATUS = 1618,
- SI3218X_RAM_BOND_MAN = 1619,
- SI3218X_RAM_BOND_VAL = 1620,
- SI3218X_RAM_REF_DEBOUNCE_PCLK = 1633,
- SI3218X_RAM_REF_DEBOUNCE_FSYNC = 1634,
- SI3218X_RAM_DCDC_LIFT_EN = 1635,
- SI3218X_RAM_DCDC_CPUMP_PGOOD = 1636,
- SI3218X_RAM_DCDC_CPUMP_PGOOD_WKEN = 1637,
- SI3218X_RAM_DCDC_CPUMP_PGOOD_FRC = 1638,
- SI3218X_RAM_DCDC_CPUMP_LP_MASK_SH = 1639,
- SI3218X_RAM_DCDC_UV_MAN = 1640,
- SI3218X_RAM_DCDC_UV_DEBOUNCE = 1641,
- SI3218X_RAM_DCDC_OV_MAN = 1642,
- SI3218X_RAM_DCDC_OV_DEBOUNCE = 1643,
- SI3218X_RAM_ANALOG3_TEST_MUX = 1644,
-};
-
-#endif
-
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/si_voice.h b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/si_voice.h
deleted file mode 100644
index fe03c58..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/si_voice.h
+++ /dev/null
@@ -1,949 +0,0 @@
-/* SPDX-License-Identifier: GPL-2.0 */
-/*
- * Author(s):
- * laj
- *
- * Distributed by:
- * Silicon Laboratories, Inc
- *
- * This file contains proprietary information.
- * No dissemination allowed without prior written permission from
- * Silicon Laboratories, Inc.
- *
- * File Description:
- * This is the main header file for the ProSLIC API software.
- *
- *
- */
-
-#ifndef SI_VOICE_H
-#define SI_VOICE_H
-
-#include "../config_inc/proslic_api_config.h"
-#include "si_voice_ctrl.h"
-#include "si_voice_timer_intf.h"
-
-/* The following macros are in place so that if the customer did not define them, the "safe" default is not disable the functionality.*/
-#ifndef ENABLE_DEBUG
-#define DEBUG_PRINT(...)
-#define DEBUG_ENABLED(X) 0
-#endif
-
-#ifndef ENABLE_TRACES
-#define TRACE_ENABLED(X) 0
-#define TRACEPRINT(...)
-#define TRACEPRINT_NOCHAN(...)
-#endif
-
-#ifndef LOGPRINT
-#define LOGPRINT(...)
-#endif
-
-#define SILABS_UNREFERENCED_PARAMETER(param) (void)param
-
-/** @defgroup SIVOICE SiVoice definitions
-
- * @{
- */
-/*****************************************************************************/
-/** @defgroup CHIPFAM Chip family definitions
- * @{
- */
-#define SI3217X_TYPE 4 /**< Single channel chipset*/
-#define SI3226X_TYPE 5 /**< Dual channel chipset */
-#define SI3218X_TYPE 6 /**< Single channel chipset*/
-#define SI3228X_TYPE 7 /**< Dual channel chipset */
-#define SI3228X_TYPE 7 /**< Dual channel chipset */
-#define SI3219X_TYPE 8 /**< Single channel chipset*/
-#define SI3050_TYPE 20 /**< Single channel FXO chipset */
-
-/** @} CHIPFAM */
-/*****************************************************************************/
-
-
-/*
-* Workaroud for building on windows systems
-*/
-
-#ifdef RC_NONE
-#undef RC_NONE
-#endif
-
-#define SIVOICE_RC_NONE RC_NONE
-
-/**
-* This is the main Silicon Labs control interface object. do not access directly!
-*/
-typedef struct
-{
- void *hCtrl; /**< user provided SPI/GCI structure */
- ctrl_Reset_fptr Reset_fptr; /**< user provided reset function */
- ctrl_WriteRegister_fptr
- WriteRegister_fptr; /**< user provided SPI/GCI write register function */
- ctrl_ReadRegister_fptr
- ReadRegister_fptr; /**< user provided SPI/GI read register function */
- ctrl_WriteRAM_fptr
- WriteRAM_fptr; /**< ProSLIC only - user provided SPI/GCI read RAM/Indirect register function */
- ctrl_ReadRAM_fptr ReadRAM_fptr; /**< ProSLIC only */
- ctrl_Semaphore_fptr Semaphore_fptr; /**< ProSLIC only */
- void *hTimer; /**< user provided Timer data structure */
- system_delay_fptr
- Delay_fptr; /**< user supplied mSec delay function */
- system_timeElapsed_fptr
- timeElapsed_fptr; /**< user provided mSec time elapsed function */
- system_getTime_fptr
- getTime_fptr; /**< user provided timestamp function */
-} SiVoiceControlInterfaceType;
-
-/* MAINTAINER NOTE: if this changes, update deubg.c in the API demo */
-typedef enum
-{
- SI32171, /* '170 is the HV version of this part */
- SI32172, /* '173 is the HV version of this part */
- SI32174,
- SI32175,
- SI32176,
- SI32177,
- SI32178,
- SI32179,
- SI32260,
- SI32261,
- SI32262,
- SI32263,
- SI32264,
- SI32265,
- SI32266,
- SI32267,
- SI32268,
- SI32269,
- SI32360,
- SI32361,
- SI32180,
- SI32181,
- SI32182,
- SI32183,
- SI32184,
- SI32185,
- SI32186,
- SI32187,
- SI32188,
- SI32189, /* Place holder */
- SI32280,
- SI32281,
- SI32282,
- SI32283,
- SI32284,
- SI32285,
- SI32286,
- SI32287,
- SI32289, /* Place holder */
- SI32190, /* NOT all parts numbers are used at this time and are placeholders */
- SI32191,
- SI32192,
- SI32193,
- SI32194,
- SI32195,
- SI32196,
- SI32197,
- SI32198,
- SI32199,
- SI3050 = 100,
- UNSUPPORTED_PART_NUM = 255
-} partNumberType;
-
-#define IS_SI3219X(SI_DEVPTR) ( ( (SI_DEVPTR)->chipType >= SI32190) && ( (SI_DEVPTR)->chipType <= SI32199) )
-
-/**
-* Chip revision definition for easier readability in the source code
-*/
-typedef enum
-{
- A,
- B,
- C,
- D,
- E,
- F,
- G
-} revisionType ;
-
-
-typedef enum
-{
- UNKNOWN, /**< Channel type has not been initialized or is still unknown */
- PROSLIC, /**< Channel type is a ProSLIC/FXS */
- DAA /**< Channel type is a DAA/FXO */
-} channelTypeType;
-
-/**
-* These are the error codes for ProSLIC failures
-*/
-typedef enum
-{
- RC_IGNORE = 0,
- RC_NONE= 0, /**< Means the function did not encounter an error */
- RC_TEST_PASSED = 0,
- RC_TEST_FAILED = 1,
- RC_COMPLETE_NO_ERR = 1, /**< A test completed, no error detected */
- RC_POWER_ALARM_Q1,
- RC_POWER_ALARM_Q2,
- RC_POWER_ALARM_Q3,
- RC_POWER_ALARM_Q4,
- RC_POWER_ALARM_Q5,
- RC_POWER_ALARM_Q6,
- RC_SPI_FAIL, /**< SPI Communications failure */
- RC_POWER_LEAK,
- RC_VBAT_UP_TIMEOUT,
- RC_VBAT_OUT_OF_RANGE,
- RC_VBAT_DOWN_TIMEOUT,
- RC_TG_RG_SHORT,
- RC_CM_CAL_ERR,
- RC_RING_FAIL_INT,
- RC_CAL_TIMEOUT,
- RC_PATCH_ERR,
- RC_BROADCAST_FAIL, /**< Broadcast unavailable for requested operation */
- RC_UNSUPPORTED_FEATURE, /**< Feature is not supported by the chipset*/
- RC_CHANNEL_TYPE_ERR, /**< Channel type does not support called function */
- RC_GAIN_DELTA_TOO_LARGE, /**< Requested gain delta too large */
- RC_GAIN_OUT_OF_RANGE, /**< Gain requested exceeds range */
- RC_POWER_ALARM_HVIC, /**< Power alarm on HVIC */
- RC_POWER_ALARM_OFFLD, /**< Power alarm on offload transistor */
- RC_THERMAL_ALARM_HVIC, /**< Thermal alarm detected */
- RC_NO_MEM, /**< Out of memory */
- RC_INVALID_GEN_PARAM, /**< Invalid general parameter */
- RC_LINE_IN_USE, /**< Line is in use (LCS detected) */
- RC_RING_V_LIMITED, /**< Ringer voltage limited - signal may be clipped */
- RC_PSTN_CHECK_SINGLE_FAIL, /**< PSTN detect single current exceeds limit */
- RC_PSTN_CHECK_AVG_FAIL, /**< PSTN detect average current exceeds limit */
- RC_VDAA_ILOOP_OVLD, /**< Overload detected */
- RC_UNSUPPORTED_OPTION, /**< Function parameter is not supported at this time */
- RC_FDT_TIMEOUT, /**< Timeout waiting for valid frame detect */
- RC_PSTN_OPEN_FEMF, /**< Detected FEMF, device left in open state */
- RC_VDAA_PAR_HANDSET_DET, /**< Parallel handset detected */
- RC_VDAA_PAR_HANDSET_NOT_DET, /**< Parallel handset not detected */
- RC_PATCH_RAM_VERIFY_FAIL, /**< Patch RAM verification failure */
- RC_PATCH_ENTRY_VERIFY_FAIL, /**< Patch entry table verification failure */
- RC_UNSUPPORTED_DEVICE_REV, /**< Device revision not supported */
- RC_INVALID_PATCH, /**< No patch for selected options */
- RC_INVALID_PRESET, /**< Invalid Preset value */
- RC_TEST_DISABLED, /**< Test Not enabled */
- RC_RING_START_FAIL, /**< Ringing failed to start */
- RC_MWI_ENABLE_FAIL, /**< Failed to enable MWI feature */
- RC_MWI_IN_USE, /**< MWI active and unable to be modified */
- RC_MWI_NOT_ENABLED, /**< MWI not enabled */
- RC_DCDC_SETUP_ERR, /**< DCDC not properly initialized prior to powerup */
- RC_PLL_FREERUN_ACTIVE, /**< PLL In Freerun Mode */
- RC_UNSUPPORTED_VDC_RANGE, /**< VDC Range Unsupported */
- RC_NON_FATAL_INIT_ERR, /**< Generic error to indicate a non-fatal error during init */
- RSPI_CONNECTION_FAILED, /**< Client disconnected from server or vice versa */
- RC_REINIT_REQUIRED = 255 /**< Soft Reset Required */
-} errorCodeType;
-
-/**********************************************************************/
-/**
- * @defgroup PROLSIC_BRD_DESIGN Board design settings
- * @{
- */
-/**
-* BOM Option Tag - refer to hardware design
-*/
-
-typedef enum
-{
- DEFAULT, /**< DCDC: Unspecified */
- BO_DCDC_FLYBACK, /**< DCDC: flyback design */
- BO_DCDC_LCQC_7P6W, /**< DCDC: quasi-cuk design */
- BO_DCDC_QCUK = BO_DCDC_LCQC_7P6W, /**< @deprecated DCDC: quasi-cuk design (deprecated name, use BO_DCDC_LCQC_7P6W) */
- BO_DCDC_BUCK_BOOST, /**< DCDC: BJT buck-boost design */
- BO_DCDC_LCQC_3W, /**< DCDC: low-cost quasi-cuk design */
- BO_DCDC_LCQCUK = BO_DCDC_LCQC_3W, /**< DCDC: low-cost quasi-cuk design */
- BO_DCDC_P_BUCK_BOOST_5V, /**< @deprecated DCDC: PMOS buck-boost 5v design */
- BO_DCDC_P_BUCK_BOOST_12V, /**< @deprecated DCDC: PMOS buck-boost 12v design */
- BO_DCDC_P_BUCK_BOOST_12V_HV, /**< @deprecated DCDC: PMOS buck-boost 12v design, high voltage */
- BO_DCDC_CUK, /**< DCDC: full cuk design */
- BO_DCDC_PMOS_BUCK_BOOST, /**< @deprecated DCDC: PMOS buck-boost design */
- BO_DCDC_LCQC_6W, /**< DCDC: low cost quasi-cuk design, 6W capability */
- BO_DCDC_LCQC_5W, /**< DCDC: low cost quasi-cuk design, 5W capability - '180 & '280 parts */
- BO_DCDC_LCCB, /**< DCDC: low cost capacitive boost design - '180 & '280 parts */
- BO_DCDC_LCUB,
- BO_DCDC_LCCB110,
- BO_DCDC_LCFB
-} bomOptionsType;
-
-/**
-* VDC input voltage range option tags - please refer hardware design
-*/
-typedef enum
-{
- VDC_3P0_6P0,
- VDC_4P5_16P0,
- VDC_4P5_27P0,
- VDC_7P0_20P0,
- VDC_8P0_16P0,
- VDC_9P0_15P0,
- VDC_9P0_16P0,
- VDC_9P0_24P0,
- VDC_10P8_20P0,
- VDC_27P0_42P0,
- VDC_10P8_13P2
-} vdcRangeType;
-
-/**
-* Battery Rail option tags - please refer hardware design
-*/
-typedef enum
-{
- BO_DCDC_TSS, /**< Used for Fixed Rail DC-DC supplies */
- BO_DCDC_TRACKING, /**< Used for Tracking DC-DC supplies */
- BO_DCDC_EXTERNAL, /**< Used for external fixed rail supplies */
- BO_DCDC_TSS_ISO, /**< Used for isolated TSS supplies */
- BO_DCDC_QSS, /**< Used for QSS Designs */
- BO_DCDC_FIXED_RAIL = BO_DCDC_TSS /**< Fixed rail replaced by TSS */
-#ifndef SIVOICE_CFG_NEWTYPES_ONLY
- ,FIXED = BO_DCDC_FIXED_RAIL /**< @deprecated use BO_DCDC_FIXED_RAIL */
- ,TRACKING = BO_DCDC_TRACKING /**< @deprecated use BO_DCDC_TRACKING */
-#endif
- ,BO_DCDC_UNKNOWN
-} batRailType;
-
-/**
-* FET Gate Driver option tags
-*/
-
-typedef enum
-{
- BO_GDRV_NOT_INSTALLED = 0,
- BO_GDRV_INSTALLED = 1
-} gateDriveType;
-
-/**
-* Auto ZCAL Enable option tags
-*/
-
-typedef enum
-{
- AUTO_ZCAL_DISABLED = 0,
- AUTO_ZCAL_ENABLED = 1
-} autoZcalType;
-
-/**
-* VDAA Support option tags
-*/
-typedef enum
-{
- VDAA_DISABLED = 0,
- VDAA_ENABLED = 1
-} vdaaSupportType;
-
-/**
-* PM BOM Support option tags
-*/
-
-typedef enum
-{
- BO_STD_BOM,
- BO_PM_BOM
-} pmBomType;
-
-/**
-* Initialization options to allow init flow and/or content to be
-* altered at runtime
-*/
-typedef enum
-{
- INIT_NO_OPT, /**< No initialization option */
- INIT_REINIT, /**< Reinitialization option */
- INIT_NO_CAL, /**< Skip calibration only - DEBUG use only */
- INIT_NO_PATCH_LOAD, /**< Skip patch load - DEBUG use only */
- INIT_SOFTRESET /**< SLIC is running after a SOC reset */
-} initOptionsType;
-
-/**
-** This is the main Voice device object
-*/
-typedef struct
-{
- SiVoiceControlInterfaceType
- *ctrlInterface; /**< How do we talk to the system? User supplied functions are connected here */
- revisionType chipRev; /**< What revision is the chip? */
- partNumberType chipType; /**< What member of the particular family is this chip? */
- uInt8 lsRev; /**< DAA: what rev is the line side chip? */
- uInt8 lsType; /**< DAA: what type is the line side chip */
-} SiVoiceDeviceType;
-
-typedef SiVoiceDeviceType *SiVoiceDeviceType_ptr; /**< Shortcut typedef */
-
-#ifdef SIVOICE_NEON_MWI_SUPPORT
-/*
-** Defines structure for storing MWI params
-*/
-typedef struct
-{
- ramData ringof;
- ramData ringamp;
- ramData vbatr_expect;
- ramData vov_ring_bat;
- ramData vov_ring_gnd;
- ramData rtacth;
- ramData rtdcth;
- ramData iring_lim;
- ramData dcdc_rngtype;
- ramData slope_ring;
- ramData rtper;
- ramData ringfr;
- ramData rtdcdb;
- ramData lcrmask;
- ramData dcdc_oithresh_lo;
- uInt8 enhance;
- uInt8 ringcon;
- uInt8 userstat;
- uInt8 linefeed;
-} SiVoice_MWI_Store;
-#endif
-
-/* Define a complete ring cadence */
-typedef struct
-{
- uInt32 steps; /* In ticks */
- uInt32 onTime;
- uInt32 offTime; /* "" */
- uInt32 step_size;
- uInt32 von;
- uInt32 voff;
-} SiVoice_MWI_poll_t;
-
-typedef enum
-{
- PROSLIC_MWI_ON,
- PROSLIC_MWI_OFF,
- PROSLIC_MWI_RAMP_ON,
- PROSLIC_MWI_RAMP_OFF
-} SiVoice_MWIrampStates_t;
-
-typedef struct
-{
- SiVoice_MWI_poll_t poll;
- SiVoice_MWIrampStates_t state;
- uInt32 ticks; /* How many ticks left to next state? */
-} SiVoice_MWIrampState_t;
-
-/**
-** This is the main ProSLIC channel object
-*/
-typedef struct
-{
- SiVoiceDeviceType_ptr
- deviceId; /**< Information about the device associated with this channel */
- uInt8 channel; /**< Which channel is this device? This is a system parameter meaning if you have 2 dual channel devices in your system, this number would then typically go from 0-3 */
- channelTypeType channelType; /**< Is this a ProSLIC or a DAA */
- errorCodeType error; /**< Storage for the current error state - used only for APIs that don't return back an error */
- int debugMode; /**< Are we debugging on this channel? */
- int channelEnable; /**< is the channel enabled or not? If not, this channel is not initialized */
- bomOptionsType bomOption; /**< Device/PCB specific */
- uInt8 dcdc_polarity_invert; /**< Invert DCDC polarity from what is provided in general parameters */
- uInt8 scratch; /**< Internal use only */
- uInt8 scratch2; /**< Internal use only */
-#ifdef SIVOICE_NEON_MWI_SUPPORT
- SiVoice_MWI_Store mwiSave;
- SiVoice_MWIrampState_t mwiState;
-#endif
-} SiVoiceChanType;
-
-
-typedef SiVoiceChanType *SiVoiceChanType_ptr;
-/** @} */
-
-/*****************************************************************************/
-/** @defgroup SIVOICE_IF_CFG SiVoice System control interface functions
- *
- * These functions are used by the ProSLIC API to access system resources
- * such as SPI/GCI access, memory allocation/deallocation and timers.
- *
- * @{
- */
-/*****************************************************************************/
-/** @defgroup SIVOICE_MEMORY_IF SiVoice Memory allocation/deallocation
- *
- * These functions dynamically allocate and deallocate memory for the given
- * structures. malloc() and memset() are called for allocation and free() is
- * called for deallocation. These functions are typically called during
- * initialization of the API and at the tear down of the API. If customers
- * prefer to use statically allocated structures, then they must ensure that
- * the structure elements are zero'ed out.
- *
- * @{
- */
-
-/**
- @brief
- * Allocate memory and initialize the given structure.
- *
- * @param[in,out] pCtrlIntf - the structure to initialize
- * @param[in] interface_count - number of device interfaces present. Typically 1 interface per SPI controller.
- *
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- * @sa SiVoice_destroyControlInterfaces
- */
-
-int SiVoice_createControlInterfaces (SiVoiceControlInterfaceType **pCtrlIntf,
- uInt32 interface_count);
-#define SiVoice_createControlInterface(X) SiVoice_createControlInterfaces((X),1)
-
-/**
- @brief
- * Destroys the given structure and deallocates memory.
- *
- * @param[in,out] pCtrlIntf - the structure to destroy/deallocate
- *
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- * @sa SiVoice_createControlInterfaces
- */
-
-int SiVoice_destroyControlInterfaces (SiVoiceControlInterfaceType **pCtrlIntf);
-#define SiVoice_destroyControlInterface SiVoice_destroyControlInterfaces
-
-/**
- @brief
- * Allocate memory and initialize the given structure.
- *
- * @param[in,out] pDev - the structure to initialize
- * @param[in] device_count - number of devices to allocate.
- *
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- * @sa SiVoice_destroyDevices
- */
-
-int SiVoice_createDevices (SiVoiceDeviceType **pDev, uInt32 device_count);
-#define SiVoice_createDevice(X) SiVoice_createDevices((X),1)
-
-/**
- @brief
- * Destroys the given structure and deallocates memory.
- *
- * @param[in,out] pDev - the structure to destroy/deallocate
- *
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- * @sa SiVoice_createDevices
- */
-
-int SiVoice_destroyDevices (SiVoiceDeviceType **pDev);
-
-#define SiVoice_destroyDevice SiVoice_destroyDevices
-
-/**
- @brief
- * Allocate memory and initialize the given structure.
- *
- * @param[in,out] pChan - the structure to initialize
- * @param[in] channel_count - number of channels to allocate.
- *
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- * @sa SiVoice_destroyChannels
- */
-
-int SiVoice_createChannels (SiVoiceChanType_ptr *pChan, uInt32 channel_count);
-
-#define SiVoice_createChannel(X) SiVoice_createChannels((X),1)
-
-/**
- @brief
- * Destroys the given structure and deallocates memory.
- *
- * @param[in,out] pChan - the structure to destroy/deallocate
- *
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- * @sa SiVoice_createChannels
- */
-
-#define SiVoice_destroyChannel SiVoice_destroyChannels
-int SiVoice_destroyChannels (SiVoiceChanType_ptr *pChan);
-/** @} SIVOICE_MEMORY_IF */
-
-/*****************************************************************************/
-/** @defgroup SIVOICE_IO SiVoice SPI/GCI access routines
- * This group of functions are used to associate the transport mechanism (SPI, GCI) functions with the API. The actual
- * functions being references are normally implemented by the customer for their particular OS and platform.
- *
- * @{
- */
-
-/**
- @brief
- * Associate a interface object with a user supplied data structure. This
- * structure is passed to all the I/O routines that the ProSLIC API calls.
- *
- * @param[in,out] pCtrlIntf - which interface to associate
- * the user supplied structure with.
- * @param[in] *hCtrl - the user supplied structure that is passed to the IO functions.
- *
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int SiVoice_setControlInterfaceCtrlObj (SiVoiceControlInterfaceType *pCtrlIntf,
- void *hCtrl);
-
-/**
- @brief
- * Associate a interface object with the reset function.
- *
- * @param[in,out] pCtrlIntf - which interface to associate
- * the user supplied function with.
- * @param[in] Reset_fptr - the reset function pointer
- *
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int SiVoice_setControlInterfaceReset (SiVoiceControlInterfaceType *pCtrlIntf,
- ctrl_Reset_fptr Reset_fptr);
-
-/**
- @brief
- * Associate a interface object with the register write function.
- *
- * @param[in,out] pCtrlIntf - which interface to associate
- * the user supplied function with.
- * @param[in] WriteRegister_fptr - the register write function pointer
- *
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int SiVoice_setControlInterfaceWriteRegister (SiVoiceControlInterfaceType
- *pCtrlIntf, ctrl_WriteRegister_fptr WriteRegister_fptr);
-
-/**
- @brief
- * Associate a interface object with the register read function.
- *
- * @param[in,out] pCtrlIntf - which interface to associate
- * the user supplied function with.
- * @param[in] ReadRegister_fptr- the register read function pointer
- *
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int SiVoice_setControlInterfaceReadRegister (SiVoiceControlInterfaceType
- *pCtrlIntf, ctrl_ReadRegister_fptr ReadRegister_fptr);
-
-/**
- @brief
- * Associate a interface object with the write RAM function.
- *
- * @param[in,out] pCtrlIntf - which interface to associate
- * the user supplied function with.
- * @param[in] WriteRAM_fptr - the reset function pointer
- *
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int SiVoice_setControlInterfaceWriteRAM (SiVoiceControlInterfaceType *pCtrlIntf,
- ctrl_WriteRAM_fptr WriteRAM_fptr);
-
-/**
- @brief
- * Associate a interface object with the read RAM function.
- *
- * @param[in,out] pCtrlIntf - which interface to associate
- * the user supplied function with.
- * @param[in] ReadRAM_fptr - the read RAM function pointer
- *
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int SiVoice_setControlInterfaceReadRAM (SiVoiceControlInterfaceType *pCtrlIntf,
- ctrl_ReadRAM_fptr ReadRAM_fptr);
-/** @} SIVOICE_IO */
-
-/*****************************************************************************/
-/** @defgroup SIVOICE_TIMER SiVoice Timer functions
- *
- * This group of functions associates the customer supplied timer routines with
- * the ProSLIC API. Please note, for most applications, only the delay routine
- * is required. The other routines are needed for the pulse digit API.
- * @{
- */
-
-/**
- @brief
- * This function associates a timer object - which is user defined, but it is
- * used with ALL channels of the particular control interface.
- *
- * @param[in] pCtrlIntf which control interface to associate the given timer object with.
- * @param[in] *hTimer - the timer ojbect that is passed to all timer functions.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @sa SiVoice_setControlInterfaceDelay SiVoice_setControlInterfaceTimeElapsed SiVoice_setControlInterfaceGetTime PROSLIC_TIMER
- */
-
-int SiVoice_setControlInterfaceTimerObj (SiVoiceControlInterfaceType *pCtrlIntf,
- void *hTimer);
-
-/**
- @brief
- * Associate a timer delay function with a given control interface. The
- * delay function takes in an argument of the timer object and the time in mSec
- * and delays the thread/task for at least the time requested.
- *
- * @param[in] pCtrlIntf - which control interface to associate the function with.
- * @param[in] Delay_fptr - the pointer to the delay function.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @sa SiVoice_setControlInterfaceTimerObj SiVoice_setControlInterfaceTimeElapsed SiVoice_setControlInterfaceGetTime PROSLIC_TIMER
- */
-
-int SiVoice_setControlInterfaceDelay (SiVoiceControlInterfaceType *pCtrlIntf,
- system_delay_fptr Delay_fptr);
-
-/**
- * Description:
- * Associate a time elapsed function with a given control interface. The
- * time elapsed function uses the values from the function specified in
- * @ref SiVoice_setControlInterfaceGetTime and computes the delta time
- * in mSec.
- * @param[in] pCtrlIntf - which control interface to associate the function with.
- * @param[in] timeElapsed_fptr - the pointer to the elapsed time function.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- * @sa SiVoice_setControlInterfaceTimerObj SiVoice_setControlInterfaceGetTime SiVoice_setControlInterfaceDelay PROSLIC_TIMER
- */
-
-int SiVoice_setControlInterfaceTimeElapsed (SiVoiceControlInterfaceType
- *pCtrlIntf, system_timeElapsed_fptr timeElapsed_fptr);
-
-/**
- * Description:
- * Associate a time get function with a given control interface. The
- * time get function returns a value in a form of a void pointer that
- * is suitable to be used with the function specified in @ref SiVoice_setControlInterfaceTimeElapsed .
- * This is typically used as a timestamp of when an event started. The resolution needs to be in terms
- * of mSec.
- *
- * @param[in] pCtrlIntf - which control interface to associate the function with.
- * @param[in] getTime_fptr - the pointer to the get time function.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- * @sa SiVoice_setControlInterfaceTimerObj SiVoice_setControlInterfaceTimeElapsed SiVoice_setControlInterfaceDelay PROSLIC_TIMER
- */
-
-int SiVoice_setControlInterfaceGetTime (SiVoiceControlInterfaceType *pCtrlIntf,
- system_getTime_fptr getTime_fptr);
-
-/** @} SIVOICE_TIMER */
-
-/*****************************************************************************/
-/** @defgroup SIVOICE_PROC_CONTROL SiVoice Process control
- * @{
- */
-
-/**
- @brief
- * This function associates a user defined semaphore/critical section
- * function with the given interface.
- *
- * @param[in,out] pCtrlIntf the interface to associate the function with.
- * @param[in] semaphore_fptr - the function pointer for semaphore control.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int SiVoice_setControlInterfaceSemaphore (SiVoiceControlInterfaceType
- *pCtrlIntf, ctrl_Semaphore_fptr semaphore_fptr);
-
-/** @} SIVOICE_PROC_CONTROL */
-/*****************************************************************************/
-/** @} SIVOICE_IF_CFG*/
-/*****************************************************************************/
-/** @defgroup SIVOICE_INIT Initialization routines
- * @{
- */
-
-/**
- @brief
- * This function initializes the various channel structure elements.
- * This function does not access the chipset directly, so SPI/GCI
- * does not need to be up during this function call.
- *
- * @param[in,out] hProslic - which channel to initialize.
- * @param[in] channel - Which channel index is this. For example, for a 4 channel system, this would typically range from 0 to 3.
- * @param[in] chipType - chipset family type for example @ref SI3217X_TYPE or @ref SI3217X_TYPE
- * @param[in] pDeviceObj - Device structure pointer associated with this channel
- * @param[in] pCtrlIntf - Control interface associated with this channel
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @sa ProSLIC_SWInitChan
- */
-
-int SiVoice_SWInitChan (SiVoiceChanType_ptr hProslic,int channel,int chipType,
- SiVoiceDeviceType *pDeviceObj, SiVoiceControlInterfaceType *pCtrlIntf);
-
-/**
- @brief
- * This function calls the user supplied reset function to put and take out the channel from reset. This is
- * typically done during initialization and may be assumed to be a "global" reset - that is 1 reset per
- * daisychain vs. 1 per device.
- *
- * @note This function can take more than 500 mSec to complete.
- *
- * @param[in] pChan - which channel to reset, if a "global reset", then any channel on the daisy chain is sufficient.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- */
-
-int SiVoice_Reset (SiVoiceChanType_ptr pChan);
-
-/** @} SIVOICE_INIT */
-
-/*****************************************************************************/
-/** @defgroup SIVOICE_DEBUG Debug
- * @{
- */
-
-/**
- @brief
- * This function enables or disables the debug mode, assuming @ref ENABLE_DEBUG is set in the configuration file.
- *
- * @param[in] pChan - which channel to set the debug flag.
- * @param[in] debugEn - 0 = Not set, 1 = set.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- */
-
-int SiVoice_setSWDebugMode (SiVoiceChanType_ptr pChan, int debugEn);
-
-/**
- @brief
- * This function enables or disables the debug mode, assuming @ref ENABLE_TRACES is set in the configuration file.
- *
- * @param[in] pChan - which channel to set the debug flag.
- * @param[in] traceEn - 0 = Not set, 1 = set.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- */
-
-int SiVoice_setTraceMode (SiVoiceChanType_ptr pChan, int traceEn);
-
-/**
- * @brief
- * This function allows access to SPI read register function pointer from interface
- *
- * @param[in] hProslic - pointer to channel structure
- * @param[in] addr - address to read
- * @retval uInt8 - register contents
- *
- */
-
-uInt8 SiVoice_ReadReg (SiVoiceChanType_ptr hProslic, uInt8 addr);
-
-/**
- * @brief
- * This function allows access to SPI write register function pointer from interface
- *
- * @param[in] pProslic - pointer to channel structure
- * @param[in] addr - address to write
- * @param[in] data to be written
- * @retval int - @ref RC_NONE
- *
- */
-int SiVoice_WriteReg (SiVoiceChanType_ptr pProslic, uInt8 addr, uInt8 data);
-
-/** @} SIVOICE_DEBUG */
-
-/*****************************************************************************/
-/** @defgroup SIVOICE_ERROR Return code functions
- * @{
- */
-
-/**
- @brief
- * This function returns the error flag that may be set by some function in where
- * @ref errorCodeType is not returned.
- *
- * @note For functions that DO return errorCodeType, the return value here is undefined.
- *
- * @param[in] pChan - which channel to clear the error flag
- * @param[in,out] *error - The current value of error flag.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @sa SiVoice_clearErrorFlag
- */
-
-int SiVoice_getErrorFlag (SiVoiceChanType_ptr pChan, int *error);
-
-/**
- @brief
- * This function clears the error flag that may be set by some function in where
- * @ref errorCodeType is not returned.
- *
- * @param[in,out] pChan - which channel to clear the error flag
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @sa SiVoice_getErrorFlag
- */
-
-int SiVoice_clearErrorFlag (SiVoiceChanType_ptr pChan);
-
-/** @} SIVOICE_ERROR */
-
-/*****************************************************************************/
-/** @defgroup SIVOICE_ENABLE Enable/disable channels (for init)
- * @{
- */
-/**
- @brief
- * This function sets the channel enable status. If NOT set, then when
- * the various initialization routines such as @ref SiVoice_SWInitChan is called,
- * then this particular channel will NOT be initialized.
- *
- * This function does not access the chipset directly, so SPI/GCI
- * does not need to be up during this function call.
- *
- * @param[in,out] pChan - which channel to return the status.
- * @param[in] chanEn - The new value of the channel enable field. 0 = NOT enabled, 1 = enabled.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @sa SiVoice_getChannelEnable
- */
-
-int SiVoice_setChannelEnable (SiVoiceChanType_ptr pChan, int chanEn);
-
-/**
- @brief
- * This function returns back if the channel is enabled or not.
- * This function does not access the chipset directly, so SPI/GCI
- * does not need to be up during this function call.
- *
- * @param[in] pChan - which channel to return the status.
- * @param[in,out] chanEn* - The current value of if the channel is enabled. 0 = NOT enabled, 1 = enabled.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @sa SiVoice_setChannelEnable
- */
-
-int SiVoice_getChannelEnable (SiVoiceChanType_ptr pChan, int *chanEn);
-
-/** @} SIVOICE_ENABLE */
-/** @defgroup SIVOICE_MISC Other functions that don't fit into other categories
- * @{
- */
-/**
- @brief
- * This function returns the current version of the ProSLIC API release as
- * a NULL terminated string.
- * @retval char * - string containing the API release string.
- */
-char *SiVoice_Version(void);
-
-/**
- * @brief
- * This function probes an array of channel pointers to determine the number of
- * ProSLIC's,if not NULL and DAA's, if not NULL. Should only be called after a reset.
- * @param[in,out] pProslic - an array of channel pointers to iterate through. ChannelType is modified.
- * @param[in] size - number of channels to pobe.
- * @param[out] slicCount - if not NULL, the number of SLIC's detected.
- * @param[out] daaCount - if not NULL, the number of DAA's detected.
- * @retval RC_NONE if successful.
- */
-int SiVoice_IdentifyChannels(SiVoiceChanType_ptr *pProslic, int size,
- int *slicCount, int *daaCount);
-
-/** @} SIVOICE_MISC */
-
-/*****************************************************************************/
-/** @} SIVOICE */
-#endif
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/si_voice_ctrl.h b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/si_voice_ctrl.h
deleted file mode 100644
index 4eb5178..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/si_voice_ctrl.h
+++ /dev/null
@@ -1,121 +0,0 @@
-/* SPDX-License-Identifier: GPL-2.0 */
-/*
- * si_voice_ctrl.h
- * SPI driver header file
- *
- * Author(s):
- * laj
- *
- * Distributed by:
- * Silicon Laboratories, Inc
- *
- * File Description:
- * This is the header file for the control driver used
- * in the ProSLIC demonstration code.
- *
- *
- */
-
-#ifndef CTRL_H
-#define CTRL_H
-
-/** @defgroup PROSLIC_CUSTOMER_APIS Customer implemented functions
- * This section has documentation related to APIs that the customer
- * needs to implement to allow the ProSLIC API to function correctly.
- *
- * @note Please note, in addition to the functions mentioned here, the
- * customer will need to review/modify si_voice_datatypes.h to match
- * the native datatypes of their system.
- *
- * @{
- */
-/*****************************************************************************/
-/** @defgroup PROSLIC_CUSTOMER_CONTROL Customer implemented control functions
- * This group of function pointer prototypes need to be implemented by the
- * customer in order for the ProSLIC API to function correctly. These functions
- * need to be associated with the API by the functions documented in @ref SIVOICE_IO
- * @{
- */
-
-/**
-* @brief
-* Sets/clears the reset pin of all the ProSLICs/VDAAs
-*
-* @param[in] *hCtrl - which interface to reset (this is a customer supplied structure)
-* @param[in] in_reset - 0 = Take the device out of reset, 1 = place the device(s) in reset
-* @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
-*/
-
-typedef int (*ctrl_Reset_fptr) (void *hCtrl, int in_reset);
-
-/**
-* @brief
-* Register write function pointer
-*
-* @param[in] *hCtrl - which interface to communicate through (this is a customer supplied structure)
-* @param[in] channel - ProSLIC channel to write to (this is the value passed is the same as found in @ref SiVoice_SWInitChan)
-* @param[in] regAddr - Address of register to write
-* @param[in] data - data to write to register
-* @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
-*
-*/
-
-typedef int (*ctrl_WriteRegister_fptr) (void *hCtrl, uInt8 channel,
- uInt8 regAddr, uInt8 data);
-
-/**
-* @brief
-* RAM write function pointer
-*
-* @param[in] *hCtrl - which interface to communicate through (this is a customer supplied structure)
-* @param[in] channel - ProSLIC channel to write to (this is the value passed is the same as found in @ref SiVoice_SWInitChan)
-* @param[in] ramAddr - Address of the RAM location to write
-* @param[in] ramData - data to write to the RAM location
-* @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
-*
-*/
-
-typedef int (*ctrl_WriteRAM_fptr) (void *hCtrl, uInt8 channel, uInt16 ramAddr,
- ramData data);
-
-/**
-* @brief
-* Register read function pointer
-*
-* @param[in] *hCtrl - which interface to communicate through (this is a customer supplied structure)
-* @param[in] channel - ProSLIC channel to read from (this is the value passed is the same as found in @ref SiVoice_SWInitChan)
-* @param[in] regAddr - Address of register to read from
-* @retval uInt8 - the value read. If an error occurs, this value is undefined.
-*/
-
-typedef uInt8 (*ctrl_ReadRegister_fptr) (void *hCtrl, uInt8 channel,
- uInt8 regAddr);
-
-/**
-* @brief
-* RAM read function pointer
-*
-* @param[in] *hCtrl - which interface to communicate through (this is a customer supplied structure)
-* @param[in] channel - ProSLIC channel to read from (this is the value passed is the same as found in @ref SiVoice_SWInitChan)
-* @param[in] ramAddr - Address of the RAM location to read from
-* @retval ramData - the value read. If an error occurs, this value is undefined.
-*/
-
-typedef ramData (*ctrl_ReadRAM_fptr) (void *hCtrl, uInt8 channel,
- uInt16 ramAddr);
-
-/**
- * @brief
- * Critical Section/Semaphore function pointer
- *
-* @param[in] *hCtrl - which interface to communicate through (this is a customer supplied structure)
-* @param[in] in_critical_section - request to lock the critical section 1 = lock, 0 = unlock
-* @retval 1 = success, 0 = failed
-*/
-
-typedef int (*ctrl_Semaphore_fptr) (void *hCtrl, int in_critical_section);
-
-/** @} PROSLIC_CUSTOMER_CONTROL */
-/** @} */
-#endif
-
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/si_voice_timer_intf.h b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/si_voice_timer_intf.h
deleted file mode 100644
index b4be48f..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/si_voice_timer_intf.h
+++ /dev/null
@@ -1,103 +0,0 @@
-/* SPDX-License-Identifier: GPL-2.0 */
-/*
- * System specific functions header file
- *
- * Author(s):
- * laj
- *
- * Distributed by:
- * Silicon Laboratories, Inc
- *
- * File Description:
- * This is the header file for the system specific functions like timer functions.
- *
- *
- */
-
-#ifndef TIMER_INTF_H
-#define TIMER_INTF_H
-
-/** @addtogroup PROSLIC_CUSTOMER_APIS
- * @{
- * @defgroup PROSLIC_CUSTOMER_TIMER Customer implemented timer functions
- * This section has documentation related to timers: delays and timestamps. The void * is a customer
- * supplied timer data structure that the user specifies in @ref SiVoice_setControlInterfaceTimerObj.
- * These functions need to be associated with the functions documented in @ref SIVOICE_TIMER
- *
- * @note For the majority of implementations, the only function that is required is the delay function.
- *
- * @{
- */
-
-/**
- * @brief
- * System time delay function pointer
- *
- * @param[in] hTimer - the system timer object
- * @param[in] timeInMS - number of mSec to suspend the task/thread executing.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
-*/
-
-typedef int (*system_delay_fptr) (void *hTimer, int timeInMs);
-
-/**
- * @brief
- * System time elapsed function pointer
- *
- * @details
- * This function combined with @ref system_getTime_fptr function allow one to determine
- * the time elapsed between the two event times.
- *
- * The example pseudo code below shows how one may see this function used in conjunction with
- * the function pointed by @ref system_getTime_fptr to do some processing while waiting
- * for a time to expire.
- *
- * @code
- * my_timer_obj time_now;
- *
- * getTime(my_prosclic_obj->timer_obj_ptr, (void *)(&time_now));
- *
- * Some events occur here...
- *
- * do
- * {
- * time_elapsed(my_proslic_obj->timer_obj_ptr,(void *)(&time_now), &elapsed_time_mSec);
- *
- * Do something here...
- *
- * }while(elapsed_time_mSec < Desired delay);
- *
- * Change state...
- *
- * @endcode
- *
- * @param[in] *hTimer - the system timer object
- * @param[in] *startTime - the time object returned by @ref system_getTime_fptr - the "start time" of the event.
- * @param[out] *timeInMs - the time in mSec between the "start time" and the current time.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- * @sa system_getTime_fptr
-*/
-
-typedef int (*system_timeElapsed_fptr) (void *hTimer, void *startTime,
- int *timeInMs);
-
-/**
- * @brief
- * Retrieve system time in mSec resolution.
- *
- * @details
- * This function combined with @ref system_timeElapsed_fptr function allow one to determine
- * the time elapsed between the two event times.
- *
- * @param[in] *hTimer - the system timer object
- * @param[in] *time - the time stamp object needed by @ref system_timeElapsed_fptr
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- * @sa system_timeElapsed_fptr
-*/
-
-typedef int (*system_getTime_fptr) (void *hTimer, void *time);
-
-/** @}
- * @} */
-#endif
-
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/vdaa.h b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/vdaa.h
deleted file mode 100644
index 91ae85c..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/vdaa.h
+++ /dev/null
@@ -1,1144 +0,0 @@
-/* SPDX-License-Identifier: GPL-2.0 */
-/*
- * Vdaa VoiceDAA interface header file
- *
- *
- * Distributed by:
- * Silicon Laboratories, Inc
- *
- * This file contains proprietary information.
- * No dissemination allowed without prior written permission from
- * Silicon Laboratories, Inc.
- *
- * File Description:
- * This is the header file for the main VoiceDAA API and is used
- * in the VoiceDAA demonstration code.
- *
- *
- */
-
-#ifndef VDAA_INTF_H
-#define VDAA_INTF_H
-
-#include "../config_inc/si_voice_datatypes.h"
-#include "si_voice.h"
-/*****************************************************************************/
-/** @defgroup VDAA_API VDAA API
- * This section covers APIs and definitions related to the VDAA/FXO.
- * @{
- */
-
-/*
-** Constants
-*/
-#define BROADCAST 0xff
-#define LCS_SCALE_NUM 33 /* Line Current Status Scale */
-#define LCS_SCALE_DEN 10 /* Line Current Status Scale */
-
-/* Macro substitution from Vdaa legacy API's to SiVoice API's */
-#define Vdaa_createControlInterface SiVoice_createControlInterface
-#define Vdaa_destroyControlInterface SiVoice_destroyControlInterface
-#define Vdaa_createDevice SiVoice_createDevice
-#define Vdaa_destroyDevice SiVoice_destroyDevice
-#define Vdaa_createChannel SiVoice_createChannel
-#define Vdaa_destroyChannel SiVoice_destroyChannel
-
-#define Vdaa_setControlInterfaceCtrlObj SiVoice_setControlInterfaceCtrlObj
-#define Vdaa_setControlInterfaceReset SiVoice_setControlInterfaceReset
-#define Vdaa_setControlInterfaceWriteRAM SiVoice_setControlInterfaceWriteRAM
-#define Vdaa_setControlInterfaceReadRAM SiVoice_setControlInterfaceReadRAM
-#define Vdaa_setControlInterfaceWriteRegister SiVoice_setControlInterfaceWriteRegister
-#define Vdaa_setControlInterfaceReadRegister SiVoice_setControlInterfaceReadRegister
-#define Vdaa_setControlInterfaceTimerObj SiVoice_setControlInterfaceTimerObj
-#define Vdaa_setControlInterfaceDelay SiVoice_setControlInterfaceDelay
-#define Vdaa_setControlInterfaceSemaphore SiVoice_setControlInterfaceSemaphore
-#define Vdaa_setControlInterfaceTimeElapsed SiVoice_setControlInterfaceTimeElapsed
-#define Vdaa_setControlInterfaceGetTime SiVoice_setControlInterfaceGetTime
-
-#define Vdaa_SWInitChan SiVoice_SWInitChan
-
-#define Vdaa_setSWDebugMode SiVoice_setSWDebugMode
-#define Vdaa_getErrorFlag SiVoice_getErrorFlag
-#define Vdaa_clearErrorFlag SiVoice_clearErrorFlag
-
-#define Vdaa_setChannelEnable SiVoice_setChannelEnable
-#define Vdaa_getChannelEnable SiVoice_getChannelEnable
-
-#define Vdaa_Reset SiVoice_Reset
-#define Vdaa_Version SiVoice_Version
-
-#define SI3050_CHAN_PER_DEVICE 1
-
-/*
-**
-** VDAA Initialization/Configuration Parameter Options
-**
-*/
-/*
-** This defines names for the PCM Data Format
-*/
-typedef enum
-{
- A_LAW = 0, /**< 00 = A-Law. Signed magnitude data format */
- U_LAW = 1, /**< 01 = u-Law. Signed magnitude data format */
- LINEAR_16_BIT = 3 /**< 11 = 16-bit linear (2s complement data format) */
-} tPcmFormat;
-
-/*
-** This defines names for the phcf bits
-*/
-typedef enum
-{
- PCLK_1_PER_BIT = 0,
- PCLK_2_PER_BIT = 1
-} tPHCF;
-
-
-/*
-** This defines names for the tri bit
-*/
-typedef enum
-{
- TRI_POS_EDGE = 0,
- TRI_NEG_EDGE = 1
-} tTRI;
-
-
-/**
-** This defines names for the AC impedance range
-*/
-typedef enum
-{
- AC_600, /**< 600 Ohms */
- AC_900, /**< 900 O */
- AC_270__750_150, /**< 270 O + (750 O || 150 nF) and 275 O + (780 O || 150 nF) */
- AC_220__820_120, /**< 220 O + (820 O || 120 nF) and 220 O + (820 O || 115 nF) */
- AC_370__620_310, /**< 370 O + (620 O || 310 nF) */
- AC_320__1050_230, /**< 320 O + (1050 O || 230 nF) */
- AC_370__820_110, /**< 370 O + (820 O || 110 nF) */
- AC_275__780_115, /**< 275 O + (780 O || 115 nF) */
- AC_120__820_110, /**< 120 O + (820 O || 110 nF) */
- AC_350__1000_210, /**< 350 O + (1000 O || 210 nF) */
- AC_200__680_100, /**< 200 O + (680 O || 100 nF) */
- AC_600__2160, /**< 600 O + 2.16 uF */
- AC_900__1000, /**< 900 O + 1 uF */
- AC_900__2160, /**< 900 O + 2.16 uF */
- AC_600__1000, /**< 600 O + 1 uF */
- AC_Global_impedance /**< Global impedance */
-} tAC_Z;
-
-/**
-** This defines names for the DC impedance range
-*/
-typedef enum
-{
- DC_50, /**< 50 Ohms dc termination is selected */
- DC_800 /**< 800 Ohms dc termination is selected */
-
-} tDC_Z;
-
-/**
-** This defines names for the ringer impedance range
-*/
-typedef enum
-{
- RZ_MAX = 0,
- RZ_SYNTH = 1
-} tRZ;
-
-/**
-** This defines names for the dc voltage adjust
-*/
-typedef enum
-{
- DCV3_1 = 0,
- DCV3_2 = 1,
- DCV3_35 = 2,
- DCV3_5 = 3
-} tDCV;
-
-/**
-** This defines names for the minimum loop current
-*/
-typedef enum
-{
- MINI_10MA = 0,
- MINI_12MA = 1,
- MINI_14MA = 2,
- MINI_16MA = 3
-} tMINI;
-
-/**
-** This defines names for the current limiting enable bit
-*/
-typedef enum
-{
- ILIM_DISABLED = 0,
- ILIM_ENABLED = 1
-} tILIM;
-
-/**
-** This defines names for the ring detect interupt mode
-*/
-typedef enum
-{
- RDI_BEG_BURST = 0,
- RDI_BEG_END_BURST = 1
-} tRDI;
-
-/**
-** This defines names for the on hook speed / spark quenching
-*/
-typedef enum
-{
- OHS_LESS_THAN_0_5MS = 0,
- OHS_3MS = 1,
- OHS_26MS = 0xE
-} tOHS;
-
-/**
-** This defines names for the hbe bit
-*/
-typedef enum
-{
- HYBRID_DISABLED = 0,
- HYBRID_ENABLED = 1
-} tHBE;
-
-
-/**
-** Gain/Attenuation Select
-*/
-typedef enum
-{
- XGA_GAIN,
- XGA_ATTEN
-} tXGA;
-
-/**
-** MUTE Control Options
-*/
-typedef enum
-{
- MUTE_DISABLE_ALL,
- MUTE_DISABLE_RX,
- MUTE_DISABLE_TX,
- MUTE_ENABLE_RX,
- MUTE_ENABLE_TX,
- MUTE_ENABLE_ALL
-} tMUTE;
-
-/**
-** This defines names for the ring delay setting
-*/
-typedef enum
-{
- RDLY_0MS = 0,
- RDLY_256MS = 1,
- RDLY_512MS = 2,
- RDLY_768MS = 3,
- RDLY_1024MS = 4,
- RDLY_1280MS = 5,
- RDLY_1536MS = 6,
- RDLY_1792MS = 7
-} tRDLY;
-
-/**
-** This defines names for the ring timeouts
-*/
-typedef enum
-{
- RTO_128MS = 1,
- RTO_256MS = 2,
- RTO_384MS = 3,
- RTO_512MS = 4,
- RTO_640MS = 5,
- RTO_768MS = 6,
- RTO_896MS = 7,
- RTO_1024MS = 8,
- RTO_1152MS = 9,
- RTO_1280MS = 10,
- RTO_1408MS = 11,
- RTO_1536MS = 12,
- RTO_1664MS = 13,
- RTO_1792MS = 14,
- RTO_1920MS = 15
-} tRTO;
-
-/**
-** This defines names for the ring timeouts
-*/
-typedef enum
-{
- RCC_100MS = 0,
- RCC_150MS = 1,
- RCC_200MS = 2,
- RCC_256MS = 3,
- RCC_384MS = 4,
- RCC_512MS = 5,
- RCC_640MS = 6,
- RCC_1024MS = 7
-} tRCC;
-
-/**
-** This defines names for the ring validation modes
-*/
-typedef enum
-{
- RNGV_DISABLED = 0,
- RNGV_ENABLED = 1
-} tRNGV;
-
-/**
-** This defines names for the rfwe bit
-*/
-typedef enum
-{
- RFWE_HALF_WAVE = 0,
- RFWE_FULL_WAVE = 1,
- RFWE_RNGV_RING_ENV = 0,
- RFWE_RNGV_THRESH_CROSS = 1
-} tRFWE;
-
-/**
-** This defines names for the rt and rt2 bit
-*/
-typedef enum
-{
- RT__13_5VRMS_16_5VRMS = 0,
- RT__19_35VRMS_23_65VRMS = 2,
- RT__40_5VRMS_49_5VRMS = 3
-} tRT;
-
-/**
-** This defines names for the rt and rt2 bit
-*/
-typedef enum
-{
- RGDT_ACTIVE_LOW = 0,
- RGDT_ACTIVE_HI = 1
-} tRPOL;
-
-
-/**
-** This defines names for the interrupts
-*/
-typedef enum
-{
- POLI,
- TGDI,
- LCSOI,
- DODI,
- BTDI,
- FTDI,
- ROVI,
- RDTI,
- CVI /**< Current/Voltage Interrupt REGISTER#44 */
-} vdaaInt;
-
-/**
-** Interrupt Bitmask Fields
-*/
-typedef enum
-{
- POLM = 1,
- TGDM = 2, /**< Si3050 Only */
- LCSOM = 4,
- DODM = 8,
- BTDM = 16,
- FDTM = 32,
- ROVM = 64,
- RDTM = 128
-} vdaaIntMask;
-
-
-/**
-** This defines names for the idl bit (obsolete)
-*/
-typedef enum
-{
- IDL_DISABLED = 0,
- IDL_ENABLED = 1
-} tIDL;
-
-/**
-** This defines names for the ddl bit (obsolete)
-*/
-typedef enum
-{
- DDL_NORMAL_OPERATION = 0,
- DDL_PCM_LOOPBACK = 1
-} tDDL;
-
-/**
-** Loopback Modes
-*/
-typedef enum
-{
- LPBK_NONE = 0,
- LPBK_IDL = 1,
- LPBK_DDL = 2,
- LPBK_PCML = 3
-} tLpbkMode;
-
-/**
-** Loopback Status
-*/
-typedef enum
-{
- LPBK_DISABLED = 0,
- LPBK_ENABLED = 1
-} tLpbkStatus;
-
-/**
-** This defines names for the interrupt pin modes
-*/
-typedef enum
-{
- INTE_DISABLED = 0,
- INTE_ENABLED = 1
-} tInte;
-
-/**
-** This defines names for the interrupt pin polarities
-*/
-typedef enum
-{
- INTE_ACTIVE_LOW = 0,
- INTE_ACTIVE_HIGH = 1
-} tIntePol;
-
-/**
-** This defines names for the pwm settings
-*/
-typedef enum
-{
- PWM_DELTA_SIGMA = 0,
- PWM_CONVENTIONAL_16KHZ = 1,
- PWM_CONVENTIONAL_32KHZ = 2
-} tPwmMode;
-
-/**
-** PWME
-*/
-typedef enum
-{
- PWM_DISABLED = 0,
- PWM_ENABLED
-} tPWME;
-
-/**
-** RCALD control
-*/
-typedef enum
-{
- RES_CAL_ENABLED = 0,
- RES_CAL_DISABLED
-} tRCALD;
-
-/**
-** Voice DAA Hook states
-*/
-enum
-{
- VDAA_DIG_LOOPBACK = 1,
- VDAA_ONHOOK = 2,
- VDAA_OFFHOOK = 3,
- VDAA_ONHOOK_MONITOR = 4
-};
-
-/**
-** FDT Monitoring Options
-*/
-enum
-{
- FDT_MONITOR_OFF = 0,
- FDT_MONITOR_ON
-};
-
-
-/**
-** Offhook Speed Select
-*/
-typedef enum
-{
- FOH_512,
- FOH_128,
- FOH_64,
- FOH_8
-} tFOH;
-
-/**
-** Sample Rate Control
-*/
-typedef enum
-{
- FS_8KHZ,
- FS_16KHZ
-} tHSSM;
-
-/**
-** Line Voltage Force Disable
-*/
-typedef enum
-{
- LVS_FORCE_ENABLED = 0,
- LVS_FORCE_DISABLED
-} tLVFD;
-
-/**
-** Current/Voltage Monitor Select
-*/
-typedef enum
-{
- CVS_CURRENT,
- CVS_VOLTAGE
-} tCVS;
-
-/**
-** Current/Voltage Interrupt Polarity
-*/
-typedef enum
-{
- CVP_BELOW,
- CVP_ABOVE
-} tCVP;
-
-/**
-** Guarded Clear
-*/
-typedef enum
-{
- GCE_DISABLED = 0,
- GCE_ENABLED
-} tGCE;
-
-/**
-** SPI Mode (Si3050 Only)
-*/
-typedef enum
-{
- SPIM_TRI_CS,
- SPIM_TRI_SCLK
-} tSPIM;
-
-/**
-** FILT
-*/
-typedef enum
-{
- FILT_HPF_5HZ,
- FILT_HPF_200HZ
-} tFILT;
-
-/**
-** IIRE
-*/
-typedef enum
-{
- IIR_DISABLED = 0,
- IIR_ENABLED
-} tIIRE;
-
-/**
-** FULL2
-*/
-typedef enum
-{
- FULL2_DISABLED = 0,
- FULL2_ENABLED
-} tFULL2;
-
-/**
-** FULL
-*/
-typedef enum
-{
- FULL_DISABLED = 0,
- FULL_ENABLED
-} tFULL;
-
-/**
-** RG1
-*/
-typedef enum
-{
- RG1_DISABLED = 0,
- RG1_ENABLED
-} tRG1;
-
-
-/**
-** -----------------------------
-** CONFIGURATION DATA STRUCTURES
-** -----------------------------
-*/
-
-/**
-** (Updated) Structure for General Parameters
-*/
-typedef struct
-{
- tInte inte; /* INTE */
- tIntePol intp; /* INTP */
- tRCALD rcald; /* RCALD */
- tHSSM hssm; /* HSSM */
- tFOH foh; /* FOH */
- tLVFD lvfd; /* LVFD */
- tCVS cvs; /* CVS */
- tCVP cvp; /* CVP */
- tGCE gce; /* GCE */
- tIIRE iire; /* IIRE */
- tFULL2 full2; /* FULL2 */
- tFULL full; /* FULL */
- tFILT filt; /* FILT */
- tRG1 rg1; /* RG1 */
- tPwmMode pwmm; /* PWMM Si3050 Only */
- tPWME pwmEnable; /* PWME Si3050 Only */
- tSPIM spim; /* SPIM Si3050 Only */
-} vdaa_General_Cfg;
-
-
-/**
-** (NEW) Structure for Country Presets
-*/
-typedef struct
-{
- tRZ rz;
- tDC_Z dcr;
- tAC_Z acim;
- tDCV dcv;
- tMINI mini;
- tILIM ilim;
- tOHS ohs_sq;
- tHBE hbe;
-} vdaa_Country_Cfg;
-
-/**
-** (NEW) Structure for Hybrid Presets
-*/
-typedef struct
-{
- uInt8 hyb1;
- uInt8 hyb2;
- uInt8 hyb3;
- uInt8 hyb4;
- uInt8 hyb5;
- uInt8 hyb6;
- uInt8 hyb7;
- uInt8 hyb8;
-} vdaa_Hybrid_Cfg;
-
-/**
-** Structure for PCM configuration presets
-*/
-typedef struct
-{
- tPcmFormat pcmFormat;
- tPHCF pcmHwy;
- tTRI pcm_tri;
-} vdaa_PCM_Cfg;
-
-/** @addtogroup VDAA_AUDIO
- * @{
- */
-/** @addtogroup VDAA_GAIN_CONTROL
- * @{
- */
-/*
-** (Updated) Structure for Audio path gain preset
-*/
-typedef struct
-{
- uInt8 mute;
- tXGA xga2;
- uInt8 acgain2;
- tXGA xga3;
- uInt8 acgain3;
- uInt8 callProgress;
- BOOLEAN cpEn;
-} vdaa_audioGain_Cfg;
-
-/** @} VDAA_GAIN_CONTROL*/
-/** @} */
-/*
-** Structure for configuring ring detect config
-*/
-
-typedef struct
-{
- tRDLY rdly;
- tRT rt;
- uInt8 rmx;
- tRTO rto;
- tRCC rcc;
- tRNGV rngv;
- uInt8 ras;
- tRFWE rfwe;
- tRDI rdi;
- tRPOL rpol;
-} vdaa_Ring_Detect_Cfg;
-
-
-/*
-** Defines structure of interrupt data
-*/
-typedef struct
-{
- vdaaInt *irqs;
- uInt8 number;
-} vdaaIntType;
-
-/*
-** Defines structure for configuring Loop Back
-*/
-typedef struct
-{
- tIDL isoDigLB;
- tDDL digDataLB;
-} vdaa_Loopback_Cfg;
-
-
-/*
-** Generic Flag
-*/
-typedef enum
-{
- VDAA_BIT_SET = 1,
- VDAA_BIT_CLEAR = 0
-} tVdaaBit;
-
-/*
-** Defines structure for daa current status (ring detect/hook stat)
-*/
-typedef struct
-{
- tVdaaBit ringDetectedNeg;
- tVdaaBit ringDetectedPos;
- tVdaaBit ringDetected;
- tVdaaBit offhook;
- tVdaaBit onhookLineMonitor;
-} vdaaRingDetectStatusType;
-
-
-typedef SiVoiceControlInterfaceType vdaaControlInterfaceType;
-typedef SiVoiceDeviceType vdaaDeviceType;
-typedef SiVoiceChanType vdaaChanType;
-
-/*
-** This is the main VoiceDAA interface object pointer
-*/
-typedef vdaaChanType *vdaaChanType_ptr;
-
-/*
-** Defines initialization data structures
-*/
-typedef struct
-{
- uInt8 address;
- uInt8 initValue;
-} vdaaRegInit;
-
-
-typedef enum
-{
- PAR_HANDSET_NOT_DETECTED = 0,
- PAR_HANDSET_DETECTED = 1
-} vdaaPHDStatus;
-
-/*
-** Line In Use Configuration Structure
-*/
-typedef struct
-{
- vdaaPHDStatus status;
- int8 min_onhook_vloop;
- int8 min_offhook_vloop;
- int16 min_offhook_iloop;
- int8 measured_vloop;
- int16 measured_iloop;
-} vdaa_LIU_Config;
-
-/*
-** Function Declarations
-*/
-
-/*****************************************************************************/
-/** @defgroup VDAA_AUDIO Audio
- * @{
- */
-/** @defgroup VDAA_GAIN_CONTROL Gain Control
- * This section covers functions that allow one to adjust the audio
- * gains - with TX toward the network/SOC/DSP and RX toward the tip/ring.
- *
- * @{
- */
-
-/**
- * @brief
- * Sets the TX audio gain (toward the network).
- *
- * @param[in] pVdaa - which channel to configure
- * @param[in] preset - which preset to use (this may be from the constants file)
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int Vdaa_TXAudioGainSetup (vdaaChanType *pVdaa,int32 preset);
-
-/**
- * @brief
- * Sets the RX audio gain (toward the tip/ring).
- *
- * @param[in] pVdaa - which channel to configure
- * @param[in] preset - which preset to use (this may be from the constants file)
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int Vdaa_RXAudioGainSetup (vdaaChanType *pVdaa,int32 preset);
-
-/** @} VDAA_GAIN_CONTROL */
-
-/*****************************************************************************/
-/** @defgroup VDAA_AUDIO_CONTROL Audio control/configuration
- * This group of functions is used to configure and control the PCM bus. It is essential that @ref Vdaa_PCMSetup,
- * @ref Vdaa_PCMTimeSlotSetup and @ref Vdaa_PCMStart are called prior to any audio processing.
- * @{
- */
-
-/**
- * @brief
- * This configures the PCM bus with parameters such as companding and data latching timing.
- *
- * @param[in] pVdaa - which channel should be configured
- * @param[in] preset - which preset to use from the constants file (see configuration tool, PCM dialog box)
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @sa Vdaa_PCMTimeSlotSetup ProSLIC_PCMStart
- */
-
-int Vdaa_PCMSetup (vdaaChanType *pVdaa,int32 preset);
-
-/**
- * @brief
- * This configures the ProSLIC to latch and send the PCM data at a particular timeslot in terms of PCM clocks (PCLK).
- *
- * Typically, for aLaw and uLaw, one can use the following calculation to set the rxcount and txcount parameters:
- *
- * rxcount = txcount = (channel_number)*8;
- *
- * For 16 bit linear, one can do the following:
- *
- * rxcount = txcount = (channel_number)*16;
- *
- * where channel_number = which ProSLIC channel on the PCM bus. For example, if one were to have 2 dual channel
- * VDAA's on the same PCM bus, this value would range from 0 to 3.
- *
- * @param[in] pVdaa - which channel should be configured
- * @param[in] rxcount - how many clocks until reading data from the PCM bus
- * @param[in] txcount - how many clocks until writing data to the PCM bus.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @sa Vdaa_PCMSetup Vdaa_PCMStart
- */
-
-int Vdaa_PCMTimeSlotSetup (vdaaChanType *pVdaa, uInt16 rxcount, uInt16 txcount);
-
-/**
- * @brief
- * This enables PCM transfer on the given ProSLIC channel.
- *
- * @param[in] pVdaa - - which channel should be enabled
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @sa ProSLIC_PCMSetup ProSLIC_PCMTimeSlotSetup ProSLIC_PCMStop
- */
-
-int Vdaa_PCMStart (vdaaChanType *pVdaa);
-
-/**
- * @brief
- * This disables PCM transfer on the given VDAA channel. Typically, this is called for debugging
- * purposes only.
- *
- * @param[in] pVdaa - - which channel should be disabled
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- * @sa Vdaa_PCMSetup Vdaa_PCMTimeSlotSetup Vdaa_PCMStart
- */
-
-int Vdaa_PCMStop (vdaaChanType *pVdaa);
-
-/**
- * @brief
- * Program desired mute mode for the given channel.
- *
- * @param[in] pVdaa - which channel should be modified
- * @param[in] mute - what is the desired mode.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- */
-
-int Vdaa_SetAudioMute(vdaaChanType *pVdaa, tMUTE mute);
-
-/**
- * @brief
- * Program desired loopback test mode for the given channel.
- *
- * @param[in] pVdaa - which channel should be modified
- * @param[in] lpbk_mode - what is the desired loopback mode.
- * @param[in] lpbk_status - is this to enable or disable the loopback mode.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- */
-
-int Vdaa_SetLoopbackMode(vdaaChanType_ptr pVdaa, tLpbkMode lpbk_mode,
- tLpbkStatus lpbk_status);
-
-/*****************************************************************************/
-/** @} VDAA_AUDIO */
-/** @} */
-/** @defgroup VDAA_RING Ring detection
- * @{
- */
-
-/**
- * @brief This function configures ringing detect for the Vdaa.
- * @param[in] pVdaa - which channel to program
- * @param[in] preset - Index of predefined ring detect setup configuration
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int Vdaa_RingDetectSetup (vdaaChanType *pVdaa,int32 preset);
-
-
-/**
- * @brief This function reads ring detect/hook status and populates the structure passed via pStatus.
- * @param[in] pVdaa - Pointer to Voice DAA channel structure
- * @param[out] pStatus - updated ring status.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int Vdaa_ReadRingDetectStatus (vdaaChanType *pVdaa,
- vdaaRingDetectStatusType *pStatus);
-
-/** @} VDAA_RING */
-
-/*****************************************************************************/
-/** @defgroup VDAA_LINE_STATE Line state
- * @{
- */
-
-
-/**
- * @brief This function sets the Voice DAA hook status
- * @param[in] pVdaa - Pointer to Voice DAA channel structure
- * @param[in] newHookStatus - new hook state (VDAA_ONHOOK, VDAA_OFFHOOK, VDAA_DIG_LOOPBACK or VDAA_ONHOOK_MONITOR)
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int Vdaa_SetHookStatus (vdaaChanType *pVdaa,uInt8 newHookStatus);
-
-/**
- * @brief This function powers up the Voice DAA lineside device.
- * @param[in] pVdaa - Pointer to Voice DAA channel structure
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int Vdaa_PowerupLineside(vdaaChanType_ptr pVdaa);
-
-/**
- * @brief This function powers down the Voice DAA line side device.
- * @param[in] pVdaa - Pointer to Voice DAA channel structure
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int Vdaa_PowerdownLineside(vdaaChanType_ptr pVdaa);
-
-/**
- * @brief Read VDAA Hook Status
- * @param[in] pVdaa - which channel to return the hook status.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-uInt8 Vdaa_GetHookStatus (vdaaChanType *pVdaa);
-
-/** @} VDAA_LINE_STATE */
-
-/*****************************************************************************/
-/** @defgroup VDAA_DIAG Diagnostics
- * @{
- */
-
-/**
- * @brief This function returns the Voice DAA linefeed status.
- * @param[in] pVdaa - Pointer to Voice DAA channel structure
- * @param[in,out] vloop - Pointer to loop voltage variable (set by this function) - in Volts
- * @param[in,out] iloop - Pointer to loop current variable (set by this function) - in mA
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int Vdaa_ReadLinefeedStatus (vdaaChanType *pVdaa,int8 *vloop, int16 *iloop);
-
-/**
- * @brief This function initializes the vdaa_LIU_Config datastructure for line in use feature
- * @param[in,out] liuCfg - Pointer to vdaa_LIU_Config structure (user allocates)
- * @param[in] minOnV - minimum onhook loop voltage that indicates no parallel handset is present (V)
- * @param[in] minOffV - minimum offhook loop voltage that indicates no parallel handset is present (V)
- * @param[in] minOffI - minimum offhook loop current that indicates no parallel handset is preset (mA)
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- * @sa Vdaa_CheckForLineInUse
- */
-
-int Vdaa_InitLineInUseCheck(vdaa_LIU_Config *liuCfg,int8 minOnV,int8 minOffV,
- int16 minOffI );
-
-/**
- * @brief Monitor LVCS to detect intrusion or parallel handset
- * @param[in] pVdaa - Pointer to Voice DAA channel structure
- * @param[in,out] liuCfg - Pointer to vdaa_LIU_Config structure
- * @retval VDAA_ONHOOK or VDAA_OFFHOOK (in use)
- * @sa Vdaa_InitLineInUseCheck
- */
-
-uInt8 Vdaa_CheckForLineInUse(vdaaChanType *pVdaa, vdaa_LIU_Config *liuCfg);
-
-/**
- * @brief This function returns the status of the Frame Detect (FDT) bit.
- * @param[in] pVdaa - Pointer to Voice DAA channel structure
- * @retval int - 0 - Frame NOT detected, 1 = Frame detected
- */
-
-int Vdaa_ReadFDTStatus(vdaaChanType_ptr pVdaa);
-
-/** @} VDAA_DIAG */
-
-/*****************************************************************************/
-/** @defgroup VDAA_INTERRUPTS Interrupts
- * @{
- */
-
-
-/**
- * @brief Enables interrupts based on passed 9-bit bitmask. Bit values defined by vdaaIntMask enum.
- * @param[in] pVdaa - Pointer to Voice DAA channel structure
- * @param[in] bitmask - a logical or of @ref vdaaIntMask enum
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int Vdaa_SetInterruptMask(vdaaChanType *pVdaa, vdaaIntMask bitmask);
-
-/**
- * @brief Returns the current interrupt status.
- * @param[in] pVdaa - Pointer to Voice DAA channel structure
- * @param[out] pIntData - interrupt mask showing which interrupts are set.
- * @retval int - the number of interrupts set or RC_IGNORE
- */
-
-int Vdaa_GetInterrupts (vdaaChanType *pVdaa,vdaaIntType *pIntData);
-
-/**
- * @brief Clears ALL interrupts
- * @param[in] pVdaa - Pointer to Voice DAA channel structure
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int Vdaa_ClearInterrupts (vdaaChanType *pVdaa);
-
-/** @} VDAA_INTERRUPTS */
-
-/*****************************************************************************/
-/** @defgroup VDAA_INIT Initialization
- * @{
- */
-
-/*****************************************************************************/
-/** @defgroup VDAA_HW_INIT Hardware/line initialization
- * @{
- */
-
-/**
- * @brief
- * This function configures the Voice DAA with a predefined country configuration preset.
- *
- * @param[in] pVdaa - which channel to initialize
- * @param[in] preset - The preset to use to configure the VDAA with.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- */
-
-int Vdaa_CountrySetup (vdaaChanType *pVdaa,int32 preset);
-
-/**
- * @brief
- * This function configures the Voice DAA digital hybrid with a predefined preset.
- *
- * @param[in] pVdaa - which channel to initialize
- * @param[in] preset - Index of predefined digital hybrid preset
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- * @sa Vdaa_SetHybridEnable
- */
-
-int Vdaa_HybridSetup (vdaaChanType *pVdaa,int32 preset);
-
-/**
- * @brief
- * This function fully initializes and loads the general config parameters to all Vdaa devices
- * a given daisychain up to a given number.
- *
- * @param[in] pVdaa - which channel to initialize or start from if size>1
- * @param[in] size - the number of channels to initialize, should be at least 1
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- */
-
-int Vdaa_Init (vdaaChanType_ptr *pVdaa,int size);
-
-/**
- * @brief
- * This function calibrates the ADC (analog to digital converter) of the Vdaa device(s).
- *
- * @param[in] pVdaa - which channel to calibrate or starting channel if size>1
- * @param[in] size - the number of channels to calibrate.
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- */
-
-int Vdaa_ADCCal (vdaaChanType_ptr pVdaa, int32 size);
-
-/**
- * @brief
- * This function controls the Voice DAA digital hybrid.
- *
- * @param[in] pVdaa - which channel to set/unset
- * @param[in] enable - TRUE: enable digital hybrid, FALSE: disable digital hybrid
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- *
- */
-
-int Vdaa_SetHybridEnable(vdaaChanType_ptr pVdaa, int enable);
-
-/** @} VDAA_HW_INIT */
-/*****************************************************************************/
-
-
-/**
- * @brief Enables watchdog timer
- * @param[in] pVdaa - the channel to enable the watchdog
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int Vdaa_EnableWatchdog(vdaaChanType_ptr pVdaa);
-
-/**
- * @brief Execute a soft reset on a given channel.
- * @param[in] pVdaa - the channel to reset
- * @retval int - error from @ref errorCodeType @ref RC_NONE indicates no error.
- */
-
-int Vdaa_SoftReset(vdaaChanType_ptr pVdaa);/** @} VDAA_INIT */
-
-/** @} MISC */
-
-/** @} VDAA_API */
-#endif
-
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/vdaa_registers.h b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/vdaa_registers.h
deleted file mode 100644
index 2d48e3d..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/inc/vdaa_registers.h
+++ /dev/null
@@ -1,84 +0,0 @@
-/* SPDX-License-Identifier: GPL-2.0 */
-/*
- * Author(s):
- * laj
- *
- * Distributed by:
- * Silicon Laboratories, Inc
- *
- * This file contains proprietary information.
- * No dissemination allowed without prior written permission from
- * Silicon Laboratories, Inc.
- *
- */
-
-#ifndef SI3050REGS_H
-#define SI3050REGS_H
-
-
-enum REGISTERS
-{
- CTRL1 = 1, /* Control */
- CTRL2 = 2, /* Control */
- INTE_MSK = 3, /* Interrupt Mask */
- INTE_SRC = 4, /* Interrupt Source */
- DAA_CTRL1 = 5, /* DAA Control 1 */
- DAA_CTRL2 = 6, /* DAA Control 2 */
- SMPL_CTRL = 7, /* Sample Rate Control */
- RESVD8 = 8, /* Reserved */
- RESVD9 = 9, /* Reserved */
- DAA_CTRL3 = 10, /* DAA Control 3 */
- SYS_LINE_DEV_REV = 11, /* System- and Line-Side Device Revision */
- LSIDE_STAT = 12, /* Line-Side Device Status */
- LSIDE_REV = 13, /* Line-Side Device Revision */
- DAA_CTRL4 = 14, /* DAA Control 4 RPOL */
- TXRX_GN_CTRL = 15, /* TX/RX Gain Control 1 */
- INTL_CTRL1 = 16, /* International Control 1 */
- INTL_CTRL2 = 17, /* International Control 2 */
- INTL_CTRL3 = 18, /* International Control 3 */
- INTL_CTRL4 = 19, /* International Control 4 */
- RXCALL_PROG_ATTEN = 20, /* Call Progress RX Attenuation */
- TXCALL_PROG_ATTEN = 21, /* Call Progress TX Attenuation */
- RNG_VLD_CTRL1 = 22, /* Ring Validation Control 1 */
- RNG_VLD_CTRL2 = 23, /* Ring Validation Control 2 */
- RNG_VLD_CTRL3 = 24, /* ing Validation Control 3 */
- RES_CALIB = 25, /* Resistor Calibration */
- DC_TERM_CTRL = 26, /* DC Termination Control */
- RESVD27 = 27, /* Reserved */
- LP_CRNT_STAT = 28, /* Loop Current Status */
- LINE_VOLT_STAT = 29, /* Line Voltage Status */
- AC_TERM_CTRL = 30, /* AC Termination Control */
- DAA_CTRL5 = 31, /* DAA Control 5 */
- GND_STRT_CTRL = 32, /* Ground Start Control */
- PCM_SPI_CTRL = 33, /* PCM/SPI Mode Select */
- PCMTX_CNT_LO = 34, /* PCM Transmit Start Count - Low Byte */
- PCMTX_CNT_HI = 35, /* PCM Transmit Start Count - High Byte */
- PCMRX_CNT_LO = 36, /* PCM Receive Start Count - Low Byte */
- PCMRX_CNT_HI = 37, /* PCM Receive Start Count - High Byte */
- TX_GN_CTRL2 = 38, /* TX Gain Control 2 */
- RX_GN_CTRL2 = 39, /* RX Gain Control 2 */
- TX_GN_CTRL3 = 40, /* TX Gain Control 3 */
- RX_GN_CTRL3 = 41, /* RX Gain Control 3 */
- GCI_CTRL = 42, /* GCI Control */
- LN_VI_THRESH_INTE = 43, /* Line Current/Voltage Threshold Interrupt */
- LN_VI_THRESH_INTE_CTRL=44, /* Line Current/Voltage Threshold Interrupt Control */
- HYB1 = 45, /* Programmable Hybrid Register 1 */
- HYB2 = 46, /* Programmable Hybrid Register 2 */
- HYB3 = 47, /* Programmable Hybrid Register 3 */
- HYB4 = 48, /* Programmable Hybrid Register 4 */
- HYB5 = 49, /* Programmable Hybrid Register 5 */
- HYB6 = 50, /* Programmable Hybrid Register 6 */
- HYB7 = 51, /* Programmable Hybrid Register 7 */
- HYB8 = 52, /* Programmable Hybrid Register 8 */
- RESVD53 = 53, /* Reserved 53 */
- RESVD54 = 54, /* Reserved 54 */
- RESVD55 = 55, /* Reserved 55 */
- RESVD56 = 56, /* Reserved 56 */
- RESVD57 = 57, /* Reserved 57 */
- RESVD58 = 58, /* Reserved 58 */
- SPRK_QNCH_CTRL = 59 /* Spark Quenching Control */
-
-};
-
-#endif
-
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/mipsregs.h b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/mipsregs.h
deleted file mode 100644
index b4d10e9..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/mipsregs.h
+++ /dev/null
@@ -1,1473 +0,0 @@
-/* SPDX-License-Identifier: GPL-2.0 */
-#ifndef _ASM_MIPSREGS_H
-#define _ASM_MIPSREGS_H
-
-//#include <linux/linkage.h>
-//#include <asm/hazards.h>
-#define CONFIG_PAGE_SIZE_4KB
-/*
- * The following macros are especially useful for __asm__
- * inline assembler.
- */
-#ifndef __STR
-#define __STR(x) #x
-#endif
-#ifndef STR
-#define STR(x) __STR(x)
-#endif
-
-/*
- * Configure language
- */
-#ifdef __ASSEMBLY__
-#define _ULCAST_
-#else
-#define _ULCAST_ (unsigned long)
-#endif
-
-/*
- * Coprocessor 0 register names
- */
-#define CP0_INDEX $0
-#define CP0_RANDOM $1
-#define CP0_ENTRYLO0 $2
-#define CP0_ENTRYLO1 $3
-#define CP0_CONF $3
-#define CP0_CONTEXT $4
-#define CP0_PAGEMASK $5
-#define CP0_WIRED $6
-#define CP0_INFO $7
-#define CP0_BADVADDR $8
-#define CP0_COUNT $9
-#define CP0_ENTRYHI $10
-#define CP0_COMPARE $11
-#define CP0_STATUS $12
-#define CP0_CAUSE $13
-#define CP0_EPC $14
-#define CP0_PRID $15
-#define CP0_CONFIG $16
-#define CP0_LLADDR $17
-#define CP0_WATCHLO $18
-#define CP0_WATCHHI $19
-#define CP0_XCONTEXT $20
-#define CP0_FRAMEMASK $21
-#define CP0_DIAGNOSTIC $22
-#define CP0_DEBUG $23
-#define CP0_DEPC $24
-#define CP0_PERFORMANCE $25
-#define CP0_ECC $26
-#define CP0_CACHEERR $27
-#define CP0_TAGLO $28
-#define CP0_TAGHI $29
-#define CP0_ERROREPC $30
-#define CP0_DESAVE $31
-
-/*
- * R4640/R4650 cp0 register names. These registers are listed
- * here only for completeness; without MMU these CPUs are not useable
- * by Linux. A future ELKS port might take make Linux run on them
- * though ...
- */
-#define CP0_IBASE $0
-#define CP0_IBOUND $1
-#define CP0_DBASE $2
-#define CP0_DBOUND $3
-#define CP0_CALG $17
-#define CP0_IWATCH $18
-#define CP0_DWATCH $19
-
-/*
- * Coprocessor 0 Set 1 register names
- */
-#define CP0_S1_DERRADDR0 $26
-#define CP0_S1_DERRADDR1 $27
-#define CP0_S1_INTCONTROL $20
-
-/*
- * Coprocessor 0 Set 2 register names
- */
-#define CP0_S2_SRSCTL $12 /* MIPSR2 */
-
-/*
- * Coprocessor 0 Set 3 register names
- */
-#define CP0_S3_SRSMAP $12 /* MIPSR2 */
-
-/*
- * TX39 Series
- */
-#define CP0_TX39_CACHE $7
-
-/*
- * Coprocessor 1 (FPU) register names
- */
-#define CP1_REVISION $0
-#define CP1_STATUS $31
-
-/*
- * FPU Status Register Values
- */
-/*
- * Status Register Values
- */
-
-#define FPU_CSR_FLUSH 0x01000000 /* flush denormalised results to 0 */
-#define FPU_CSR_COND 0x00800000 /* $fcc0 */
-#define FPU_CSR_COND0 0x00800000 /* $fcc0 */
-#define FPU_CSR_COND1 0x02000000 /* $fcc1 */
-#define FPU_CSR_COND2 0x04000000 /* $fcc2 */
-#define FPU_CSR_COND3 0x08000000 /* $fcc3 */
-#define FPU_CSR_COND4 0x10000000 /* $fcc4 */
-#define FPU_CSR_COND5 0x20000000 /* $fcc5 */
-#define FPU_CSR_COND6 0x40000000 /* $fcc6 */
-#define FPU_CSR_COND7 0x80000000 /* $fcc7 */
-
-/*
- * X the exception cause indicator
- * E the exception enable
- * S the sticky/flag bit
-*/
-#define FPU_CSR_ALL_X 0x0003f000
-#define FPU_CSR_UNI_X 0x00020000
-#define FPU_CSR_INV_X 0x00010000
-#define FPU_CSR_DIV_X 0x00008000
-#define FPU_CSR_OVF_X 0x00004000
-#define FPU_CSR_UDF_X 0x00002000
-#define FPU_CSR_INE_X 0x00001000
-
-#define FPU_CSR_ALL_E 0x00000f80
-#define FPU_CSR_INV_E 0x00000800
-#define FPU_CSR_DIV_E 0x00000400
-#define FPU_CSR_OVF_E 0x00000200
-#define FPU_CSR_UDF_E 0x00000100
-#define FPU_CSR_INE_E 0x00000080
-
-#define FPU_CSR_ALL_S 0x0000007c
-#define FPU_CSR_INV_S 0x00000040
-#define FPU_CSR_DIV_S 0x00000020
-#define FPU_CSR_OVF_S 0x00000010
-#define FPU_CSR_UDF_S 0x00000008
-#define FPU_CSR_INE_S 0x00000004
-
-/* rounding mode */
-#define FPU_CSR_RN 0x0 /* nearest */
-#define FPU_CSR_RZ 0x1 /* towards zero */
-#define FPU_CSR_RU 0x2 /* towards +Infinity */
-#define FPU_CSR_RD 0x3 /* towards -Infinity */
-
-
-/*
- * Values for PageMask register
- */
-#ifdef CONFIG_CPU_VR41XX
-
-/* Why doesn't stupidity hurt ... */
-
-#define PM_1K 0x00000000
-#define PM_4K 0x00001800
-#define PM_16K 0x00007800
-#define PM_64K 0x0001f800
-#define PM_256K 0x0007f800
-
-#else
-
-#define PM_4K 0x00000000
-#define PM_16K 0x00006000
-#define PM_64K 0x0001e000
-#define PM_256K 0x0007e000
-#define PM_1M 0x001fe000
-#define PM_4M 0x007fe000
-#define PM_16M 0x01ffe000
-#define PM_64M 0x07ffe000
-#define PM_256M 0x1fffe000
-
-#endif
-
-/*
- * Default page size for a given kernel configuration
- */
-#ifdef CONFIG_PAGE_SIZE_4KB
-#define PM_DEFAULT_MASK PM_4K
-#elif defined(CONFIG_PAGE_SIZE_16KB)
-#define PM_DEFAULT_MASK PM_16K
-#elif defined(CONFIG_PAGE_SIZE_64KB)
-#define PM_DEFAULT_MASK PM_64K
-#else
-#error Bad page size configuration!
-#endif
-
-
-/*
- * Values used for computation of new tlb entries
- */
-#define PL_4K 12
-#define PL_16K 14
-#define PL_64K 16
-#define PL_256K 18
-#define PL_1M 20
-#define PL_4M 22
-#define PL_16M 24
-#define PL_64M 26
-#define PL_256M 28
-
-/*
- * R4x00 interrupt enable / cause bits
- */
-#define IE_SW0 (_ULCAST_(1) << 8)
-#define IE_SW1 (_ULCAST_(1) << 9)
-#define IE_IRQ0 (_ULCAST_(1) << 10)
-#define IE_IRQ1 (_ULCAST_(1) << 11)
-#define IE_IRQ2 (_ULCAST_(1) << 12)
-#define IE_IRQ3 (_ULCAST_(1) << 13)
-#define IE_IRQ4 (_ULCAST_(1) << 14)
-#define IE_IRQ5 (_ULCAST_(1) << 15)
-
-/*
- * R4x00 interrupt cause bits
- */
-#define C_SW0 (_ULCAST_(1) << 8)
-#define C_SW1 (_ULCAST_(1) << 9)
-#define C_IRQ0 (_ULCAST_(1) << 10)
-#define C_IRQ1 (_ULCAST_(1) << 11)
-#define C_IRQ2 (_ULCAST_(1) << 12)
-#define C_IRQ3 (_ULCAST_(1) << 13)
-#define C_IRQ4 (_ULCAST_(1) << 14)
-#define C_IRQ5 (_ULCAST_(1) << 15)
-
-/*
- * Bitfields in the R4xx0 cp0 status register
- */
-#define ST0_IE 0x00000001
-#define ST0_EXL 0x00000002
-#define ST0_ERL 0x00000004
-#define ST0_KSU 0x00000018
-# define KSU_USER 0x00000010
-# define KSU_SUPERVISOR 0x00000008
-# define KSU_KERNEL 0x00000000
-#define ST0_UX 0x00000020
-#define ST0_SX 0x00000040
-#define ST0_KX 0x00000080
-#define ST0_DE 0x00010000
-#define ST0_CE 0x00020000
-
-/*
- * Setting c0_status.co enables Hit_Writeback and Hit_Writeback_Invalidate
- * cacheops in userspace. This bit exists only on RM7000 and RM9000
- * processors.
- */
-#define ST0_CO 0x08000000
-
-/*
- * Bitfields in the R[23]000 cp0 status register.
- */
-#define ST0_IEC 0x00000001
-#define ST0_KUC 0x00000002
-#define ST0_IEP 0x00000004
-#define ST0_KUP 0x00000008
-#define ST0_IEO 0x00000010
-#define ST0_KUO 0x00000020
-/* bits 6 & 7 are reserved on R[23]000 */
-#define ST0_ISC 0x00010000
-#define ST0_SWC 0x00020000
-#define ST0_CM 0x00080000
-
-/*
- * Bits specific to the R4640/R4650
- */
-#define ST0_UM (_ULCAST_(1) << 4)
-#define ST0_IL (_ULCAST_(1) << 23)
-#define ST0_DL (_ULCAST_(1) << 24)
-
-/*
- * Enable the MIPS MDMX and DSP ASEs
- */
-#define ST0_MX 0x01000000
-
-/*
- * Bitfields in the TX39 family CP0 Configuration Register 3
- */
-#define TX39_CONF_ICS_SHIFT 19
-#define TX39_CONF_ICS_MASK 0x00380000
-#define TX39_CONF_ICS_1KB 0x00000000
-#define TX39_CONF_ICS_2KB 0x00080000
-#define TX39_CONF_ICS_4KB 0x00100000
-#define TX39_CONF_ICS_8KB 0x00180000
-#define TX39_CONF_ICS_16KB 0x00200000
-
-#define TX39_CONF_DCS_SHIFT 16
-#define TX39_CONF_DCS_MASK 0x00070000
-#define TX39_CONF_DCS_1KB 0x00000000
-#define TX39_CONF_DCS_2KB 0x00010000
-#define TX39_CONF_DCS_4KB 0x00020000
-#define TX39_CONF_DCS_8KB 0x00030000
-#define TX39_CONF_DCS_16KB 0x00040000
-
-#define TX39_CONF_CWFON 0x00004000
-#define TX39_CONF_WBON 0x00002000
-#define TX39_CONF_RF_SHIFT 10
-#define TX39_CONF_RF_MASK 0x00000c00
-#define TX39_CONF_DOZE 0x00000200
-#define TX39_CONF_HALT 0x00000100
-#define TX39_CONF_LOCK 0x00000080
-#define TX39_CONF_ICE 0x00000020
-#define TX39_CONF_DCE 0x00000010
-#define TX39_CONF_IRSIZE_SHIFT 2
-#define TX39_CONF_IRSIZE_MASK 0x0000000c
-#define TX39_CONF_DRSIZE_SHIFT 0
-#define TX39_CONF_DRSIZE_MASK 0x00000003
-
-/*
- * Status register bits available in all MIPS CPUs.
- */
-#define ST0_IM 0x0000ff00
-#define STATUSB_IP0 8
-#define STATUSF_IP0 (_ULCAST_(1) << 8)
-#define STATUSB_IP1 9
-#define STATUSF_IP1 (_ULCAST_(1) << 9)
-#define STATUSB_IP2 10
-#define STATUSF_IP2 (_ULCAST_(1) << 10)
-#define STATUSB_IP3 11
-#define STATUSF_IP3 (_ULCAST_(1) << 11)
-#define STATUSB_IP4 12
-#define STATUSF_IP4 (_ULCAST_(1) << 12)
-#define STATUSB_IP5 13
-#define STATUSF_IP5 (_ULCAST_(1) << 13)
-#define STATUSB_IP6 14
-#define STATUSF_IP6 (_ULCAST_(1) << 14)
-#define STATUSB_IP7 15
-#define STATUSF_IP7 (_ULCAST_(1) << 15)
-#define STATUSB_IP8 0
-#define STATUSF_IP8 (_ULCAST_(1) << 0)
-#define STATUSB_IP9 1
-#define STATUSF_IP9 (_ULCAST_(1) << 1)
-#define STATUSB_IP10 2
-#define STATUSF_IP10 (_ULCAST_(1) << 2)
-#define STATUSB_IP11 3
-#define STATUSF_IP11 (_ULCAST_(1) << 3)
-#define STATUSB_IP12 4
-#define STATUSF_IP12 (_ULCAST_(1) << 4)
-#define STATUSB_IP13 5
-#define STATUSF_IP13 (_ULCAST_(1) << 5)
-#define STATUSB_IP14 6
-#define STATUSF_IP14 (_ULCAST_(1) << 6)
-#define STATUSB_IP15 7
-#define STATUSF_IP15 (_ULCAST_(1) << 7)
-#define ST0_CH 0x00040000
-#define ST0_SR 0x00100000
-#define ST0_TS 0x00200000
-#define ST0_BEV 0x00400000
-#define ST0_RE 0x02000000
-#define ST0_FR 0x04000000
-#define ST0_CU 0xf0000000
-#define ST0_CU0 0x10000000
-#define ST0_CU1 0x20000000
-#define ST0_CU2 0x40000000
-#define ST0_CU3 0x80000000
-#define ST0_XX 0x80000000 /* MIPS IV naming */
-
-/*
- * Bitfields and bit numbers in the coprocessor 0 cause register.
- *
- * Refer to your MIPS R4xx0 manual, chapter 5 for explanation.
- */
-#define CAUSEB_EXCCODE 2
-#define CAUSEF_EXCCODE (_ULCAST_(31) << 2)
-#define CAUSEB_IP 8
-#define CAUSEF_IP (_ULCAST_(255) << 8)
-#define CAUSEB_IP0 8
-#define CAUSEF_IP0 (_ULCAST_(1) << 8)
-#define CAUSEB_IP1 9
-#define CAUSEF_IP1 (_ULCAST_(1) << 9)
-#define CAUSEB_IP2 10
-#define CAUSEF_IP2 (_ULCAST_(1) << 10)
-#define CAUSEB_IP3 11
-#define CAUSEF_IP3 (_ULCAST_(1) << 11)
-#define CAUSEB_IP4 12
-#define CAUSEF_IP4 (_ULCAST_(1) << 12)
-#define CAUSEB_IP5 13
-#define CAUSEF_IP5 (_ULCAST_(1) << 13)
-#define CAUSEB_IP6 14
-#define CAUSEF_IP6 (_ULCAST_(1) << 14)
-#define CAUSEB_IP7 15
-#define CAUSEF_IP7 (_ULCAST_(1) << 15)
-#define CAUSEB_IV 23
-#define CAUSEF_IV (_ULCAST_(1) << 23)
-#define CAUSEB_CE 28
-#define CAUSEF_CE (_ULCAST_(3) << 28)
-#define CAUSEB_BD 31
-#define CAUSEF_BD (_ULCAST_(1) << 31)
-
-/*
- * Bits in the coprocessor 0 config register.
- */
-/* Generic bits. */
-#define CONF_CM_CACHABLE_NO_WA 0
-#define CONF_CM_CACHABLE_WA 1
-#define CONF_CM_UNCACHED 2
-#define CONF_CM_CACHABLE_NONCOHERENT 3
-#define CONF_CM_CACHABLE_CE 4
-#define CONF_CM_CACHABLE_COW 5
-#define CONF_CM_CACHABLE_CUW 6
-#define CONF_CM_CACHABLE_ACCELERATED 7
-#define CONF_CM_CMASK 7
-#define CONF_BE (_ULCAST_(1) << 15)
-
-/* Bits common to various processors. */
-#define CONF_CU (_ULCAST_(1) << 3)
-#define CONF_DB (_ULCAST_(1) << 4)
-#define CONF_IB (_ULCAST_(1) << 5)
-#define CONF_DC (_ULCAST_(7) << 6)
-#define CONF_IC (_ULCAST_(7) << 9)
-#define CONF_EB (_ULCAST_(1) << 13)
-#define CONF_EM (_ULCAST_(1) << 14)
-#define CONF_SM (_ULCAST_(1) << 16)
-#define CONF_SC (_ULCAST_(1) << 17)
-#define CONF_EW (_ULCAST_(3) << 18)
-#define CONF_EP (_ULCAST_(15)<< 24)
-#define CONF_EC (_ULCAST_(7) << 28)
-#define CONF_CM (_ULCAST_(1) << 31)
-
-/* Bits specific to the R4xx0. */
-#define R4K_CONF_SW (_ULCAST_(1) << 20)
-#define R4K_CONF_SS (_ULCAST_(1) << 21)
-#define R4K_CONF_SB (_ULCAST_(3) << 22)
-
-/* Bits specific to the R5000. */
-#define R5K_CONF_SE (_ULCAST_(1) << 12)
-#define R5K_CONF_SS (_ULCAST_(3) << 20)
-
-/* Bits specific to the RM7000. */
-#define RM7K_CONF_SE (_ULCAST_(1) << 3)
-#define RM7K_CONF_TE (_ULCAST_(1) << 12)
-#define RM7K_CONF_CLK (_ULCAST_(1) << 16)
-#define RM7K_CONF_TC (_ULCAST_(1) << 17)
-#define RM7K_CONF_SI (_ULCAST_(3) << 20)
-#define RM7K_CONF_SC (_ULCAST_(1) << 31)
-
-/* Bits specific to the R10000. */
-#define R10K_CONF_DN (_ULCAST_(3) << 3)
-#define R10K_CONF_CT (_ULCAST_(1) << 5)
-#define R10K_CONF_PE (_ULCAST_(1) << 6)
-#define R10K_CONF_PM (_ULCAST_(3) << 7)
-#define R10K_CONF_EC (_ULCAST_(15)<< 9)
-#define R10K_CONF_SB (_ULCAST_(1) << 13)
-#define R10K_CONF_SK (_ULCAST_(1) << 14)
-#define R10K_CONF_SS (_ULCAST_(7) << 16)
-#define R10K_CONF_SC (_ULCAST_(7) << 19)
-#define R10K_CONF_DC (_ULCAST_(7) << 26)
-#define R10K_CONF_IC (_ULCAST_(7) << 29)
-
-/* Bits specific to the VR41xx. */
-#define VR41_CONF_CS (_ULCAST_(1) << 12)
-#define VR41_CONF_P4K (_ULCAST_(1) << 13)
-#define VR41_CONF_BP (_ULCAST_(1) << 16)
-#define VR41_CONF_M16 (_ULCAST_(1) << 20)
-#define VR41_CONF_AD (_ULCAST_(1) << 23)
-
-/* Bits specific to the R30xx. */
-#define R30XX_CONF_FDM (_ULCAST_(1) << 19)
-#define R30XX_CONF_REV (_ULCAST_(1) << 22)
-#define R30XX_CONF_AC (_ULCAST_(1) << 23)
-#define R30XX_CONF_RF (_ULCAST_(1) << 24)
-#define R30XX_CONF_HALT (_ULCAST_(1) << 25)
-#define R30XX_CONF_FPINT (_ULCAST_(7) << 26)
-#define R30XX_CONF_DBR (_ULCAST_(1) << 29)
-#define R30XX_CONF_SB (_ULCAST_(1) << 30)
-#define R30XX_CONF_LOCK (_ULCAST_(1) << 31)
-
-/* Bits specific to the TX49. */
-#define TX49_CONF_DC (_ULCAST_(1) << 16)
-#define TX49_CONF_IC (_ULCAST_(1) << 17) /* conflict with CONF_SC */
-#define TX49_CONF_HALT (_ULCAST_(1) << 18)
-#define TX49_CONF_CWFON (_ULCAST_(1) << 27)
-
-/* Bits specific to the MIPS32/64 PRA. */
-#define MIPS_CONF_MT (_ULCAST_(7) << 7)
-#define MIPS_CONF_AR (_ULCAST_(7) << 10)
-#define MIPS_CONF_AT (_ULCAST_(3) << 13)
-#define MIPS_CONF_M (_ULCAST_(1) << 31)
-
-/*
- * Bits in the MIPS32/64 PRA coprocessor 0 config registers 1 and above.
- */
-#define MIPS_CONF1_FP (_ULCAST_(1) << 0)
-#define MIPS_CONF1_EP (_ULCAST_(1) << 1)
-#define MIPS_CONF1_CA (_ULCAST_(1) << 2)
-#define MIPS_CONF1_WR (_ULCAST_(1) << 3)
-#define MIPS_CONF1_PC (_ULCAST_(1) << 4)
-#define MIPS_CONF1_MD (_ULCAST_(1) << 5)
-#define MIPS_CONF1_C2 (_ULCAST_(1) << 6)
-#define MIPS_CONF1_DA (_ULCAST_(7) << 7)
-#define MIPS_CONF1_DL (_ULCAST_(7) << 10)
-#define MIPS_CONF1_DS (_ULCAST_(7) << 13)
-#define MIPS_CONF1_IA (_ULCAST_(7) << 16)
-#define MIPS_CONF1_IL (_ULCAST_(7) << 19)
-#define MIPS_CONF1_IS (_ULCAST_(7) << 22)
-#define MIPS_CONF1_TLBS (_ULCAST_(63)<< 25)
-
-#define MIPS_CONF2_SA (_ULCAST_(15)<< 0)
-#define MIPS_CONF2_SL (_ULCAST_(15)<< 4)
-#define MIPS_CONF2_SS (_ULCAST_(15)<< 8)
-#define MIPS_CONF2_SU (_ULCAST_(15)<< 12)
-#define MIPS_CONF2_TA (_ULCAST_(15)<< 16)
-#define MIPS_CONF2_TL (_ULCAST_(15)<< 20)
-#define MIPS_CONF2_TS (_ULCAST_(15)<< 24)
-#define MIPS_CONF2_TU (_ULCAST_(7) << 28)
-
-#define MIPS_CONF3_TL (_ULCAST_(1) << 0)
-#define MIPS_CONF3_SM (_ULCAST_(1) << 1)
-#define MIPS_CONF3_MT (_ULCAST_(1) << 2)
-#define MIPS_CONF3_SP (_ULCAST_(1) << 4)
-#define MIPS_CONF3_VINT (_ULCAST_(1) << 5)
-#define MIPS_CONF3_VEIC (_ULCAST_(1) << 6)
-#define MIPS_CONF3_LPA (_ULCAST_(1) << 7)
-#define MIPS_CONF3_DSP (_ULCAST_(1) << 10)
-
-/*
- * Bits in the MIPS32/64 coprocessor 1 (FPU) revision register.
- */
-#define MIPS_FPIR_S (_ULCAST_(1) << 16)
-#define MIPS_FPIR_D (_ULCAST_(1) << 17)
-#define MIPS_FPIR_PS (_ULCAST_(1) << 18)
-#define MIPS_FPIR_3D (_ULCAST_(1) << 19)
-#define MIPS_FPIR_W (_ULCAST_(1) << 20)
-#define MIPS_FPIR_L (_ULCAST_(1) << 21)
-#define MIPS_FPIR_F64 (_ULCAST_(1) << 22)
-
-#ifndef __ASSEMBLY__
-
-/*
- * Functions to access the R10000 performance counters. These are basically
- * mfc0 and mtc0 instructions from and to coprocessor register with a 5-bit
- * performance counter number encoded into bits 1 ... 5 of the instruction.
- * Only performance counters 0 to 1 actually exist, so for a non-R10000 aware
- * disassembler these will look like an access to sel 0 or 1.
- */
-#define read_r10k_perf_cntr(counter) \
-({ \
- unsigned int __res; \
- __asm__ __volatile__( \
- "mfpc\t%0, %1" \
- : "=r" (__res) \
- : "i" (counter)); \
- \
- __res; \
-})
-
-#define write_r10k_perf_cntr(counter,val) \
-do { \
- __asm__ __volatile__( \
- "mtpc\t%0, %1" \
- : \
- : "r" (val), "i" (counter)); \
-} while (0)
-
-#define read_r10k_perf_event(counter) \
-({ \
- unsigned int __res; \
- __asm__ __volatile__( \
- "mfps\t%0, %1" \
- : "=r" (__res) \
- : "i" (counter)); \
- \
- __res; \
-})
-
-#define write_r10k_perf_cntl(counter,val) \
-do { \
- __asm__ __volatile__( \
- "mtps\t%0, %1" \
- : \
- : "r" (val), "i" (counter)); \
-} while (0)
-
-
-/*
- * Macros to access the system control coprocessor
- */
-
-#define __read_32bit_c0_register(source, sel) \
-({ int __res; \
- if (sel == 0) \
- __asm__ __volatile__( \
- "mfc0\t%0, " #source "\n\t" \
- : "=r" (__res)); \
- else \
- __asm__ __volatile__( \
- ".set\tmips32\n\t" \
- "mfc0\t%0, " #source ", " #sel "\n\t" \
- ".set\tmips0\n\t" \
- : "=r" (__res)); \
- __res; \
-})
-
-#define __read_64bit_c0_register(source, sel) \
-({ unsigned long long __res; \
- if (sizeof(unsigned long) == 4) \
- __res = __read_64bit_c0_split(source, sel); \
- else if (sel == 0) \
- __asm__ __volatile__( \
- ".set\tmips3\n\t" \
- "dmfc0\t%0, " #source "\n\t" \
- ".set\tmips0" \
- : "=r" (__res)); \
- else \
- __asm__ __volatile__( \
- ".set\tmips64\n\t" \
- "dmfc0\t%0, " #source ", " #sel "\n\t" \
- ".set\tmips0" \
- : "=r" (__res)); \
- __res; \
-})
-
-#define __write_32bit_c0_register(register, sel, value) \
-do { \
- if (sel == 0) \
- __asm__ __volatile__( \
- "mtc0\t%z0, " #register "\n\t" \
- : : "Jr" ((unsigned int)(value))); \
- else \
- __asm__ __volatile__( \
- ".set\tmips32\n\t" \
- "mtc0\t%z0, " #register ", " #sel "\n\t" \
- ".set\tmips0" \
- : : "Jr" ((unsigned int)(value))); \
-} while (0)
-
-#define __write_64bit_c0_register(register, sel, value) \
-do { \
- if (sizeof(unsigned long) == 4) \
- __write_64bit_c0_split(register, sel, value); \
- else if (sel == 0) \
- __asm__ __volatile__( \
- ".set\tmips3\n\t" \
- "dmtc0\t%z0, " #register "\n\t" \
- ".set\tmips0" \
- : : "Jr" (value)); \
- else \
- __asm__ __volatile__( \
- ".set\tmips64\n\t" \
- "dmtc0\t%z0, " #register ", " #sel "\n\t" \
- ".set\tmips0" \
- : : "Jr" (value)); \
-} while (0)
-
-#define __read_ulong_c0_register(reg, sel) \
- ((sizeof(unsigned long) == 4) ? \
- (unsigned long) __read_32bit_c0_register(reg, sel) : \
- (unsigned long) __read_64bit_c0_register(reg, sel))
-
-#define __write_ulong_c0_register(reg, sel, val) \
-do { \
- if (sizeof(unsigned long) == 4) \
- __write_32bit_c0_register(reg, sel, val); \
- else \
- __write_64bit_c0_register(reg, sel, val); \
-} while (0)
-
-/*
- * On RM7000/RM9000 these are uses to access cop0 set 1 registers
- */
-#define __read_32bit_c0_ctrl_register(source) \
-({ int __res; \
- __asm__ __volatile__( \
- "cfc0\t%0, " #source "\n\t" \
- : "=r" (__res)); \
- __res; \
-})
-
-#define __write_32bit_c0_ctrl_register(register, value) \
-do { \
- __asm__ __volatile__( \
- "ctc0\t%z0, " #register "\n\t" \
- : : "Jr" ((unsigned int)(value))); \
-} while (0)
-
-/*
- * These versions are only needed for systems with more than 38 bits of
- * physical address space running the 32-bit kernel. That's none atm :-)
- */
-#define __read_64bit_c0_split(source, sel) \
-({ \
- unsigned long long val; \
- unsigned long flags; \
- \
- local_irq_save(flags); \
- if (sel == 0) \
- __asm__ __volatile__( \
- ".set\tmips64\n\t" \
- "dmfc0\t%M0, " #source "\n\t" \
- "dsll\t%L0, %M0, 32\n\t" \
- "dsrl\t%M0, %M0, 32\n\t" \
- "dsrl\t%L0, %L0, 32\n\t" \
- ".set\tmips0" \
- : "=r" (val)); \
- else \
- __asm__ __volatile__( \
- ".set\tmips64\n\t" \
- "dmfc0\t%M0, " #source ", " #sel "\n\t" \
- "dsll\t%L0, %M0, 32\n\t" \
- "dsrl\t%M0, %M0, 32\n\t" \
- "dsrl\t%L0, %L0, 32\n\t" \
- ".set\tmips0" \
- : "=r" (val)); \
- local_irq_restore(flags); \
- \
- val; \
-})
-
-#define __write_64bit_c0_split(source, sel, val) \
-do { \
- unsigned long flags; \
- \
- local_irq_save(flags); \
- if (sel == 0) \
- __asm__ __volatile__( \
- ".set\tmips64\n\t" \
- "dsll\t%L0, %L0, 32\n\t" \
- "dsrl\t%L0, %L0, 32\n\t" \
- "dsll\t%M0, %M0, 32\n\t" \
- "or\t%L0, %L0, %M0\n\t" \
- "dmtc0\t%L0, " #source "\n\t" \
- ".set\tmips0" \
- : : "r" (val)); \
- else \
- __asm__ __volatile__( \
- ".set\tmips64\n\t" \
- "dsll\t%L0, %L0, 32\n\t" \
- "dsrl\t%L0, %L0, 32\n\t" \
- "dsll\t%M0, %M0, 32\n\t" \
- "or\t%L0, %L0, %M0\n\t" \
- "dmtc0\t%L0, " #source ", " #sel "\n\t" \
- ".set\tmips0" \
- : : "r" (val)); \
- local_irq_restore(flags); \
-} while (0)
-
-#define read_c0_index() __read_32bit_c0_register($0, 0)
-#define write_c0_index(val) __write_32bit_c0_register($0, 0, val)
-
-#define read_c0_entrylo0() __read_ulong_c0_register($2, 0)
-#define write_c0_entrylo0(val) __write_ulong_c0_register($2, 0, val)
-
-#define read_c0_entrylo1() __read_ulong_c0_register($3, 0)
-#define write_c0_entrylo1(val) __write_ulong_c0_register($3, 0, val)
-
-#define read_c0_conf() __read_32bit_c0_register($3, 0)
-#define write_c0_conf(val) __write_32bit_c0_register($3, 0, val)
-
-#define read_c0_context() __read_ulong_c0_register($4, 0)
-#define write_c0_context(val) __write_ulong_c0_register($4, 0, val)
-
-#define read_c0_pagemask() __read_32bit_c0_register($5, 0)
-#define write_c0_pagemask(val) __write_32bit_c0_register($5, 0, val)
-
-#define read_c0_wired() __read_32bit_c0_register($6, 0)
-#define write_c0_wired(val) __write_32bit_c0_register($6, 0, val)
-
-#define read_c0_info() __read_32bit_c0_register($7, 0)
-
-#define read_c0_cache() __read_32bit_c0_register($7, 0) /* TX39xx */
-#define write_c0_cache(val) __write_32bit_c0_register($7, 0, val)
-
-#define read_c0_badvaddr() __read_ulong_c0_register($8, 0)
-#define write_c0_badvaddr(val) __write_ulong_c0_register($8, 0, val)
-
-#define read_c0_count() __read_32bit_c0_register($9, 0)
-#define write_c0_count(val) __write_32bit_c0_register($9, 0, val)
-
-#define read_c0_count2() __read_32bit_c0_register($9, 6) /* pnx8550 */
-#define write_c0_count2(val) __write_32bit_c0_register($9, 6, val)
-
-#define read_c0_count3() __read_32bit_c0_register($9, 7) /* pnx8550 */
-#define write_c0_count3(val) __write_32bit_c0_register($9, 7, val)
-
-#define read_c0_entryhi() __read_ulong_c0_register($10, 0)
-#define write_c0_entryhi(val) __write_ulong_c0_register($10, 0, val)
-
-#define read_c0_compare() __read_32bit_c0_register($11, 0)
-#define write_c0_compare(val) __write_32bit_c0_register($11, 0, val)
-
-#define read_c0_compare2() __read_32bit_c0_register($11, 6) /* pnx8550 */
-#define write_c0_compare2(val) __write_32bit_c0_register($11, 6, val)
-
-#define read_c0_compare3() __read_32bit_c0_register($11, 7) /* pnx8550 */
-#define write_c0_compare3(val) __write_32bit_c0_register($11, 7, val)
-
-#define read_c0_status() __read_32bit_c0_register($12, 0)
-#ifdef CONFIG_MIPS_MT_SMTC
-#define write_c0_status(val) \
-do { \
- __write_32bit_c0_register($12, 0, val); \
- __ehb(); \
-} while (0)
-#else
-/*
- * Legacy non-SMTC code, which may be hazardous
- * but which might not support EHB
- */
-#define write_c0_status(val) __write_32bit_c0_register($12, 0, val)
-#endif /* CONFIG_MIPS_MT_SMTC */
-
-#define read_c0_cause() __read_32bit_c0_register($13, 0)
-#define write_c0_cause(val) __write_32bit_c0_register($13, 0, val)
-
-#define read_c0_epc() __read_ulong_c0_register($14, 0)
-#define write_c0_epc(val) __write_ulong_c0_register($14, 0, val)
-
-#define read_c0_prid() __read_32bit_c0_register($15, 0)
-
-#define read_c0_config() __read_32bit_c0_register($16, 0)
-#define read_c0_config1() __read_32bit_c0_register($16, 1)
-#define read_c0_config2() __read_32bit_c0_register($16, 2)
-#define read_c0_config3() __read_32bit_c0_register($16, 3)
-#define read_c0_config4() __read_32bit_c0_register($16, 4)
-#define read_c0_config5() __read_32bit_c0_register($16, 5)
-#define read_c0_config6() __read_32bit_c0_register($16, 6)
-#define read_c0_config7() __read_32bit_c0_register($16, 7)
-#define write_c0_config(val) __write_32bit_c0_register($16, 0, val)
-#define write_c0_config1(val) __write_32bit_c0_register($16, 1, val)
-#define write_c0_config2(val) __write_32bit_c0_register($16, 2, val)
-#define write_c0_config3(val) __write_32bit_c0_register($16, 3, val)
-#define write_c0_config4(val) __write_32bit_c0_register($16, 4, val)
-#define write_c0_config5(val) __write_32bit_c0_register($16, 5, val)
-#define write_c0_config6(val) __write_32bit_c0_register($16, 6, val)
-#define write_c0_config7(val) __write_32bit_c0_register($16, 7, val)
-
-/*
- * The WatchLo register. There may be upto 8 of them.
- */
-#define read_c0_watchlo0() __read_ulong_c0_register($18, 0)
-#define read_c0_watchlo1() __read_ulong_c0_register($18, 1)
-#define read_c0_watchlo2() __read_ulong_c0_register($18, 2)
-#define read_c0_watchlo3() __read_ulong_c0_register($18, 3)
-#define read_c0_watchlo4() __read_ulong_c0_register($18, 4)
-#define read_c0_watchlo5() __read_ulong_c0_register($18, 5)
-#define read_c0_watchlo6() __read_ulong_c0_register($18, 6)
-#define read_c0_watchlo7() __read_ulong_c0_register($18, 7)
-#define write_c0_watchlo0(val) __write_ulong_c0_register($18, 0, val)
-#define write_c0_watchlo1(val) __write_ulong_c0_register($18, 1, val)
-#define write_c0_watchlo2(val) __write_ulong_c0_register($18, 2, val)
-#define write_c0_watchlo3(val) __write_ulong_c0_register($18, 3, val)
-#define write_c0_watchlo4(val) __write_ulong_c0_register($18, 4, val)
-#define write_c0_watchlo5(val) __write_ulong_c0_register($18, 5, val)
-#define write_c0_watchlo6(val) __write_ulong_c0_register($18, 6, val)
-#define write_c0_watchlo7(val) __write_ulong_c0_register($18, 7, val)
-
-/*
- * The WatchHi register. There may be upto 8 of them.
- */
-#define read_c0_watchhi0() __read_32bit_c0_register($19, 0)
-#define read_c0_watchhi1() __read_32bit_c0_register($19, 1)
-#define read_c0_watchhi2() __read_32bit_c0_register($19, 2)
-#define read_c0_watchhi3() __read_32bit_c0_register($19, 3)
-#define read_c0_watchhi4() __read_32bit_c0_register($19, 4)
-#define read_c0_watchhi5() __read_32bit_c0_register($19, 5)
-#define read_c0_watchhi6() __read_32bit_c0_register($19, 6)
-#define read_c0_watchhi7() __read_32bit_c0_register($19, 7)
-
-#define write_c0_watchhi0(val) __write_32bit_c0_register($19, 0, val)
-#define write_c0_watchhi1(val) __write_32bit_c0_register($19, 1, val)
-#define write_c0_watchhi2(val) __write_32bit_c0_register($19, 2, val)
-#define write_c0_watchhi3(val) __write_32bit_c0_register($19, 3, val)
-#define write_c0_watchhi4(val) __write_32bit_c0_register($19, 4, val)
-#define write_c0_watchhi5(val) __write_32bit_c0_register($19, 5, val)
-#define write_c0_watchhi6(val) __write_32bit_c0_register($19, 6, val)
-#define write_c0_watchhi7(val) __write_32bit_c0_register($19, 7, val)
-
-#define read_c0_xcontext() __read_ulong_c0_register($20, 0)
-#define write_c0_xcontext(val) __write_ulong_c0_register($20, 0, val)
-
-#define read_c0_intcontrol() __read_32bit_c0_ctrl_register($20)
-#define write_c0_intcontrol(val) __write_32bit_c0_ctrl_register($20, val)
-
-#define read_c0_framemask() __read_32bit_c0_register($21, 0)
-#define write_c0_framemask(val) __write_32bit_c0_register($21, 0, val)
-
-/* RM9000 PerfControl performance counter control register */
-#define read_c0_perfcontrol() __read_32bit_c0_register($22, 0)
-#define write_c0_perfcontrol(val) __write_32bit_c0_register($22, 0, val)
-
-#define read_c0_diag() __read_32bit_c0_register($22, 0)
-#define write_c0_diag(val) __write_32bit_c0_register($22, 0, val)
-
-#define read_c0_diag1() __read_32bit_c0_register($22, 1)
-#define write_c0_diag1(val) __write_32bit_c0_register($22, 1, val)
-
-#define read_c0_diag2() __read_32bit_c0_register($22, 2)
-#define write_c0_diag2(val) __write_32bit_c0_register($22, 2, val)
-
-#define read_c0_diag3() __read_32bit_c0_register($22, 3)
-#define write_c0_diag3(val) __write_32bit_c0_register($22, 3, val)
-
-#define read_c0_diag4() __read_32bit_c0_register($22, 4)
-#define write_c0_diag4(val) __write_32bit_c0_register($22, 4, val)
-
-#define read_c0_diag5() __read_32bit_c0_register($22, 5)
-#define write_c0_diag5(val) __write_32bit_c0_register($22, 5, val)
-
-#define read_c0_debug() __read_32bit_c0_register($23, 0)
-#define write_c0_debug(val) __write_32bit_c0_register($23, 0, val)
-
-#define read_c0_depc() __read_ulong_c0_register($24, 0)
-#define write_c0_depc(val) __write_ulong_c0_register($24, 0, val)
-
-/*
- * MIPS32 / MIPS64 performance counters
- */
-#define read_c0_perfctrl0() __read_32bit_c0_register($25, 0)
-#define write_c0_perfctrl0(val) __write_32bit_c0_register($25, 0, val)
-#define read_c0_perfcntr0() __read_32bit_c0_register($25, 1)
-#define write_c0_perfcntr0(val) __write_32bit_c0_register($25, 1, val)
-#define read_c0_perfctrl1() __read_32bit_c0_register($25, 2)
-#define write_c0_perfctrl1(val) __write_32bit_c0_register($25, 2, val)
-#define read_c0_perfcntr1() __read_32bit_c0_register($25, 3)
-#define write_c0_perfcntr1(val) __write_32bit_c0_register($25, 3, val)
-#define read_c0_perfctrl2() __read_32bit_c0_register($25, 4)
-#define write_c0_perfctrl2(val) __write_32bit_c0_register($25, 4, val)
-#define read_c0_perfcntr2() __read_32bit_c0_register($25, 5)
-#define write_c0_perfcntr2(val) __write_32bit_c0_register($25, 5, val)
-#define read_c0_perfctrl3() __read_32bit_c0_register($25, 6)
-#define write_c0_perfctrl3(val) __write_32bit_c0_register($25, 6, val)
-#define read_c0_perfcntr3() __read_32bit_c0_register($25, 7)
-#define write_c0_perfcntr3(val) __write_32bit_c0_register($25, 7, val)
-
-/* RM9000 PerfCount performance counter register */
-#define read_c0_perfcount() __read_64bit_c0_register($25, 0)
-#define write_c0_perfcount(val) __write_64bit_c0_register($25, 0, val)
-
-#define read_c0_ecc() __read_32bit_c0_register($26, 0)
-#define write_c0_ecc(val) __write_32bit_c0_register($26, 0, val)
-
-#define read_c0_derraddr0() __read_ulong_c0_register($26, 1)
-#define write_c0_derraddr0(val) __write_ulong_c0_register($26, 1, val)
-
-#define read_c0_cacheerr() __read_32bit_c0_register($27, 0)
-
-#define read_c0_derraddr1() __read_ulong_c0_register($27, 1)
-#define write_c0_derraddr1(val) __write_ulong_c0_register($27, 1, val)
-
-#define read_c0_taglo() __read_32bit_c0_register($28, 0)
-#define write_c0_taglo(val) __write_32bit_c0_register($28, 0, val)
-
-#define read_c0_dtaglo() __read_32bit_c0_register($28, 2)
-#define write_c0_dtaglo(val) __write_32bit_c0_register($28, 2, val)
-
-#define read_c0_taghi() __read_32bit_c0_register($29, 0)
-#define write_c0_taghi(val) __write_32bit_c0_register($29, 0, val)
-
-#define read_c0_errorepc() __read_ulong_c0_register($30, 0)
-#define write_c0_errorepc(val) __write_ulong_c0_register($30, 0, val)
-
-/* MIPSR2 */
-#define read_c0_hwrena() __read_32bit_c0_register($7,0)
-#define write_c0_hwrena(val) __write_32bit_c0_register($7, 0, val)
-
-#define read_c0_intctl() __read_32bit_c0_register($12, 1)
-#define write_c0_intctl(val) __write_32bit_c0_register($12, 1, val)
-
-#define read_c0_srsctl() __read_32bit_c0_register($12, 2)
-#define write_c0_srsctl(val) __write_32bit_c0_register($12, 2, val)
-
-#define read_c0_srsmap() __read_32bit_c0_register($12, 3)
-#define write_c0_srsmap(val) __write_32bit_c0_register($12, 3, val)
-
-#define read_c0_ebase() __read_32bit_c0_register($15,1)
-#define write_c0_ebase(val) __write_32bit_c0_register($15, 1, val)
-
-/*
- * Macros to access the floating point coprocessor control registers
- */
-#define read_32bit_cp1_register(source) \
-({ int __res; \
- __asm__ __volatile__( \
- ".set\tpush\n\t" \
- ".set\treorder\n\t" \
- "cfc1\t%0,"STR(source)"\n\t" \
- ".set\tpop" \
- : "=r" (__res)); \
- __res;})
-
-#define rddsp(mask) \
-({ \
- unsigned int __res; \
- \
- __asm__ __volatile__( \
- " .set push \n" \
- " .set noat \n" \
- " # rddsp $1, %x1 \n" \
- " .word 0x7c000cb8 | (%x1 << 16) \n" \
- " move %0, $1 \n" \
- " .set pop \n" \
- : "=r" (__res) \
- : "i" (mask)); \
- __res; \
-})
-
-#define wrdsp(val, mask) \
-do { \
- __asm__ __volatile__( \
- " .set push \n" \
- " .set noat \n" \
- " move $1, %0 \n" \
- " # wrdsp $1, %x1 \n" \
- " .word 0x7c2004f8 | (%x1 << 11) \n" \
- " .set pop \n" \
- : \
- : "r" (val), "i" (mask)); \
-} while (0)
-
-#if 0 /* Need DSP ASE capable assembler ... */
-#define mflo0() ({ long mflo0; __asm__("mflo %0, $ac0" : "=r" (mflo0)); mflo0;})
-#define mflo1() ({ long mflo1; __asm__("mflo %0, $ac1" : "=r" (mflo1)); mflo1;})
-#define mflo2() ({ long mflo2; __asm__("mflo %0, $ac2" : "=r" (mflo2)); mflo2;})
-#define mflo3() ({ long mflo3; __asm__("mflo %0, $ac3" : "=r" (mflo3)); mflo3;})
-
-#define mfhi0() ({ long mfhi0; __asm__("mfhi %0, $ac0" : "=r" (mfhi0)); mfhi0;})
-#define mfhi1() ({ long mfhi1; __asm__("mfhi %0, $ac1" : "=r" (mfhi1)); mfhi1;})
-#define mfhi2() ({ long mfhi2; __asm__("mfhi %0, $ac2" : "=r" (mfhi2)); mfhi2;})
-#define mfhi3() ({ long mfhi3; __asm__("mfhi %0, $ac3" : "=r" (mfhi3)); mfhi3;})
-
-#define mtlo0(x) __asm__("mtlo %0, $ac0" ::"r" (x))
-#define mtlo1(x) __asm__("mtlo %0, $ac1" ::"r" (x))
-#define mtlo2(x) __asm__("mtlo %0, $ac2" ::"r" (x))
-#define mtlo3(x) __asm__("mtlo %0, $ac3" ::"r" (x))
-
-#define mthi0(x) __asm__("mthi %0, $ac0" ::"r" (x))
-#define mthi1(x) __asm__("mthi %0, $ac1" ::"r" (x))
-#define mthi2(x) __asm__("mthi %0, $ac2" ::"r" (x))
-#define mthi3(x) __asm__("mthi %0, $ac3" ::"r" (x))
-
-#else
-
-#define mfhi0() \
-({ \
- unsigned long __treg; \
- \
- __asm__ __volatile__( \
- " .set push \n" \
- " .set noat \n" \
- " # mfhi %0, $ac0 \n" \
- " .word 0x00000810 \n" \
- " move %0, $1 \n" \
- " .set pop \n" \
- : "=r" (__treg)); \
- __treg; \
-})
-
-#define mfhi1() \
-({ \
- unsigned long __treg; \
- \
- __asm__ __volatile__( \
- " .set push \n" \
- " .set noat \n" \
- " # mfhi %0, $ac1 \n" \
- " .word 0x00200810 \n" \
- " move %0, $1 \n" \
- " .set pop \n" \
- : "=r" (__treg)); \
- __treg; \
-})
-
-#define mfhi2() \
-({ \
- unsigned long __treg; \
- \
- __asm__ __volatile__( \
- " .set push \n" \
- " .set noat \n" \
- " # mfhi %0, $ac2 \n" \
- " .word 0x00400810 \n" \
- " move %0, $1 \n" \
- " .set pop \n" \
- : "=r" (__treg)); \
- __treg; \
-})
-
-#define mfhi3() \
-({ \
- unsigned long __treg; \
- \
- __asm__ __volatile__( \
- " .set push \n" \
- " .set noat \n" \
- " # mfhi %0, $ac3 \n" \
- " .word 0x00600810 \n" \
- " move %0, $1 \n" \
- " .set pop \n" \
- : "=r" (__treg)); \
- __treg; \
-})
-
-#define mflo0() \
-({ \
- unsigned long __treg; \
- \
- __asm__ __volatile__( \
- " .set push \n" \
- " .set noat \n" \
- " # mflo %0, $ac0 \n" \
- " .word 0x00000812 \n" \
- " move %0, $1 \n" \
- " .set pop \n" \
- : "=r" (__treg)); \
- __treg; \
-})
-
-#define mflo1() \
-({ \
- unsigned long __treg; \
- \
- __asm__ __volatile__( \
- " .set push \n" \
- " .set noat \n" \
- " # mflo %0, $ac1 \n" \
- " .word 0x00200812 \n" \
- " move %0, $1 \n" \
- " .set pop \n" \
- : "=r" (__treg)); \
- __treg; \
-})
-
-#define mflo2() \
-({ \
- unsigned long __treg; \
- \
- __asm__ __volatile__( \
- " .set push \n" \
- " .set noat \n" \
- " # mflo %0, $ac2 \n" \
- " .word 0x00400812 \n" \
- " move %0, $1 \n" \
- " .set pop \n" \
- : "=r" (__treg)); \
- __treg; \
-})
-
-#define mflo3() \
-({ \
- unsigned long __treg; \
- \
- __asm__ __volatile__( \
- " .set push \n" \
- " .set noat \n" \
- " # mflo %0, $ac3 \n" \
- " .word 0x00600812 \n" \
- " move %0, $1 \n" \
- " .set pop \n" \
- : "=r" (__treg)); \
- __treg; \
-})
-
-#define mthi0(x) \
-do { \
- __asm__ __volatile__( \
- " .set push \n" \
- " .set noat \n" \
- " move $1, %0 \n" \
- " # mthi $1, $ac0 \n" \
- " .word 0x00200011 \n" \
- " .set pop \n" \
- : \
- : "r" (x)); \
-} while (0)
-
-#define mthi1(x) \
-do { \
- __asm__ __volatile__( \
- " .set push \n" \
- " .set noat \n" \
- " move $1, %0 \n" \
- " # mthi $1, $ac1 \n" \
- " .word 0x00200811 \n" \
- " .set pop \n" \
- : \
- : "r" (x)); \
-} while (0)
-
-#define mthi2(x) \
-do { \
- __asm__ __volatile__( \
- " .set push \n" \
- " .set noat \n" \
- " move $1, %0 \n" \
- " # mthi $1, $ac2 \n" \
- " .word 0x00201011 \n" \
- " .set pop \n" \
- : \
- : "r" (x)); \
-} while (0)
-
-#define mthi3(x) \
-do { \
- __asm__ __volatile__( \
- " .set push \n" \
- " .set noat \n" \
- " move $1, %0 \n" \
- " # mthi $1, $ac3 \n" \
- " .word 0x00201811 \n" \
- " .set pop \n" \
- : \
- : "r" (x)); \
-} while (0)
-
-#define mtlo0(x) \
-do { \
- __asm__ __volatile__( \
- " .set push \n" \
- " .set noat \n" \
- " move $1, %0 \n" \
- " # mtlo $1, $ac0 \n" \
- " .word 0x00200013 \n" \
- " .set pop \n" \
- : \
- : "r" (x)); \
-} while (0)
-
-#define mtlo1(x) \
-do { \
- __asm__ __volatile__( \
- " .set push \n" \
- " .set noat \n" \
- " move $1, %0 \n" \
- " # mtlo $1, $ac1 \n" \
- " .word 0x00200813 \n" \
- " .set pop \n" \
- : \
- : "r" (x)); \
-} while (0)
-
-#define mtlo2(x) \
-do { \
- __asm__ __volatile__( \
- " .set push \n" \
- " .set noat \n" \
- " move $1, %0 \n" \
- " # mtlo $1, $ac2 \n" \
- " .word 0x00201013 \n" \
- " .set pop \n" \
- : \
- : "r" (x)); \
-} while (0)
-
-#define mtlo3(x) \
-do { \
- __asm__ __volatile__( \
- " .set push \n" \
- " .set noat \n" \
- " move $1, %0 \n" \
- " # mtlo $1, $ac3 \n" \
- " .word 0x00201813 \n" \
- " .set pop \n" \
- : \
- : "r" (x)); \
-} while (0)
-
-#endif
-
-/*
- * TLB operations.
- *
- * It is responsibility of the caller to take care of any TLB hazards.
- */
-static inline void tlb_probe(void)
-{
- __asm__ __volatile__(
- ".set noreorder\n\t"
- "tlbp\n\t"
- ".set reorder");
-}
-
-static inline void tlb_read(void)
-{
- __asm__ __volatile__(
- ".set noreorder\n\t"
- "tlbr\n\t"
- ".set reorder");
-}
-
-static inline void tlb_write_indexed(void)
-{
- __asm__ __volatile__(
- ".set noreorder\n\t"
- "tlbwi\n\t"
- ".set reorder");
-}
-
-static inline void tlb_write_random(void)
-{
- __asm__ __volatile__(
- ".set noreorder\n\t"
- "tlbwr\n\t"
- ".set reorder");
-}
-
-/*
- * Manipulate bits in a c0 register.
- */
-#ifndef CONFIG_MIPS_MT_SMTC
-/*
- * SMTC Linux requires shutting-down microthread scheduling
- * during CP0 register read-modify-write sequences.
- */
-#define __BUILD_SET_C0(name) \
-static inline unsigned int \
-set_c0_##name(unsigned int set) \
-{ \
- unsigned int res; \
- \
- res = read_c0_##name(); \
- res |= set; \
- write_c0_##name(res); \
- \
- return res; \
-} \
- \
-static inline unsigned int \
-clear_c0_##name(unsigned int clear) \
-{ \
- unsigned int res; \
- \
- res = read_c0_##name(); \
- res &= ~clear; \
- write_c0_##name(res); \
- \
- return res; \
-} \
- \
-static inline unsigned int \
-change_c0_##name(unsigned int change, unsigned int new) \
-{ \
- unsigned int res; \
- \
- res = read_c0_##name(); \
- res &= ~change; \
- res |= (new & change); \
- write_c0_##name(res); \
- \
- return res; \
-}
-
-#else /* SMTC versions that manage MT scheduling */
-
-#include <linux/irqflags.h>
-
-/*
- * This is a duplicate of dmt() in mipsmtregs.h to avoid problems with
- * header file recursion.
- */
-static inline unsigned int __dmt(void)
-{
- int res;
-
- __asm__ __volatile__(
- " .set push \n"
- " .set mips32r2 \n"
- " .set noat \n"
- " .word 0x41610BC1 # dmt $1 \n"
- " ehb \n"
- " move %0, $1 \n"
- " .set pop \n"
- : "=r" (res));
-
- instruction_hazard();
-
- return res;
-}
-
-#define __VPECONTROL_TE_SHIFT 15
-#define __VPECONTROL_TE (1UL << __VPECONTROL_TE_SHIFT)
-
-#define __EMT_ENABLE __VPECONTROL_TE
-
-static inline void __emt(unsigned int previous)
-{
- if ((previous & __EMT_ENABLE))
- __asm__ __volatile__(
- " .set mips32r2 \n"
- " .word 0x41600be1 # emt \n"
- " ehb \n"
- " .set mips0 \n");
-}
-
-static inline void __ehb(void)
-{
- __asm__ __volatile__(
- " .set mips32r2 \n"
- " ehb \n" " .set mips0 \n");
-}
-
-/*
- * Note that local_irq_save/restore affect TC-specific IXMT state,
- * not Status.IE as in non-SMTC kernel.
- */
-
-#define __BUILD_SET_C0(name) \
-static inline unsigned int \
-set_c0_##name(unsigned int set) \
-{ \
- unsigned int res; \
- unsigned int omt; \
- unsigned int flags; \
- \
- local_irq_save(flags); \
- omt = __dmt(); \
- res = read_c0_##name(); \
- res |= set; \
- write_c0_##name(res); \
- __emt(omt); \
- local_irq_restore(flags); \
- \
- return res; \
-} \
- \
-static inline unsigned int \
-clear_c0_##name(unsigned int clear) \
-{ \
- unsigned int res; \
- unsigned int omt; \
- unsigned int flags; \
- \
- local_irq_save(flags); \
- omt = __dmt(); \
- res = read_c0_##name(); \
- res &= ~clear; \
- write_c0_##name(res); \
- __emt(omt); \
- local_irq_restore(flags); \
- \
- return res; \
-} \
- \
-static inline unsigned int \
-change_c0_##name(unsigned int change, unsigned int new) \
-{ \
- unsigned int res; \
- unsigned int omt; \
- unsigned int flags; \
- \
- local_irq_save(flags); \
- \
- omt = __dmt(); \
- res = read_c0_##name(); \
- res &= ~change; \
- res |= (new & change); \
- write_c0_##name(res); \
- __emt(omt); \
- local_irq_restore(flags); \
- \
- return res; \
-}
-#endif
-
-__BUILD_SET_C0(status)
-__BUILD_SET_C0(cause)
-__BUILD_SET_C0(config)
-__BUILD_SET_C0(intcontrol)
-__BUILD_SET_C0(intctl)
-__BUILD_SET_C0(srsmap)
-
-#endif /* !__ASSEMBLY__ */
-
-#endif /* _ASM_MIPSREGS_H */
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/patch_files/Makefile b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/patch_files/Makefile
deleted file mode 100644
index 2ea53bb..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/patch_files/Makefile
+++ /dev/null
@@ -1,16 +0,0 @@
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License version 2 as
-# published by the Free Software Foundation.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-
-# platform driver
-ccflags-y += -I../inc
-snd-soc-procslic-patch-objs := si3218x_patch_A_2017MAY25.o
-
-obj-$(CONFIG_SND_SOC_SI3218X) += snd-soc-proslic-patch.o
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/patch_files/si3218x_patch_A_2017MAY25.c b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/patch_files/si3218x_patch_A_2017MAY25.c
deleted file mode 100644
index ccccb75..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/patch_files/si3218x_patch_A_2017MAY25.c
+++ /dev/null
@@ -1,242 +0,0 @@
-// SPDX-License-Identifier: GPL-2.0
-/*
- * Generated from si3218x_patch_A_2017MAY25.dsp_prom
- * on 05-25-2017 at 15:1:37
- * Patch ID = 0x05252017L
- *
- * This file contains proprietary information.
- * No dissemination allowed without prior written permission from
- * Silicon Laboratories, Inc.
- */
-#include "../config_inc/si_voice_datatypes.h"
-#include "../inc/si3218x.h"
-
-static const uInt32 patchData [] = {
-141029L,
-540867L,
-141029L,
-543427L,
-141029L,
-553667L,
-141029L,
-562883L,
-141029L,
-567491L,
-141029L,
-569539L,
-141029L,
-580803L,
-141029L,
-586435L,
-141029L,
-593091L,
-141029L,
-598211L,
-141029L,
-603843L,
-141029L,
-604355L,
-141029L,
-604867L,
-141029L,
-605379L,
-141029L,
-605891L,
-141029L,
-606403L,
-736L,
-492224L,
-452200L,
-141029L,
-491712L,
-558181L,
-410018L,
-539765L,
-142565L,
-551619L,
-355746L,
-539765L,
-142560L,
-548547L,
-767493L,
-356258L,
-407477L,
-142561L,
-551619L,
-767493L,
-539749L,
-743525L,
-119426L,
-141029L,
-925377L,
-387589L,
-558181L,
-388514L,
-387701L,
-142565L,
-561347L,
-524290L,
-144096L,
-559811L,
-524292L,
-141029L,
-560835L,
-524290L,
-437360L,
-671749L,
-437349L,
-141029L,
-21186L,
-560741L,
-524290L,
-143072L,
-565955L,
-141029L,
-122050L,
-694789L,
-141029L,
-789186L,
-408165L,
-408645L,
-141029L,
-950976L,
-524291L,
-144101L,
-571587L,
-199685L,
-666853L,
-574659L,
-431717L,
-197189L,
-136805L,
-198725L,
-408677L,
-262242L,
-524291L,
-144101L,
-577731L,
-408581L,
-666853L,
-873664L,
-136805L,
-407621L,
-141029L,
-873664L,
-9733L,
-136805L,
-116130L,
-524304L,
-660069L,
-440424L,
-9827L,
-660066L,
-524315L,
-141029L,
-674496L,
-694789L,
-828517L,
-119426L,
-267414L,
-829441L,
-828933L,
-694789L,
-118405L,
-788805L,
-725829L,
-119424L,
-141029L,
-230594L,
-492645L,
-252002L,
-524295L,
-517220L,
-144101L,
-596675L,
-517733L,
-827461L,
-141029L,
-745664L,
-466437L,
-558181L,
-410018L,
-519797L,
-142565L,
-601795L,
-385637L,
-466597L,
-524289L,
-141029L,
-27330L,
-524293L,
-524293L,
-524293L,
-524293L,
-524293L,
-524293L,
-0L
-};
-
-static const uInt16 patchEntries [] = {
-951,
-3854,
-4136,
-4333,
-1856,
-1695,
-1316,
-4545,
-1455,
-4148,
-0,
-0,
-0,
-0,
-0,
-0
-};
-
-static const uInt16 patchSupportAddr [] = {
-800,
-694,
-695,
-795,
-914,
-758,
-757,
-798,
-797,
-796,
-226,
-1011,
-1010,
-0
-};
-
-static const uInt32 patchSupportData [] = {
-0x200000L,
-0x80000L,
-0x200000L,
-0x180000L,
-0x07FCFDDAL,
-0x400000L,
-0x0L,
-0x123400L,
-0x123400L,
-0x123400L,
-0x35D540L,
-0x3F00000L,
-0x100000L,
-0x0L
-};
-
-#ifdef SIVOICE_MULTI_BOM_SUPPORT
-const proslicPatch si3218xPatchRevALCQC = {
-#else
-const proslicPatch RevAPatch = {
-#endif
- patchData,
- patchEntries,
- 0x05252017L,
- patchSupportAddr,
- patchSupportData
-};
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/proslic_spi_api.c b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/proslic_spi_api.c
deleted file mode 100644
index 77e67d0..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/proslic_spi_api.c
+++ /dev/null
@@ -1,206 +0,0 @@
-// SPDX-License-Identifier: GPL-2.0
-/*
- * spi.h
- * SPI driver implementation file
- *
- * Author(s):
- * laj
- *
- * Distributed by:
- * Silicon Laboratories, Inc
- *
- * File Description:
- * This is the implementation file for the SPI driver used
- * in the ProSLIC demonstration code. It calls the library
- * that initializes and talks to the proslic motherboard.
- *
- * Dependancies:
- *
- */
-//#include "../iowrapper.h" // This is the motherboard interface library
-#include <linux/kernel.h>
-#include <linux/delay.h>
-#include "config_inc/si_voice_datatypes.h"
-#include "inc/si_voice_ctrl.h"
-#include "spi.h"
-#include "proslic_sys.h"
-
-/*
-** Function: SPI_Init
-**
-** Description:
-** Initializes the SPI interface
-**
-** Input Parameters:
-** none
-**
-** Return:
-** none
-*/
-int SPI_Init (ctrl_S *hSpi){
- int ret;
-
- ret = proslic_spi_setup();
-
- return 0;
-}
-
-/*
-** Function: spiGci_ResetWrapper
-**
-** Description:
-** Sets the reset pin of the ProSLIC
-*/
-int ctrl_ResetWrapper (void *hSpiGci, int status){
-
- printk("ctrl_ResetWrapper");
- proslic_reset(NULL, status);
-
- return 0;
-}
-
-/*
-** SPI/GCI register read
-**
-** Description:
-** Reads a single ProSLIC register
-**
-** Input Parameters:
-** channel: ProSLIC channel to read from
-** regAddr: Address of register to read
-** return data: data to read from register
-**
-** Return:
-** none
-*/
-uInt8 ctrl_ReadRegisterWrapper (void *hSpiGci, uInt8 channel, uInt8 regAddr){
-
-
- return proslic_read_register(hSpiGci,channel,regAddr);
-}
-
-
-/*
-** Function: spiGci_WriteRegisterWrapper
-**
-** Description:
-** Writes a single ProSLIC register
-**
-** Input Parameters:
-** channel: ProSLIC channel to write to
-** address: Address of register to write
-** data: data to write to register
-**
-** Return:
-** none
-*/
-int ctrl_WriteRegisterWrapper (void *hSpiGci, unsigned char channel, unsigned char regAddr, unsigned char data){
-
- proslic_write_register(hSpiGci,channel,regAddr, data);
- return 0;
-}
-
-
-/*
-** Function: SPI_ReadRAMWrapper
-**
-** Description:
-** Reads a single ProSLIC RAM location
-**
-** Input Parameters:
-** channel: ProSLIC channel to read from
-** address: Address of RAM location to read
-** pData: data to read from RAM location
-**
-** Return:
-** none
-*/
-ramData ctrl_ReadRAMWrapper (void *hSpiGci, unsigned char channel, unsigned short ramAddr){
- ramData data;
-
- data = proslic_read_ram(hSpiGci,channel,ramAddr);
-
- return data;
-}
-
-
-/*
-** Function: SPI_WriteRAMWrapper
-**
-** Description:
-** Writes a single ProSLIC RAM location
-**
-** Input Parameters:
-** channel: ProSLIC channel to write to
-** address: Address of RAM location to write
-** data: data to write to RAM location
-**
-** Return:
-** none
-*/
-int ctrl_WriteRAMWrapper (void *hSpiGci, unsigned char channel, unsigned short ramAddr, ramData data){
-
- proslic_write_ram(hSpiGci,channel,ramAddr,data);
-
- return 0;
-}
-
-
-
-/*
-** $Log: proslic_spi_api.c,v $
-** Revision 1.11 2008/07/24 21:06:16 lajordan
-** no message
-**
-** Revision 1.10 2008/03/19 18:20:09 lajordan
-** no message
-**
-** Revision 1.9 2007/06/04 16:35:51 lajordan
-** added profiling
-**
-** Revision 1.8 2007/02/27 19:25:48 lajordan
-** updated api
-**
-** Revision 1.7 2007/02/05 23:43:27 lajordan
-** fixed register access func
-**
-** Revision 1.6 2006/11/22 21:38:19 lajordan
-** broadcast added
-**
-** Revision 1.5 2006/07/21 20:31:26 lajordan
-** fixed cant connect message
-**
-** Revision 1.4 2006/07/19 18:15:56 lajordan
-** fixed spi init
-**
-** Revision 1.3 2006/07/18 21:50:16 lajordan
-** removed extraneous endif
-**
-** Revision 1.2 2006/07/18 21:48:51 lajordan
-** added 16 bit accesses example code
-**
-** Revision 1.1.1.1 2006/07/13 20:26:08 lajordan
-** no message
-**
-** Revision 1.1.1.1 2006/07/06 22:06:23 lajordan
-** no message
-**
-** Revision 1.3 2006/06/29 19:11:18 laj
-** lpt driver completed
-**
-** Revision 1.2 2006/06/21 23:46:58 laj
-** register reads/writes added
-**
-** Revision 1.1 2006/06/21 23:18:07 laj
-** no message
-**
-** Revision 1.1 2006/06/21 22:42:26 laj
-** new api style
-**
-** Revision 1.3 2005/11/14 17:42:34 laj
-** added SPI_init
-**
-** Revision 1.2 2005/11/07 23:20:54 laj
-** took out extra spaces
-**
-*/
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/proslic_sys.h b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/proslic_sys.h
deleted file mode 100644
index d629915..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/proslic_sys.h
+++ /dev/null
@@ -1,120 +0,0 @@
-/* SPDX-License-Identifier: GPL-2.0 */
-
-#ifndef __PROSLIC_SYS_HDR__
-#define __PROSLIC_SYS_HDR__ 1
-#include <linux/types.h>
-#include <linux/time64.h> /* for struct timespec */
-
-#include <linux/spi/spi.h>
-
-#include "proslic_sys_cfg.h"
-
-
-
-/* Do a quick sanity check on channel setting */
-#define SILABS_MAX_CHAN 32
-#if (SILABS_MAX_CHANNELS > SILABS_MAX_CHAN)
-#error "ProSLIC only supports up to 32 channels"
-#endif
-
-#define PROSLIC_BCAST 0xFF
-#define PROSLIC_SPI_OK 0
-#define PROSLIC_SPI_NOK 8 /* This is what the ProSLIC API calls SPI_FAIL */
-#define PROSLIC_TIMER_ERROR 15
-
-/* Debug macros */
-#define PROSLIC_API_HDR "PROSLIC_API "
-
-#define proslic_trace(fmt, arg...) if(proslic_debug_setting & 0x1) printk( KERN_NOTICE PROSLIC_API_HDR "TRC: " fmt "\n", ##arg)
-#define proslic_debug(fmt, arg...) if(proslic_debug_setting & 0x2) printk( KERN_DEBUG PROSLIC_API_HDR "DBG: " fmt "\n", ##arg)
-#define proslic_error(fmt, arg...) if(proslic_debug_setting & 0x4) printk( KERN_ERR PROSLIC_API_HDR "ERR: " fmt "\n", ##arg)
-
-/* Data types compatible with the ProSLIC API system services layer */
-typedef u_int8_t BOOLEAN;
-typedef int8_t int8;
-typedef u_int8_t uInt8;
-typedef uInt8 uChar;
-typedef int16_t int16;
-typedef u_int16_t uInt16;
-typedef int32_t int32;
-typedef u_int32_t uInt32;
-typedef u_int32_t ramData;
-
-
-#ifndef CTRL_H
-/* Function prototypes compatible with the ProSLIC API system services layer */
-typedef int (*ctrl_Reset_fptr) (void *hCtrl, int in_reset);
-
-typedef int (*ctrl_WriteRegister_fptr) (void *hCtrl, uInt8 channel, uInt8 regAddr, uInt8 data);
-typedef int (*ctrl_WriteRAM_fptr) (void *hCtrl, uInt8 channel, uInt16 ramAddr, ramData data);
-
-typedef uInt8 (*ctrl_ReadRegister_fptr) (void *hCtrl, uInt8 channel, uInt8 regAddr);
-typedef ramData (*ctrl_ReadRAM_fptr) (void *hCtrl, uInt8 channel, uInt16 ramAddr);
-
-typedef int (*ctrl_Semaphore_fptr) (void *hCtrl, int in_critical_section);
-#endif
-
-typedef void *(*get_hctrl) (uInt8 channel); /* Get a pointer to the control interface */
-
-typedef int (*system_delay_fptr) (void *hTimer, int timeInMs);
-typedef int (*system_timeElapsed_fptr) (void *hTimer, void *startTime, int *timeInMs);
-typedef int (*system_getTime_fptr) (void *hTimer, void *time);
-typedef void *(get_Timer)(void); /* return a pointer to "the" hTimer */
-
-/* Function table entries to reduce namespace pollution */
-typedef struct
-{
- ctrl_Reset_fptr reset;
-
- ctrl_WriteRegister_fptr write_reg;
- ctrl_WriteRAM_fptr write_ram;
-
- ctrl_ReadRegister_fptr read_reg;
- ctrl_ReadRAM_fptr read_ram;
-
- ctrl_Semaphore_fptr sem;
-} proslic_spi_fptrs_t;
-
-typedef struct
-{
- system_delay_fptr slic_delay;
- system_timeElapsed_fptr elapsed_time;
- system_getTime_fptr get_time;
-} proslic_timer_fptrs_t;
-
-/* Timer container */
-typedef struct
-{
- struct timespec64 timerObj;
-} proslic_timeStamp;
-
-extern int proslic_channel_count;
-extern int proslic_debug_setting;
-int proslic_spi_setup(void);
-void proslic_spi_shutdown(void);
-
-typedef enum
-{
- PROSLIC_IS_UNKNOWN,
- PROSLIC_IS_PROSLIC,
- PROSLIC_IS_DAA
-} proslic_dev_t;
-
-/* Exported functions/values */
-extern proslic_timer_fptrs_t proslic_timer_if;
-extern proslic_spi_fptrs_t proslic_spi_if;
-int proslic_reset(void *hCtrl, int in_reset);
-int proslic_write_register(void *hCtrl, uInt8 channel, uInt8 regAddr, uInt8 data);
-int proslic_write_ram(void *hCtrl, uInt8 channel, uInt16 ramAddr, ramData data);
-uInt8 proslic_read_register(void *hCtrl, uInt8 channel, uInt8 regAddr);
-ramData proslic_read_ram(void *hCtrl, uInt8 channel, uInt16 ramAddr);
-
-int proslic_get_channel_count(void);
-proslic_dev_t proslic_get_device_type(uint8_t channel);
-void *proslic_get_hCtrl(uint8_t channel);
-int proslic_spi_probe(struct spi_device *spi, struct spi_driver *spi_drv);
-int proslic_spi_remove(struct spi_device *spi);
-
-
-#endif /* End of __PROSLIC_SYS_HDR__ */
-
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/proslic_sys_cfg.h b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/proslic_sys_cfg.h
deleted file mode 100644
index 021a9c6..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/proslic_sys_cfg.h
+++ /dev/null
@@ -1,24 +0,0 @@
-/* SPDX-License-Identifier: GPL-2.0 */
-
-#ifndef __PROSLIC_SYS_CFG_HDR__
-#define __PROSLIC_SYS_CFG_HDR__ 1
-/*
- * Begin user defined build options
- *
- * TODO: move this to a .kconfig option menu
- */
-
-#define SILABS_BITS_PER_WORD 8 /* MUST be either 8, 16, or 32 */
-#define SILABS_SPI_RATE 4000000 /* In terms of Hz */
-#define SILABS_MAX_RAM_WAIT 1000 /* In terms of loop count */
-#define SILABS_RESET_GPIO 135
-#define SILABS_MAX_CHANNELS 4
-#define SILABS_RAM_BLOCK_ACCESS 1 /* Define this if you wish to use a single block to write to RAM, may not work on all systems */
-#define SILABS_DEFAULT_DBG 7
-#define SILABS_MIN_MSLEEP_TIME 30 /* threshold to call mdelay vs. msleep() */
-#define SILABS_MSLEEP_SLOP 10 /* If the msleep() function is off by a constant value, set this number positive if it's too long or negative number for too short - terms of mSec */
-#define PROSLIC_XFER_BUF 4 /* How many bytes to send in 1 transfer. Either 1,2, or 4. If setting SILABS_BITS_PER_WORD to 16 or 32, you MUST set this either 2 or 4 */
-/* End of user defined section */
-
-#endif /* __PROSLIC_SYS_CFG_HDR__ */
-
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/proslic_sys_main.c b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/proslic_sys_main.c
deleted file mode 100644
index b9243c4..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/proslic_sys_main.c
+++ /dev/null
@@ -1,65 +0,0 @@
-// SPDX-License-Identifier: GPL-2.0
-
-#include <linux/module.h>
-#include <linux/kernel.h>
-#include <linux/moduleparam.h>
-#include "proslic_sys.h"
-
-#define PROSLIC_SYS_SERVICES_VER "0.0.1"
-#define DRIVER_DESCRIPTION "ProSLIC API compatible system services"
-#define DRIVER_AUTHOR "Silicon Laboratories"
-
-int proslic_debug_setting = SILABS_DEFAULT_DBG;
-int proslic_channel_count = SILABS_MAX_CHANNELS;
-
-module_param(proslic_debug_setting, int, S_IRUSR | S_IWUSR |S_IRGRP | S_IWGRP);
-MODULE_PARM_DESC(proslic_debug_setting, "debug mode bitmask, 1 = TRC, 2 = DBG, 4 = ERR");
-module_param(proslic_channel_count, int, S_IRUSR | S_IRGRP );
-MODULE_PARM_DESC(proslic_channel_count, "Number of actual channels on the platform");
-
-/*****************************************************************************************************/
-
-int init_module(void)
-{
- int rc;
-
- printk( KERN_INFO "ProSLIC API system services module loaded, version: %s\n", PROSLIC_SYS_SERVICES_VER);
- printk( KERN_INFO "Debug = 0x%0x\n", proslic_debug_setting);
-
- if(proslic_channel_count > SILABS_MAX_CHANNELS)
- {
- printk( KERN_ERR "proslic_channel_count max is: %d, got: %d\n", SILABS_MAX_CHANNELS, proslic_channel_count);
- return -EINVAL;
- }
-
- rc = proslic_spi_setup();
-
- if(rc == 0)
- {
- /* TODO: any other init we may want tot do here... */
- }
- else
- {
- printk( KERN_ERR "proslic_spi_setup returned: %d\n", rc);
- return rc;
- }
-
- return 0;
-
-}
-
-void cleanup_module(void)
-{
- proslic_spi_shutdown();
- printk( KERN_INFO "ProSLIC API system services module unloaded.\n");
-}
-
-MODULE_DESCRIPTION(DRIVER_DESCRIPTION);
-MODULE_AUTHOR(DRIVER_AUTHOR);
-MODULE_LICENSE("Dual MPL/GPL");
-
-EXPORT_SYMBOL(proslic_spi_if);
-EXPORT_SYMBOL(proslic_timer_if);
-EXPORT_SYMBOL(proslic_get_channel_count);
-EXPORT_SYMBOL(proslic_get_device_type);
-EXPORT_SYMBOL(proslic_get_hCtrl);
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/proslic_sys_spi.c b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/proslic_sys_spi.c
deleted file mode 100644
index 101c486..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/proslic_sys_spi.c
+++ /dev/null
@@ -1,698 +0,0 @@
-// SPDX-License-Identifier: GPL-2.0
-
-#include <linux/module.h>
-#include <linux/spi/spi.h>
-#include <linux/spinlock.h>
-#include <linux/of_gpio.h>
-#include <linux/gpio.h>
-#include <linux/delay.h>
-
-#include "proslic_sys.h"
-
-/*****************************************************************************************************/
-
-#define PROSLIC_REG_ID 0
-#define PROSLIC_REG_RAM_WAIT 4
-#define PROSLIC_REG_RAM_HI 5
-#define PROSLIC_REG_RAM_D0 6
-#define PROSLIC_REG_RAM_D1 7
-#define PROSLIC_REG_RAM_D2 8
-#define PROSLIC_REG_RAM_D3 9
-#define PROSLIC_REG_RAM_LO 10
-#define PROSLIC_REG_WRVSLIC 12
-#define PROSLIC_REG_WRVDAA 34
-#define PROSLIC_REG_ISDAA 11
-
-#define PROSLIC_CW_BYTE 0
-#define PROSLIC_REG_BYTE 1
-#define RAM_ADR_HIGH_MASK(ADDR) (((ADDR)>>3)&0xE0)
-
-/* Basic register definitions, regardless of chipset ('4x, '2x, '17x, '26x compatible */
-
-#define PROSLIC_CW_RD 0x60
-#define PROSLIC_CW_WR 0x20
-#define PROSLIC_CW_BCAST 0x80
-#define PROSLIC_BCAST 0xFF
-
-#ifndef PROSLIC_XFER_BUF
-#define PROSLIC_XFER_BUF (SILABS_BITS_PER_WORD/8)
-#endif
-
-/* Now do some sanity checks */
-#if (SILABS_BITS_PER_WORD != 32) && (SILABS_BITS_PER_WORD != 16) && (SILABS_BITS_PER_WORD != 8)
-#error "SILABS_BITS_PER_WORD needs to be either 8, 16 or 32"
-#endif
-
-#if (((SILABS_BITS_PER_WORD == 16) && (PROSLIC_XFER_BUF != 2) ) \
- || ((SILABS_BITS_PER_WORD == 32) && (PROSLIC_XFER_BUF != 4) ) )
-#error "SILABS_BITS_PER_WORD & PROSLIC_XFER_BUF size mismatch"
-#endif
-
-#if (SILABS_BITS_PER_WORD != 8)
-#define SILABS_CW_BYTE 1
-#define SILABS_REG_BYTE 0
-#else
-#define SILABS_CW_BYTE 0
-#define SILABS_REG_BYTE 1
-#endif
-
-typedef struct
-{
- proslic_dev_t deviceType[SILABS_MAX_CHANNELS];
- spinlock_t bus_lock;
- uInt8 channel_count; /* In most cases this is the channel count as well */
-} proslic_spi_data_t;
-
-typedef struct
-{
- /* Placeholder for now */
-} proslic_spi_pform_t;
-
-/* Chan address is sent in reverse bit order */
-static uInt8 chanAddr[SILABS_MAX_CHAN] =
-{
- 0x00, 0x10,
-#if (SILABS_MAX_CHAN > 2)
- 0x08, 0x18,
-#endif
-#if (SILABS_MAX_CHAN > 4)
- 0x04, 0x14,
-#endif
-#if (SILABS_MAX_CHAN > 6)
- 0x0C, 0x1C,
-#endif
-#if (SILABS_MAX_CHAN > 8)
- 0x02, 0x12,
-#endif
-#if (SILABS_MAX_CHAN > 10)
- 0x0A, 0x1A,
-#endif
-#if (SILABS_MAX_CHAN > 12)
- 0x06, 0x16,
-#endif
-#if (SILABS_MAX_CHAN > 14)
- 0x0E, 0x1E,
-#endif
-#if (SILABS_MAX_CHAN > 16)
- 0x01, 0x11,
-#endif
-#if (SILABS_MAX_CHAN > 18)
- 0x09, 0x19,
-#endif
-#if (SILABS_MAX_CHAN > 20)
- 0x05, 0x15,
-#endif
-#if (SILABS_MAX_CHAN > 22)
- 0x0D, 0x1D,
-#endif
-#if (SILABS_MAX_CHAN > 24)
- 0x03, 0x13,
-#endif
-#if (SILABS_MAX_CHAN > 26)
- 0x0B, 0x1B,
-#endif
-#if (SILABS_MAX_CHAN > 28)
- 0x07,0x17,
-#endif
-#if (SILABS_MAX_CHAN > 30)
- 0x0F, 0x1F
-#endif
-};
-
-static proslic_spi_data_t *proslic_data;
-static unsigned int proslic_reset_gpio = SILABS_RESET_GPIO;
-struct spi_driver *proslic_spi;
-struct spi_device *proslic_spidev;
-
-/*****************************************************************************************************/
-uInt8 proslic_read_register_private(void *hCtrl, uInt8 channel, uInt8 regAddr)
-{
- u_int8_t data_stream[4];
-// proslic_spi_data_t *spi_data = (proslic_spi_data_t *)hCtrl;
- if (proslic_spidev == NULL)
- printk ("%s : small spi NULL\n",__FUNCTION__);
-
- if( unlikely(channel >= SILABS_MAX_CHANNELS) )
- {
- return PROSLIC_SPI_NOK;
- }
- else
- {
- data_stream[PROSLIC_CW_BYTE] = PROSLIC_CW_RD | chanAddr[channel];
- }
-
- data_stream[PROSLIC_REG_BYTE] = regAddr;
-
- data_stream[2] = 0xFF; /* Set the register to a non-zero value, just in case */
-#if (PROSLIC_XFER_BUF == 4) || (PROSLIC_XFER_BUF == 2)
- spi_write_then_read(proslic_spidev, data_stream, 2, &data_stream[2], 2); /* In essence, 2 16 bit ops: 1 to send the request, 1 to get the data, needs to be 32 bit aligned. */
- proslic_debug("%s(%d): chan = %u reg = %u data = 0x%02X", __FUNCTION__, __LINE__, channel, regAddr, data_stream[2]);
-#else
- {
- int i;
- for(i = 0; i < 2; i++)
- {
- spi_write(proslic_spidev, &data_stream[i], 1);
- }
- }
- spi_read(proslic_spidev, &data_stream[2], 1);
-#endif
-
- return data_stream[2];
-}
-
-/*****************************************************************************************************/
-
-uInt8 proslic_read_register(void *hCtrl, uInt8 channel, uInt8 regAddr)
-{
- uInt8 data;
- //unsigned long irqSettings;
- //proslic_spi_data_t *spi_data = (proslic_spi_data_t *)hCtrl;
- //spin_lock_irqsave(&spi_data->bus_lock, irqSettings);
- data = proslic_read_register_private(hCtrl, channel, regAddr);
- //spin_unlock_irqrestore(&spi_data->bus_lock, irqSettings);
- proslic_debug("%s(%d): chan = %u reg = %u data = 0x%02X", __FUNCTION__, __LINE__, channel, regAddr, data);
- return data;
-}
-EXPORT_SYMBOL(proslic_read_register);
-
-
-/*****************************************************************************************************/
-/* ProSLIC API register write function */
-#if PROSLIC_XFER_BUF == 4
-#define proslic_write_register_private proslic_write_register
-#endif
-
-int proslic_write_register_private(void *hCtrl, uInt8 channel, uInt8 regAddr, uInt8 data)
-{
- u_int8_t data_stream[4];
- //struct spi_device *spi_data = (struct spi_device *)hCtrl;
-
-#if PROSLIC_XFER_BUF != 4
- int i;
-#endif
-
- if( unlikely(channel == PROSLIC_BCAST) )
- {
- data_stream[PROSLIC_CW_BYTE] = PROSLIC_CW_BCAST | PROSLIC_CW_WR;
- }
- else if( unlikely(channel >= SILABS_MAX_CHANNELS) )
- {
- return PROSLIC_SPI_NOK;
- }
- else
- {
- data_stream[PROSLIC_CW_BYTE] = PROSLIC_CW_WR | chanAddr[channel];
- }
-
- proslic_trace("%s(%d): chan = %u reg = %u data = 0x%02X", __FUNCTION__, __LINE__, channel, regAddr, data);
-
- data_stream[PROSLIC_REG_BYTE] = regAddr;
-
- data_stream[2] = data_stream[3] = data;
-
-#if PROSLIC_XFER_BUF == 4
- spi_write(proslic_spidev, data_stream, PROSLIC_XFER_BUF);
-#else
-#if PROSLIC_XFER_BUF == 2 /* 16 bit mode */
- for(i = 0; i < 4; i+=2)
-#else /* Byte by byte */
- for(i = 0; i < 3; i++)
-#endif
- {
- spi_write(proslic_spidev, &data_stream[i], PROSLIC_XFER_BUF);
- }
-#endif
-
- return PROSLIC_SPI_OK;
-}
-/*****************************************************************************************************/
-#if PROSLIC_XFER_BUF != 4
-int proslic_write_register(void *hCtrl, uInt8 channel, uInt8 regAddr, uInt8 data)
-{
- unsigned long irqSettings;
- int rc;
- //proslic_spi_data_t *spi_data = (proslic_spi_data_t *)hCtrl;
- //spin_lock_irqsave(&spi_data->bus_lock, irqSettings);
- rc = proslic_write_register_private(hCtrl, channel, regAddr, data);
- //spin_unlock_irqrestore(&spi_data->bus_lock, irqSettings);
- return rc;
-}
-EXPORT_SYMBOL(proslic_write_register);
-#endif
-
-/*****************************************************************************************************/
-
-/*
- * wait for RAM access
- *
- * return code 0 = OK
- *
- */
-
-static int wait_ram(void *hCtrl, uInt8 channel)
-{
- unsigned int count = SILABS_MAX_RAM_WAIT;
- uInt8 data;
-
- do
- {
- data = proslic_read_register_private(hCtrl, channel, PROSLIC_REG_RAM_WAIT) & 0x1;
- if(unlikely(data))
- {
- mdelay(5);
- }
- }while((data) && (count--));
-
- if(likely(count))
- {
- return 0;
- }
- return -1; /* Timed out */
-}
-
-/*****************************************************************************************************/
-/* RAM Write wrapper */
-int proslic_write_ram(void *hCtrl, uInt8 channel, uInt16 ramAddr, ramData data )
-{
-
- ramData myData = data;
- int rc = 0;
- //unsigned long irqSettings;
- //struct spi_device *spi_data = (struct spi_device *)hCtrl;
- hCtrl = proslic_spidev;
-
- proslic_trace("%s(%d): chan = %u ram = %u data = 0x%08X", __FUNCTION__, __LINE__, channel, ramAddr, data);
- //spin_lock_irqsave(&spi_data->bus_lock, irqSettings);
-
- if(wait_ram(hCtrl,channel) != 0)
- {
- return PROSLIC_SPI_NOK;
- }
-
-
-#ifdef SILABS_RAM_BLOCK_ACCESS
- {
- uInt8 ramWriteData[24]; /* This encapsulates the 6 reg writes into 1 block */
- const uInt8 regAddr[6] = {PROSLIC_REG_RAM_HI, PROSLIC_REG_RAM_D0, PROSLIC_REG_RAM_D1,
- PROSLIC_REG_RAM_D2, PROSLIC_REG_RAM_D3, PROSLIC_REG_RAM_LO};
- int i;
- uInt8 scratch;
-
- /* Setup control word & registers for ALL the reg access */
- scratch = chanAddr[channel] | PROSLIC_CW_WR;
-
- for(i = 0; i < 6; i++)
- {
- ramWriteData[(i<<2)] = scratch ;
- ramWriteData[(i<<2)+1] = regAddr[i];
- }
-
- /* For the data, we send the same byte twice to keep things 32 bit aligned */
- ramWriteData[2] = ramWriteData[3] = RAM_ADR_HIGH_MASK(ramAddr);
-
- ramWriteData[6] = ramWriteData[7] = (uInt8)(myData<<3);
- myData = myData >> 5;
-
- ramWriteData[10] = ramWriteData[11] = (uInt8)(myData & 0xFF);
- myData = myData >> 8;
-
- ramWriteData[14] = ramWriteData[15] = (uInt8)(myData & 0xFF);
- myData = myData >> 8;
-
- ramWriteData[18] = ramWriteData[19] = (uInt8)(myData & 0xFF);
-
- ramWriteData[22] = ramWriteData[23] = (uInt8)(ramAddr& 0xFF);
-
- spi_write(hCtrl, ramWriteData, 24);
-
- }
-#else
- proslic_write_register_private(hCtrl, channel, RAM_ADDR_HI, RAM_ADR_HIGH_MASK(ramAddr));
-
- proslic_write_register_private(hCtrl, channel, RAM_DATA_B0, ((unsigned char)(myData<<3)));
-
- myData = myData >> 5;
-
- proslic_write_register_private(hCtrl, channel, RAM_DATA_B1, ((unsigned char)(myData & 0xFF)));
-
- myData = myData >> 8;
-
- proslic_write_register_private(hCtrl, channel, RAM_DATA_B2, ((unsigned char)(myData & 0xFF)));
-
- myData = myData >> 8;
-
- proslic_write_register_private(hCtrl, channel, RAM_DATA_B3, ((unsigned char)(myData & 0xFF)));
-
- proslic_write_register_private(hCtrl, channel, RAM_ADDR_LO, (unsigned char)(ramAddr & 0xFF));
-#endif
- if(wait_ram(hCtrl,channel) != 0)
- {
- rc = PROSLIC_SPI_NOK;
- }
- else
- {
- rc = PROSLIC_SPI_OK;
- }
- //spin_unlock_irqrestore(&spi_data->bus_lock, irqSettings);
-
- return rc;
-
-}
-EXPORT_SYMBOL(proslic_write_ram);
-
-/*****************************************************************************************************/
-ramData proslic_read_ram(void *hCtrl, uInt8 channel, uInt16 ramAddr)
-{
- ramData data;
- //unsigned long irqSettings;
- //proslic_spi_data_t *spi_data = (proslic_spi_data_t *)hCtrl;
- hCtrl = proslic_spidev;
-
- if(wait_ram(hCtrl,channel) != 0)
- {
- return PROSLIC_SPI_NOK;
- }
-
- //spin_lock_irqsave(&spi_data->bus_lock, irqSettings);
- /* TODO: could combine these 2 writes into 1 spi_write call... */
- proslic_write_register_private(hCtrl, channel, PROSLIC_REG_RAM_HI, RAM_ADR_HIGH_MASK(ramAddr));
-
- proslic_write_register_private(hCtrl, channel, PROSLIC_REG_RAM_LO, (unsigned char)(ramAddr&0xFF));
-
- if(wait_ram(hCtrl,channel) != 0)
- {
- return PROSLIC_SPI_NOK;
- }
-
- data = proslic_read_register_private(hCtrl, channel, PROSLIC_REG_RAM_D3);
- data = data << 8;
- data |= proslic_read_register_private(hCtrl, channel, PROSLIC_REG_RAM_D2);
- data = data << 8;
- data |= proslic_read_register_private(hCtrl, channel, PROSLIC_REG_RAM_D1);
- data = data << 8;
- data |= proslic_read_register_private(hCtrl, channel, PROSLIC_REG_RAM_D0);
- //spin_unlock_irqrestore(&spi_data->bus_lock, irqSettings);
-
- data = data >>3;
-
- proslic_trace("%s(%d): chan = %u ram = %u data = 0x%08X", __FUNCTION__, __LINE__, channel, ramAddr, data);
-
- return data;
-
-}
-EXPORT_SYMBOL(proslic_read_ram);
-
-/*****************************************************************************************************/
-int proslic_reset(void *hCtrl, int in_reset)
-{
- proslic_trace("%s(%d): in_reset = %d", __FUNCTION__, __LINE__, in_reset);
- gpio_direction_output(proslic_reset_gpio, (in_reset == 0) );
-
- return PROSLIC_SPI_OK;
-}
-EXPORT_SYMBOL(proslic_reset);
-
-/*****************************************************************************************************/
-
-/*
- * Do a simple write/verify test on a given register. 0 = OK.
- */
-static int simple_wrv(void *hCtrl, uInt8 channel, uInt8 regAddr)
-{
- uInt8 data;
-
- proslic_write_register(hCtrl, channel, regAddr, 0);
- data = proslic_read_register(hCtrl, channel, regAddr);
- if(unlikely(data != 0) )
- {
- return -1;
- }
-
- proslic_write_register(hCtrl, channel, regAddr, 0x5A);
- data = proslic_read_register(hCtrl, channel, regAddr);
- if(unlikely(data != 0x5A) )
- {
- return -2;
- }
-
- return 0;
-}
-
-/*****************************************************************************************************/
-
-/*
- * Determine if this a ProSLIC or DAA or unknown type - NOT fully tested against ALL chipsets, may not
- * properly work with Si3218/9 parts.
- */
-static proslic_dev_t proslic_detect_type(void *hCtrl, uInt8 channel)
-{
- /* Guess it's a ProSLIC first */
- uInt8 data;
-
- data = proslic_read_register(hCtrl, channel, PROSLIC_REG_ISDAA);
- proslic_debug("%s(%d): channel = %d data = 0x%0X", __FUNCTION__, __LINE__, channel, data);
-
- /* For ProSLIC ISDAA = 5, for DAA it is not (it is non-zero and not FF */
-
- if( unlikely((data != 0xFF) && data ))
- {
- /* Likely a ProSLIC, let's confirm it by doing a few register write/verify operations */
- if( data == 5)
- {
- if(unlikely(simple_wrv(hCtrl, channel, PROSLIC_REG_WRVSLIC) == 0))
- {
- proslic_debug("%s(%d): channel = %d is_proslic", __FUNCTION__, __LINE__, channel);
- return PROSLIC_IS_PROSLIC;
- }
- }
- else /* Likely a DAA/Si3050 device */
- {
- if(unlikely(simple_wrv(hCtrl, channel, PROSLIC_REG_WRVDAA) == 0))
- {
- proslic_debug("%s(%d): channel = %d is_daa", __FUNCTION__, __LINE__, channel);
- return PROSLIC_IS_DAA;
- }
- }
- }
-
- proslic_debug("%s(%d): channel = %d is_unknown", __FUNCTION__, __LINE__, channel);
- return PROSLIC_IS_UNKNOWN;
-}
-
-/*****************************************************************************************************/
-/* Pull in any device tree parameters */
-#ifdef CONFIG_OF
-static void proslic_of_probe(struct spi_device *spi)
-{
- int len;
- const __be32 *property;
- u8 scratch;
-
- printk(KERN_INFO "proslic_of_probe()\n");
-
- /* see if the user specified number of channels */
- property = of_get_property( spi->dev.of_node, "channel_count", &len);
-
- if(property && (len >= sizeof(__be32)) )
- {
- scratch = be32_to_cpup(property);
-
- if(( scratch <= SILABS_MAX_CHANNELS )
- && (scratch > 0) )
- {
- proslic_channel_count = scratch;
- }
- }
-
- /* See if the user specified a debug setting */
- property = of_get_property( spi->dev.of_node, "debug_level", &len);
-
- if(property && (len >= sizeof(__be32)) )
- {
- scratch = be32_to_cpup(property);
-
- if(( scratch <= SILABS_DEFAULT_DBG )
- && (scratch > 0) )
- {
- proslic_debug_setting = scratch;
- printk(KERN_INFO "debug_level = %d\n", proslic_debug_setting);
- }
- }
-
- printk(KERN_INFO "[previous]reset_gpio = %d\n", proslic_reset_gpio);
- proslic_reset_gpio =
- of_get_named_gpio(spi->dev.of_node, "reset_gpio", 0);
-
- printk(KERN_INFO "reset_gpio = %d\n", proslic_reset_gpio);
-}
-#endif
-
-/*****************************************************************************************************/
-int proslic_spi_probe(struct spi_device *spi, struct spi_driver *spi_drv)
-{
- proslic_spi_pform_t *pform_data;
- unsigned int channel;
- int rc;
-
- printk(KERN_INFO "PROSLIC module being probed\n");
-
- proslic_spi = spi_drv;
- pform_data = (proslic_spi_pform_t *) &(spi->dev.platform_data);
-
-#ifdef CONFIG_OF
- proslic_of_probe(spi);
-#endif
-
- rc = gpio_request(proslic_reset_gpio,"proslic_reset");
- if(rc == 0)
- {
- printk(KERN_INFO "PROSLIC GPIO registered OK");
- gpio_export( proslic_reset_gpio, 0);
- proslic_reset(NULL, 0);
- }
- else
- {
- printk(KERN_INFO "PROSLIC GPIO registered FAil!! rc = %d", rc);
- return -ENODEV;
- }
-
- if(unlikely(!pform_data))
- {
- return -ENODEV;
- }
-
- proslic_data = kzalloc(sizeof(*proslic_data), GFP_KERNEL);
-
- if(unlikely(!proslic_data))
- {
- return -ENOMEM;
- }
-
- spin_lock_init(&(proslic_data->bus_lock));
- proslic_spidev = spi;
-#ifdef CONFIG_OF
- spi->bits_per_word = SILABS_BITS_PER_WORD;
- spi->max_speed_hz = SILABS_SPI_RATE;
- spi->mode = SPI_MODE_3;
- if( spi_setup(spi) != 0)
- {
- printk(KERN_ERR PROSLIC_API_HDR "failed to configure spi mode");
- kfree(proslic_data);
- return -EIO;
- }
-#endif
- spi_set_drvdata(spi, proslic_data);
-
- /* Probe to determine the number of DAA's or ProSLIC's present */
- for(channel = 0; channel < proslic_channel_count; channel++)
- {
- proslic_data->deviceType[channel] = proslic_detect_type(proslic_spidev, channel);
- if( proslic_data->deviceType[channel] != PROSLIC_IS_UNKNOWN)
- {
- proslic_data->channel_count++;
- }
- }
-
- if(proslic_data->channel_count)
- {
- return 0;
- }
- else
- {
- return -ENXIO;
- }
-}
-EXPORT_SYMBOL(proslic_spi_probe);
-
-/*****************************************************************************************************/
-int proslic_spi_remove(struct spi_device *spi)
-{
- void *ptr;
-
- printk(KERN_INFO "ProSLIC module being removed");
- /* Just put the device(s) into reset - assumes 1 reset per SPI device */
- proslic_reset(NULL, 1);
-
- ptr = spi_get_drvdata(spi);
- if(ptr != NULL)
- {
- kfree(ptr);
- }
-
- return 0;
-}
-EXPORT_SYMBOL(proslic_spi_remove);
-
-/*****************************************************************************************************/
-int proslic_spi_setup()
-{
- int rc;
- printk(KERN_INFO "proslic_spi_setup()\n");
-
- rc = spi_register_driver(proslic_spi);
-
- if(rc != 0)
- {
- proslic_error("%s(%d): spi_register driver returned = %d", __FUNCTION__, __LINE__, rc);
- }
- else
- {
- proslic_debug("%s(%d): spi driver registered", __FUNCTION__, __LINE__);
- }
-
- proslic_trace("%s(%d): completed", __FUNCTION__, __LINE__);
- return rc;
-}
-
-
-void proslic_spi_shutdown()
-{
- spi_unregister_driver(proslic_spi);
- gpio_unexport( proslic_reset_gpio );
- gpio_free( proslic_reset_gpio );
-}
-/*****************************************************************************************************/
-int proslic_get_channel_count()
-{
- return proslic_data->channel_count;
-}
-
-proslic_dev_t proslic_get_device_type(uint8_t channel_number)
-{
- if(channel_number < proslic_data->channel_count)
- {
- return proslic_data->deviceType[channel_number];
- }
- else
- {
- return PROSLIC_IS_UNKNOWN;
- }
-}
-
-void *proslic_get_hCtrl(uint8_t channel)
-{
- if(channel < proslic_data->channel_count)
- {
- return proslic_data;
- }
- else
- {
- return NULL;
- }
-}
-
-/*****************************************************************************************************/
-proslic_spi_fptrs_t proslic_spi_if =
-{
- proslic_reset,
-
- proslic_write_register,
- proslic_write_ram,
-
- proslic_read_register,
- proslic_read_ram,
-
- NULL, /* semaphore */
-
-};
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/proslic_sys_timer.c b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/proslic_sys_timer.c
deleted file mode 100644
index 7c1ca1b..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/proslic_sys_timer.c
+++ /dev/null
@@ -1,62 +0,0 @@
-// SPDX-License-Identifier: GPL-2.0
-
-#include <linux/delay.h>
-#include <linux/ktime.h>
-#include <linux/timekeeping.h>
-
-#include "proslic_sys.h"
-
-/*****************************************************************************************************/
-static int proslic_sys_delay(void *hTimer, int timeInMsec)
-{
- if(likely(timeInMsec < SILABS_MIN_MSLEEP_TIME))
- {
- mdelay(timeInMsec);
- }
- else
- {
- msleep((timeInMsec-SILABS_MSLEEP_SLOP));
- }
- return PROSLIC_SPI_OK;
-}
-
-/*****************************************************************************************************/
-/* Code assumes time value has been allocated */
-static int proslic_sys_getTime(void *hTimer, void *time)
-{
- if(time != NULL)
- {
- ktime_get_coarse_real_ts64(&((proslic_timeStamp *)time)->timerObj);
- return PROSLIC_SPI_OK;
- }
- else
- {
- return PROSLIC_TIMER_ERROR;
- }
-}
-/*****************************************************************************************************/
-
-static int proslic_sys_timeElapsed(void *hTimer, void *startTime, int *timeInMsec)
-{
- if( (startTime != NULL) && (timeInMsec != NULL) )
- {
- struct timespec64 now;
- struct timespec64 ts_delta;
- ktime_get_coarse_real_ts64(&now);
- ts_delta = timespec64_sub(now, (((proslic_timeStamp *) startTime)->timerObj));
- *timeInMsec = (int)( (ts_delta.tv_sec *1000) + (ts_delta.tv_nsec / NSEC_PER_MSEC) );
- return PROSLIC_SPI_OK;
- }
- else
- {
- return PROSLIC_TIMER_ERROR;
- }
-}
-
-
-proslic_timer_fptrs_t proslic_timer_if =
-{
- proslic_sys_delay,
- proslic_sys_timeElapsed,
- proslic_sys_getTime
-};
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/proslic_timer_intf_linux.c b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/proslic_timer_intf_linux.c
deleted file mode 100644
index 208a0df..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/proslic_timer_intf_linux.c
+++ /dev/null
@@ -1,91 +0,0 @@
-// SPDX-License-Identifier: GPL-2.0
-/*
- * $Id: proslic_timer_intf_win.c 109 2008-10-22 19:45:09Z lajordan@SILABS.COM $
- *
- * system.c
- * System specific functions implementation file
- *
- * Author(s):
- * laj
- *
- * Distributed by:
- * Silicon Laboratories, Inc
- *
- * File Description:
- * This is the implementation file for the system specific functions like timer functions.
- *
- * Dependancies:
- * datatypes.h
- *
- */
-#include "config_inc/si_voice_datatypes.h"
-#include "inc/si_voice_timer_intf.h"
-#include <linux/time.h>
-#include <linux/timer.h>
-#include <linux/delay.h>
-#include "timer.h"
-//#include <asm/div64.h>
-#
-/*
-** Function: SYSTEM_TimerInit
-*/
-void TimerInit (systemTimer_S *pTimerObj){
-
-}
-
-
-/*
-** Function: SYSTEM_Delay
-*/
-int time_DelayWrapper (void *hTimer, int timeInMs){
- mdelay(timeInMs);
- return 0;
-}
-
-
-/*
-** Function: SYSTEM_TimeElapsed
-*/
-int time_TimeElapsedWrapper (void *hTimer, void *startTime, int *timeInMs){ *timeInMs = 1000;
- return 0;
-}
-
-/*
-** Function: SYSTEM_GetTime
-*/
-int time_GetTimeWrapper (void *hTimer, void *time){
-// time->timestamp=0;
- return 0;
-}
-
-/*
-** $Log: proslic_timer_intf_win.c,v $
-** Revision 1.5 2008/07/24 21:06:16 lajordan
-** no message
-**
-** Revision 1.4 2007/03/22 18:53:43 lajordan
-** fixed warningg
-**
-** Revision 1.3 2007/02/26 16:46:16 lajordan
-** cleaned up some warnings
-**
-** Revision 1.2 2007/02/16 23:55:07 lajordan
-** no message
-**
-** Revision 1.1.1.1 2006/07/13 20:26:08 lajordan
-** no message
-**
-** Revision 1.1 2006/07/07 21:38:56 lajordan
-** no message
-**
-** Revision 1.1.1.1 2006/07/06 22:06:23 lajordan
-** no message
-**
-** Revision 1.1 2006/06/29 19:17:21 laj
-** no message
-**
-** Revision 1.1 2006/06/21 22:42:26 laj
-** new api style
-**
-**
-*/
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/si3218x.c b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/si3218x.c
deleted file mode 100644
index efb6818..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/si3218x.c
+++ /dev/null
@@ -1,355 +0,0 @@
-// SPDX-License-Identifier: GPL-2.0
-
-#include <linux/module.h>
-#include <linux/init.h>
-
-
-#include <linux/kernel.h>
-#include <linux/err.h>
-#include <linux/delay.h>
-
-#include <linux/regmap.h>
-#include <linux/spi/spi.h>
-
-
-#include <sound/core.h>
-#include <sound/pcm.h>
-#include <sound/pcm_params.h>
-#include <sound/soc.h>
-#include <sound/tlv.h>
-
-#include "proslic_sys.h"
-#include "si3218x.h"
-#include "inc/proslic.h"
-#include "timer.h"
-
-#include "spi.h"
-
-#ifdef SI3218X
-#include "inc/si3218x.h"
-#include "inc/si3218x_intf.h"
-#endif
-
-#define NUMBER_OF_DEVICES 1
-#if defined(SI3218X)
-#define CHAN_PER_DEVICE 1
-#define NUMBER_OF_CHAN (NUMBER_OF_DEVICES*CHAN_PER_DEVICE)
-#define NUMBER_OF_PROSLIC (NUMBER_OF_CHAN)
-#define PROSLIC_DEVICE_TYPE SI3218X_TYPE
-#endif
-
-static int slic_init = 0;
-
-ctrl_S spiGciObj; /* User¡¦s control interface object */
-systemTimer_S timerObj; /* User¡¦s timer object */
-chanState ports[NUMBER_OF_CHAN]; /* User¡¦s channel object, which has
- ** a member defined as
- ** proslicChanType_ptr ProObj;
- */
-/* Define ProSLIC control interface object */
-controlInterfaceType *ProHWIntf;
-/* Define array of ProSLIC device objects */
-ProslicDeviceType *ProSLICDevices[NUMBER_OF_PROSLIC];
-/* Define array of ProSLIC channel object pointers */
-proslicChanType_ptr arrayOfProslicChans[NUMBER_OF_CHAN];
-
-static int ProSLIC_HWInit(void)
-{
- int32 i, result= 0;
-
- printk ("%s()\n",__FUNCTION__);
- /*
- ** Step 1: (required)
- ** Create ProSLIC Control Interface Object
- */
- ProSLIC_createControlInterface(&ProHWIntf);
-
- /*
- ** Step 2: (required)
- ** Create ProSLIC Device Objects
- */
- for(i=0;i<NUMBER_OF_PROSLIC;i++)
- {
- ProSLIC_createDevice(&(ProSLICDevices[i]));
- }
-
- /*
- ** Step 3: (required)
- ** Create and initialize ProSLIC channel objects
- ** Also initialize array pointers to user¡¦s proslic channel object
- ** members to simplify initialization process.
- */
- for(i=0;i<NUMBER_OF_CHAN;i++)
- {
- ProSLIC_createChannel(&(ports[i].ProObj));
- ProSLIC_SWInitChan(ports[i].ProObj,i,PROSLIC_DEVICE_TYPE,
- ProSLICDevices[i/CHAN_PER_DEVICE],ProHWIntf);
- arrayOfProslicChans[i] = ports[i].ProObj;
- ProSLIC_setSWDebugMode(ports[i].ProObj,TRUE); /* optional */
- }
-
- /*
- ** Step 4: (required)
- ** Establish linkage between host objects/functions and
- ** ProSLIC API
- */
- ProSLIC_setControlInterfaceCtrlObj (ProHWIntf, &spiGciObj);
- ProSLIC_setControlInterfaceReset (ProHWIntf, ctrl_ResetWrapper);
- ProSLIC_setControlInterfaceWriteRegister (ProHWIntf, ctrl_WriteRegisterWrapper);
- ProSLIC_setControlInterfaceReadRegister (ProHWIntf, ctrl_ReadRegisterWrapper);
- ProSLIC_setControlInterfaceWriteRAM (ProHWIntf, ctrl_WriteRAMWrapper);
- ProSLIC_setControlInterfaceReadRAM (ProHWIntf, ctrl_ReadRAMWrapper);
- ProSLIC_setControlInterfaceTimerObj (ProHWIntf, &timerObj);
- ProSLIC_setControlInterfaceDelay (ProHWIntf, time_DelayWrapper);
- ProSLIC_setControlInterfaceTimeElapsed (ProHWIntf, time_TimeElapsedWrapper);
- ProSLIC_setControlInterfaceGetTime (ProHWIntf, time_GetTimeWrapper);
- ProSLIC_setControlInterfaceSemaphore (ProHWIntf, NULL);
-
- /*
- ** Step 5: (system dependent)
- ** Assert hardware Reset ¡V ensure VDD, PCLK, and FSYNC are present and stable
- ** before releasing reset
- */
- ProSLIC_Reset(ports[0].ProObj);
-
- /*
- ** Step 6: (required)
- ** Initialize device (loading of general parameters, calibrations,
- ** dc-dc powerup, etc.)
- */
- ProSLIC_Init(arrayOfProslicChans,NUMBER_OF_CHAN);
- for(i=0;i<NUMBER_OF_CHAN;i++)
- {
- if(arrayOfProslicChans[i]->error!=0)
- {
- printk("ProSLIC_Init[%d] ERR=%d\n",i,arrayOfProslicChans[i]->error);
- return 0;
- }
- }
-
-
- /*
- ** Step 7: (design dependent)
- ** Execute longitudinal balance calibration
- ** or reload coefficients from factory LB cal
- **
- ** Note: all batteries should be up and stable prior to
- ** executing the lb cal
- */
- ProSLIC_LBCal(arrayOfProslicChans,NUMBER_OF_CHAN);
- for(i=0;i<NUMBER_OF_CHAN;i++)
- {
- ProSLIC_GetLBCalResultPacked(arrayOfProslicChans[i], &result);
- printk("LBCal=0x%08X\n",result);
- }
-
- /*
- ** Step 8: (design dependent)
- ** Load custom configuration presets(generated using
- ** ProSLIC API Config Tool)
- */
- for(i=0;i<NUMBER_OF_CHAN;i++)
- {
- ProSLIC_PCMTimeSlotSetup(ports[i].ProObj,0,0);
- ProSLIC_DCFeedSetup(ports[i].ProObj,DCFEED_48V_20MA);
- ProSLIC_RingSetup(ports[i].ProObj,RING_F20_45VRMS_0VDC_LPR);
- ProSLIC_PCMSetup(ports[i].ProObj,PCM_16LIN_WB); /* PCM_DEFAULT_CONFIG */
- ProSLIC_ZsynthSetup(ports[i].ProObj,ZSYN_600_0_0_30_0);
- ProSLIC_ToneGenSetup(ports[i].ProObj,TONEGEN_FCC_DIAL);
- }
-
- for(i=0;i<NUMBER_OF_CHAN;i++)
- {
- ProSLIC_PCMStart(ports[i].ProObj);
- }
- for(i=0;i<NUMBER_OF_CHAN;i++)
- {
- ProSLIC_SetLinefeedStatus(ports[i].ProObj,LF_FWD_ACTIVE);
- }
-
- /*
- ** Step 9: (required)
- ** SLIC settings - set TX_START and RX_START to 1 and
- ** disable Free-Run mode.
- */
- ProSLIC_WriteReg(ports[0].ProObj, 12, 1);
- ProSLIC_WriteReg(ports[0].ProObj, 14, 1);
- ProSLIC_WriteReg(ports[0].ProObj, 47, 1);
-
- return 1;
-}
-
-static int si3218x_component_probe(struct snd_soc_component *component)
-{
- dev_info(component->dev, "%s\n", __func__);
- return 0;
-}
-
-static void si3218x_component_remove(struct snd_soc_component *component)
-{
- struct si3218x_chip *chip = snd_soc_component_get_drvdata(component);
-
- dev_info(component->dev, "%s\n", __func__);
-
- chip->component = NULL;
-}
-
-static const struct snd_soc_dapm_widget si3218x_component_dapm_widgets[] = {
- SND_SOC_DAPM_INPUT("VINP"),
- SND_SOC_DAPM_OUTPUT("VOUTP"),
-};
-
-static const struct snd_soc_dapm_route si3218x_component_dapm_routes[] = {
- { "VOUTP", NULL, "aif_playback"},
- { "aif_capture", NULL, "VINP"},
-};
-
-static const char * const slic_control_str[] = {
- "off", "on"
-};
-
-static const struct soc_enum si3218x_slic_enum[] = {
- SOC_ENUM_SINGLE_EXT(ARRAY_SIZE(slic_control_str),
- slic_control_str),
-};
-
-static int si3218x_init_get(struct snd_kcontrol *kcontrol,
- struct snd_ctl_elem_value *ucontrol)
-{
- ucontrol->value.integer.value[0] = slic_init;
-
- return 0;
-}
-
-static int si3218x_init_set(struct snd_kcontrol *kcontrol,
- struct snd_ctl_elem_value *ucontrol)
-{
- if (ucontrol->value.integer.value[0]) {
- ProSLIC_HWInit();
- slic_init = 1;
- }
-
- return 0;
-}
-
-static int si3218x_ring_get(struct snd_kcontrol *kcontrol,
- struct snd_ctl_elem_value *ucontrol)
-{
- if (!slic_init)
- return 0;
-
- ucontrol->value.integer.value[0] =
- (ProSLIC_ReadReg(ports[0].ProObj,30) == 4) ? 1 : 0;
- return 0;
-}
-
-static int si3218x_ring_set(struct snd_kcontrol *kcontrol,
- struct snd_ctl_elem_value *ucontrol)
-{
- if (!slic_init)
- return 0;
-
- if (ucontrol->value.integer.value[0])
- ProSLIC_WriteReg(ports[0].ProObj, 30, 4);
- else
- ProSLIC_WriteReg(ports[0].ProObj, 30, 1);
-
- return 0;
-}
-
-static const struct snd_kcontrol_new si3218x_component_snd_controls[] = {
- SOC_ENUM_EXT("proslic_init", si3218x_slic_enum[0],
- si3218x_init_get, si3218x_init_set),
- SOC_ENUM_EXT("proslic_ring", si3218x_slic_enum[0],
- si3218x_ring_get, si3218x_ring_set),
-};
-
-static const struct snd_soc_component_driver si3218x_component_driver = {
- .probe = si3218x_component_probe,
- .remove = si3218x_component_remove,
-
- .controls = si3218x_component_snd_controls,
- .num_controls = ARRAY_SIZE(si3218x_component_snd_controls),
- .dapm_widgets = si3218x_component_dapm_widgets,
- .num_dapm_widgets = ARRAY_SIZE(si3218x_component_dapm_widgets),
- .dapm_routes = si3218x_component_dapm_routes,
- .num_dapm_routes = ARRAY_SIZE(si3218x_component_dapm_routes),
-
- .idle_bias_on = false,
-};
-
-static int si3218x_component_aif_hw_params(struct snd_pcm_substream *substream,
- struct snd_pcm_hw_params *hw_params, struct snd_soc_dai *dai)
-{
- int word_len = params_physical_width(hw_params);
- int aud_bit = params_width(hw_params);
-
- dev_dbg(dai->dev, "format: 0x%08x\n", params_format(hw_params));
- dev_dbg(dai->dev, "rate: 0x%08x\n", params_rate(hw_params));
- dev_dbg(dai->dev, "word_len: %d, aud_bit: %d\n", word_len, aud_bit);
- if (word_len > 32 || word_len < 16) {
- dev_err(dai->dev, "not supported word length\n");
- return -ENOTSUPP;
- }
-
- dev_dbg(dai->dev, "%s: --\n", __func__);
- return 0;
-}
-
-static const struct snd_soc_dai_ops si3218x_component_aif_ops = {
- .hw_params = si3218x_component_aif_hw_params,
-};
-
-#define STUB_RATES SNDRV_PCM_RATE_8000_192000
-#define STUB_FORMATS (SNDRV_PCM_FMTBIT_S16_LE | \
- SNDRV_PCM_FMTBIT_U16_LE | \
- SNDRV_PCM_FMTBIT_S24_LE | \
- SNDRV_PCM_FMTBIT_U24_LE | \
- SNDRV_PCM_FMTBIT_S32_LE | \
- SNDRV_PCM_FMTBIT_U32_LE)
-
-static struct snd_soc_dai_driver si3218x_codec_dai = {
- .name = "proslic_spi-aif",
- .playback = {
- .stream_name = "aif_playback",
- .channels_min = 1,
- .channels_max = 2,
- .rates = STUB_RATES,
- .formats = STUB_FORMATS,
- },
- .capture = {
- .stream_name = "aif_capture",
- .channels_min = 1,
- .channels_max = 2,
- .rates = STUB_RATES,
- .formats = STUB_FORMATS,
- },
- /* dai properties */
- .symmetric_rates = 1,
- .symmetric_channels = 1,
- .symmetric_samplebits = 1,
- /* dai operations */
- .ops = &si3218x_component_aif_ops,
-};
-
-int si3218x_spi_probe(struct spi_device *spi, struct spi_driver *spi_drv)
-{
- int ret;
-
- printk(KERN_INFO "PROSLIC si3218x_spi_probe\n");
-
- ret = proslic_spi_probe(spi,spi_drv);
-
- return snd_soc_register_component(&spi->dev, &si3218x_component_driver,
- &si3218x_codec_dai, 1);
-}
-EXPORT_SYMBOL(si3218x_spi_probe);
-
-int si3218x_spi_remove(struct spi_device *spi)
-{
- proslic_spi_remove(spi);
- snd_soc_unregister_component(&spi->dev);
-
- return 0;
-}
-EXPORT_SYMBOL(si3218x_spi_remove);
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/si3218x.h b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/si3218x.h
deleted file mode 100644
index 5fa4d42..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/si3218x.h
+++ /dev/null
@@ -1,44 +0,0 @@
-/* SPDX-License-Identifier: GPL-2.0 */
-
-#include <linux/spi/spi.h>
-#include "inc/proslic.h"
-#include "timer.h"
-#include "spi.h"
-
-#if 1
-#include "inc/si3218x.h"
-#include "inc/si3218x_intf.h"
-#include "config_inc/si3218x_LCCB_constants.h"
-#endif
-
-typedef struct chanStatus chanState; //forward declaration
-
-typedef void (*procState) (chanState *pState, ProslicInt eInput);
-
-/*
-** structure to hold state information for pbx demo
-*/
-struct chanStatus {
- proslicChanType *ProObj;
- SiVoiceChanType_ptr VoiceObj;
- timeStamp onHookTime;
- timeStamp offHookTime;
- procState currentState;
- uInt16 digitCount;
- uInt8 digits[20];
- uInt8 ringCount;
- uInt16 connectionWith;
- uInt16 powerAlarmCount;
- pulseDialType pulseDialData;
- BOOLEAN eventEnable;
-} __attribute__((aligned(32)));
-
-struct si3218x_chip {
- struct spi_device *spi;
- struct device *dev;
- struct snd_soc_component *component;
-};
-
-/* Export function */
-int si3218x_spi_probe(struct spi_device *spi, struct spi_driver *spi_drv);
-int si3218x_spi_remove(struct spi_device *spi);
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/spi.h b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/spi.h
deleted file mode 100644
index b720f3f..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/spi.h
+++ /dev/null
@@ -1,83 +0,0 @@
-/* SPDX-License-Identifier: GPL-2.0 */
-/*
- * $Id: SPI.h 109 2008-10-22 19:45:09Z lajordan@SILABS.COM $
- *
- * This file is system specific and should be edited for your hardware platform
- *
- * This file is used by proslic_timer_intf.h and proslic_spiGci.h
- */
-#ifndef SPI_TYPE_H
-#define SPI_TYPE_H
-
-/*
-** SPI/GCI structure
-*/
-typedef struct{
- unsigned short portID;
-} ctrl_S;
-
-/*
-** Function: SPI_Init
-**
-** Description:
-** Initializes the SPI interface
-*/
-int SPI_Init (ctrl_S *hSpi);
-
-
-/*
-** Function: ctrl_ResetWrapper
-**
-** Description:
-** Sets the reset pin of the ProSLIC
-*/
-int ctrl_ResetWrapper (void *hCtrl, int status);
-
-/*
-** register read
-**
-** Description:
-** Reads ProSLIC registers
-*/
-unsigned char ctrl_ReadRegisterWrapper (void *hCtrl, unsigned char channel, unsigned char regAddr);
-
-/*
-** Function: ctrl_WriteRegisterWrapper
-**
-** Description:
-** Writes ProSLIC registers
-*/
-int ctrl_WriteRegisterWrapper (void *hSpiGci, unsigned char channel, unsigned char regAddr, unsigned char data);
-
-/*
-** Function: ctrl_WriteRAMWrapper
-**
-** Description:
-** Writes ProSLIC RAM
-*/
-int ctrl_WriteRAMWrapper (void *hSpiGci, unsigned char channel, unsigned short ramAddr, ramData data);
-
-/*
-** Function: ctrl_ReadRAMWrapper
-**
-** Description:
-** Reads ProSLIC RAM
-*/
-ramData ctrl_ReadRAMWrapper (void *hSpiGci, unsigned char channel, unsigned short ramAddr);
-
-#endif
-/*
-** $Log: SPI.h,v $
-** Revision 1.2 2007/02/21 16:53:07 lajordan
-** no message
-**
-** Revision 1.1 2007/02/16 23:55:15 lajordan
-** no message
-**
-** Revision 1.2 2007/02/15 23:33:25 lajordan
-** no message
-**
-** Revision 1.1.1.1 2006/07/13 20:26:08 lajordan
-** no message
-**
-*/
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/src/Makefile b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/src/Makefile
deleted file mode 100644
index d9063fd..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/src/Makefile
+++ /dev/null
@@ -1,18 +0,0 @@
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License version 2 as
-# published by the Free Software Foundation.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-
-# platform driver
-subdir-ccflags-y += -I../inc
-subdir-ccflags-y += -DSI3218X
-subdir-ccflags-y += -DPROSLIC_LINUX_KERNEL
-snd-soc-procslic-common-objs := proslic.o proslic_tstin.o si_voice.o si_voice_version.o si3218x_intf.o vdaa.o si3217x_intf.o si3217x_revb_intf.o si3217x_revc_intf.o si3219x_intf.o si3226x_intf.o si3228x_intf.o
-
-obj-$(CONFIG_SND_SOC_SI3218X) += snd-soc-proslic-common.o
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/src/proslic.c b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/src/proslic.c
deleted file mode 100644
index 7a75cc8..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/src/proslic.c
+++ /dev/null
@@ -1,4651 +0,0 @@
-// SPDX-License-Identifier: GPL-2.0
-/*
- * Distributed by:
- * Silicon Laboratories, Inc
- *
- * This file contains proprietary information.
- * No dissemination allowed without prior written permission from
- * Silicon Laboratories, Inc.
- *
- * File Description:
- * This is the generic interface file for the ProSLIC drivers.
- *
- * Customers should be calling this level for ProSLIC specific
- * functions (vs. chipset specific versions of the code)
- *
- */
-
-#include "../config_inc/si_voice_datatypes.h"
-#include "../inc/si_voice_ctrl.h"
-#include "../inc/si_voice_timer_intf.h"
-#include "../inc/proslic.h"
-#include "../config_inc/proslic_api_config.h"
-
-#ifdef ENABLE_DEBUG
-#define LOGPRINT_PREFIX "ProSLIC:"
-#endif
-
-#ifdef SI3217X
-#include "si3217x.h"
-#include "si3217x_intf.h"
-extern Si3217x_General_Cfg Si3217x_General_Configuration;
-#ifndef DISABLE_FSK_SETUP
-extern ProSLIC_FSK_Cfg Si3217x_FSK_Presets[];
-#endif
-#ifndef DISABLE_TONE_SETUP
-extern ProSLIC_Tone_Cfg Si3217x_Tone_Presets[];
-#endif
-
-#endif /* 17X */
-
-#ifdef SI3218X
-#include "../inc/si3218x.h"
-#include "../inc/si3218x_intf.h"
-extern Si3218x_General_Cfg Si3218x_General_Configuration;
-#ifndef DISABLE_FSK_SETUP
-extern ProSLIC_FSK_Cfg Si3218x_FSK_Presets[];
-#endif
-#ifndef DISABLE_TONE_SETUP
-extern ProSLIC_Tone_Cfg Si3218x_Tone_Presets[];
-#endif
-#endif /* 18X */
-
-#ifdef SI3219X
-#include "si3219x.h"
-#include "si3219x_intf.h"
-extern Si3219x_General_Cfg Si3219x_General_Configuration;
-#ifndef DISABLE_FSK_SETUP
-extern ProSLIC_FSK_Cfg Si3219x_FSK_Presets[];
-#endif
-#ifndef DISABLE_TONE_SETUP
-extern ProSLIC_Tone_Cfg Si3219x_Tone_Presets[];
-#endif
-#endif /* 19X */
-
-#ifdef SI3226X
-#include "si3226x.h"
-#include "si3226x_intf.h"
-extern Si3226x_General_Cfg Si3226x_General_Configuration;
-#ifndef DISABLE_FSK_SETUP
-extern ProSLIC_FSK_Cfg Si3226x_FSK_Presets[];
-#endif
-#ifndef DISABLE_TONE_SETUP
-extern ProSLIC_Tone_Cfg Si3226x_Tone_Presets[];
-#endif
-#endif /* 26X */
-
-#ifdef SI3228X
-#include "si3228x.h"
-#include "si3228x_intf.h"
-extern Si3228x_General_Cfg Si3228x_General_Configuration;
-#ifndef DISABLE_FSK_SETUP
-extern ProSLIC_FSK_Cfg Si3228x_FSK_Presets[];
-#endif
-#ifndef DISABLE_TONE_SETUP
-extern ProSLIC_Tone_Cfg Si3228x_Tone_Presets[];
-#endif
-
-#endif /* 28X */
-
-#define pCtrl(X) (X)->deviceId->ctrlInterface
-#define pProHW(X) pCtrl((X))->hCtrl
-#define WriteRAM(PCHAN, CHANNEL, RAMADDR, RAMDATA) (PCHAN)->deviceId->ctrlInterface->WriteRAM_fptr(pProHW(PCHAN), (CHANNEL), (RAMADDR), (RAMDATA))
-#define ReadRAM(PCHAN, CHANNEL, RAMADDR) (PCHAN)->deviceId->ctrlInterface->ReadRAM_fptr(pProHW(PCHAN), (CHANNEL), (RAMADDR))
-#define SetSemaphore(X) (X)->deviceId->ctrlInterface->Semaphore_fptr
-#define ReadReg(PCHAN, CHANNEL, REGADDR) (PCHAN)->deviceId->ctrlInterface->ReadRegister_fptr(pProHW(PCHAN), (CHANNEL), (REGADDR))
-#define WriteReg(PCHAN, CHANNEL, REGADDR, REGDATA) (PCHAN)->deviceId->ctrlInterface->WriteRegister_fptr(pProHW(PCHAN), (CHANNEL), (REGADDR), (REGDATA))
-
-/*
-** Timers
-*/
-#define TimeElapsed pProslic->deviceId->ctrlInterface->timeElapsed_fptr
-#define getTime pProslic->deviceId->ctrlInterface->getTime_fptr
-#define pProTimer pProslic->deviceId->ctrlInterface->hTimer
-#define Delay pProslic->deviceId->ctrlInterface->Delay_fptr
-#define pProTimerX(X) ((X)->deviceId->ctrlInterface->hTimer)
-#define DelayX(X,Y) ((X)->deviceId->ctrlInterface->Delay_fptr(pProTimerX(X),Y))
-
-#define PROSLIC_TIMEOUT_DCDC_DOWN 200 /* Number of 10 mSec ticks */
-
-/*****************************************************************************************************/
-int32 ProSLIC_ReadMADCScaled(proslicChanType_ptr hProslic,uInt16 addr,
- int32 scale)
-{
- TRACEPRINT(hProslic,"addr: %u scale: %ld\n", addr, scale);
-#ifdef SI3217X
- if (hProslic->deviceId->chipType >= SI32171
- && hProslic->deviceId->chipType <= SI32179)
- {
- return Si3217x_ReadMADCScaled(hProslic,addr,scale);
- }
-#endif
-
-#ifdef SI3218X
- if (hProslic->deviceId->chipType >= SI32180
- && hProslic->deviceId->chipType <= SI32189)
- {
- return Si3218x_ReadMADCScaled(hProslic,addr,scale);
- }
-#endif
-
-#ifdef SI3219X
- if ( IS_SI3219X(hProslic->deviceId) )
- {
- return Si3219x_ReadMADCScaled(hProslic,addr,scale);
- }
-#endif
-
-#ifdef SI3226X
- if (hProslic->deviceId->chipType >= SI32260
- && hProslic->deviceId->chipType <= SI32269)
- {
- return Si3226x_ReadMADCScaled(hProslic,addr,scale);
- }
-#endif
-
-#ifdef SI3228X
- if (hProslic->deviceId->chipType >= SI32280
- && hProslic->deviceId->chipType <= SI32289)
- {
- return Si3228x_ReadMADCScaled(hProslic,addr,scale);
- }
-#endif
-
- return -1;
-}
-
-/*****************************************************************************************************/
-ramData ProSLIC_ReadRAM(proslicChanType_ptr hProslic,uInt16 addr)
-{
- TRACEPRINT(hProslic, "addr: %u\n", addr);
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
- return (ReadRAM(hProslic, hProslic->channel, addr));
-}
-
-/*****************************************************************************************************/
-int ProSLIC_WriteRAM(proslicChanType_ptr hProslic,uInt16 addr, ramData data)
-{
- TRACEPRINT(hProslic, "addr: %u data: 0x%04X\n", addr, data);
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
- return (WriteRAM(hProslic, hProslic->channel, addr,data));
-}
-
-/*****************************************************************************************************/
-int ProSLIC_PrintDebugData(proslicChanType_ptr hProslic)
-{
- TRACEPRINT(hProslic, "\n", NULL);
-#ifdef ENABLE_DEBUG
- ProSLIC_PrintDebugReg(hProslic);
- return ProSLIC_PrintDebugRAM(hProslic);
-#else
- SILABS_UNREFERENCED_PARAMETER(hProslic);
- return RC_NONE;
-#endif
-}
-
-/*****************************************************************************************************/
-int ProSLIC_PrintDebugReg(proslicChanType_ptr hProslic)
-{
-#ifdef ENABLE_DEBUG
- uInt8 regAddr;
- TRACEPRINT(hProslic, "\n", NULL);
-
- /*
- NOTE: Not all ProSLICs have defined values after location 99
- (and have 1 location after that), but for simplicity, we print them anyway...
- */
- for(regAddr = 0; regAddr < 127; regAddr++)
- {
- LOGPRINT("%sRegister %03u = 0x%02X\n", LOGPRINT_PREFIX, regAddr,
- ReadReg(hProslic, hProslic->channel, regAddr));
- }
-#else
- SILABS_UNREFERENCED_PARAMETER(hProslic);
-#endif
-
- return RC_NONE;
-}
-
-/*****************************************************************************************************/
-/* NOTE: locations above 1024 are protected, the API disables protection during initialization, but if this
- function is called prior to initialization, then UAM is not set and will impact the ReadRAM call...
- Upper limit is based upon chipset type...
-*/
-int ProSLIC_PrintDebugRAM(proslicChanType_ptr hProslic)
-{
-#ifdef ENABLE_DEBUG
- uInt16 ramAddr;
- uInt16 maxAddr= 0;
- TRACEPRINT(hProslic, "\n",NULL);
-
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
-#ifdef SI3217X
- if (hProslic->deviceId->chipType >= SI32171
- && hProslic->deviceId->chipType <= SI32179)
- {
- maxAddr = 1596;
- }
-#endif
-
-#ifdef SI3218X
- if (hProslic->deviceId->chipType >= SI32180
- && hProslic->deviceId->chipType <= SI32189)
- {
- maxAddr = 1644;
- }
-#endif
-
-#ifdef SI3219X
- if ( IS_SI3219X(hProslic->deviceId) )
- {
- maxAddr = 1644;
- }
-#endif
-
-#ifdef SI3226X
- if (hProslic->deviceId->chipType >= SI32260
- && hProslic->deviceId->chipType <= SI32269)
- {
- maxAddr = 1646;
- }
-#endif
-
-#ifdef SI3228X
- if (hProslic->deviceId->chipType >= SI32280
- && hProslic->deviceId->chipType <= SI32289)
- {
- maxAddr = 1646;
- }
-#endif
-
- for(ramAddr = 0; ramAddr < maxAddr; ramAddr++)
- {
- LOGPRINT("%sRAM %04u = 0x%08X\n", LOGPRINT_PREFIX, ramAddr,
- (unsigned int)(ReadRAM(hProslic, hProslic->channel, ramAddr)));
- }
-#else
- SILABS_UNREFERENCED_PARAMETER(hProslic);
-#endif /* ENABLE_DEBUG */
- return RC_NONE;
-}
-
-/*****************************************************************************************************/
-/*
-** Function: isVerifiedProslic
-**
-** Description:
-** Determine if DAA or ProSLIC present
-**
-** Input Parameters:
-** pProslic: pointer to PROSLIC channel object
-**
-** Return:
-** channelType
-*/
-int ProSLIC_identifyChannelType(proslicChanType *pProslic)
-{
- uInt8 data;
- TRACEPRINT(pProslic, "\n",NULL);
- /*
- ** Register 13 (DAA) always has bits 0:1 set to 0 and bit 6 set to 1
- ** Register 13 (PROSLIC) can have bits 0:1, and 4 set, while all others are undefined
- ** Write 0x13 to Reg 13. The following return values are expected -
- **
- ** 0x00 or 0xFF : No device present
- ** 0x4X : DAA
- ** 0x13 : PROSLIC
- */
-
- WriteReg(pProslic,pProslic->channel,PROSLIC_REG_PCMTXHI,0x13);
- Delay(pProTimer,5);
-
- /* Now check if the value took */
- data = ReadReg(pProslic,pProslic->channel,PROSLIC_REG_PCMTXHI);
-
- if( data == 0x13)
- {
- return PROSLIC;
- }
- else if (data == 0x40)
- {
- return DAA;
- }
- else
- {
- return UNKNOWN;
- }
-}
-
-/*****************************************************************************************************/
-int ProSLIC_VerifyControlInterface(proslicChanType_ptr hProslic)
-{
- TRACEPRINT(hProslic, "\n",NULL);
- if (ProSLIC_identifyChannelType(hProslic) != PROSLIC)
- {
- return RC_CHANNEL_TYPE_ERR;
- }
-
- /* Note: ProSLIC_identifyChannelType() did a register w/r test earlier */
-
- /* Verify RAM rd/wr with innocuous RAM location */
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_VERIFY_IO,0x12345678L);
- if (ReadRAM(hProslic,hProslic->channel, PROSLIC_RAM_VERIFY_IO) != 0x12345678L)
- {
- hProslic->error = RC_SPI_FAIL;
- DEBUG_PRINT(hProslic, "%sProslic %d RAM not communicating. RAM access fail.\n",
- LOGPRINT_PREFIX, hProslic->channel);
- return RC_SPI_FAIL;
- }
- return RC_NONE;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_VerifyMasterStat(proslicChanType_ptr pProslic)
-{
- uInt8 regData;
-
- TRACEPRINT(pProslic, "\n", NULL);
- WriteReg(pProslic,pProslic->channel, PROSLIC_REG_MSTRSTAT,
- 0xFF); /* Clear Master status */
- regData = ReadReg(pProslic, pProslic->channel, PROSLIC_REG_MSTRSTAT);
-
- if( regData != 0x1F )
- {
- return RC_SPI_FAIL;
- }
- else
- {
- return RC_NONE;
- }
-}
-
-/*****************************************************************************************************/
-#ifdef SIVOICE_MULTI_BOM_SUPPORT
-int ProSLIC_Init_MultiBOM (proslicChanType_ptr *hProslic,int size, int preset)
-{
- TRACEPRINT(*hProslic, "size: %d preset: %d\n", size, preset);
-#ifdef SI3217X
- if ((*hProslic)->deviceId->chipType >= SI32171
- && (*hProslic)->deviceId->chipType <= SI32179)
- {
- return Si3217x_Init_MultiBOM(hProslic,size,preset);
- }
-#endif
-
-#ifdef SI3218X
- if ((*hProslic)->deviceId->chipType >= SI32180
- && (*hProslic)->deviceId->chipType <= SI32189)
- {
- return Si3218x_Init_MultiBOM(hProslic,size,preset);
- }
-#endif
-
-#ifdef SI3219X
- if ( IS_SI3219X((*hProslic)->deviceId) )
- {
- return Si3219x_Init_MultiBOM(hProslic,size,preset);
- }
-#endif
-
-#ifdef SI3226X
- if ((*hProslic)->deviceId->chipType >= SI32260
- && (*hProslic)->deviceId->chipType <= SI32269)
- {
- return Si3226x_Init_MultiBOM(hProslic,size,preset);
- }
-#endif
-
-#ifdef SI3228X
- if ((*hProslic)->deviceId->chipType >= SI32280
- && (*hProslic)->deviceId->chipType <= SI32289)
- {
- return Si3228x_Init_MultiBOM(hProslic,size,preset);
- }
-#endif
-
- return RC_COMPLETE_NO_ERR;
-}
-#endif
-
-/*****************************************************************************************************/
-int ProSLIC_Init (proslicChanType_ptr *hProslic,int size)
-{
- TRACEPRINT(*hProslic, "size: %d\n", size);
- return ProSLIC_Init_with_Options(hProslic, size, INIT_NO_OPT);
-}
-
-/*****************************************************************************************************/
-int ProSLIC_Reinit (proslicChanType_ptr *hProslic,int size)
-{
- TRACEPRINT(*hProslic, "size: %d\n", size);
- return ProSLIC_Init_with_Options(hProslic, size, INIT_REINIT);
-}
-
-/*****************************************************************************************************/
-int ProSLIC_Init_with_Options (proslicChanType_ptr *hProslic,int size,
- int option)
-{
- TRACEPRINT(*hProslic, "size: %d option: %d\n", size, option);
-#ifdef SI3226X
- if ((*hProslic)->deviceId->chipType >= SI32260
- && (*hProslic)->deviceId->chipType <= SI32269)
- {
- return Si3226x_Init_with_Options(hProslic,size, option);
- }
-#endif
-
-#ifdef SI3228X
- if ((*hProslic)->deviceId->chipType >= SI32280
- && (*hProslic)->deviceId->chipType <= SI32289)
- {
- return Si3228x_Init_with_Options(hProslic,size, option);
- }
-#endif
-
-#ifdef SI3217X
- if ((*hProslic)->deviceId->chipType >= SI32171
- && (*hProslic)->deviceId->chipType <= SI32179)
- {
- return Si3217x_Init_with_Options(hProslic,size, option);
- }
-#endif
-
-#ifdef SI3218X
- if ((*hProslic)->deviceId->chipType >= SI32180
- && (*hProslic)->deviceId->chipType <= SI32189)
- {
- return Si3218x_Init_with_Options(hProslic,size, option);
- }
-#endif
-
-#ifdef SI3219X
- if ( IS_SI3219X((*hProslic)->deviceId) )
- {
- return Si3219x_Init_with_Options(hProslic,size, option);
- }
-#endif
-
- return RC_IGNORE;
-}
-
-/*****************************************************************************************************/
-#if defined(SI3217X) || defined(SI3218X) || defined SI3226X || defined SI3228X || defined(SI3219X)
-/* Check patch data - returns TRUE if no error.*/
-static BOOLEAN ProSLIC_VerifyPatchData(proslicChanType *pProslic,
- const ramData *data, uInt16 maxCount )
-{
- int loop;
- ramData read_data;
- TRACEPRINT(pProslic, "dataptr: %p, count: %d\n", data, maxCount);
-
- for(loop = 0; loop < maxCount; loop++)
- {
- if(*data)
- {
- read_data = ReadRAM(pProslic, pProslic->channel, PROSLIC_RAM_PRAM_DATA);
- if( ((*data) << 9) != read_data)
- {
- return FALSE;
- }
- }
- else
- {
- break;
- }
- data++;
- }
- return TRUE;
-}
-
-/* Check if the jump table is written correctly.. */
-static BOOLEAN ProSLIC_VerifyPatchJMPLow(proslicChanType *pProslic,
- const uInt16 *data)
-{
- uInt8 address = PATCH_JMPTBL_START_ADDR;
- int regData;
-
- TRACEPRINT(pProslic, "dataptr: %p\n", data);
- for(address = PATCH_JMPTBL_START_ADDR;
- address < (PATCH_JMPTBL_START_ADDR+(2*PATCH_NUM_LOW_ENTRIES)); address++)
- {
- if(*data)
- {
- regData = ReadReg(pProslic, pProslic->channel, address);
- if(regData != ((*data) & 0xFF))
- {
- return FALSE;
- }
-
- address++;
-
- regData = ReadReg(pProslic, pProslic->channel, address);
- if(regData != (((*data)>>8) & 0xFF))
- {
- return FALSE;
- }
-
- data++;
- }
- else
- {
- break;
- }
- }
- return TRUE;
-}
-
-#if defined SI3226X || defined SI3228X || defined SI3218X || defined SI3219X
-/* For chipsets supporting more than 8 jump entries, verify them */
-static BOOLEAN ProSLIC_VerifyPatchJMPHigh(proslicChanType *pProslic,
- const uInt16 *data)
-{
- uInt16 address = PATCH_JMPTBL_HIGH_ADDR;
- ramData read_data;
-
- TRACEPRINT(pProslic, "dataptr: %p\n", data);
- for(address = PATCH_JMPTBL_HIGH_ADDR;
- address < (PATCH_JMPTBL_HIGH_ADDR+PATCH_NUM_HIGH_ENTRIES); address++)
- {
- read_data = (ReadRAM(pProslic, pProslic->channel, address) & 0x1FFFL);
- if(*data != read_data)
- {
- return FALSE;
-
- }
- data++;
- }
- return TRUE;
-}
-#endif /* SI3226X, SI3228X, SI3218X, SI3219X */
-
-static BOOLEAN ProSLIC_VerifyPatchSupportRAM(proslicChanType *pProslic,
- const uInt16 *ramAddr, const ramData *ramData)
-{
- int i;
-
- for(i = 0; ramAddr[i]; i++)
- {
- if( ReadRAM(pProslic, pProslic->channel, ramAddr[i]) != ramData[i])
- {
- return FALSE;
- }
- }
-
- return TRUE;
-}
-
-/* Load the first 8 jump table entries */
-static void ProSLIC_LoadPatchJMPLow(proslicChanType *pProslic, uInt8 channel,
- const uInt16 *data)
-{
- uInt8 address;
-
- TRACEPRINT(pProslic, "chan: %d dataptr: %p\n", channel, data);
-
- for(address = PATCH_JMPTBL_START_ADDR;
- address < (PATCH_JMPTBL_START_ADDR+(2*PATCH_NUM_LOW_ENTRIES)); address++)
- {
- WriteReg(pProslic, channel, address,((*data) & 0xFF));
- address++;
- WriteReg(pProslic, channel, address,(((*data)>>8) & 0xFF));
- data++;
- }
-}
-
-/* Load Patch data */
-static void ProSLIC_LoadPatchData(proslicChanType *pProslic, uInt8 channel,
- const ramData *data)
-{
- int loop;
-
- TRACEPRINT(pProslic, "chan: %d dataptr: %p\n", channel, data);
- WriteRAM(pProslic, channel, PROSLIC_RAM_PRAM_ADDR, 0);
-
- for(loop = 0; loop < PATCH_MAX_SIZE; loop++)
- {
- if(*data)
- {
- /* Can we take advantage of auto increment, if not, set the address */
- if( (pProslic->deviceId->chipRev < 3)
- && (channel == PROSLIC_CHAN_BROADCAST))
- {
- WriteRAM(pProslic, channel, PROSLIC_RAM_PRAM_ADDR, loop << 19);
- }
-
- WriteRAM(pProslic, channel, PROSLIC_RAM_PRAM_DATA, (*data) << 9);
- }
- else
- {
- return;
- }
- data++;
- }
-}
-
-/* Load Support RAM - basically RAM address/data pairs to be written as part of the Patch process - do not call directly */
-void ProSLIC_LoadSupportRAM(proslicChanType *pProslic, uInt8 channel,
- const uInt16 *address, const ramData *data)
-{
- TRACEPRINT(pProslic, "chan: %d addressptr: %p dataptr: %p\n", channel, address,
- data);
- while( *address )
- {
- WriteRAM(pProslic, channel, *address, *data);
- address++;
- data++;
- }
-}
-
-#if defined SI3226X || defined SI3228X || defined SI3218X || defined SI3219X
-/* Load Jump table high for chipsets supporting more than 8 jump entries */
-static void ProSLIC_LoadJMPHigh(proslicChanType *pProslic, uInt8 channel,
- const uInt16 *data)
-{
- uInt16 loop;
- TRACEPRINT(pProslic, "chan: %d dataptr: %p\n", channel, data);
- for(loop = PATCH_JMPTBL_HIGH_ADDR;
- loop < (PATCH_JMPTBL_HIGH_ADDR+PATCH_NUM_HIGH_ENTRIES); loop++)
- {
- WriteRAM(pProslic, channel, loop, ((*data) & 0x1FFFL) );
- data++;
- }
-}
-#endif /* SI3226X, SI3228X, SI3218X, SI3219X */
-
-/* Code assumes ProSLIC_LoadPatch has verified chip type. This is NOT meant to be called
- * by the user directly.
- */
-BOOLEAN ProSLIC_LoadPatch_extended(proslicChanType *pProslic,
- const proslicPatch *pPatch,
- BOOLEAN is_broadcast, BOOLEAN is_second_chan)
-{
- uInt8 channel;
- const uInt16 jmp_disable[PATCH_NUM_LOW_ENTRIES] = {0,0,0,0,0,0,0,0};
-
-#if defined SI3226X || defined SI3228X || defined SI3218X ||defined SI3219X
- BOOLEAN hasJmpTableHigh = FALSE;
- const uInt16 jmphigh_disable[PATCH_NUM_HIGH_ENTRIES] = {0UL, 0UL, 0UL, 0UL, 0UL, 0UL, 0UL, 0UL};
-#endif
-
- TRACEPRINT(pProslic, "patchptr: %p bcast: %d\n", pPatch, is_broadcast);
-
- if(pPatch == NULL)
- {
- return RC_NONE;
- }
-
- if(is_broadcast == TRUE)
- {
- channel = PROSLIC_CHAN_BROADCAST;
- }
- else
- {
- channel = pProslic->channel;
- }
-
- ProSLIC_SetUserMode(pProslic,TRUE, is_broadcast);
-
- /* Disable Patch */
- WriteReg(pProslic, channel, PROSLIC_REG_JMPEN, 0);
- if(is_second_chan == FALSE)
- {
- DEBUG_PRINT(pProslic, "%sloading patch: %08lx\n", LOGPRINT_PREFIX,
- (long unsigned int)pPatch->patchSerial);
-
- ProSLIC_LoadPatchJMPLow(pProslic, channel, jmp_disable);
-
-#if defined SI3226X || defined SI3228X || defined SI3218X || defined SI3219X
- if( 0
-#ifdef SI3226X
- || (pProslic->deviceId->chipType >= SI32260
- && pProslic->deviceId->chipType <= SI32269)
-#endif
-#ifdef SI3228X
- || (pProslic->deviceId->chipType >= SI32280
- && pProslic->deviceId->chipType <= SI32289)
-#endif
-#ifdef SI3218X
- || (pProslic->deviceId->chipType >= SI32180
- && pProslic->deviceId->chipType <= SI32189)
-#endif
-#ifdef SI3219X
- || ( IS_SI3219X(pProslic->deviceId) )
-#endif
- )
- {
- hasJmpTableHigh = TRUE;
- ProSLIC_LoadJMPHigh(pProslic, channel, jmphigh_disable);
- }
-#endif
-
- ProSLIC_LoadPatchData(pProslic, channel, pPatch->patchData);
-
- WriteReg(pProslic, channel, PROSLIC_REG_RAM_ADDR_HI, 0);
-
- ProSLIC_LoadPatchJMPLow(pProslic, channel, pPatch->patchEntries);
-
-#if defined SI3226X || defined SI3228X || defined SI3218X || defined SI3219X
- if(hasJmpTableHigh == TRUE)
- {
- ProSLIC_LoadJMPHigh(pProslic, channel,
- &(pPatch->patchEntries[PATCH_NUM_LOW_ENTRIES]));
- }
-#endif
- WriteRAM(pProslic, channel, PROSLIC_RAM_PATCHID,
- pPatch->patchSerial); /* write the patch ID */
- } /* !second channel */
-
- ProSLIC_LoadSupportRAM(pProslic, channel, pPatch->psRamAddr, pPatch->psRamData);
-
- return RC_NONE;
-
-}
-
-#endif /* patch helper functions */
-
-int ProSLIC_LoadPatch (proslicChanType_ptr pProslic,const proslicPatch *pPatch)
-{
- int rc;
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
- if( (rc = ProSLIC_LoadPatch_extended(pProslic, pPatch, FALSE, FALSE) ) == RC_NONE)
- {
-#ifdef DISABLE_VERIFY_PATCH
- return WriteReg(pProslic, pProslic->channel, PROSLIC_REG_JMPEN, 1);
-#endif
- }
-
- return rc;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_VerifyPatch (proslicChanType_ptr hProslic,const proslicPatch *pPatch)
-{
- TRACEPRINT(hProslic, "patchptr: %p\n", pPatch);
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
- if(pPatch == NULL)
- {
- return RC_NONE;
- }
-
- WriteReg(hProslic, hProslic->channel, PROSLIC_REG_JMPEN, 0);
- WriteRAM(hProslic, hProslic->channel, PROSLIC_RAM_PRAM_ADDR, 0);
-
- if(ProSLIC_VerifyPatchData(hProslic, pPatch->patchData,
- PATCH_MAX_SIZE) == FALSE)
- {
- DEBUG_PRINT(hProslic, "%sPatch data corrupted: channel %d\n",LOGPRINT_PREFIX,
- hProslic->channel);
- WriteRAM(hProslic, hProslic->channel, PROSLIC_RAM_PATCHID,
- 0UL); /* Mark patch as invalid */
- return RC_PATCH_RAM_VERIFY_FAIL;
- }
-
- /*zero out RAM_ADDR_HI*/
- WriteReg (hProslic, hProslic->channel, PROSLIC_REG_RAM_ADDR_HI,0);
-
- if( ProSLIC_VerifyPatchJMPLow(hProslic, pPatch->patchEntries) == FALSE)
- {
- DEBUG_PRINT(hProslic,"%sPatch jumptable corrupted: channel %d\n",
- LOGPRINT_PREFIX,hProslic->channel);
- WriteRAM(hProslic, hProslic->channel, PROSLIC_RAM_PATCHID,
- 0UL); /* Mark patch as invalid */
- return RC_PATCH_RAM_VERIFY_FAIL;
- }
-
-#if defined SI3226X || defined SI3228X || defined SI3218X || defined SI3219X
- if( 0
-#ifdef SI3226X
- || (hProslic->deviceId->chipType >= SI32260
- && hProslic->deviceId->chipType <= SI32269)
-#endif
-#ifdef SI3228X
- || (hProslic->deviceId->chipType >= SI32280
- && hProslic->deviceId->chipType <= SI32289)
-#endif
-#ifdef SI3218X
- || (hProslic->deviceId->chipType >= SI32180
- && hProslic->deviceId->chipType <= SI32189)
-#endif
-#ifdef SI3219X
- || ( IS_SI3219X(hProslic->deviceId) )
-#endif
- )
-
- {
- if( ProSLIC_VerifyPatchJMPHigh(hProslic,
- &(pPatch->patchEntries[PATCH_NUM_LOW_ENTRIES])) == FALSE)
- {
- DEBUG_PRINT(hProslic,"%sPatch jumptable high corrupted: channel %d\n",
- LOGPRINT_PREFIX,hProslic->channel);
- WriteRAM(hProslic, hProslic->channel, PROSLIC_RAM_PATCHID,
- 0UL); /* Mark patch as invalid */
- return RC_PATCH_ENTRY_VERIFY_FAIL;
- }
- }
-
-#endif
-
- if( ProSLIC_VerifyPatchSupportRAM( hProslic, pPatch->psRamAddr, pPatch->psRamData) == FALSE)
- {
- DEBUG_PRINT(hProslic,"%sPatch init data corrupted: channel %d\n",
- LOGPRINT_PREFIX,hProslic->channel);
- WriteRAM(hProslic, hProslic->channel, PROSLIC_RAM_PATCHID,
- 0UL); /* Mark patch as invalid */
- return RC_PATCH_ENTRY_VERIFY_FAIL;
- }
-
- WriteReg (hProslic, hProslic->channel, PROSLIC_REG_JMPEN,
- 1); /*enable the patch*/
-
- return RC_NONE;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_SetMuteStatus (proslicChanType_ptr pProslic,
- ProslicMuteModes muteEn)
-{
-
- uInt8 regTemp;
- uInt8 newRegValue;
- TRACEPRINT(pProslic, "muteEn: %d\n", muteEn);
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
- regTemp = ReadReg (pProslic,pProslic->channel,PROSLIC_REG_DIGCON);
-
- WriteReg (pProslic,pProslic->channel,PROSLIC_REG_DIGCON,regTemp&~(0x3));
- newRegValue = regTemp &~(0x3);
-
- if (muteEn & PROSLIC_MUTE_RX)
- {
- newRegValue |= 1;
- }
-
- if (muteEn & PROSLIC_MUTE_TX)
- {
- newRegValue |= 2;
- }
-
- if(newRegValue != regTemp)
- {
- return WriteReg (pProslic,pProslic->channel,PROSLIC_REG_DIGCON,newRegValue);
- }
-
- return RC_COMPLETE_NO_ERR;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_SetLoopbackMode (proslicChanType_ptr pProslic,
- ProslicLoopbackModes newMode)
-{
- uInt8 regTemp, newValue;
- TRACEPRINT(pProslic, "mode: %d\n", newMode);
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
- newValue = regTemp = ReadReg (pProslic,pProslic->channel,PROSLIC_REG_LOOPBACK);
-
- switch (newMode)
- {
- case PROSLIC_LOOPBACK_NONE:
- newValue &= ~(0x11);
- break;
-
- case PROSLIC_LOOPBACK_DIG:
- newValue |= 1;
- break;
-
- case PROSLIC_LOOPBACK_ANA:
- newValue |= 0x10;
- break;
- }
-
- if(newValue != regTemp)
- {
- return WriteReg (pProslic,pProslic->channel,PROSLIC_REG_LOOPBACK, newValue);
- }
- return RC_COMPLETE_NO_ERR;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_EnableInterrupts (proslicChanType_ptr hProslic)
-{
- TRACEPRINT(hProslic, "\n", NULL);
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-#ifdef SI3217X
- if (hProslic->deviceId->chipType >= SI32171
- && hProslic->deviceId->chipType <= SI32179)
- {
- return Si3217x_EnableInterrupts(hProslic);
- }
-#endif
-
-#ifdef SI3218X
- if (hProslic->deviceId->chipType >= SI32180
- && hProslic->deviceId->chipType <= SI32189)
- {
- return Si3218x_EnableInterrupts(hProslic);
- }
-#endif
-
-#ifdef SI3219X
- if ( IS_SI3219X(hProslic->deviceId) )
- {
- return Si3219x_EnableInterrupts(hProslic);
- }
-#endif
-
-#ifdef SI3226X
- if (hProslic->deviceId->chipType >= SI32260
- && hProslic->deviceId->chipType <= SI32269)
- {
- return Si3226x_EnableInterrupts(hProslic);
- }
-#endif
-
-#ifdef SI3228X
- if (hProslic->deviceId->chipType >= SI32280
- && hProslic->deviceId->chipType <= SI32289)
- {
- return Si3228x_EnableInterrupts(hProslic);
- }
-#endif
-
- return RC_COMPLETE_NO_ERR;
-}
-
-
-/*****************************************************************************************************/
-int ProSLIC_DisableInterrupts (proslicChanType_ptr hProslic)
-{
-#ifdef GCI_MODE
- uInt8 data;
-#endif
- uInt8 i;
- TRACEPRINT(hProslic, "\n", NULL);
-
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
- for(i = PROSLIC_REG_IRQEN1; i < PROSLIC_REG_IRQEN4; i++)
- {
- /* Disable the interrupts */
- WriteReg(hProslic, hProslic->channel, i, 0);
- }
-
- /* Clear the pending interrupts */
- for(i = PROSLIC_REG_IRQ1; i < PROSLIC_REG_IRQ4; i++)
- {
-#ifdef GCI_MODE
- data = ReadReg(hProslic, hProslic->channel, i);
- WriteReg( hProslic, hProslic->channel, i, data);
-#else
- (void)ReadReg(hProslic, hProslic->channel, i);
-#endif
- }
- return RC_NONE;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_RingSetup (proslicChanType_ptr hProslic,int preset)
-{
- TRACEPRINT(hProslic, "preset: %d\n", preset);
-#ifndef DISABLE_RING_SETUP
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-#ifdef SI3217X
- if (hProslic->deviceId->chipType >= SI32171
- && hProslic->deviceId->chipType <= SI32179)
- {
- return Si3217x_RingSetup(hProslic,preset);
- }
-#endif
-
-#ifdef SI3218X
- if (hProslic->deviceId->chipType >= SI32180
- && hProslic->deviceId->chipType <= SI32189)
- {
- return Si3218x_RingSetup(hProslic,preset);
- }
-#endif
-
-#ifdef SI3219X
- if ( IS_SI3219X(hProslic->deviceId) )
- {
- return Si3219x_RingSetup(hProslic,preset);
- }
-#endif
-
-#ifdef SI3226X
- if (hProslic->deviceId->chipType >= SI32260
- && hProslic->deviceId->chipType <= SI32269)
- {
- return Si3226x_RingSetup(hProslic,preset);
- }
-#endif
-#ifdef SI3228X
- if (hProslic->deviceId->chipType >= SI32280
- && hProslic->deviceId->chipType <= SI32289)
- {
- return Si3228x_RingSetup(hProslic,preset);
- }
-#endif
-#else
- SILABS_UNREFERENCED_PARAMETER(hProslic);
- SILABS_UNREFERENCED_PARAMETER(preset);
-#endif /*DISABLE_RING_SETUP*/
- return RC_COMPLETE_NO_ERR;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_ToneGenSetup (proslicChanType_ptr hProslic,int preset)
-{
- TRACEPRINT(hProslic, "preset: %d\n", preset);
-#ifndef DISABLE_TONE_SETUP
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-#ifdef SI3217X
- if (hProslic->deviceId->chipType >= SI32171
- && hProslic->deviceId->chipType <= SI32179)
- {
- return ProSLIC_ToneGenSetupPtr(hProslic,&(Si3217x_Tone_Presets[preset]));
- }
-#endif
-
-#ifdef SI3218X
- if (hProslic->deviceId->chipType >= SI32180
- && hProslic->deviceId->chipType <= SI32189)
- {
- return ProSLIC_ToneGenSetupPtr(hProslic, &(Si3218x_Tone_Presets[preset]));
- }
-#endif
-
-#ifdef SI3219X
- if ( IS_SI3219X(hProslic->deviceId) )
- {
- return ProSLIC_ToneGenSetupPtr(hProslic, &(Si3219x_Tone_Presets[preset]));
- }
-#endif
-
-#ifdef SI3226X
- if (hProslic->deviceId->chipType >= SI32260
- && hProslic->deviceId->chipType <= SI32269)
- {
- return ProSLIC_ToneGenSetupPtr(hProslic, &(Si3226x_Tone_Presets[preset]));
- }
-#endif
-#ifdef SI3228X
- if (hProslic->deviceId->chipType >= SI32280
- && hProslic->deviceId->chipType <= SI32289)
- {
- return ProSLIC_ToneGenSetupPtr(hProslic, &(Si3228x_Tone_Presets[preset]));
- }
-#endif
-#else
- SILABS_UNREFERENCED_PARAMETER(hProslic);
- SILABS_UNREFERENCED_PARAMETER(preset);
-#endif /*DISABLE_TONE_SETUP*/
- return RC_COMPLETE_NO_ERR;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_FSKSetup (proslicChanType_ptr hProslic,int preset)
-{
- TRACEPRINT(hProslic, "preset: %d\n", preset);
-#ifndef DISABLE_FSK_SETUP
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-#ifdef SI3217X
- if (hProslic->deviceId->chipType >= SI32171
- && hProslic->deviceId->chipType <= SI32179)
- {
- return ProSLIC_FSKSetupPtr(hProslic, &Si3217x_FSK_Presets[preset]);
- }
-#endif
-
-#ifdef SI3218X
- if (hProslic->deviceId->chipType >= SI32180
- && hProslic->deviceId->chipType <= SI32189)
- {
- return ProSLIC_FSKSetupPtr(hProslic, &Si3218x_FSK_Presets[preset]);
- }
-#endif
-
-#ifdef SI3219X
- if ( IS_SI3219X(hProslic->deviceId) )
- {
- return ProSLIC_FSKSetupPtr(hProslic, &Si3219x_FSK_Presets[preset]);
- }
-#endif
-
-#ifdef SI3226X
- if (hProslic->deviceId->chipType >= SI32260
- && hProslic->deviceId->chipType <= SI32269)
- {
- return ProSLIC_FSKSetupPtr(hProslic, &Si3226x_FSK_Presets[preset]);
- }
-#endif
-
-#ifdef SI3228X
- if (hProslic->deviceId->chipType >= SI32280
- && hProslic->deviceId->chipType <= SI32289)
- {
- return ProSLIC_FSKSetupPtr(hProslic,&Si3228x_FSK_Presets[preset]);
- }
-#endif
-#else
- SILABS_UNREFERENCED_PARAMETER(hProslic);
- SILABS_UNREFERENCED_PARAMETER(preset);
-#endif /*DISABLE_FSK_SETUP*/
- return RC_COMPLETE_NO_ERR;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_ZsynthSetup (proslicChanType_ptr hProslic,int preset)
-{
- TRACEPRINT(hProslic, "preset: %d\n", preset);
-#ifndef DISABLE_ZSYNTH_SETUP
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-#ifdef SI3217X
- if (hProslic->deviceId->chipType >= SI32171
- && hProslic->deviceId->chipType <= SI32179)
- {
- return Si3217x_ZsynthSetup(hProslic,preset);
- }
-#endif
-
-#ifdef SI3218X
- if (hProslic->deviceId->chipType >= SI32180
- && hProslic->deviceId->chipType <= SI32189)
- {
- return Si3218x_ZsynthSetup(hProslic,preset);
- }
-#endif
-
-#ifdef SI3219X
- if ( IS_SI3219X(hProslic->deviceId) )
- {
- return Si3219x_ZsynthSetup(hProslic,preset);
- }
-#endif
-
-#ifdef SI3226X
- if (hProslic->deviceId->chipType >= SI32260
- && hProslic->deviceId->chipType <= SI32269)
- {
- return Si3226x_ZsynthSetup(hProslic,preset);
- }
-#endif
-
-#ifdef SI3228X
- if (hProslic->deviceId->chipType >= SI32280
- && hProslic->deviceId->chipType <= SI32289)
- {
- return Si3228x_ZsynthSetup(hProslic,preset);
- }
-#endif
-#else
- SILABS_UNREFERENCED_PARAMETER(hProslic);
- SILABS_UNREFERENCED_PARAMETER(preset);
-#endif /*DISABLE_ZSYNTH_SETUP*/
- return RC_COMPLETE_NO_ERR;
-}
-
-/*****************************************************************************************************/
-#ifndef DISABLE_CI_SETUP
-int ProSLIC_GciCISetup (proslicChanType_ptr hProslic,int preset)
-{
- TRACEPRINT(hProslic, "preset: %d\n", preset);
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-#ifdef SI3217X
- if (hProslic->deviceId->chipType >= SI32171
- && hProslic->deviceId->chipType <= SI32179)
- {
- return Si3217x_GciCISetup(hProslic,preset);
- }
-#endif
-
-#ifdef SI3226X
- if (hProslic->deviceId->chipType >= SI32260
- && hProslic->deviceId->chipType <= SI32269)
- {
- return Si3226x_GciCISetup(hProslic,preset);
- }
-#endif
-
-#if !defined(SI3217X) && !defined(SI3226X)
- SILABS_UNREFERENCED_PARAMETER(hProslic);
- SILABS_UNREFERENCED_PARAMETER(preset);
-#endif
-
- return RC_COMPLETE_NO_ERR;
-}
-#endif /*DISABLE_CI_SETUP*/
-
-/*****************************************************************************************************/
-int ProSLIC_TXAudioGainSetup (proslicChanType_ptr hProslic,int preset)
-{
- TRACEPRINT(hProslic, "preset: %d\n", preset);
-#ifndef DISABLE_AUDIOGAIN_SETUP
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
-#ifdef SI3217X
- if (hProslic->deviceId->chipType >= SI32171
- && hProslic->deviceId->chipType <= SI32179)
- {
- return Si3217x_TXAudioGainSetup(hProslic,preset);
- }
-#endif
-
-#ifdef SI3218X
- if (hProslic->deviceId->chipType >= SI32180
- && hProslic->deviceId->chipType <= SI32189)
- {
- return Si3218x_TXAudioGainSetup(hProslic,preset);
- }
-#endif
-
-#ifdef SI3219X
- if ( IS_SI3219X(hProslic->deviceId) )
- {
- return Si3219x_TXAudioGainSetup(hProslic,preset);
- }
-#endif
-
-#ifdef SI3226X
- if (hProslic->deviceId->chipType >= SI32260
- && hProslic->deviceId->chipType <= SI32269)
- {
- return Si3226x_TXAudioGainSetup(hProslic,preset);
- }
-#endif
-
-#ifdef SI3228X
- if (hProslic->deviceId->chipType >= SI32280
- && hProslic->deviceId->chipType <= SI32289)
- {
- return Si3228x_TXAudioGainSetup(hProslic,preset);
- }
-#endif
-#else
- SILABS_UNREFERENCED_PARAMETER(hProslic);
- SILABS_UNREFERENCED_PARAMETER(preset);
-
-#endif /*DISABLE_AUDIOGAIN_SETUP*/
- return RC_COMPLETE_NO_ERR;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_RXAudioGainSetup (proslicChanType_ptr hProslic,int preset)
-{
- TRACEPRINT(hProslic, "preset: %d\n", preset);
-#ifndef DISABLE_AUDIOGAIN_SETUP
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
-#ifdef SI3217X
- if (hProslic->deviceId->chipType >= SI32171
- && hProslic->deviceId->chipType <= SI32179)
- {
- return Si3217x_RXAudioGainSetup(hProslic,preset);
- }
-#endif
-
-#ifdef SI3218X
- if (hProslic->deviceId->chipType >= SI32180
- && hProslic->deviceId->chipType <= SI32189)
- {
- return Si3218x_RXAudioGainSetup(hProslic,preset);
- }
-#endif
-
-#ifdef SI3219X
- if ( IS_SI3219X(hProslic->deviceId) )
- {
- return Si3219x_RXAudioGainSetup(hProslic,preset);
- }
-#endif
-
-
-#ifdef SI3226X
- if (hProslic->deviceId->chipType >= SI32260
- && hProslic->deviceId->chipType <= SI32269)
- {
- return Si3226x_RXAudioGainSetup(hProslic,preset);
- }
-#endif
-
-#ifdef SI3228X
- if (hProslic->deviceId->chipType >= SI32280
- && hProslic->deviceId->chipType <= SI32289)
- {
- return Si3228x_RXAudioGainSetup(hProslic,preset);
- }
-#endif
-
-#else
- SILABS_UNREFERENCED_PARAMETER(hProslic);
- SILABS_UNREFERENCED_PARAMETER(preset);
-#endif /*DISABLE_AUDIOGAIN_SETUP*/
- return RC_COMPLETE_NO_ERR;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_TXAudioGainScale (proslicChanType_ptr hProslic,int preset,
- uInt32 pga_scale, uInt32 eq_scale)
-{
- TRACEPRINT(hProslic, "preset: %d pga_scale: %u eq_scale: %u\n", preset,
- pga_scale, eq_scale);
-#ifndef DISABLE_AUDIOGAIN_SETUP
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
-#ifdef SI3217X
- if (hProslic->deviceId->chipType >= SI32171
- && hProslic->deviceId->chipType <= SI32179)
- {
- return Si3217x_TXAudioGainScale(hProslic,preset,pga_scale,eq_scale);
- }
-#endif
-
-#ifdef SI3218X
- if (hProslic->deviceId->chipType >= SI32180
- && hProslic->deviceId->chipType <= SI32189)
- {
- return Si3218x_TXAudioGainScale(hProslic,preset,pga_scale,eq_scale);
- }
-#endif
-
-#ifdef SI3219X
- if ( IS_SI3219X(hProslic->deviceId) )
- {
- return Si3219x_TXAudioGainScale(hProslic,preset,pga_scale,eq_scale);
- }
-#endif
-
-#ifdef SI3226X
- if (hProslic->deviceId->chipType >= SI32260
- && hProslic->deviceId->chipType <= SI32269)
- {
- return Si3226x_TXAudioGainScale(hProslic,preset,pga_scale,eq_scale);
- }
-#endif
-
-#ifdef SI3228X
- if (hProslic->deviceId->chipType >= SI32280
- && hProslic->deviceId->chipType <= SI32289)
- {
- return Si3228x_TXAudioGainScale(hProslic,preset,pga_scale,eq_scale);
- }
-#endif
-
-#else
- SILABS_UNREFERENCED_PARAMETER(hProslic);
- SILABS_UNREFERENCED_PARAMETER(preset);
-#endif /*DISABLE_AUDIOGAIN_SETUP*/
- return RC_COMPLETE_NO_ERR;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_RXAudioGainScale (proslicChanType_ptr hProslic,int preset,
- uInt32 pga_scale, uInt32 eq_scale)
-{
- TRACEPRINT(hProslic, "preset: %d pga_scale: %u eq_scale: %u\n", preset,
- pga_scale, eq_scale);
-#ifndef DISABLE_AUDIOGAIN_SETUP
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-#ifdef SI3217X
- if (hProslic->deviceId->chipType >= SI32171
- && hProslic->deviceId->chipType <= SI32179)
- {
- return Si3217x_RXAudioGainScale(hProslic,preset,pga_scale,eq_scale);
- }
-#endif
-
-#ifdef SI3218X
- if (hProslic->deviceId->chipType >= SI32180
- && hProslic->deviceId->chipType <= SI32189)
- {
- return Si3218x_RXAudioGainScale(hProslic,preset,pga_scale,eq_scale);
- }
-#endif
-
-#ifdef SI3219X
- if ( IS_SI3219X(hProslic->deviceId) )
- {
- return Si3219x_RXAudioGainScale(hProslic,preset,pga_scale,eq_scale);
- }
-#endif
-
-#ifdef SI3226X
- if (hProslic->deviceId->chipType >= SI32260
- && hProslic->deviceId->chipType <= SI32269)
- {
- return Si3226x_RXAudioGainScale(hProslic,preset,pga_scale,eq_scale);
- }
-#endif
-
-#ifdef SI3228X
- if (hProslic->deviceId->chipType >= SI32280
- && hProslic->deviceId->chipType <= SI32289)
- {
- return Si3228x_RXAudioGainScale(hProslic,preset,pga_scale,eq_scale);
- }
-#endif
-
-#else
- SILABS_UNREFERENCED_PARAMETER(hProslic);
- SILABS_UNREFERENCED_PARAMETER(preset);
-#endif /*DISABLE_AUDIOGAIN_SETUP*/
- return RC_COMPLETE_NO_ERR;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_AudioGainSetup (proslicChanType_ptr pProslic,int32 rxgain,
- int32 txgain,int preset)
-{
- int rc;
-#ifndef DISABLE_AUDIOGAIN_SETUP
- int atx_preset = TXACGAIN_SEL;
- int arx_preset = RXACGAIN_SEL;
- TRACEPRINT(pProslic, "rxgain: %d txgain: %d preset: %d\n", rxgain, txgain,
- preset);
-
- rc = ProSLIC_dbgSetTXGain(pProslic,txgain,preset,atx_preset);
-
- if( rc == RC_NONE)
- {
- rc = ProSLIC_TXAudioGainSetup(pProslic,TXACGAIN_SEL);
- }
-
- if( rc == RC_NONE)
- {
- rc = ProSLIC_dbgSetRXGain(pProslic,rxgain,preset,arx_preset);
- }
-
- if( rc == RC_NONE)
- {
- rc = ProSLIC_RXAudioGainSetup(pProslic,RXACGAIN_SEL);
- }
- return rc;
-#else
- SILABS_UNREFERENCED_PARAMETER(pProslic);
- SILABS_UNREFERENCED_PARAMETER(preset);
- return RC_IGNORE;
-#endif /*DISABLE_AUDIOGAIN_SETUP*/
-}
-
-/*****************************************************************************************************/
-int ProSLIC_DCFeedSetup (proslicChanType_ptr hProslic,int preset)
-{
- TRACEPRINT(hProslic, "preset: %d\n", preset);
-#ifndef DISABLE_DCFEED_SETUP
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
-#ifdef SI3217X
- if (hProslic->deviceId->chipType >= SI32171
- && hProslic->deviceId->chipType <= SI32179)
- {
- return Si3217x_DCFeedSetup(hProslic,preset);
- }
-#endif
-
-#ifdef SI3218X
- if (hProslic->deviceId->chipType >= SI32180
- && hProslic->deviceId->chipType <= SI32189)
- {
- return Si3218x_DCFeedSetup(hProslic,preset);
- }
-#endif
-
-#ifdef SI3219X
- if ( IS_SI3219X(hProslic->deviceId) )
- {
- return Si3219x_DCFeedSetupCfg(hProslic, Si3219x_DCfeed_Presets, preset);
- }
-#endif
-
-#ifdef SI3226X
- if (hProslic->deviceId->chipType >= SI32260
- && hProslic->deviceId->chipType <= SI32269)
- {
- return Si3226x_DCFeedSetup(hProslic,preset);
- }
-#endif
-
-#ifdef SI3228X
- if (hProslic->deviceId->chipType >= SI32280
- && hProslic->deviceId->chipType <= SI32289)
- {
- return Si3228x_DCFeedSetup(hProslic,preset);
- }
-#endif
-#else
- SILABS_UNREFERENCED_PARAMETER(hProslic);
- SILABS_UNREFERENCED_PARAMETER(preset);
-#endif /*DISABLE_DCFEED_SETUP*/
- return RC_COMPLETE_NO_ERR;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_DCFeedSetupCfg (proslicChanType_ptr hProslic,
- ProSLIC_DCfeed_Cfg *cfg, int preset)
-{
- TRACEPRINT(hProslic, "cfgPtr = %p preset = %d\n", cfg, preset);
-#ifndef DISABLE_DCFEED_SETUP
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
-#ifdef SI3217X
- if (hProslic->deviceId->chipType >= SI32171
- && hProslic->deviceId->chipType <= SI32179)
- {
- return Si3217x_DCFeedSetupCfg(hProslic,cfg,preset);
- }
-#endif
-
-#ifdef SI3218X
- if (hProslic->deviceId->chipType >= SI32180
- && hProslic->deviceId->chipType <= SI32189)
- {
- return Si3218x_DCFeedSetupCfg(hProslic,cfg,preset);
- }
-#endif
-
-#ifdef SI3219X
- if ( IS_SI3219X(hProslic->deviceId) )
- {
- return Si3219x_DCFeedSetupCfg(hProslic,cfg,preset);
- }
-#endif
-
-#ifdef SI3226X
- if (hProslic->deviceId->chipType >= SI32260
- && hProslic->deviceId->chipType <= SI32269)
- {
- return Si3226x_DCFeedSetupCfg(hProslic,cfg,preset);
- }
-#endif
-
-#ifdef SI3228X
- if (hProslic->deviceId->chipType >= SI32280
- && hProslic->deviceId->chipType <= SI32289)
- {
- return Si3228x_DCFeedSetupCfg(hProslic,cfg,preset);
- }
-#endif
-
-#else
- SILABS_UNREFERENCED_PARAMETER(hProslic);
- SILABS_UNREFERENCED_PARAMETER(preset);
- SILABS_UNREFERENCED_PARAMETER(cfg);
-#endif /*DISABLE_DCFEED_SETUP*/
- return RC_COMPLETE_NO_ERR;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_GPIOSetup (proslicChanType_ptr hProslic)
-{
- TRACEPRINT(hProslic, "\n", NULL);
-#ifndef DISABLE_GPIO_SETUP
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
-#ifdef SI3217X
- if (hProslic->deviceId->chipType >= SI32171
- && hProslic->deviceId->chipType <= SI32179)
- {
- return Si3217x_GPIOSetup(hProslic);
- }
-#endif
-
-#ifdef SI3226X
- if (hProslic->deviceId->chipType >= SI32260
- && hProslic->deviceId->chipType <= SI32269)
- {
- return Si3226x_GPIOSetup(hProslic);
- }
-#endif
-
-#else
- SILABS_UNREFERENCED_PARAMETER(hProslic);
-#endif /*DISABLE_GPIO_SETUP*/
- return RC_COMPLETE_NO_ERR;
-}
-
-/*****************************************************************************************************/
-#ifndef DISABLE_PULSEMETERING
-int ProSLIC_PulseMeterSetup (proslicChanType_ptr hProslic,int preset)
-{
- TRACEPRINT(hProslic, "preset = %d\n", preset);
-#ifndef DISABLE_PULSE_SETUP
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
-#ifdef SI3217X
- if (hProslic->deviceId->chipType >= SI32171
- && hProslic->deviceId->chipType <= SI32179)
- {
- return Si3217x_PulseMeterSetup(hProslic,preset);
- }
-#endif
-
-#ifdef SI3218X
- if (hProslic->deviceId->chipType >= SI32180
- && hProslic->deviceId->chipType <= SI32189)
- {
- return Si3218x_PulseMeterSetup(hProslic,preset);
- }
-#endif
-
-#ifdef SI3219X
- if ( IS_SI3219X(hProslic->deviceId) )
- {
- return Si3219x_PulseMeterSetup(hProslic,preset);
- }
-#endif
-
-#ifdef SI3226X
- if (hProslic->deviceId->chipType >= SI32260
- && hProslic->deviceId->chipType <= SI32269)
- {
- return Si3226x_PulseMeterSetup(hProslic,preset);
- }
-#endif
-
-#ifdef SI3228X
- if (hProslic->deviceId->chipType >= SI32280
- && hProslic->deviceId->chipType <= SI32289)
- {
- return Si3228x_PulseMeterSetup(hProslic,preset);
- }
-#endif
-
-#else
- SILABS_UNREFERENCED_PARAMETER(hProslic);
- SILABS_UNREFERENCED_PARAMETER(preset);
-#endif /*DISABLE_PULSE_SETUP*/
- return RC_COMPLETE_NO_ERR;
-}
-#endif
-
-/*****************************************************************************************************/
-int ProSLIC_PCMSetup (proslicChanType_ptr hProslic,int preset)
-{
- TRACEPRINT(hProslic, "preset = %d\n", preset);
-#ifndef DISABLE_PCM_SETUP
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
-#ifdef SI3217X
- if (hProslic->deviceId->chipType >= SI32171
- && hProslic->deviceId->chipType <= SI32179)
- {
- return Si3217x_PCMSetup(hProslic,preset);
- }
-#endif
-
-#ifdef SI3218X
- if (hProslic->deviceId->chipType >= SI32180
- && hProslic->deviceId->chipType <= SI32189)
- {
- return Si3218x_PCMSetup(hProslic,preset);
- }
-#endif
-
-#ifdef SI3219X
- if ( IS_SI3219X(hProslic->deviceId) )
- {
- return Si3219x_PCMSetup(hProslic,preset);
- }
-#endif
-
-#ifdef SI3226X
- if (hProslic->deviceId->chipType >= SI32260
- && hProslic->deviceId->chipType <= SI32269)
- {
- return Si3226x_PCMSetup(hProslic,preset);
- }
-#endif
-
-#ifdef SI3228X
- if (hProslic->deviceId->chipType >= SI32280
- && hProslic->deviceId->chipType <= SI32289)
- {
- return Si3228x_PCMSetup(hProslic,preset);
- }
-#endif
-#else
- SILABS_UNREFERENCED_PARAMETER(hProslic);
- SILABS_UNREFERENCED_PARAMETER(preset);
-#endif /*DISABLE_PCM_SETUP*/
- return RC_COMPLETE_NO_ERR;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_PCMTimeSlotSetup (proslicChanType_ptr pProslic, uInt16 rxcount,
- uInt16 txcount)
-{
- uInt8 data;
- TRACEPRINT(pProslic, "rx = %u tx = %u\n", rxcount, txcount);
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
- data = txcount & 0xff;
- WriteReg(pProslic,pProslic->channel,PROSLIC_REG_PCMTXLO,data);
-
- data = ReadReg(pProslic,pProslic->channel,PROSLIC_REG_PCMTXHI);
- data &= 0x10; /* keep TX_EDGE bit */
- data |= ((txcount >> 8)&0x03) ;
- WriteReg(pProslic,pProslic->channel,PROSLIC_REG_PCMTXHI,data);
-
- data = rxcount & 0xff;
- WriteReg(pProslic,pProslic->channel,PROSLIC_REG_PCMRXLO,data);
-
- data = (rxcount >> 8) & 0x3; /* PCMRXHI has only 2 bits for timeslot */
- /* add to the calculated timeslot values the non timeslot bits */
- data |= (ReadReg(pProslic,pProslic->channel,PROSLIC_REG_PCMRXHI) & 0xFC);
- WriteReg(pProslic,pProslic->channel,PROSLIC_REG_PCMRXHI,data);
-
- return RC_NONE;
-}
-
-/*****************************************************************************************************/
-typedef ProslicInt proslicIntTypeMap[SI_MAX_INTERRUPTS][8];
-
-static int ProSLIC_ReadInterruptsHelper(proslicChanType_ptr pProslic,
- uInt8 *regData, uInt8 numChannels)
-{
- uInt8 i;
- uInt8 intsActive;
- uInt8 *currentData = regData;
- SILABS_UNREFERENCED_PARAMETER(numChannels);
-
- intsActive = ReadReg(pProslic, pProslic->channel, PROSLIC_REG_IRQ0);
-
-#ifdef PROSLIC_OPTIMIZE_INTERRUPTS
- /* For dual channel devices, we need to shift the upper nibble for the second channel
- if the caller requested the second channel. We determine this by channel ID being
- even or odd. If this is NOT true - for example a Si3217x and then a Si3226x chipset
- configuration on the same daisychain, then this optimization logic will not work */
-#if defined(SI3226X) || defined(SI3228X)
- if( (numChannels != 0) && ((pProslic->channel) & 0x1))
- {
- intsActive = intsActive >> 4;
- }
-#endif /* Multichannel devices */
-#endif
-
- /* If there are no interrupts, stop... return back to calling function */
- if((intsActive &0xF) == 0)
- {
- return RC_IGNORE;
- }
-
- for(i = PROSLIC_REG_IRQ1; i <= PROSLIC_REG_IRQ4; i++)
- {
-#ifdef PROSLIC_OPTIMIZE_INTERRUPTS
- /* Read IRQn Register only if IRQ0 states there was an interrupt pending, otherwise
- skip it. This eliminates unneeded SPI transactions.
- */
- if( (intsActive & (1<<(i-PROSLIC_REG_IRQ1))) == 0)
- {
- *currentData++ = 0;
- continue;
- }
-#endif
- *currentData = (uInt8)ReadReg(pProslic, pProslic->channel, i);
-#ifdef GCI_MODDE
- WriteReg(pProslic, pProslic->channel, i, *current_data);
-#endif
- currentData++;
- } /* for loop */
-
- return RC_COMPLETE_NO_ERR;
-}
-
-/*
- Reads IRQ0 to determine if an interrupt has occurred for the particular device,
- if so, reads the interrupt register(s) that fired the interrupt and then
- maps the interrupt(s) to the generic interrupt value to return to the caller.
-
- Code assumes normal chipset/compatibility testing has already been done.
-*/
-static int ProSLIC_GetInterruptHelper(proslicChanType_ptr pProslic,
- const proslicIntTypeMap intMap, proslicIntType *pIntData, uInt8 numChannels)
-{
- int i,j;
- uInt8 intData[SI_MAX_INTERRUPTS];
- uInt8 *currentData;
- uInt8 map, intCount;
- BOOLEAN safetyInt = FALSE;
-
- /* Initialize interrupt count to 0 */
- pIntData-> number = 0;
-
- if( ProSLIC_ReadInterruptsHelper(pProslic, intData, numChannels) == RC_IGNORE)
- {
- /* No interrupts for the given channel. */
- return RC_NONE;
- }
-
- /* At this point we've collected all the registers, now decode the data */
- currentData = intData;
- intCount = 0;
-
- for(i = 0; i < SI_MAX_INTERRUPTS; i++)
- {
- if(*currentData)
- {
- for(j = 0; j < 8; j++)
- {
- if( *currentData & (1<<j) )
- {
- map = intMap[i][j];
- pIntData->irqs[intCount] = map;
-
- if( (map == IRQ_P_HVIC)
- || (map == IRQ_P_THERM) )
- {
- safetyInt = TRUE;
- }
-
- intCount++;
- }
- }
- }
- currentData++;
- }
-
- pIntData->number = intCount;
-
- if( safetyInt == TRUE)
- {
- if(ProSLIC_isReinitRequired(pProslic))
- {
- return RC_REINIT_REQUIRED;
- }
- }
-
- return pIntData->number;
-}
-
-
-int ProSLIC_GetInterrupts (proslicChanType_ptr hProslic,
- proslicIntType *pIntData)
-{
- const proslicIntTypeMap interruptMap =
- {
- {IRQ_OSC1_T1, IRQ_OSC1_T2, IRQ_OSC2_T1, IRQ_OSC2_T2, IRQ_RING_T1, IRQ_RING_T2, IRQ_FSKBUF_AVAIL, IRQ_VBAT},
- {IRQ_RING_TRIP, IRQ_LOOP_STATUS, IRQ_LONG_STAT, IRQ_VOC_TRACK, IRQ_DTMF, IRQ_INDIRECT, IRQ_RXMDM, IRQ_TXMDM},
- {IRQ_P_HVIC, IRQ_P_THERM, IRQ_PQ3, IRQ_PQ4, IRQ_PQ5, IRQ_PQ6, IRQ_DSP, IRQ_MADC_FS},
- {IRQ_USER_0, IRQ_USER_1, IRQ_USER_2, IRQ_USER_3, IRQ_USER_4, IRQ_USER_5, IRQ_USER_6, IRQ_USER_7}
- };
-
- pIntData->number=0;
- /* TRACEPRINT(hProslic, "\n", NULL); */
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-#if defined (SI3217X) || defined (SI3218X) || defined(SI3219X)
- if (0
-#ifdef SI3217X
- || (hProslic->deviceId->chipType >= SI32171
- && hProslic->deviceId->chipType <= SI32179)
-#endif
-#ifdef SI3218X
- || (hProslic->deviceId->chipType >= SI32180
- && hProslic->deviceId->chipType <= SI32189)
-#endif
-#ifdef SI3219X
- || ( IS_SI3219X(hProslic->deviceId) )
-#endif
- )
- {
- return ProSLIC_GetInterruptHelper(hProslic, interruptMap, pIntData, 1);
- }
-#endif
-#if defined (SI3226X) || defined (SI3228X)
- if( 0
-#ifdef SI3226X
- || (hProslic->deviceId->chipType >= SI32260
- && hProslic->deviceId->chipType <= SI32269)
-#endif
-#ifdef SI3228X
- || (hProslic->deviceId->chipType >= SI32280
- && hProslic->deviceId->chipType <= SI32289)
-#endif
- )
- {
- return ProSLIC_GetInterruptHelper(hProslic, interruptMap, pIntData, 2);
- }
-#endif
- return RC_COMPLETE_NO_ERR;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_ReadHookStatus (proslicChanType_ptr pProslic,uInt8 *pHookStat)
-{
- TRACEPRINT(pProslic, "\n", NULL);
- *pHookStat = PROSLIC_ONHOOK;
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
- if (ReadReg(pProslic,pProslic->channel,PROSLIC_REG_LCRRTP) & 2)
- {
- *pHookStat=PROSLIC_OFFHOOK;
- }
- return RC_NONE;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_SetLinefeedStatus (proslicChanType_ptr pProslic, uInt8 newLinefeed)
-{
- uInt8 lfState;
- uInt8 irqen1=0;
- TRACEPRINT(pProslic, "linefeed = %u\n", newLinefeed);
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
- /* Get the irqen1 setting - used to determine if vbat interrupt was set... */
-#ifdef SI3217X
- if (pProslic->deviceId->chipType >= SI32171
- && pProslic->deviceId->chipType <= SI32179)
- {
- irqen1 = Si3217x_General_Configuration.irqen1;
- }
-#endif
-
-#ifdef SI3218X
- if (pProslic->deviceId->chipType >= SI32180
- && pProslic->deviceId->chipType <= SI32189)
- {
- irqen1 = Si3218x_General_Configuration.irqen1;
- }
-#endif
-
-#ifdef SI3219X
- if ( IS_SI3219X(pProslic->deviceId) )
- {
- irqen1 = Si3219x_General_Configuration.irqen1;
- }
-#endif
-
-#ifdef SI3226X
- if (pProslic->deviceId->chipType >= SI32260
- && pProslic->deviceId->chipType <= SI32269)
- {
- irqen1 = Si3226x_General_Configuration.irqen1;
- }
-#endif
-
-#ifdef SI3228X
- if (pProslic->deviceId->chipType >= SI32280
- && pProslic->deviceId->chipType <= SI32289)
- {
- irqen1 = Si3228x_General_Configuration.irqen1;
- }
-#endif
-
- if( (newLinefeed& 0xF) == LF_RINGING )
- {
- uInt8 regTemp;
-
- lfState = ReadReg(pProslic, pProslic->channel, PROSLIC_REG_LINEFEED);
-
- /* Only change to ringing state if not ringing... */
- if( (lfState & 0xF) != LF_RINGING )
- {
- if(irqen1 & 0x80)
- {
- /*disable vbat interrupt during ringing*/
- regTemp = ReadReg(pProslic, pProslic->channel, PROSLIC_REG_IRQEN1 );
- WriteReg (pProslic, pProslic->channel, PROSLIC_REG_IRQEN1, regTemp&(~0x80));
- }
-
- WriteReg(pProslic, pProslic->channel, PROSLIC_REG_LINEFEED, LF_RINGING);
- }
- else
- {
- return RC_IGNORE;
- }
- }
- else
- {
- uInt8 autord;
-
- /* Preserve the auto register so we can restore it at the end */
- autord = ReadReg(pProslic, pProslic->channel, PROSLIC_REG_AUTORD );
- WriteReg(pProslic, pProslic->channel, PROSLIC_REG_AUTORD, (autord & 0xFB) ); /* Disable AutoRD */
-
- lfState = ReadReg(pProslic, pProslic->channel, PROSLIC_REG_LINEFEED);
-
- if( (lfState & 0xF) == LF_RINGING )
- {
- WriteReg(pProslic, pProslic->channel, PROSLIC_REG_LINEFEED, newLinefeed);
- }
- else
- {
- /* We are already doing a state transition, abort request */
- if( ((lfState & 0xF0) == (LF_RINGING << 4) )
- && ( (lfState & 0xF) != LF_RINGING) )
- {
- WriteReg(pProslic, pProslic->channel, PROSLIC_REG_AUTORD, autord ); /* restore the autord bit */
- return RC_IGNORE;
- }
-
- WriteReg(pProslic, pProslic->channel, PROSLIC_REG_LINEFEED, newLinefeed);
- }
- /* Restore autord */
- WriteReg(pProslic, pProslic->channel, PROSLIC_REG_AUTORD, autord );
-
- /* Restore IRQEN1 to what the user specified - if we changed it.. */
- if(irqen1 & 0x80)
- {
- WriteReg (pProslic, pProslic->channel, PROSLIC_REG_IRQEN1, irqen1);
- }
- }
- return RC_NONE;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_SetLinefeedStatusBroadcast (proslicChanType_ptr hProslic,
- uInt8 newLinefeed)
-{
- TRACEPRINT(hProslic, "linefeed = %u\n", newLinefeed);
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
- WriteReg(hProslic, PROSLIC_CHAN_BROADCAST, PROSLIC_REG_LINEFEED, newLinefeed);
- return RC_COMPLETE_NO_ERR;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_PolRev (proslicChanType_ptr pProslic,uInt8 abrupt,
- uInt8 newPolRevState)
-{
- uInt8 data = 0;
- TRACEPRINT(pProslic, "abrupt = %u newPolRevState = %u\n", abrupt,
- newPolRevState);
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
- switch (newPolRevState)
- {
- case POLREV_STOP:
- data = 0;
- break;
- case POLREV_START:
- data = 2;
- break;
- case WINK_START:
- data = 6;
- break;
- case WINK_STOP:
- data = 4;
- break;
- }
-
- /* Cannot polrev/wink while low power mode is active */
- ProSLIC_SetPowersaveMode(pProslic,PWRSAVE_DISABLE);
-
- if (abrupt)
- {
- data |= 1;
- }
-
- WriteReg(pProslic, pProslic->channel, PROSLIC_REG_POLREV,data);
-
- return RC_NONE;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_GPIOControl (proslicChanType_ptr pProslic,uInt8 *pGpioData,
- uInt8 read)
-{
- TRACEPRINT(pProslic, "\n", NULL);
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-#if defined(SI3217X) || defined (SI3226X)
- if( 0
-#ifdef SI3217X
- || (pProslic->deviceId->chipType >= SI32171
- && pProslic->deviceId->chipType <= SI32179)
-#endif
-#ifdef SI3226X
- || (pProslic->deviceId->chipType >= SI32260
- && pProslic->deviceId->chipType <= SI32269)
-#endif
- )
- {
- if (read)
- {
- *pGpioData = 0xf & ReadReg(pProslic,pProslic->channel,PROSLIC_REG_GPIO);
- }
- else
- {
- WriteReg(pProslic,pProslic->channel,PROSLIC_REG_GPIO,
- (*pGpioData)|(ReadReg(pProslic,pProslic->channel,PROSLIC_REG_GPIO)&0xf0));
- }
- return RC_NONE;
- }
-#else
- SILABS_UNREFERENCED_PARAMETER(read);
- SILABS_UNREFERENCED_PARAMETER(pGpioData);
-#endif
- return RC_COMPLETE_NO_ERR;
-}
-
-/*****************************************************************************************************/
-/*
-** Optional Neon Message Waiting Support
-*/
-#ifdef SIVOICE_NEON_MWI_SUPPORT
-int ProSLIC_MWISetV (proslicChanType_ptr hProslic, uInt16 vpk_mag)
-{
- uInt32 ram_val;
- uInt8 max;
-
- TRACEPRINT(hProslic, "vpk_mag = %u\n", vpk_mag);
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
- /* Set the maximum MWI voltage according to the chipset */
-#if defined (SI3217X) || defined (SI3226X)
- if( 0
-#ifdef SI3217X
- || (hProslic->deviceId->chipType >= SI32171
- && hProslic->deviceId->chipType <= SI32179)
-#endif
-#ifdef SI3226X
- || (hProslic->deviceId->chipType >= SI32260
- && hProslic->deviceId->chipType <= SI32269)
-#endif
- )
- {
- max = SIL_MWI_VPK_MAX;
- }
-#endif /*17x/26x */
-
-#if defined (SI3218X) || defined (SI3228X) || defined(SI3219X)
- if( 0
-#ifdef SI3218X
- || (hProslic->deviceId->chipType >= SI32180
- && hProslic->deviceId->chipType <= SI32189)
-#endif
-
-#ifdef SI3228X
- || (hProslic->deviceId->chipType >= SI32280
- && hProslic->deviceId->chipType <= SI32289)
-#endif
-
-#ifdef SI3219X
- || IS_SI3219X(hProslic->deviceId)
-#endif
-
-#ifdef SI3228X
- || (hProslic->deviceId->chipType >= SI32280
- && hProslic->deviceId->chipType <= SI32289)
-#endif
- )
- {
- max = SIL_MWI_VPK_MAX_LO;
- }
-#endif /* 18x, 28x, 19x */
-
- /* Voltage mod */
- if(vpk_mag > 0) /* Skip if 0 passed */
- {
- /* Clamp supplied value to allowable range */
- if(vpk_mag > max)
- {
- vpk_mag = max;
- }
- if(vpk_mag < SIL_MWI_VPK_MIN)
- {
- vpk_mag = SIL_MWI_VPK_MIN;
- }
- ram_val = vpk_mag * SCALE_R_MADC * 1000L;
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_MWI_V,ram_val);
- }
- return RC_COMPLETE_NO_ERR;
-}
-#endif
-
-/*****************************************************************************************************/
-#ifdef SIVOICE_NEON_MWI_SUPPORT
-int ProSLIC_MWIEnable (proslicChanType_ptr hProslic)
-{
- uInt8 val;
- ramData ram_val;
-
- TRACEPRINT(hProslic, "\n", NULL);
-
- /*
- ** Check for conditions that would prevent enabling MWI
- */
- ProSLIC_ReadHookStatus(hProslic,&val);
- if(val != PROSLIC_ONHOOK)
- {
- return RC_MWI_ENABLE_FAIL;
- }
-
- val = ReadReg(hProslic,hProslic->channel,PROSLIC_REG_USERSTAT);
-
- /* Check if PROSLIC and disabled MWI, if not, ignore this request. */
- if( (hProslic->channelType != PROSLIC)
- || (val & SIL_MWI_USTAT_SET ) )
- {
- return RC_IGNORE;
- }
-
- /* Save parameters */
- hProslic->mwiSave.ringof = ReadRAM(hProslic,hProslic->channel,PROSLIC_RAM_RINGOF);
- hProslic->mwiSave.ringamp = ReadRAM(hProslic,hProslic->channel,PROSLIC_RAM_RINGAMP);
- hProslic->mwiSave.vbatr_expect = ReadRAM(hProslic,hProslic->channel,PROSLIC_RAM_VBATR_EXPECT);
- hProslic->mwiSave.vov_ring_bat = ReadRAM(hProslic,hProslic->channel,PROSLIC_RAM_VOV_RING_BAT);
- hProslic->mwiSave.vov_ring_gnd = ReadRAM(hProslic,hProslic->channel,PROSLIC_RAM_VOV_RING_GND);
- hProslic->mwiSave.rtacth = ReadRAM(hProslic,hProslic->channel,PROSLIC_RAM_RTACTH);
- hProslic->mwiSave.rtdcth = ReadRAM(hProslic,hProslic->channel,PROSLIC_RAM_RTDCTH);
- hProslic->mwiSave.iring_lim = ReadRAM(hProslic,hProslic->channel,PROSLIC_RAM_IRING_LIM);
- hProslic->mwiSave.dcdc_rngtype = ReadRAM(hProslic,hProslic->channel,PROSLIC_RAM_DCDC_RNGTYPE);
- hProslic->mwiSave.slope_ring = ReadRAM(hProslic,hProslic->channel,PROSLIC_RAM_SLOPE_RING);
- hProslic->mwiSave.rtper = ReadRAM(hProslic,hProslic->channel,PROSLIC_RAM_RTPER);
- hProslic->mwiSave.ringfr = ReadRAM(hProslic,hProslic->channel,PROSLIC_RAM_RINGFR);
- hProslic->mwiSave.rtdcdb = ReadRAM(hProslic,hProslic->channel,PROSLIC_RAM_RTDCDB);
- hProslic->mwiSave.lcrmask = ReadRAM(hProslic,hProslic->channel,PROSLIC_RAM_LCRMASK);
- hProslic->mwiSave.dcdc_oithresh_lo = ReadRAM(hProslic,hProslic->channel,PROSLIC_RAM_DCDC_OITHRESH_LO);
- hProslic->mwiSave.enhance = ReadReg(hProslic,hProslic->channel,PROSLIC_REG_ENHANCE);
- hProslic->mwiSave.ringcon = ReadReg(hProslic,hProslic->channel,PROSLIC_REG_RINGCON);
- hProslic->mwiSave.userstat = val;
- hProslic->mwiSave.linefeed = ReadReg(hProslic,hProslic->channel,PROSLIC_REG_LINEFEED);
-
- /* Modify parameters */
- ProSLIC_SetLinefeedStatus(hProslic,LF_FWD_ACTIVE);
- ram_val = ReadRAM(hProslic,hProslic->channel,PROSLIC_RAM_MWI_V);
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_RINGOF,ram_val);
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_RINGAMP,0x0L);
-
- /* Set the VBATR_EXPECT according to the chipset */
-#if defined (SI3217X) || defined (SI3226X)
- if( 0
-#ifdef SI3217X
- || (hProslic->deviceId->chipType >= SI32171
- && hProslic->deviceId->chipType <= SI32179)
-#endif
-#ifdef SI3226X
- || (hProslic->deviceId->chipType >= SI32260
- && hProslic->deviceId->chipType <= SI32269)
-#endif
- )
- {
- ram_val = 0x7FFFFC2L;
- }
-#endif
-
-#if defined (SI3218X) || defined (SI3228X) || defined(SI3219X)
- if( 0
-#ifdef SI3218X
- || (hProslic->deviceId->chipType >= SI32180
- && hProslic->deviceId->chipType <= SI32189)
-#endif
-
-#ifdef SI3228X
- || (hProslic->deviceId->chipType >= SI32280
- && hProslic->deviceId->chipType <= SI32289)
-#endif
-
-#ifdef SI3219X
- || IS_SI3219X(hProslic->deviceId)
-#endif
- )
- {
- ram_val = 0x06866635L;
- }
-#endif /* 18x,28x, 19x */
-
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_VBATR_EXPECT,ram_val);
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_VOV_RING_BAT,0x0L);
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_VOV_RING_GND,0x051EB80L);
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_RTACTH,0x0FFFFFFFL);
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_RTDCTH,0x38E38EL);
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_IRING_LIM,0x380000L);
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_DCDC_RNGTYPE,0x100000L);
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_SLOPE_RING,0x15E5200EL);
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_RTPER,0x50000L);
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_RINGFR,0x07EFE000L);
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_RTDCDB,0x0000A000L);
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_LCRMASK,0x000F0000L);
- ram_val = ReadRAM(hProslic,hProslic->channel,PROSLIC_RAM_DCDC_OITHRESH_HI);
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_DCDC_OITHRESH_LO,ram_val);
- WriteReg(hProslic,hProslic->channel,PROSLIC_REG_ENHANCE,hProslic->mwiSave.enhance&0xEF);
- WriteReg(hProslic,hProslic->channel,PROSLIC_REG_RINGCON,0x00);
- WriteReg(hProslic,hProslic->channel,PROSLIC_REG_USERSTAT,0x0C);
-
- return RC_COMPLETE_NO_ERR;
-}
-#endif
-
-/*****************************************************************************************************/
-#ifdef SIVOICE_NEON_MWI_SUPPORT
-int ProSLIC_MWIDisable (proslicChanType_ptr hProslic)
-{
- TRACEPRINT(hProslic, "\n", NULL);
-
- /* Check if PROSLIC and enabled MWI, if not, ignore this request. */
- if( (hProslic->channelType != PROSLIC)
- || !(ReadReg(hProslic,hProslic->channel,PROSLIC_REG_USERSTAT) & SIL_MWI_USTAT_SET ) )
- {
- return RC_IGNORE;
- }
-
- ProSLIC_SetLinefeedStatus(hProslic,LF_FWD_ACTIVE);
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_RINGOF,hProslic->mwiSave.ringof);
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_RINGAMP,hProslic->mwiSave.ringamp);
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_VBATR_EXPECT,hProslic->mwiSave.vbatr_expect);
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_VOV_RING_BAT,hProslic->mwiSave.vov_ring_bat);
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_VOV_RING_GND,hProslic->mwiSave.vov_ring_gnd);
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_RTACTH,hProslic->mwiSave.rtacth);
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_RTDCTH,hProslic->mwiSave.rtdcth);
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_IRING_LIM,hProslic->mwiSave.iring_lim);
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_DCDC_RNGTYPE,hProslic->mwiSave.dcdc_rngtype);
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_SLOPE_RING,hProslic->mwiSave.slope_ring);
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_RTPER,hProslic->mwiSave.rtper);
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_RINGFR,hProslic->mwiSave.ringfr);
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_RTDCDB,hProslic->mwiSave.rtdcdb);
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_LCRMASK,hProslic->mwiSave.lcrmask);
- WriteRAM(hProslic,hProslic->channel,PROSLIC_RAM_DCDC_OITHRESH_LO,hProslic->mwiSave.dcdc_oithresh_lo);
- WriteReg(hProslic,hProslic->channel,PROSLIC_REG_ENHANCE,hProslic->mwiSave.enhance);
- WriteReg(hProslic,hProslic->channel,PROSLIC_REG_RINGCON,hProslic->mwiSave.ringcon);
- WriteReg(hProslic,hProslic->channel,PROSLIC_REG_USERSTAT,hProslic->mwiSave.userstat);
- ProSLIC_SetLinefeedStatus(hProslic,hProslic->mwiSave.linefeed);
-
- return RC_COMPLETE_NO_ERR;
-}
-#endif
-
-/*****************************************************************************************************/
-#ifdef SIVOICE_NEON_MWI_SUPPORT
-int ProSLIC_SetMWIState (proslicChanType_ptr hProslic,uInt8 flash_on)
-{
- TRACEPRINT(hProslic, "flash_on = %u\n", flash_on);
- /* Check if PROSLIC and enabled MWI, if not, ignore this request. */
- if( (hProslic->channelType != PROSLIC)
- || !(ReadReg(hProslic,hProslic->channel,PROSLIC_REG_USERSTAT) & SIL_MWI_USTAT_SET ) )
- {
- return RC_IGNORE;
- }
-
- if(flash_on)
- {
- ProSLIC_SetLinefeedStatus(hProslic,LF_RINGING);
- }
- else
- {
- ProSLIC_SetLinefeedStatus(hProslic,LF_FWD_ACTIVE);
- }
-
- return RC_COMPLETE_NO_ERR;
-}
-#endif
-
-/*****************************************************************************************************/
-#ifdef SIVOICE_NEON_MWI_SUPPORT
-int ProSLIC_GetMWIState (proslicChanType_ptr hProslic)
-{
- TRACEPRINT(hProslic, "\n", NULL);
- /* Check if PROSLIC and enabled MWI, if not, ignore this request. */
- if( (hProslic->channelType != PROSLIC)
- || !(ReadReg(hProslic,hProslic->channel,PROSLIC_REG_USERSTAT) & SIL_MWI_USTAT_SET ) )
- {
- return RC_IGNORE;
- }
-
- if(ReadReg(hProslic,hProslic->channel,PROSLIC_REG_LINEFEED) == 0x44)
- {
- return SIL_MWI_FLASH_ON;
- }
- else
- {
- return SIL_MWI_FLASH_OFF;
- }
-
- return RC_COMPLETE_NO_ERR;
-}
-#endif
-
-/******************************************************************************/
-#ifdef SIVOICE_NEON_MWI_SUPPORT
-int ProSLIC_MWIRampPoll(proslicChanType_ptr pProslic)
-{
- uInt32 mwi_voltage;
-
- /* Check if PROSLIC and enabled MWI, if not, ignore this request. */
- if( (pProslic->channelType != PROSLIC)
- || !(ReadReg(pProslic,pProslic->channel,PROSLIC_REG_USERSTAT) & SIL_MWI_USTAT_SET ) )
- {
- return RC_IGNORE;
- }
-
- switch(pProslic->mwiState.state)
- {
- case PROSLIC_MWI_RAMP_ON:
- {
- if(pProslic->mwiState.ticks == pProslic->mwiState.poll.steps)
- {
- mwi_voltage = pProslic->mwiState.poll.voff + pProslic->mwiState.poll.step_size;
- WriteRAM(pProslic,pProslic->channel,PROSLIC_RAM_RINGOF,mwi_voltage);
- ProSLIC_SetLinefeedStatus(pProslic,LF_RINGING);
- }
- else if(pProslic->mwiState.ticks == 0)
- {
- mwi_voltage = pProslic->mwiState.poll.von;
- WriteRAM(pProslic,pProslic->channel,PROSLIC_RAM_RINGOF,mwi_voltage);
- pProslic->mwiState.ticks = pProslic->mwiState.poll.onTime+1;
- pProslic->mwiState.state = PROSLIC_MWI_ON;
- }
- else
- {
- mwi_voltage = pProslic->mwiState.poll.voff + pProslic->mwiState.poll.step_size*(pProslic->mwiState.poll.steps - pProslic->mwiState.ticks + 1);
- WriteRAM(pProslic,pProslic->channel,PROSLIC_RAM_RINGOF,mwi_voltage);
- }
- }
- break;
-
- case PROSLIC_MWI_RAMP_OFF:
- {
- if(pProslic->mwiState.ticks == 0)
- {
- pProslic->mwiState.ticks = pProslic->mwiState.poll.offTime+1;
- pProslic->mwiState.state = PROSLIC_MWI_OFF;
- ProSLIC_SetLinefeedStatus(pProslic,LF_FWD_ACTIVE);
- }
- else
- {
- mwi_voltage = pProslic->mwiState.poll.von - (pProslic->mwiState.poll.steps - pProslic->mwiState.ticks + 1)*pProslic->mwiState.poll.step_size;
- WriteRAM(pProslic,pProslic->channel,PROSLIC_RAM_RINGOF,mwi_voltage);
- }
- break;
- }
-
- case PROSLIC_MWI_ON:
- if(pProslic->mwiState.ticks == 0)
- {
- pProslic->mwiState.ticks = pProslic->mwiState.poll.steps+1;
- pProslic->mwiState.state = PROSLIC_MWI_RAMP_OFF;
- }
- break;
-
- case PROSLIC_MWI_OFF:
- if(pProslic->mwiState.ticks == 0)
- {
- pProslic->mwiState.ticks = pProslic->mwiState.poll.steps+1;
- pProslic->mwiState.state = PROSLIC_MWI_RAMP_ON;
- }
- break;
-
- default:
- /* Do nothing */
- break;
- }
- (pProslic->mwiState.ticks)--;
-
- return RC_COMPLETE_NO_ERR;
-}
-#endif
-
-/******************************************************************************/
-#ifdef SIVOICE_NEON_MWI_SUPPORT
-int ProSLIC_MWIRampStart(proslicChanType_ptr pProslic, uInt32 steps, uInt32 onTime, uInt32 offTime)
-{
- /* Check if PROSLIC and enabled MWI, if not, ignore this request. */
- if( (pProslic->channelType != PROSLIC)
- || !(ReadReg(pProslic,pProslic->channel,PROSLIC_REG_USERSTAT) & SIL_MWI_USTAT_SET ) )
- {
- return RC_IGNORE;
- }
-
- pProslic->mwiState.poll.steps = steps-1;
- pProslic->mwiState.poll.onTime = onTime;
- pProslic->mwiState.poll.offTime = offTime;
-
- pProslic->mwiState.poll.von = ReadRAM(pProslic,pProslic->channel,PROSLIC_RAM_MWI_V);
- pProslic->mwiState.poll.voff = (ReadRAM(pProslic,pProslic->channel,PROSLIC_RAM_V_VLIM)*5)/6;
- pProslic->mwiState.poll.step_size = (pProslic->mwiState.poll.von - pProslic->mwiState.poll.voff)/steps;
-
- pProslic->mwiState.state = PROSLIC_MWI_RAMP_ON;
- pProslic->mwiState.ticks = pProslic->mwiState.poll.steps;
-
- return RC_COMPLETE_NO_ERR;
-}
-#endif
-
-/******************************************************************************/
-#ifdef SIVOICE_NEON_MWI_SUPPORT
-int ProSLIC_MWIRampStop(proslicChanType_ptr pProslic)
-{
- /* Check if PROSLIC and enabled MWI, if not, ignore this request. */
- if( (pProslic->channelType != PROSLIC)
- || !(ReadReg(pProslic,pProslic->channel,PROSLIC_REG_USERSTAT) & SIL_MWI_USTAT_SET ) )
- {
- return RC_IGNORE;
- }
- pProslic->mwiState.state = PROSLIC_MWI_OFF;
-
- return RC_COMPLETE_NO_ERR;
-}
-#endif
-
-/*****************************************************************************************************/
-int ProSLIC_ToneGenStart (proslicChanType_ptr pProslic,uInt8 timerEn)
-{
- uInt8 data;
- TRACEPRINT(pProslic, "timerEn = %u\n", timerEn);
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
- DEBUG_PRINT(pProslic, "%s%s on channel %d\n",LOGPRINT_PREFIX, __FUNCTION__,
- pProslic->channel);
-
- data = ReadReg(pProslic,pProslic->channel,PROSLIC_REG_OCON);
- data |= 0x11 + (timerEn ? 0x66 : 0);
- return WriteReg(pProslic,pProslic->channel,PROSLIC_REG_OCON,data);
-}
-
-/*****************************************************************************************************/
-int ProSLIC_ToneGenStop (proslicChanType_ptr pProslic)
-{
- uInt8 data;
- TRACEPRINT(pProslic, "\n", NULL);
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
- DEBUG_PRINT(pProslic,"%s%s on channel %d\n",LOGPRINT_PREFIX, __FUNCTION__,
- pProslic->channel);
- data = ReadReg(pProslic,pProslic->channel,PROSLIC_REG_OCON);
- data &= ~(0x77);
- return WriteReg(pProslic,pProslic->channel,PROSLIC_REG_OCON,data);
-}
-
-/*****************************************************************************************************/
-int ProSLIC_RingStart (proslicChanType_ptr pProslic)
-{
- TRACEPRINT(pProslic, "\n", NULL);
- return(ProSLIC_SetLinefeedStatus(pProslic, LF_RINGING));
-}
-
-/*****************************************************************************************************/
-int ProSLIC_RingStop (proslicChanType_ptr pProslic)
-{
- TRACEPRINT(pProslic, "\n", NULL);
- return(ProSLIC_SetLinefeedStatus(pProslic, LF_FWD_ACTIVE));
-}
-
-#ifndef DISABLE_FSK_SETUP
-/*****************************************************************************************************/
-int ProSLIC_CheckCIDBuffer (proslicChanType_ptr pProslic, uInt8 *fsk_buf_avail)
-{
- uInt8 data;
- TRACEPRINT(pProslic, "\n", NULL);
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
- data = ReadReg(pProslic,pProslic->channel, PROSLIC_REG_IRQ1);
-#ifdef GCI_MODE
- WriteReg(pProslic,pProslic->channel, PROSLIC_REG_IRQ1,data); /*clear (for GCI)*/
-#endif
- *fsk_buf_avail = (data&0x40) ? 1 : 0;
- return RC_NONE;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_EnableCID (proslicChanType_ptr pProslic)
-{
- uInt8 data;
- TRACEPRINT(pProslic, "\n", NULL);
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
- DEBUG_PRINT(pProslic, "%sEnableCID on channel %d\n",LOGPRINT_PREFIX,
- pProslic->channel);
- WriteReg(pProslic,pProslic->channel,PROSLIC_REG_OCON,0);
-
- data = ReadReg(pProslic,pProslic->channel,PROSLIC_REG_OMODE);
- data |= 0xA;
- WriteReg(pProslic,pProslic->channel,PROSLIC_REG_OMODE,data);
-
- return(WriteReg(pProslic,pProslic->channel,PROSLIC_REG_OCON,0x5));
-}
-
-/*****************************************************************************************************/
-int ProSLIC_DisableCID (proslicChanType_ptr pProslic)
-{
- uInt8 data;
- TRACEPRINT(pProslic, "\n", NULL);
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
- DEBUG_PRINT(pProslic, "%sDisableCID on channel %d\n",LOGPRINT_PREFIX,
- pProslic->channel);
- WriteReg(pProslic,pProslic->channel,PROSLIC_REG_OCON,0);
- data = ReadReg(pProslic,pProslic->channel,PROSLIC_REG_OMODE);
- data &= ~(0x8);
-
- return(WriteReg(pProslic,pProslic->channel,PROSLIC_REG_OMODE,data));
-}
-
-/*****************************************************************************************************/
-int ProSLIC_SendCID (proslicChanType_ptr pProslic, uInt8 *buffer,
- uInt8 numBytes)
-{
- TRACEPRINT(pProslic, "numBytes = %u\n", numBytes);
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
- DEBUG_PRINT (pProslic, "%sSendCID on channel %d\n",LOGPRINT_PREFIX,
- pProslic->channel);
- while (numBytes-- > 0)
- {
- WriteReg(pProslic,pProslic->channel,PROSLIC_REG_FSKDAT,*(buffer++));
- }
- return RC_NONE;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_ModifyCIDStartBits(proslicChanType_ptr pProslic,
- uInt8 enable_startStop)
-{
- uInt8 data;
- TRACEPRINT(pProslic, "enable_startStop = %u\n", enable_startStop);
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_CHANNEL_TYPE_ERR;
- }
-
- data = ReadReg(pProslic,pProslic->channel,PROSLIC_REG_OMODE);
-
- if(enable_startStop == FALSE)
- {
- data &= ~0x80;
- }
- else
- {
- data |= 0x80;
- }
-
- WriteReg(pProslic,pProslic->channel,PROSLIC_REG_OMODE,data);
-
- return RC_NONE;
-}
-#endif /* DISABLE_FSK_SETUP */
-/*****************************************************************************************************/
-int ProSLIC_PCMStart (proslicChanType_ptr pProslic)
-{
- uInt8 data;
- TRACEPRINT(pProslic, "\n", NULL);
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
- DEBUG_PRINT(pProslic, "%sPCMStart\n", LOGPRINT_PREFIX);
- data = ReadReg(pProslic,pProslic->channel,PROSLIC_REG_PCMMODE);
- data |= 0x10;
-
- return WriteReg(pProslic,pProslic->channel,PROSLIC_REG_PCMMODE,data);
-}
-
-/*****************************************************************************************************/
-int ProSLIC_PCMStop (proslicChanType_ptr pProslic)
-{
- uInt8 data;
- TRACEPRINT(pProslic, "\n", NULL);
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
- DEBUG_PRINT(pProslic, "%sPCMStart\n", LOGPRINT_PREFIX);
- data = ReadReg(pProslic,pProslic->channel,PROSLIC_REG_PCMMODE);
- data &= ~0x10;
-
- return WriteReg(pProslic,pProslic->channel,PROSLIC_REG_PCMMODE,data);
-}
-
-#ifndef DISABLE_HOOKCHANGE
-/*****************************************************************************************************/
-/*
-** Function: ProSLIC_ResetDialPulseDetect
-**
-** Description:
-** reset dial pulse detection state machine (helper function for
-** ProSLIC_InitializeHookChangeDetect.
-*/
-static void ProSLIC_ResetDialPulseDetect(hookChangeType *pPulse)
-{
- pPulse->currentPulseDigit = 0;
- pPulse->lookingForTimeout = 0;
-}
-
-/*****************************************************************************************************/
-/*
-** Function: ProSLIC_InitializeHookChangeDetect
-**
-** Description:
-** Initialize dial pulse detection parameters
-*/
-int ProSLIC_InitializeHookChangeDetect(hookChangeType *pPulse,void *hookTime)
-{
- TRACEPRINT_NOCHAN("\n", NULL);
- pPulse->hookTime = hookTime;
- pPulse->last_state_reported = SI_HC_NO_ACTIVITY;
- ProSLIC_ResetDialPulseDetect(pPulse);
- return RC_NONE;
-}
-
-/*****************************************************************************************************/
-/*
-** Function: ProSLIC_HookChangeDetect
-**
-** Description:
-** implements pulse dial detection and should be called at every hook transition
-*/
-uInt8 ProSLIC_HookChangeDetect (proslicChanType *pProslic,
- hookChange_Cfg *pHookChangeCfg, hookChangeType *pHookChangeData)
-{
- uInt8 hookStat;
- int delta_time;
-
- TRACEPRINT(pProslic, "\n", NULL);
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
- TimeElapsed(pProTimer,pHookChangeData->hookTime,&delta_time);
- ProSLIC_ReadHookStatus(pProslic,&hookStat);
-
- /* Did we have a hook state change? */
- if(hookStat != pHookChangeData->last_hook_state)
- {
- pHookChangeData->last_hook_state = hookStat;
- getTime(pProTimer,pHookChangeData->hookTime);
- pHookChangeData->lookingForTimeout = 1;
- if (hookStat == PROSLIC_OFFHOOK)
- {
- if ((delta_time >= (pHookChangeCfg->minOnHook))
- && (delta_time <= (pHookChangeCfg->maxOnHook)))
- {
- pHookChangeData->currentPulseDigit++;
- }
- else
- {
- /* Did we see a hook flash? */
- if( (delta_time >= pHookChangeCfg->minHookFlash)
- && (delta_time <= pHookChangeCfg->maxHookFlash) )
- {
- pHookChangeData->last_state_reported = SI_HC_HOOKFLASH;
- ProSLIC_ResetDialPulseDetect(pHookChangeData);
- return SI_HC_HOOKFLASH;
- }
- }
- }
-
- return SI_HC_NEED_MORE_POLLS;
- }
-
- if( (pHookChangeData->lookingForTimeout == 1)
- && (delta_time >= pHookChangeCfg->minInterDigit) )
- {
-
- if(delta_time > pHookChangeCfg->minHook)
- {
- if(pHookChangeData->last_hook_state == PROSLIC_ONHOOK)
- {
- ProSLIC_ResetDialPulseDetect(pHookChangeData);
- pHookChangeData->last_state_reported = SI_HC_ONHOOK_TIMEOUT;
- return SI_HC_ONHOOK_TIMEOUT;
- }
-
- if(pHookChangeData->last_hook_state == PROSLIC_OFFHOOK)
- {
- ProSLIC_ResetDialPulseDetect(pHookChangeData);
-
- /* Check if we saw either a pulse digit or hook flash prior to this,
- * if so, we're already offhook, so do not report a offhook event,
- * just stop polling.
- */
- if((pHookChangeData->last_state_reported == SI_HC_ONHOOK_TIMEOUT)
- || (pHookChangeData->last_state_reported == SI_HC_NO_ACTIVITY) )
- {
- pHookChangeData->last_state_reported = SI_HC_OFFHOOK_TIMEOUT;
- return SI_HC_OFFHOOK_TIMEOUT;
- }
- else
- {
- return SI_HC_NO_ACTIVITY;
- }
- }
- }
- else
- {
- uInt8 last_digit = pHookChangeData->currentPulseDigit;
-
- if(last_digit)
- {
- pHookChangeData->last_state_reported = last_digit;
- ProSLIC_ResetDialPulseDetect(pHookChangeData);
- return last_digit;
- }
- }
- return SI_HC_NEED_MORE_POLLS;
- }
-
- return SI_HC_NEED_MORE_POLLS;
-}
-#endif /* DISABLE_HOOKCHANGE */
-
-/*****************************************************************************************************/
-int ProSLIC_DTMFReadDigit (proslicChanType_ptr pProslic,uInt8 *pDigit)
-{
- TRACEPRINT(pProslic, "\n", NULL);
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
- DEBUG_PRINT(pProslic, "%sDTMFReadDigit on channel %d\n",LOGPRINT_PREFIX,
- pProslic->channel);
- *pDigit = ReadReg(pProslic,pProslic->channel,PROSLIC_REG_TONDTMF) & 0xf;
-
- return RC_NONE;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_PLLFreeRunStart (proslicChanType_ptr hProslic)
-{
- uInt8 tmp;
- TRACEPRINT(hProslic, "\n", NULL);
-
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
- WriteReg(hProslic,hProslic->channel,PROSLIC_REG_ZCAL_EN,0x00);
- tmp = ReadReg(hProslic,hProslic->channel,PROSLIC_REG_ENHANCE);
-
- return(WriteReg(hProslic,hProslic->channel,PROSLIC_REG_ENHANCE,tmp|0x4));
-}
-
-/*****************************************************************************************************/
-int ProSLIC_PLLFreeRunStop (proslicChanType_ptr hProslic)
-{
- uInt8 tmp;
- TRACEPRINT(hProslic, "\n", NULL);
-
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
- tmp = ReadReg(hProslic,hProslic->channel,PROSLIC_REG_ENHANCE);
- WriteReg(hProslic,hProslic->channel,PROSLIC_REG_ENHANCE,tmp&~(0x4));
-
- return WriteReg(hProslic,hProslic->channel,PROSLIC_REG_ZCAL_EN,0x04);
-}
-
-/*****************************************************************************************************/
-int ProSLIC_GetPLLFreeRunStatus (proslicChanType_ptr hProslic)
-{
- uInt8 tmp;
- TRACEPRINT(hProslic, "\n", NULL);
-
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
- tmp = ReadReg(hProslic,hProslic->channel,PROSLIC_REG_ENHANCE);
-
- if(tmp & 0x02)
- {
- return RC_PLL_FREERUN_ACTIVE;
- }
-
- return RC_NONE;
-}
-
-/*****************************************************************************************************/
-#ifndef DISABLE_PULSEMETERING
-int ProSLIC_PulseMeterEnable (proslicChanType_ptr hProslic)
-{
- uInt8 widebandEn;
- TRACEPRINT(hProslic, "\n", NULL);
-
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
- widebandEn = ReadReg(hProslic,hProslic->channel,PROSLIC_REG_ENHANCE) & 0x01;
-
- if (widebandEn)
- {
- DEBUG_PRINT (hProslic,
- "%s Pulse Metering is not supported while Wideband Mode is enabled.\n",
- LOGPRINT_PREFIX);
- }
-
-#if defined (SI3217X) || defined (SI3218X) || defined (SI3226X) || defined (SI3228X) || defined(SI3219X)
- if(!widebandEn && (0
-#ifdef SI3217X
- || (hProslic->deviceId->chipType >= SI32171
- && hProslic->deviceId->chipType <= SI32179)
-#endif
-#ifdef SI3218X
- ||(hProslic->deviceId->chipType >= SI32180
- && hProslic->deviceId->chipType <= SI32189)
-#endif
-#ifdef SI3219X
- || (IS_SI3219X(hProslic->deviceId) )
-#endif
-#ifdef SI3226X
- || (hProslic->deviceId->chipType >= SI32260
- && hProslic->deviceId->chipType <= SI32269)
-#endif
-#ifdef SI3228X
- || (hProslic->deviceId->chipType >= SI32280
- && hProslic->deviceId->chipType <= SI32289 )
-#endif
- ))
- {
- return WriteReg(hProslic,hProslic->channel,PROSLIC_REG_PMCON,ReadReg(hProslic,
- hProslic->channel,PROSLIC_REG_PMCON) | (0x01));
- }
-#endif
- return RC_COMPLETE_NO_ERR;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_PulseMeterDisable (proslicChanType_ptr hProslic)
-{
- TRACEPRINT(hProslic, "\n", NULL);
-
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
- return(WriteReg(hProslic,hProslic->channel,PROSLIC_REG_PMCON,ReadReg(hProslic,
- hProslic->channel,PROSLIC_REG_PMCON) & ~(0x05)));
-}
-
-/*****************************************************************************************************/
-int ProSLIC_PulseMeterStart (proslicChanType_ptr hProslic)
-{
- TRACEPRINT(hProslic, "\n", NULL);
-
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
- return WriteReg(hProslic,hProslic->channel,PROSLIC_REG_PMCON,ReadReg(hProslic,
- hProslic->channel,PROSLIC_REG_PMCON) | (0x5));
-}
-
-/*****************************************************************************************************/
-int ProSLIC_PulseMeterStop (proslicChanType_ptr hProslic)
-{
- TRACEPRINT(hProslic, "\n", NULL);
-
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
-#ifdef SI3217X
- if (hProslic->deviceId->chipType >= SI32171
- && hProslic->deviceId->chipType <= SI32179)
- {
- return(WriteReg(hProslic,hProslic->channel,PROSLIC_REG_PMCON,ReadReg(hProslic,
- hProslic->channel,PROSLIC_REG_PMCON) & ~(0x04)));
- }
-#endif
-
-#ifdef SI3218X
- if (hProslic->deviceId->chipType >= SI32180
- && hProslic->deviceId->chipType <= SI32189)
- {
- return(WriteReg(hProslic,hProslic->channel,PROSLIC_REG_PMCON,ReadReg(hProslic,
- hProslic->channel,PROSLIC_REG_PMCON) & ~(0x04)));
- }
-#endif
-
-#ifdef SI3219X
- if ( IS_SI3219X(hProslic->deviceId) )
- {
- return(WriteReg(hProslic,hProslic->channel,PROSLIC_REG_PMCON,ReadReg(hProslic,
- hProslic->channel,PROSLIC_REG_PMCON) & ~(0x04)));
- }
-#endif
-
-#ifdef SI3226X
- if (hProslic->deviceId->chipType >= SI32260
- && hProslic->deviceId->chipType <= SI32269)
- {
- return ProSLIC_PulseMeterDisable(hProslic);
- }
-#endif
-
-#ifdef SI3228X
- if (hProslic->deviceId->chipType >= SI32280
- && hProslic->deviceId->chipType <= SI32289)
- {
- return ProSLIC_PulseMeterDisable(hProslic);
- }
-#endif
-
- return RC_COMPLETE_NO_ERR;
-}
-#endif /* DISABLE_PULSEMETERING */
-/*****************************************************************************************************/
-int ProSLIC_SetDCDCInversionFlag (proslicChanType_ptr hProslic, uInt8 flag)
-{
- TRACEPRINT(hProslic, "flag = %u\n", flag);
-
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
- hProslic->dcdc_polarity_invert = flag;
-
- return RC_COMPLETE_NO_ERR;
-}
-
-
-int ProSLIC_PowerUpConverter (proslicChanType_ptr hProslic)
-{
- if(hProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
-#ifdef SI3217X
- if (hProslic->deviceId->chipType >= SI32171
- && hProslic->deviceId->chipType <= SI32179)
- {
- return Si3217x_PowerUpConverter(hProslic);
- }
-#endif
-
-#ifdef SI3218X
- if (hProslic->deviceId->chipType >= SI32180
- && hProslic->deviceId->chipType <= SI32189)
- {
- return Si3218x_PowerUpConverter(hProslic);
- }
-#endif
-
-#ifdef SI3219X
- if ( IS_SI3219X(hProslic->deviceId) )
- {
- return Si3219x_PowerUpConverter(hProslic);
- }
-#endif
-
-#ifdef SI3226X
- if (hProslic->deviceId->chipType >= SI32260
- && hProslic->deviceId->chipType <= SI32269)
- {
- return Si3226x_PowerUpConverter(hProslic);
- }
-#endif
-
-#ifdef SI3228X
- if (hProslic->deviceId->chipType >= SI32280
- && hProslic->deviceId->chipType <= SI32289)
- {
- return Si3228x_PowerUpConverter(hProslic);
- }
-#endif
-
- return RC_COMPLETE_NO_ERR;
-}
-/*****************************************************************************************************/
-static int ProSLIC_GetBatType(proslicChanType_ptr hProslic)
-{
-#ifdef SI3226X
- if (hProslic->deviceId->chipType >= SI32260
- && hProslic->deviceId->chipType <= SI32269)
- {
- return Si3226x_General_Configuration.batType;
- }
-#endif
-
-#ifdef SI3228X
- if (hProslic->deviceId->chipType >= SI32280
- && hProslic->deviceId->chipType <= SI32289)
- {
- return Si3228x_General_Configuration.batType;
- }
-#endif
-
-#if !defined(SI3226X) && !defined(SI3228X)
- SILABS_UNREFERENCED_PARAMETER(hProslic);
-#endif
- return BO_DCDC_UNKNOWN;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_PowerDownConverter (proslicChanType_ptr pProslic)
-{
- errorCodeType error = RC_NONE;
- int32 vbat;
- int timer = 0;
-
- TRACEPRINT(pProslic, "\n", NULL);
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
- /* Force channel out of powersavings mode and then put it in open state */
- WriteReg(pProslic,pProslic->channel,PROSLIC_REG_LINEFEED,LF_FWD_OHT);
- Delay(pProTimer,10);
- WriteReg(pProslic,pProslic->channel,PROSLIC_REG_LINEFEED, LF_OPEN);
- Delay(pProTimer,50);
-
- /* Don't try to shutdown converter if we're using external supplies or if the
- converter is already shutdown.
- */
- if((ProSLIC_GetBatType(pProslic) == BO_DCDC_EXTERNAL) ||
- (ReadRAM(pProslic,pProslic->channel,PROSLIC_RAM_PD_DCDC) & 0x100000) )
- {
- return RC_NONE;
- }
-
- WriteRAM(pProslic,pProslic->channel,PROSLIC_RAM_PD_DCDC,0x900000L);
- Delay(pProTimer,50);
-
- do
- {
- vbat = ReadRAM(pProslic, pProslic->channel, PROSLIC_RAM_MADC_VBAT);
- if(vbat & 0x10000000L)
- {
- vbat |= 0xF0000000L;
- }
- Delay(pProTimer,10);
- }
- while((vbat > COMP_5V) && (timer++ < PROSLIC_TIMEOUT_DCDC_DOWN));
-
- DEBUG_PRINT(pProslic, "%s VBAT Down = %d.%d v\n", LOGPRINT_PREFIX,
- (int)((vbat/SCALE_V_MADC)/1000),
- SIVOICE_ABS(((vbat/SCALE_V_MADC) - (vbat/SCALE_V_MADC)/1000*1000)));
-
- if(timer > PROSLIC_TIMEOUT_DCDC_DOWN)
- {
- /* Error handling - shutdown converter, disable channel, set error tag */
- pProslic->channelEnable = 0;
- pProslic->error = error = RC_VBAT_DOWN_TIMEOUT;
- DEBUG_PRINT(pProslic, "%sDCDC Power Down timeout channel %d\n", LOGPRINT_PREFIX,
- pProslic->channel);
- }
- return error;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_LBCal (proslicChanType_ptr *pProslic, int size)
-{
- int k;
- int timeout;
- uInt8 data;
- uInt8 lfState, enhance_value;
- TRACEPRINT(*pProslic, "size = %d\n", size);
-
- if((*pProslic)->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
- /* For all channels, save settings, initiate LBCAL */
- for(k = 0; k < size; k++)
- {
- if( (pProslic[k]->channelEnable) && (pProslic[k]->channelType == PROSLIC) )
- {
- DEBUG_PRINT(pProslic[k], "%sStarting LB Cal on channel %d\n", LOGPRINT_PREFIX,
- pProslic[k]->channel);
- /* Preserve old settings */
- lfState = ReadReg(pProslic[k], pProslic[k]->channel, PROSLIC_REG_LINEFEED);
- enhance_value = ReadReg(pProslic[k], pProslic[k]->channel, PROSLIC_REG_ENHANCE);
- ProSLIC_SetPowersaveMode(pProslic[k], PWRSAVE_DISABLE);
- ProSLIC_SetLinefeedStatus(pProslic[k], LF_FWD_ACTIVE);
- WriteReg(pProslic[k], pProslic[k]->channel, PROSLIC_REG_CALR0, CAL_LB_ALL);
- WriteReg(pProslic[k], pProslic[k]->channel, PROSLIC_REG_CALR3, 0x80);
- pProslic[k]->error = RC_CAL_TIMEOUT; /* Assume failure */
-
- timeout = 0;
- do
- {
- data = ReadReg(pProslic[k], pProslic[k]->channel, PROSLIC_REG_CALR3);
- DelayX(*pProslic, 10);
- timeout++;
- }
- while((data & 0x80) && (timeout < TIMEOUT_LB_CAL));
-
- if( (data & 0x80) )
- {
- DEBUG_PRINT(pProslic[k], "%sLB Cal timeout on channel %d\n", LOGPRINT_PREFIX,
- pProslic[k]->channel);
- WriteReg(pProslic[k], pProslic[k]->channel, PROSLIC_REG_LINEFEED, LF_OPEN);
- return RC_CAL_TIMEOUT;
- }
- else
- {
- WriteReg(pProslic[k], pProslic[k]->channel, PROSLIC_REG_LINEFEED, lfState);
- WriteReg(pProslic[k], pProslic[k]->channel, PROSLIC_REG_ENHANCE, enhance_value);
- pProslic[k]->error = RC_NONE;
- }
- }
- }
- return RC_NONE;
-}
-
-/*****************************************************************************************************/
-#define PROSLIC_RAM_CMDAC_FWD 1476
-#define PROSLIC_RAM_CMDAC_REV 1477
-#define PROSLIC_RAM_CAL_TRNRD_DACT 1458
-#define PROSLIC_RAM_CAL_TRNRD_DACR 1459
-
-int ProSLIC_GetLBCalResult (proslicChanType *pProslic,int32 *result1,
- int32 *result2, int32 *result3, int32 *result4)
-{
- TRACEPRINT(pProslic, "\n", NULL);
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
- *result1 = ReadRAM(pProslic, pProslic->channel, PROSLIC_RAM_CMDAC_FWD);
- *result2 = ReadRAM(pProslic, pProslic->channel, PROSLIC_RAM_CMDAC_REV);
- *result3 = ReadRAM(pProslic, pProslic->channel, PROSLIC_RAM_CAL_TRNRD_DACT);
- *result4 = ReadRAM(pProslic, pProslic->channel, PROSLIC_RAM_CAL_TRNRD_DACR);
-
- return RC_NONE;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_GetLBCalResultPacked (proslicChanType *pProslic,int32 *result)
-{
- int32 results[4];
- int rc;
- TRACEPRINT(pProslic, "\n", NULL);
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
- rc = ProSLIC_GetLBCalResult(pProslic, &(results[0]), &(results[1]),
- &(results[2]), &(results[3]));
- if(rc == RC_NONE)
- {
- /*
- Bits 31:24 CMDAC_FWD[25:18]
- Bits 23:16 CMDAC_REV[25:18]
- Bits 15:8 CAL_TRNRD_DACT[20:13]
- Bits 7:0 CAL_TRNRD_DACR[20:13]
- */
- *result = (results[0]<<6) & 0xff000000L;
- *result |=(results[1]>>1) & 0x00ff0000L;
- *result |=(results[2]>>5) & 0x0000ff00L;
- *result |=(results[3]>>13)& 0x000000ffL;
- }
-
- return rc;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_LoadPreviousLBCal (proslicChanType *pProslic,int32 result1,
- int32 result2,int32 result3,int32 result4)
-{
- TRACEPRINT(pProslic, "\n", NULL);
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
- WriteRAM(pProslic,pProslic->channel,PROSLIC_RAM_CMDAC_FWD,result1);
- WriteRAM(pProslic,pProslic->channel,PROSLIC_RAM_CMDAC_REV,result2);
- WriteRAM(pProslic,pProslic->channel,PROSLIC_RAM_CAL_TRNRD_DACT,result3);
- WriteRAM(pProslic,pProslic->channel,PROSLIC_RAM_CAL_TRNRD_DACR,result4);
-
-#ifdef API_TEST
- ramVal = ReadRAM(pProslic,pProslic->channel,PROSLIC_RAM_CMDAC_FWD);
- LOGPRINT ("%s UNPACKED CMDAC_FWD = %08x\n", LOGPRINT_PREFIX, ramVal);
- ramVal = ReadRAM(pProslic, pProslic->channel,PROSLIC_RAM_CMDAC_REV);
- LOGPRINT ("%s UNPACKED CMDAC_REF = %08x\n", LOGPRINT_PREFIX, ramVal);
- ramVal = ReadRAM(pProslic,pProslic->channel,PROSLIC_RAM_CAL_TRNRD_DACT);
- LOGPRINT ("%s UNPACKED CAL_TRNRD_DACT = %08x\n", LOGPRINT_PREFIX, ramVal);
- ramVal = ReadRAM(pProslic,pProslic->channel,PROSLIC_RAM_CAL_TRNRD_DACR);
- LOGPRINT ("%s UNPACKED CAL_TRNRD_DACR = %08x\n", LOGPRINT_PREFIX, ramVal);
-#endif
-
- return RC_NONE;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_LoadPreviousLBCalPacked (proslicChanType *pProslic,int32 *result)
-{
- ramData ramVal[4];
- TRACEPRINT(pProslic, "\n", NULL);
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
- ramVal[0] = (*result&0xff000000L)>>6;
- ramVal[1] = (*result&0x00ff0000L)<<1;
- ramVal[2] = (*result&0x0000ff00L)<<5;
- ramVal[3] = (*result&0x000000ffL)<<13;
-
- return ProSLIC_LoadPreviousLBCal(pProslic, ramVal[0], ramVal[1], ramVal[2],
- ramVal[3]);
-}
-
-/*****************************************************************************************************/
-int ProSLIC_dbgSetDCFeedVopen (proslicChanType *pProslic, uInt32 v_vlim_val,
- int32 preset)
-{
- TRACEPRINT(pProslic, "v_vlim_val = %u preset = %d\n", v_vlim_val, preset);
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-#ifdef SI3217X
- if (pProslic->deviceId->chipType >= SI32171
- && pProslic->deviceId->chipType <= SI32179)
- {
- return Si3217x_dbgSetDCFeedVopen (pProslic,v_vlim_val,preset);
- }
-#endif
-
-#ifdef SI3218X
- if (pProslic->deviceId->chipType >= SI32180
- && pProslic->deviceId->chipType <= SI32189)
- {
- return Si3218x_dbgSetDCFeedVopen (pProslic,v_vlim_val,preset);
- }
-#endif
-
-#ifdef SI3219X
- if ( IS_SI3219X(pProslic->deviceId) )
- {
- return Si3219x_dbgSetDCFeedVopen (pProslic,v_vlim_val,preset);
- }
-#endif
-
-#ifdef SI3226X
- if (pProslic->deviceId->chipType >= SI32260
- && pProslic->deviceId->chipType <= SI32269)
- {
- return Si3226x_dbgSetDCFeedVopen (pProslic,v_vlim_val,preset);
- }
-#endif
-
-#ifdef SI3228X
- if (pProslic->deviceId->chipType >= SI32280
- && pProslic->deviceId->chipType <= SI32289)
- {
- return Si3228x_dbgSetDCFeedVopen (pProslic,v_vlim_val,preset);
- }
-#endif
-
- return RC_COMPLETE_NO_ERR;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_dbgSetDCFeedIloop (proslicChanType *pProslic, uInt32 i_ilim_val,
- int32 preset)
-{
- TRACEPRINT(pProslic, "i_ilim_val = %u preset = %d\n", i_ilim_val, preset);
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-#ifdef SI3217X
- if (pProslic->deviceId->chipType >= SI32171
- && pProslic->deviceId->chipType <= SI32179)
- {
- return Si3217x_dbgSetDCFeedIloop (pProslic,i_ilim_val,preset);
- }
-#endif
-
-#ifdef SI3218X
- if (pProslic->deviceId->chipType >= SI32180
- && pProslic->deviceId->chipType <= SI32189)
- {
- return Si3218x_dbgSetDCFeedIloop (pProslic,i_ilim_val,preset);
- }
-#endif
-
-#ifdef SI3219X
- if ( IS_SI3219X(pProslic->deviceId) )
- {
- return Si3219x_dbgSetDCFeedIloop (pProslic,i_ilim_val,preset);
- }
-#endif
-
-#ifdef SI3226X
- if (pProslic->deviceId->chipType >= SI32260
- && pProslic->deviceId->chipType <= SI32269)
- {
- return Si3226x_dbgSetDCFeedIloop (pProslic,i_ilim_val,preset);
- }
-#endif
-
-#ifdef SI3228X
- if (pProslic->deviceId->chipType >= SI32280
- && pProslic->deviceId->chipType <= SI32289)
- {
- return Si3228x_dbgSetDCFeedIloop (pProslic,i_ilim_val,preset);
- }
-#endif
-
- return RC_COMPLETE_NO_ERR;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_dbgSetRinging (proslicChanType *pProslic,
- ProSLIC_dbgRingCfg *ringCfg, int preset)
-{
- TRACEPRINT(pProslic, "preset = %d\n", preset);
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
-#ifdef SI3217X
- if (pProslic->deviceId->chipType >= SI32171
- && pProslic->deviceId->chipType <= SI32179)
- {
- return Si3217x_dbgSetRinging (pProslic,ringCfg,preset);
- }
-#endif
-
-#ifdef SI3218X
- if (pProslic->deviceId->chipType >= SI32180
- && pProslic->deviceId->chipType <= SI32189)
- {
- return Si3218x_dbgSetRinging (pProslic,ringCfg,preset);
- }
-#endif
-
-#ifdef SI3219X
- if ( IS_SI3219X(pProslic->deviceId) )
- {
- return Si3219x_dbgSetRinging (pProslic,ringCfg,preset);
- }
-#endif
-
-#ifdef SI3226X
- if (pProslic->deviceId->chipType >= SI32260
- && pProslic->deviceId->chipType <= SI32269)
- {
- return Si3226x_dbgSetRinging (pProslic,ringCfg,preset);
- }
-#endif
-
-#ifdef SI3228X
- if (pProslic->deviceId->chipType >= SI32280
- && pProslic->deviceId->chipType <= SI32289)
- {
- return Si3228x_dbgSetRinging (pProslic,ringCfg,preset);
- }
-#endif
-
- return RC_COMPLETE_NO_ERR;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_dbgSetRXGain (proslicChanType *pProslic, int32 gain,
- int impedance_preset, int audio_gain_preset)
-{
- TRACEPRINT(pProslic, "gain = %d imp_preset = %d audio_gain_preset = %d\n", gain,
- impedance_preset, audio_gain_preset);
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
-#ifdef SI3217X
- if (pProslic->deviceId->chipType >= SI32171
- && pProslic->deviceId->chipType <= SI32179)
- {
- return Si3217x_dbgSetRXGain (pProslic,gain,impedance_preset,audio_gain_preset);
- }
-#endif
-
-#ifdef SI3218X
- if (pProslic->deviceId->chipType >= SI32180
- && pProslic->deviceId->chipType <= SI32189)
- {
- return Si3218x_dbgSetRXGain (pProslic,gain,impedance_preset,audio_gain_preset);
- }
-#endif
-
-#ifdef SI3219X
- if ( IS_SI3219X(pProslic->deviceId) )
- {
- return Si3219x_dbgSetRXGain (pProslic,gain,impedance_preset,audio_gain_preset);
- }
-#endif
-
-#ifdef SI3226X
- if (pProslic->deviceId->chipType >= SI32260
- && pProslic->deviceId->chipType <= SI32269)
- {
- return Si3226x_dbgSetRXGain (pProslic,gain,impedance_preset,audio_gain_preset);
- }
-#endif
-
-#ifdef SI3228X
- if (pProslic->deviceId->chipType >= SI32280
- && pProslic->deviceId->chipType <= SI32289)
- {
- return Si3228x_dbgSetRXGain (pProslic,gain,impedance_preset,audio_gain_preset);
- }
-#endif
-
- return RC_COMPLETE_NO_ERR;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_dbgSetTXGain (proslicChanType *pProslic, int32 gain,
- int impedance_preset, int audio_gain_preset)
-{
- TRACEPRINT(pProslic, "gain = %d imp_preset = %d audio_gain_preset = %d\n", gain,
- impedance_preset, audio_gain_preset);
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
-#ifdef SI3217X
- if (pProslic->deviceId->chipType >= SI32171
- && pProslic->deviceId->chipType <= SI32179)
- {
- return Si3217x_dbgSetTXGain (pProslic,gain,impedance_preset,audio_gain_preset);
- }
-#endif
-
-#ifdef SI3218X
- if (pProslic->deviceId->chipType >= SI32180
- && pProslic->deviceId->chipType <= SI32189)
- {
- return Si3218x_dbgSetTXGain (pProslic,gain,impedance_preset,audio_gain_preset);
- }
-#endif
-
-#ifdef SI3219X
- if ( IS_SI3219X(pProslic->deviceId) )
- {
- return Si3219x_dbgSetTXGain (pProslic,gain,impedance_preset,audio_gain_preset);
- }
-#endif
-
-#ifdef SI3226X
- if (pProslic->deviceId->chipType >= SI32260
- && pProslic->deviceId->chipType <= SI32269)
- {
- return Si3226x_dbgSetTXGain (pProslic,gain,impedance_preset,audio_gain_preset);
- }
-#endif
-
-#ifdef SI3228X
- if (pProslic->deviceId->chipType >= SI32280
- && pProslic->deviceId->chipType <= SI32289)
- {
- return Si3228x_dbgSetTXGain (pProslic,gain,impedance_preset,audio_gain_preset);
- }
-#endif
-
- return RC_COMPLETE_NO_ERR;
-}
-
-/*****************************************************************************************************/
-/*
-** Function: ProSLIC_LineMonitor
-**
-** Description:
-** Generic monitoring function
-**
-** Returns:
-** 0
-*/
-
-int ProSLIC_LineMonitor (proslicChanType *pProslic, proslicMonitorType *monitor)
-{
- TRACEPRINT(pProslic, "\n", NULL);
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
-#ifdef SI3217X
- if (pProslic->deviceId->chipType >= SI32171
- && pProslic->deviceId->chipType <= SI32179)
- {
- return Si3217x_LineMonitor (pProslic, monitor);
- }
-#endif
-
-#ifdef SI3218X
- if (pProslic->deviceId->chipType >= SI32180
- && pProslic->deviceId->chipType <= SI32189)
- {
- return Si3218x_LineMonitor (pProslic, monitor);
- }
-#endif
-
-#ifdef SI3219X
- if ( IS_SI3219X(pProslic->deviceId) )
- {
- return Si3219x_LineMonitor (pProslic, monitor);
- }
-#endif
-
-#ifdef SI3226X
- if (pProslic->deviceId->chipType >= SI32260
- && pProslic->deviceId->chipType <= SI32269)
- {
- return Si3226x_LineMonitor (pProslic, monitor);
- }
-#endif
-
-#ifdef SI3228X
- if (pProslic->deviceId->chipType >= SI32280
- && pProslic->deviceId->chipType <= SI32289)
- {
- return Si3228x_LineMonitor (pProslic, monitor);
- }
-#endif
-
- return RC_COMPLETE_NO_ERR;
-}
-
-/*****************************************************************************************************/
-/*
-** Function: ProSLIC_PSTNCheck
-**
-** Description:
-** Monitor for excessive longitudinal current, which
-** would be present if a live pstn line was connected
-** to the port.
-**
-** Returns:
-** 0 - no pstn detected
-** 1 - pstn detected
-*/
-int ProSLIC_PSTNCheck (proslicChanType *pProslic,
- proslicPSTNCheckObjType *pPSTNCheck)
-{
- TRACEPRINT(pProslic, "\n", NULL);
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
-#ifdef SI3217X
- if (pProslic->deviceId->chipType >= SI32171
- && pProslic->deviceId->chipType <= SI32179)
- {
- return Si3217x_PSTNCheck (pProslic,pPSTNCheck);
- }
-#endif
-
-#ifdef SI3218X
- if (pProslic->deviceId->chipType >= SI32180
- && pProslic->deviceId->chipType <= SI32189)
- {
- return Si3218x_PSTNCheck (pProslic,pPSTNCheck);
- }
-#endif
-
-#ifdef SI3219X
- if ( IS_SI3219X(pProslic->deviceId) )
- {
- return Si3219x_PSTNCheck (pProslic,pPSTNCheck);
- }
-#endif
-
-#ifdef SI3226X
- if (pProslic->deviceId->chipType >= SI32260
- && pProslic->deviceId->chipType <= SI32269)
- {
- return Si3226x_PSTNCheck (pProslic,pPSTNCheck);
- }
-#endif
-
-#ifdef SI3228X
- if (pProslic->deviceId->chipType >= SI32280
- && pProslic->deviceId->chipType <= SI32289)
- {
- return Si3228x_PSTNCheck (pProslic,pPSTNCheck);
- }
-#endif
-
- return RC_COMPLETE_NO_ERR;
-}
-
-/*****************************************************************************************************/
-/*
-** Function: ProSLIC_DiffPSTNCheck
-**
-** Description:
-** Monitor for excessive longitudinal current, which
-** would be present if a live pstn line was connected
-** to the port.
-**
-** Returns:
-** RC_NONE - test in progress
-** RC_IGNORE - non-ProSLIC channel
-** RC_COMPLETE_NO_ERR - ProSLIC does not support feature.
-** RC_PSTN_OPEN_FEMF | RC_COMPLETE_NO_ERR - test completed.
-**
-*/
-#ifdef PSTN_DET_ENABLE
-int ProSLIC_DiffPSTNCheck (proslicChanType *pProslic,
- proslicDiffPSTNCheckObjType *pPSTNCheck)
-{
- TRACEPRINT(pProslic, "\n", NULL);
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
-#ifdef SI3217X
- if (pProslic->deviceId->chipType >= SI32171
- && pProslic->deviceId->chipType <= SI32179)
- {
- return Si3217x_DiffPSTNCheck (pProslic,pPSTNCheck);
- }
-#endif
-
-#ifdef SI3218X
- if (pProslic->deviceId->chipType >= SI32180
- && pProslic->deviceId->chipType <= SI32189)
- {
- return Si3218x_DiffPSTNCheck (pProslic,pPSTNCheck);
- }
-#endif
-
-#ifdef SI3219X
- if ( IS_SI3219X(pProslic->deviceId) )
- {
- return Si3219x_DiffPSTNCheck (pProslic,pPSTNCheck);
- }
-#endif
-
-#ifdef SI3226X
- if (pProslic->deviceId->chipType >= SI32260
- && pProslic->deviceId->chipType <= SI32269)
- {
- return Si3226x_DiffPSTNCheck (pProslic,pPSTNCheck);
- }
-#endif
-
-#ifdef SI3228X
- if (pProslic->deviceId->chipType >= SI32280
- && pProslic->deviceId->chipType <= SI32289)
- {
- return Si3228x_DiffPSTNCheck (pProslic,pPSTNCheck);
- }
-#endif
-
- return RC_COMPLETE_NO_ERR;
-}
-#endif
-
-/*****************************************************************************************************/
-/*
-** Function: ProSLIC_CreatePSTNCheckObj
-**
-** Description:
-** Allocate memory for pstnCheckObj
-**
-** Returns:
-** RC_NONE
-** RC_NO_MEM if failed to allocate memory.
-** RC_UNSUPPORTED_FEATER if malloc disabled
-*/
-int ProSLIC_CreatePSTNCheckObjs(proslicPSTNCheckObjType_ptr *pstnCheckObj,
- unsigned int num_objs)
-{
- TRACEPRINT_NOCHAN("num_objs = %u\n", num_objs);
-#ifndef DISABLE_MALLOC
- *pstnCheckObj = SIVOICE_CALLOC(sizeof(proslicPSTNCheckObjType),num_objs);
- if(*pstnCheckObj == NULL)
- {
-#ifdef ENABLE_DEBUG
- LOGPRINT("%s: %s: failed to allocate memory", LOGPRINT_PREFIX, __FUNCTION__);
-#endif
- return RC_NO_MEM;
- }
- return RC_NONE;
-#else
- SILABS_UNREFERENCED_PARAMETER(pstnCheckObj);
- SILABS_UNREFERENCED_PARAMETER(num_objs);
- return RC_UNSUPPORTED_FEATURE;
-#endif
-}
-
-/*****************************************************************************************************/
-/*
-** Function: ProSLIC_CreateDiffPSTNCheckObjs
-**
-** Description:
-** Allocate memory for proslicDiffPstnCheckObjs
-**
-** Returns:
-** RC_NONE
-** RC_NO_MEM if failed to allocate memory.
-** RC_UNSUPPORTED_FEATURE if malloc disabled
-*/
-
-#ifdef PSTN_DET_ENABLE
-int ProSLIC_CreateDiffPSTNCheckObjs(proslicDiffPSTNCheckObjType_ptr
- *pstnCheckObj, unsigned int num_objs)
-{
- TRACEPRINT_NOCHAN("num_objs = %u\n", num_objs);
-
-#ifndef DISABLE_MALLOC
- *pstnCheckObj = SIVOICE_CALLOC(sizeof(proslicDiffPSTNCheckObjType),num_objs);
- if(*pstnCheckObj == NULL)
- {
-#ifdef ENABLE_DEBUG
- LOGPRINT("%s: %s: failed to allocate memory", LOGPRINT_PREFIX, __FUNCTION__);
-#endif
- return RC_NO_MEM;
- }
- return RC_NONE;
-#else
- SILABS_UNREFERENCED_PARAMETER(pstnCheckObj);
- SILABS_UNREFERENCED_PARAMETER(num_objs);
- return RC_UNSUPPORTED_FEATURE;
-#endif
-}
-#endif
-
-/*****************************************************************************************************/
-/*
-** Function: ProSLIC_DestroyPSTNCheckObjs
-**
-** Description:
-** Free memory for pstnCheckObj
-**
-** Returns:
-** RC_NONE
-** RC_UNSUPPORTED_FEATER if malloc disabled
-*/
-int ProSLIC_DestroyPSTNCheckObjs(proslicPSTNCheckObjType_ptr *pstnCheckObj)
-{
- TRACEPRINT_NOCHAN("\n", NULL);
-
-#ifndef DISABLE_MALLOC
- if(pstnCheckObj)
- {
- SIVOICE_FREE((proslicPSTNCheckObjType_ptr)*pstnCheckObj);
- }
-
- return RC_NONE;
-
-#else
- SILABS_UNREFERENCED_PARAMETER(pstnCheckObj);
- return RC_UNSUPPORTED_FEATURE;
-#endif
-}
-
-/*****************************************************************************************************/
-/*
-** Function: ProSLIC_DestroyDiffPSTNCheckObjs
-**
-** Description:
-** Free memory for pstnDiffCheckObj
-**
-** Returns:
-** RC_NONE
-** RC_UNSUPPORTED_FEATER if malloc disabled
-*/
-#ifdef PSTN_DET_ENABLE
-int ProSLIC_DestroyDiffPSTNCheckObjs(proslicDiffPSTNCheckObjType_ptr
- *pstnCheckObj)
-{
- TRACEPRINT_NOCHAN("\n", NULL);
-
-#ifndef DISABLE_MALLOC
- if(pstnCheckObj)
- {
- SIVOICE_FREE((proslicDiffPSTNCheckObjType_ptr)*pstnCheckObj);
- }
- return RC_NONE;
-#else
- SILABS_UNREFERENCED_PARAMETER(pstnCheckObj);
- return RC_UNSUPPORTED_FEATURE;
-#endif
-}
-#endif
-
-/*****************************************************************************************************/
-/*
-** Function: ProSLIC_InitPSTNCheckObj
-**
-** Description:
-** Initialize pstnCheckObj structure members
-**
-** Returns:
-** RC_NONE
-*/
-int ProSLIC_InitPSTNCheckObj(proslicPSTNCheckObjType_ptr pstnCheckObj,
- int32 avgThresh, int32 singleThresh, uInt8 samples)
-{
- TRACEPRINT_NOCHAN("avgThres = %d singleThresh = %d samples = %u\n", avgThresh,
- avgThresh, samples);
-
- pstnCheckObj->avgThresh = avgThresh;
- pstnCheckObj->singleThresh = singleThresh;
- pstnCheckObj->samples = samples;
- pstnCheckObj->avgIlong = 0;
- pstnCheckObj->count = 0;
- pstnCheckObj->buffFull = 0;
-
- return RC_NONE;
-}
-
-/*****************************************************************************************************/
-/*
-** Function: ProSLIC_InitDiffPSTNCheckObj
-**
-** Description:
-** Initialize pstnCheckObj structure members
-**
-** Returns:
-** RC_NONE
-*/
-#ifdef PSTN_DET_ENABLE
-int ProSLIC_InitDiffPSTNCheckObj(proslicDiffPSTNCheckObjType_ptr
- pstnDiffCheckObj,
- int preset1,
- int preset2,
- int entry_preset,
- int femf_enable)
-{
- TRACEPRINT_NOCHAN("p1 = %d p2 = %d ep = %d femf_enable = %d\n", preset1,
- preset2, entry_preset, femf_enable);
-
- pstnDiffCheckObj->samples = PSTN_DET_DIFF_SAMPLES;
- pstnDiffCheckObj->max_femf_vopen = PSTN_DET_MAX_FEMF;
- pstnDiffCheckObj->entryDCFeedPreset = entry_preset;
- pstnDiffCheckObj->dcfPreset1 = preset1;
- pstnDiffCheckObj->dcfPreset2 = preset2;
- pstnDiffCheckObj->femf_enable = femf_enable;
- pstnDiffCheckObj->pState.stage = 0;
- pstnDiffCheckObj->pState.sampleIterations = 0;
- pstnDiffCheckObj->pState.waitIterations = 0;
-
- return RC_NONE;
-}
-#endif
-
-/*****************************************************************************************************/
-/*
-** Function: ProSLIC_SetPwrsaveMode
-**
-** Description:
-** Enable or disable powersave mode
-**
-** Returns:
-** RC_NONE
-*/
-#define PROSLIC_REG_ENHANCE 47
-
-int ProSLIC_SetPowersaveMode (proslicChanType *pProslic, int pwrsave)
-{
- uInt8 regData;
- TRACEPRINT(pProslic, "pwrsave = %d\n", pwrsave);
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
- regData = ReadReg(pProslic,pProslic->channel, PROSLIC_REG_ENHANCE);
-
- if(pwrsave == PWRSAVE_DISABLE)
- {
-#ifdef SI3217X
- if (pProslic->deviceId->chipType >= SI32171
- && pProslic->deviceId->chipType <= SI32179)
- {
- regData &= 0x27;
- }
- else
- {
-#endif
- regData &= 0x07;
-#ifdef SI3217X
- }
-#endif
- }
- else
- {
- regData |= 0x10;
- }
-
- return WriteReg(pProslic,pProslic->channel, PROSLIC_REG_ENHANCE, regData);
-}
-
-/*****************************************************************************************************/
-/*
-** Function: ProSLIC_SetDAAEnable
-**
-** Description:
-** Enable or disable adjacent FXO (Si32178 only)
-**
-** Returns:
-** RC_NONE
-*/
-int ProSLIC_SetDAAEnable (proslicChanType *pProslic, int enable)
-{
- TRACEPRINT(pProslic, "\n", NULL);
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
-#ifdef SI3217X
- return Si3217x_SetDAAEnable (pProslic,enable);
-#else
- SILABS_UNREFERENCED_PARAMETER(enable);
- return RC_NONE;
-#endif
-}
-
-/*****************************************************************************************************/
-/*
-** Function: ProSLIC_SetUserMode
-**
-** Description: Enables User Access Mode (UAM) if the part supports it.
-**
-** Returns:
-** RC_NONE if successful.
-*/
-#define PROSLIC_REG_USERMODE_ENABLE 126
-
-int ProSLIC_SetUserMode(proslicChanType *pProslic,BOOLEAN isEnabled,
- BOOLEAN isBcast)
-{
- uInt8 data;
- uInt8 channel;
-
- TRACEPRINT(pProslic, "enable = %d bcast = %d\n", (int)isEnabled, (int)isBcast);
-
- if(isEnabled == FALSE)
- {
- return RC_NONE;
- }
-
- if( pProslic->channelType != PROSLIC )
- {
- return RC_UNSUPPORTED_FEATURE;
- }
-
- if(isBcast == TRUE)
- {
- channel = PROSLIC_CHAN_BROADCAST;
- }
- else
- {
- channel = pProslic->channel;
- }
-
- data = ReadReg(pProslic,pProslic->channel,
- PROSLIC_REG_USERMODE_ENABLE); /*we check first channel. we assume all channels same user mode state for broadcast */
-
- if (((data&1) != 0) == isEnabled)
- {
- return RC_NONE;
- }
-
- WriteReg(pProslic,channel,PROSLIC_REG_USERMODE_ENABLE,2);
- WriteReg(pProslic,channel,PROSLIC_REG_USERMODE_ENABLE,8);
- WriteReg(pProslic,channel,PROSLIC_REG_USERMODE_ENABLE,0xe);
- return WriteReg(pProslic,channel,PROSLIC_REG_USERMODE_ENABLE,0);
-}
-
-/*****************************************************************************************************/
-/*
-** Function: ProSLIC_isReinitRequired
-**
-** Description:
-** Checks for improper ring exit
-**
-** Returns:
-** RC_NONE - Reinit not required
-** RC_REINIT_REQUIRED - Corrupted state machine - reinit required
-**
-*/
-
-int ProSLIC_isReinitRequired(proslicChanType *pProslic)
-{
- uInt8 lf;
- ramData rkdc_sum;
- TRACEPRINT(pProslic, "\n", NULL);
-
- if( pProslic->channelType != PROSLIC)
- {
- return RC_IGNORE;
- }
-
- /* Check for improper ring exit which may cause dcfeed corruption */
-
- lf = ReadReg(pProslic, pProslic->channel,PROSLIC_REG_LINEFEED);
- rkdc_sum = ReadRAM(pProslic,pProslic->channel,PROSLIC_RAM_RDC_SUM);
- DEBUG_PRINT(pProslic, "%sisReinitRequired: Linefeed = 0x%02X RDC_SUM = %d\n",
- LOGPRINT_PREFIX, (int)lf, (int) rkdc_sum);
- if((rkdc_sum & 0x400000)&&(lf != 0x44))
- {
- return RC_REINIT_REQUIRED;
- }
- else
- {
- return RC_NONE;
- }
-}
-
-/*****************************************************************************************************/
-/*
-** Function: LoadRegTable
-**
-** Description:
-** Generic function to load register/RAM with predefined addr/value
-*/
-int ProSLIC_LoadRegTable (proslicChanType *pProslic,
- const ProslicRAMInit *pRamTable,
- const ProslicRegInit *pRegTable,
- int broadcast)
-{
- uInt16 i;
- uInt8 channel;
-
- TRACEPRINT(pProslic, "bcast = %d\n", broadcast);
- /* DAA doesn't have a RAM table.. skip it... */
- if( (pRamTable != 0)
- && (pProslic->channelType != PROSLIC) )
- {
- return RC_IGNORE;
- }
-
- if (broadcast)
- {
- channel = PROSLIC_CHAN_BROADCAST;
- }
- else
- {
- channel = pProslic->channel;
- }
-
- i=0;
- if (pRamTable != 0)
- {
- while (pRamTable[i].address != 0xffff)
- {
- WriteRAM(pProslic,channel,pRamTable[i].address,pRamTable[i].initValue);
- i++;
- }
- }
- i=0;
- if (pRegTable != 0)
- {
- while (pRegTable[i].address != 0xff)
- {
- WriteReg(pProslic,channel,pRegTable[i].address,pRegTable[i].initValue);
- i++;
- }
- }
-
- return RC_NONE;
-}
-
-/*****************************************************************************************************/
-/*
-** Function: LoadRegTables
-**
-** Description:
-** Generic function to load register/RAM with predefined addr/value
-*/
-
-int ProSLIC_LoadRegTables(proslicChanType_ptr *pProslic,
- const ProslicRAMInit *pRamTable, const ProslicRegInit *pRegTable, int size)
-{
- int i;
- TRACEPRINT(*pProslic, "size = %d\n", size);
- for (i=0; i<size; i++)
- {
- if (pProslic[i]->channelEnable)
- {
- ProSLIC_LoadRegTable(pProslic[i],pRamTable,pRegTable,FALSE);
- }
- }
- return RC_NONE;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_UnsupportedFeatureNoArg(proslicChanType_ptr pProslic,
- const char *function_name)
-{
-#ifdef ENABLE_DEBUG
- LOGPRINT("%s: unsupported %s was called on channel %d\n", LOGPRINT_PREFIX,
- function_name, pProslic->channel);
-#else
- SILABS_UNREFERENCED_PARAMETER(pProslic);
- SILABS_UNREFERENCED_PARAMETER(function_name);
-#endif
- return RC_UNSUPPORTED_FEATURE;
-}
-
-/*****************************************************************************************************/
-/*
-** Function: ProSLIC_PSTN_delay_poll
-**
-** Description:
-** Delay function called within PSTN detection functions
-**
-** Return Value:
-** none
-*/
-#ifdef PSTN_DET_ENABLE
-void ProSLIC_PSTN_delay_poll(proslicTestStateType *pState, uInt16 delay)
-{
- uInt16 delayCount;
-
- if((delay/PSTN_DET_POLL_RATE) < 2)
- {
- delayCount = 0;
- }
- else
- {
- delayCount = (delay/PSTN_DET_POLL_RATE) - 2;
- }
-
- pState->waitIterations++;
- if((pState->waitIterations == delayCount) || (delayCount == 0))
- {
- pState->waitIterations = 0;
- pState->stage++;
- }
-}
-#endif
-
-/*****************************************************************************************************/
-/*
-** Function: ProSLIC_Calibrate
-**
-** Description:
-** Performs calibration based on passed ptr to array of
-** desired CALRn settings.
-**
-** Starts calibration on all channels sequentially (not broadcast)
-** and continuously polls for completion. Return error code if
-** CAL_EN does not clear for each enabled channel within the passed
-** timeout period.
-*/
-int ProSLIC_Calibrate(proslicChanType_ptr *pProslic, int maxChan, uInt8 *calr,
- int maxTime)
-{
- int i,j, cal_en;
- int cal_en_chan = 0;
- int timer = 0;
-
- TRACEPRINT(*pProslic, "maxChan = %d time = %d\n", maxChan, maxTime );
-
- if ((*pProslic)->channelType != PROSLIC)
- {
- return RC_CHANNEL_TYPE_ERR;
- }
-
- for(i = 0; i < maxChan; i++)
- {
- if((pProslic[i]->channelEnable)&&(pProslic[i]->channelType == PROSLIC))
- {
- for(j = 0; j < 4; j++)
- {
- WriteReg(pProslic[i], pProslic[i]->channel, (PROSLIC_REG_CALR0+j), calr[j]);
- }
- }
- }
-
- /* Wait for calibration to complete */
- do
- {
- cal_en = 0;
- DelayX(*pProslic, 10);
- for(i = 0; i < maxChan; i++)
- {
- if( (pProslic[i]->channelEnable) && (pProslic[i]->channelType == PROSLIC))
- {
- cal_en_chan = ReadReg(pProslic[i], pProslic[i]->channel, PROSLIC_REG_CALR3);
- if( (cal_en_chan & 0x80) && (timer == maxTime) )
- {
- DEBUG_PRINT(pProslic[i], "%sCalibration timed out on channel %d\n",
- LOGPRINT_PREFIX, pProslic[i]->channel);
- pProslic[i]->channelEnable = 0;
- pProslic[i]->error = RC_CAL_TIMEOUT;
- }
- cal_en |= cal_en_chan;
- }
- }
- }
- while( (timer++ <= maxTime) && (cal_en & 0x80) );
-
- if(timer <= maxTime)
- {
- return RC_NONE;
- }
- else
- {
- return RC_CAL_TIMEOUT;
- }
-}
-/*****************************************************************************************************/
-/* This function is used by the xxxx_Init_with_Options - do not call this directly... */
-int ProSLIC_ReInit_helper(proslicChanType_ptr *pProslic, int size,
- initOptionsType init_option, int numChanPerDevice)
-{
- int i;
-
- /* Preserve linefeed state.. */
- for(i = 0; i < size; i++)
- {
- pProslic[i]->scratch = ReadReg( pProslic[i], pProslic[i]->channel,
- PROSLIC_REG_LINEFEED);
- ProSLIC_PowerDownConverter( pProslic[i] );
-
- /* Clear MSTRSTAT on a device basis */
- if( (numChanPerDevice == 1)
- || ((numChanPerDevice == 2) && ((i&1) == 0) ) )
- {
- ProSLIC_WriteReg(pProslic[i], PROSLIC_REG_MSTRSTAT, 0xFF); /* Clear master status register */
- }
- }
-
- DelayX(*pProslic, 10); /* Wait to ensure system is powered down... */
-
- /* Do a soft reset if reinit is requested...*/
- if(init_option == INIT_REINIT)
- {
- for(i = 0; i < size; i++)
- {
- if(numChanPerDevice == 2)
- {
- WriteReg(pProslic[i], (pProslic[i])->channel, PROSLIC_REG_RESET,
- (((pProslic[i])->channel)&1)+1); /* reset 1 channel at a time */
- }
- else
- {
- WriteReg(pProslic[i], (pProslic[i])->channel, PROSLIC_REG_RESET, 1);
- }
-
- pProslic[i]->error = RC_NONE; /* Clear any errors we may have seen in powering down the converter */
- }
- DelayX(*pProslic, 100); /* Wait for a soft reset */
-
- }
- return RC_NONE;
-}
-
-/*****************************************************************************************************/
-int ProSLIC_SoftReset(proslicChanType_ptr pProslic, uInt16 resetOptions)
-{
- uInt8 data;
-
- TRACEPRINT(pProslic, "reset option: %d\n",resetOptions);
-
- /* We can't use channelType since it may not been set. We assume at least
- * SWInit was called... */
- if( pProslic->deviceId->chipType == SI3050 )
- {
- return RC_CHANNEL_TYPE_ERR;
- }
-
- /* Check if we're in free-run mode, if so abort */
- data = ReadReg(pProslic, pProslic->channel, PROSLIC_REG_ENHANCE);
-
- if(data & 0x6)
- {
- return RC_PLL_FREERUN_ACTIVE;
- }
-
- if(resetOptions & PROSLIC_BCAST_RESET)
- {
- return WriteReg(pProslic, PROSLIC_CHAN_BROADCAST, PROSLIC_REG_RESET, (uInt8)(resetOptions & 0xFF));
- }
- else
- {
- return WriteReg(pProslic, pProslic->channel, PROSLIC_REG_RESET, (uInt8)(resetOptions & 0xFF));
- }
-}
-
-/*****************************************************************************************************/
-#ifndef DISABLE_TONE_SETUP
-int ProSLIC_ToneGenSetupPtr(proslicChanType_ptr pProslic, ProSLIC_Tone_Cfg *cfg)
-{
- TRACEPRINT(pProslic, "\n",NULL);
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_CHANNEL_TYPE_ERR;
- }
-
- WriteRAM(pProslic, pProslic->channel,PROSLIC_RAM_OSC1FREQ, cfg->osc1.freq);
- WriteRAM(pProslic, pProslic->channel,PROSLIC_RAM_OSC1AMP, cfg->osc1.amp);
- WriteRAM(pProslic, pProslic->channel,PROSLIC_RAM_OSC1PHAS, cfg->osc1.phas);
- WriteReg(pProslic, pProslic->channel,PROSLIC_REG_O1TAHI,cfg->osc1.tahi);
- WriteReg(pProslic, pProslic->channel,PROSLIC_REG_O1TALO,cfg->osc1.talo);
- WriteReg(pProslic, pProslic->channel,PROSLIC_REG_O1TIHI,cfg->osc1.tihi);
- WriteReg(pProslic, pProslic->channel,PROSLIC_REG_O1TILO,cfg->osc1.tilo);
-
- WriteRAM(pProslic, pProslic->channel,PROSLIC_RAM_OSC2FREQ, cfg->osc2.freq);
- WriteRAM(pProslic, pProslic->channel,PROSLIC_RAM_OSC2AMP, cfg->osc2.amp);
- WriteRAM(pProslic, pProslic->channel,PROSLIC_RAM_OSC2PHAS, cfg->osc2.phas);
- WriteReg(pProslic, pProslic->channel,PROSLIC_REG_O2TAHI,cfg->osc2.tahi);
- WriteReg(pProslic, pProslic->channel,PROSLIC_REG_O2TALO,cfg->osc2.talo);
- WriteReg(pProslic, pProslic->channel,PROSLIC_REG_O2TIHI,cfg->osc2.tihi);
- WriteReg(pProslic, pProslic->channel,PROSLIC_REG_O2TILO,cfg->osc2.tilo);
-
-
- WriteReg(pProslic, pProslic->channel,PROSLIC_REG_OMODE,cfg->omode);
- return RC_NONE;
-}
-#endif /* DISABLE_TONE_SETUP */
-
-/*****************************************************************************************************/
-#ifndef DISABLE_FSK_SETUP
-int ProSLIC_FSKSetupPtr (proslicChanType_ptr pProslic, ProSLIC_FSK_Cfg *cfg)
-{
- uInt8 data;
- int i;
-
- TRACEPRINT(pProslic, "\n",NULL);
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_CHANNEL_TYPE_ERR;
- }
-
- WriteReg(pProslic,pProslic->channel,PROSLIC_REG_FSKDEPTH,
- 0x08); /* Clear Buffer */
- WriteReg(pProslic,pProslic->channel,PROSLIC_REG_O1TAHI,0);
- WriteReg(pProslic,pProslic->channel,PROSLIC_REG_O1TIHI,0);
- WriteReg(pProslic,pProslic->channel,PROSLIC_REG_O1TILO,0);
- WriteReg(pProslic,pProslic->channel,PROSLIC_REG_O1TALO,0x13);
-
- data = ReadReg(pProslic,pProslic->channel,PROSLIC_REG_OMODE);
- if (cfg->eightBit)
- {
- data |= 0x80;
- }
- else
- {
- data &= ~(0x80);
- }
- WriteReg(pProslic,pProslic->channel,PROSLIC_REG_FSKDEPTH,cfg->fskdepth);
- WriteReg(pProslic,pProslic->channel,PROSLIC_REG_OMODE,data);
-
- for(i = 0; i < 2; i++)
- {
- WriteRAM(pProslic,pProslic->channel,PROSLIC_RAM_FSK01+i,cfg->fsk[i]);
- WriteRAM(pProslic,pProslic->channel,PROSLIC_RAM_FSKAMP0+i,cfg->fskamp[i]);
- WriteRAM(pProslic,pProslic->channel,PROSLIC_RAM_FSKFREQ0+i,cfg->fskfreq[i]);
- }
- return RC_NONE;
-}
-#endif
-
-/*****************************************************************************************************/
-int ProSLIC_EnableFastRingStart(proslicChanType_ptr pProslic, BOOLEAN isEnabled)
-{
- uInt8 data;
-
- TRACEPRINT(pProslic, "\n",NULL);
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_CHANNEL_TYPE_ERR;
- }
-#if defined(SI3217X) && !defined(Si3217X_REVC_ONLY)
- if (pProslic->deviceId->chipType >= SI32171
- && pProslic->deviceId->chipType <= SI32179)
- {
- if(pProslic->deviceId->chipRev < 2)
- {
- return RC_UNSUPPORTED_FEATURE;
- }
- }
-#endif
-
- data = ReadReg(pProslic, pProslic->channel, PROSLIC_REG_USERSTAT);
-
- if( isEnabled )
- {
- data |= 8;
- }
- else
- {
- data &= ~8;
- }
-
- return WriteReg(pProslic, pProslic->channel, PROSLIC_REG_USERSTAT, data);
-}
-
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/src/proslic_tstin.c b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/src/proslic_tstin.c
deleted file mode 100644
index f8f7a99..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/src/proslic_tstin.c
+++ /dev/null
@@ -1,1580 +0,0 @@
-// SPDX-License-Identifier: GPL-2.0
-/*
- * Author(s):
- * cdp
- *
- * Distributed by:
- * Silicon Laboratories, Inc
- *
- * This file contains proprietary information.
- * No dissemination allowed without prior written permission from
- * Silicon Laboratories, Inc.
- *
- * File Description:
- * This is the interface file for the ProSLIC test-in functions.
- *
- *
- */
-
-#include "../config_inc/si_voice_datatypes.h"
-#include "../inc/si_voice_ctrl.h"
-#include "../inc/si_voice_timer_intf.h"
-#include "../inc/proslic.h"
-#include "../config_inc/proslic_api_config.h"
-#include "../inc/proslic_tstin.h"
-
-#ifdef SI3217X
-#include "si3217x.h"
-#include "si3217x_intf.h"
-#endif
-#ifdef SI3218X
-#include "../inc/si3218x.h"
-#include "../inc/si3218x_intf.h"
-#endif
-#ifdef SI3219X
-#include "si3219x.h"
-#include "si3219x_intf.h"
-#endif
-#ifdef SI3226X
-#include "si3226x.h"
-#include "si3226x_intf.h"
-#endif
-#ifdef SI3228X
-#include "si3228x.h"
-#include "si3228x_intf.h"
-#endif
-
-/*
-** Function Pointer Macros
-*/
-#define WriteReg pProslic->deviceId->ctrlInterface->WriteRegister_fptr
-#define ReadReg pProslic->deviceId->ctrlInterface->ReadRegister_fptr
-#define pProHW pProslic->deviceId->ctrlInterface->hCtrl
-#define Reset pProslic->deviceId->ctrlInterface->Reset_fptr
-#define Delay pProslic->deviceId->ctrlInterface->Delay_fptr
-#define pProTimer pProslic->deviceId->ctrlInterface->hTimer
-#define WriteRAM pProslic->deviceId->ctrlInterface->WriteRAM_fptr
-#define ReadRAM pProslic->deviceId->ctrlInterface->ReadRAM_fptr
-#define TimeElapsed pProslic->deviceId->ctrlInterface->timeElapsed_fptr
-#define getTime pProslic->deviceId->ctrlInterface->getTime_fptr
-#define SetSemaphore pProslic->deviceId->ctrlInterface->Semaphore_fptr
-
-#define WriteRegX deviceId->ctrlInterface->WriteRegister_fptr
-#define ReadRegX deviceId->ctrlInterface->ReadRegister_fptr
-#define pProHWX deviceId->ctrlInterface->hCtrl
-#define DelayX deviceId->ctrlInterface->Delay_fptr
-#define pProTimerX deviceId->ctrlInterface->hTimer
-#define WriteRAMX deviceId->ctrlInterface->WriteRAM_fptr
-#define ReadRAMX deviceId->ctrlInterface->ReadRAM_fptr
-#define getTimeX deviceId->ctrlInterface->getTime_fptr
-#define TimeElapsedX deviceId->ctrlInterface->timeElapsed_fptr
-
-/*
-* Valid Device Number Ranges
-*/
-
-#define TSTIN_VALID_SI3217X_PART_NUM (pProslic->deviceId->chipType >= SI32171 && pProslic->deviceId->chipType <= SI32179)
-#define TSTIN_VALID_SI3218X_PART_NUM (pProslic->deviceId->chipType >= SI32180 && pProslic->deviceId->chipType <= SI32189)
-#define TSTIN_VALID_SI3219X_PART_NUM (pProslic->deviceId->chipType >= SI32190 && pProslic->deviceId->chipType <= SI32199)
-#define TSTIN_VALID_SI3226X_PART_NUM (pProslic->deviceId->chipType >= SI32260 && pProslic->deviceId->chipType <= SI32269)
-#define TSTIN_VALID_SI3228X_PART_NUM (pProslic->deviceId->chipType >= SI32280 && pProslic->deviceId->chipType <= SI32289)
-
-#define TSTIN_INVALID_PART_NUM !(TSTIN_VALID_SI3217X_PART_NUM ||\
- TSTIN_VALID_SI3218X_PART_NUM || TSTIN_VALID_SI3219X_PART_NUM ||\
- TSTIN_VALID_SI3226X_PART_NUM || TSTIN_VALID_SI3228X_PART_NUM)
-
-#define LOGPRINT_PREFIX "ProSLIC:"
-
-ProSLIC_DCfeed_Cfg ringtripTestDCFeedPreset[] =
-{
- {
- 0x196038D8L, /* SLOPE_VLIM */
- 0x1D707651L, /* SLOPE_RFEED */
- 0x0040A0E0L, /* SLOPE_ILIM */
- 0x1E07FE48L, /* SLOPE_DELTA1 */
- 0x1ED62D87L, /* SLOPE_DELTA2 */
- 0x01A50724L, /* V_VLIM (14.000 v) */
- 0x016EE54FL, /* V_RFEED (12.200 v) */
- 0x012CBBF5L, /* V_ILIM (10.000 v) */
- 0x00AF8C10L, /* CONST_RFEED (10.000 mA) */
- 0x0045CBBCL, /* CONST_ILIM (15.000 mA) */
- 0x000D494BL, /* I_VLIM (0.000 mA) */
- 0x005B0AFBL, /* LCRONHK (10.000 mA) */
- 0x006D4060L, /* LCROFFHK (12.000 mA) */
- 0x00008000L, /* LCRDBI (5.000 ms) */
- 0x0048D595L, /* LONGHITH (8.000 mA) */
- 0x003FBAE2L, /* LONGLOTH (7.000 mA) */
- 0x00008000L, /* LONGDBI (5.000 ms) */
- 0x000F0000L, /* LCRMASK (150.000 ms) */
- 0x00080000L, /* LCRMASK_POLREV (80.000 ms) */
- 0x00140000L, /* LCRMASK_STATE (200.000 ms) */
- 0x00140000L, /* LCRMASK_LINECAP (200.000 ms) */
- 0x01999999L, /* VCM_OH (25.000 v) */
- 0x0051EB85L, /* VOV_BAT (5.000 v) */
- 0x00418937L /* VOV_GND (4.000 v) */
- }
-};
-
-/*
-** dB lookup table
-*/
-#define DB_TABLE_STEP_SIZE 250
-#define MAX_DB_TABLE 279
-
-static const uInt32 dBTable10_n60 [] =
-{
- 31623,
- 30726,
- 29854,
- 29007,
- 28184,
- 27384,
- 26607,
- 25852,
- 25119,
- 24406,
- 23714,
- 23041,
- 22387,
- 21752,
- 21135,
- 20535,
- 19953,
- 19387,
- 18836,
- 18302,
- 17783,
- 17278,
- 16788,
- 16312,
- 15849,
- 15399,
- 14962,
- 14538,
- 14125,
- 13725,
- 13335,
- 12957,
- 12589,
- 12232,
- 11885,
- 11548,
- 11220,
- 10902,
- 10593,
- 10292,
- 10000,
- 9716,
- 9441,
- 9173,
- 8913,
- 8660,
- 8414,
- 8175,
- 7943,
- 7718,
- 7499,
- 7286,
- 7079,
- 6879,
- 6683,
- 6494,
- 6310,
- 6131,
- 5957,
- 5788,
- 5623,
- 5464,
- 5309,
- 5158,
- 5012,
- 4870,
- 4732,
- 4597,
- 4467,
- 4340,
- 4217,
- 4097,
- 3981,
- 3868,
- 3758,
- 3652,
- 3548,
- 3447,
- 3350,
- 3255,
- 3162,
- 3073,
- 2985,
- 2901,
- 2818,
- 2738,
- 2661,
- 2585,
- 2512,
- 2441,
- 2371,
- 2304,
- 2239,
- 2175,
- 2113,
- 2054,
- 1995,
- 1939,
- 1884,
- 1830,
- 1778,
- 1728,
- 1679,
- 1631,
- 1585,
- 1540,
- 1496,
- 1454,
- 1413,
- 1372,
- 1334,
- 1296,
- 1259,
- 1223,
- 1189,
- 1155,
- 1122,
- 1090,
- 1059,
- 1029,
- 1000,
- 972,
- 944,
- 917,
- 891,
- 866,
- 841,
- 818,
- 794,
- 772,
- 750,
- 729,
- 708,
- 688,
- 668,
- 649,
- 631,
- 613,
- 596,
- 579,
- 562,
- 546,
- 531,
- 516,
- 501,
- 487,
- 473,
- 460,
- 447,
- 434,
- 422,
- 410,
- 398,
- 387,
- 376,
- 365,
- 355,
- 345,
- 335,
- 325,
- 316,
- 307,
- 299,
- 290,
- 282,
- 274,
- 266,
- 259,
- 251,
- 244,
- 237,
- 230,
- 224,
- 218,
- 211,
- 205,
- 200,
- 194,
- 188,
- 183,
- 178,
- 173,
- 168,
- 163,
- 158,
- 154,
- 150,
- 145,
- 141,
- 137,
- 133,
- 130,
- 126,
- 122,
- 119,
- 115,
- 112,
- 109,
- 106,
- 103,
- 100,
- 97,
- 94,
- 92,
- 89,
- 87,
- 84,
- 82,
- 79,
- 77,
- 75,
- 73,
- 71,
- 69,
- 67,
- 65,
- 63,
- 61,
- 60,
- 58,
- 56,
- 55,
- 53,
- 52,
- 50,
- 49,
- 47,
- 46,
- 45,
- 43,
- 42,
- 41,
- 40,
- 39,
- 38,
- 37,
- 35,
- 34,
- 33,
- 33,
- 32,
- 31,
- 30,
- 29,
- 28,
- 27,
- 27,
- 26,
- 25,
- 24,
- 24,
- 23,
- 22,
- 22,
- 21,
- 21,
- 20,
- 19,
- 19,
- 18,
- 18,
- 17,
- 17,
- 16,
- 16,
- 15,
- 15,
- 15,
- 14,
- 14,
- 13,
- 13,
- 13,
- 12,
- 12,
- 12,
- 11,
- 11,
- 11,
- 10,
- 10
-};
-
-
-/* *********************************** */
-static int setInternalTestLoad(proslicChanType *pProslic, int connect)
-{
- ramData ram_save;
- ramData test_load_addr;
- ramData test_load_bitmask;
-
- if(pProslic->deviceId->chipType >= SI32171
- && pProslic->deviceId->chipType <= SI32179)
- {
- test_load_addr = 1516;
- test_load_bitmask = 0x00800000L; /* bit 23 */
- }
- else
- {
- test_load_addr = 1611;
- test_load_bitmask = 0x00040000L; /* bit 18 */
- }
-
- ProSLIC_SetUserMode(pProslic,1,0);
- ram_save = ProSLIC_ReadRAM(pProslic,test_load_addr);
-
- if(connect)
- {
- ram_save |= test_load_bitmask;
- }
- else
- {
- ram_save &= ~test_load_bitmask;
- }
-
- ProSLIC_WriteRAM(pProslic,test_load_addr,ram_save);
-
- return RC_NONE;
-}
-
-/* *********************************** */
-static void setup1kHzBandpass(proslicChanType *pProslic)
-{
- /* 1kHz bandpass - Gain = -1.7055 */
- ProSLIC_WriteRAM(pProslic, 32, 0x180A50L); /* TESTB0_1 */
- ProSLIC_WriteRAM(pProslic, 33, 0x0L); /* TESTB1_1 */
- ProSLIC_WriteRAM(pProslic, 34, 0x1FE7F5B0L);/* TESTB2_1 */
- ProSLIC_WriteRAM(pProslic, 35, 0xB166220L); /* TESTA1_1 */
- ProSLIC_WriteRAM(pProslic, 36, 0x185119D0L);/* TESTA2_1 */
- ProSLIC_WriteRAM(pProslic, 37, 0xAF624E0L); /* TESTB0_2 */
- ProSLIC_WriteRAM(pProslic, 38, 0x0L); /* TESTB1_2 */
- ProSLIC_WriteRAM(pProslic, 39, 0xAF624E0L); /* TESTB2_2 */
- ProSLIC_WriteRAM(pProslic, 40, 0x0L); /* TESTA1_2 */
- ProSLIC_WriteRAM(pProslic, 41, 0x185119D0L);/* TESTA2_2 */
- ProSLIC_WriteRAM(pProslic, 42, 0x7C6E410L); /* TESTB0_3 */
- ProSLIC_WriteRAM(pProslic, 43, 0xAFF8B80L); /* TESTB1_3 */
- ProSLIC_WriteRAM(pProslic, 44, 0x7C6E410L); /* TESTB2_3 */
- ProSLIC_WriteRAM(pProslic, 45, 0x14E99DE0L);/* TESTA1_3 */
- ProSLIC_WriteRAM(pProslic, 46, 0x185119D0L);/* TESTA2_3 */
- ProSLIC_WriteRAM(pProslic, 50, 0x40000L); /* TESTAVBW */
- ProSLIC_WriteRAM(pProslic, 49, 0x1F40000L); /* TESTWLN */
- ProSLIC_WriteRAM(pProslic, 54, 0x0L); /* TESTAVTH */
- ProSLIC_WriteRAM(pProslic, 53, 0x0L); /* TESTPKTH */
-}
-
-/* *********************************** */
-/* Return value in dB*1000 (mdB) */
-static int32 dBLookup(uInt32 number)
-{
- int i;
- uInt32 err;
-
- if(number >= dBTable10_n60[0])
- {
- return 10000; /* out of range - clamp at 10dB */
- }
-
- for(i=0; i<MAX_DB_TABLE; i++) /* 139 */
- {
- if((number < dBTable10_n60[i])&&(number >= dBTable10_n60[i+1]))
- {
- /* See which level it is closest to */
- err = dBTable10_n60[i] - number;
- if(err < (number - dBTable10_n60[i+1]))
- {
- return (10000 - i*DB_TABLE_STEP_SIZE);
- }
- else
- {
- return (10000 - (i+1)*DB_TABLE_STEP_SIZE);
- }
- }
- }
- /* No solution found? Return -60dB */
- return -60000;
-}
-
-/* *********************************** */
-static int32 readAudioDiagLevel(proslicChanType *pProslic,int32 zero_dbm_mvpk)
-{
- int32 data;
-
- data = ProSLIC_ReadRAM(pProslic,47); /* TESTPKO */
- DEBUG_PRINT(pProslic, "TESTPKO = %d\n", (int)data);
-
- data /= 40145; /* 2^28 * 0.182 * 10^(Gfilt/20) */
- data *= 1000;
- data /= zero_dbm_mvpk;
- data *= 10;
-
- return(dBLookup(data));
-}
-
-/* *********************************** */
-static char *applyTestLimits(proslicTestObj *test)
-{
- if((test->value >= test->lowerLimit)&&(test->value <= test->upperLimit))
- {
- test->testResult = RC_TEST_PASSED;
- return ("PASS");
- }
- else
- {
- test->testResult = RC_TEST_FAILED;
- return ("FAIL");
- }
-}
-
-
-
-/* *********************************** */
-static int logTest(proslicChanType *pProslic,proslicTestObj *test,
- const char *label)
-{
- char resultStr[10];
- SIVOICE_STRCPY(resultStr,applyTestLimits(test));
- DEBUG_PRINT(pProslic, "ProSLIC : TestIn : %-14s = %-8d :: %s\n", label, (int)(test->value),
- resultStr);
-#ifndef ENABLE_DEBUG
- SILABS_UNREFERENCED_PARAMETER(pProslic);
- SILABS_UNREFERENCED_PARAMETER(label);
-#endif
- return test->testResult;
-
-}
-/* *********************************** */
-static int logStatus(proslicChanType *pProslic, int status,const char *label)
-{
- DEBUG_PRINT(pProslic, "ProSLIC : TestIn : %-14s = %d\n", label,status);
-#ifndef ENABLE_DEBUG
- SILABS_UNREFERENCED_PARAMETER(pProslic);
- SILABS_UNREFERENCED_PARAMETER(label);
- SILABS_UNREFERENCED_PARAMETER(status);
-#endif
- return RC_NONE;
-}
-
-/* *********************************** */
-static uInt32 Isqrt32(uInt32 num)
-{
- uInt32 one,res,op;
-
- op=num;
- res=0;
- one = 1L << 30;
- while(one > op)
- {
- one >>=2;
- }
-
- while(one !=0)
- {
- if(op >= res + one)
- {
- op = op - (res + one);
- res = res + 2*one;
- }
- res >>= 1;
- one >>= 2;
- }
-
- return (res);
-}
-
-
-/* *********************************** */
-static int storeDCFeedPreset(proslicChanType *pProslic,ProSLIC_DCfeed_Cfg *cfg,uInt8 preset)
-{
- cfg[preset].slope_vlim = ProSLIC_ReadRAM(pProslic,634);
- cfg[preset].slope_rfeed = ProSLIC_ReadRAM(pProslic,635);
- cfg[preset].slope_ilim = ProSLIC_ReadRAM(pProslic,636);
- cfg[preset].delta1 = ProSLIC_ReadRAM(pProslic,638);
- cfg[preset].delta2 = ProSLIC_ReadRAM(pProslic,639);
- cfg[preset].v_vlim = ProSLIC_ReadRAM(pProslic,640);
- cfg[preset].v_rfeed = ProSLIC_ReadRAM(pProslic,641);
- cfg[preset].v_ilim = ProSLIC_ReadRAM(pProslic,642);
- cfg[preset].const_rfeed = ProSLIC_ReadRAM(pProslic,643);
- cfg[preset].const_ilim = ProSLIC_ReadRAM(pProslic,644);
- cfg[preset].i_vlim = ProSLIC_ReadRAM(pProslic,645);
- cfg[preset].lcronhk = ProSLIC_ReadRAM(pProslic,853);
- cfg[preset].lcroffhk = ProSLIC_ReadRAM(pProslic,852);
- cfg[preset].lcrdbi = ProSLIC_ReadRAM(pProslic,701);
- cfg[preset].longhith = ProSLIC_ReadRAM(pProslic,858);
- cfg[preset].longloth = ProSLIC_ReadRAM(pProslic,859);
- cfg[preset].longdbi = ProSLIC_ReadRAM(pProslic,702);
- cfg[preset].lcrmask = ProSLIC_ReadRAM(pProslic,854);
- cfg[preset].lcrmask_polrev = ProSLIC_ReadRAM(pProslic,855);
- cfg[preset].lcrmask_state = ProSLIC_ReadRAM(pProslic,856);
- cfg[preset].lcrmask_linecap = ProSLIC_ReadRAM(pProslic,857);
- cfg[preset].vcm_oh = ProSLIC_ReadRAM(pProslic,748);
- cfg[preset].vov_bat = ProSLIC_ReadRAM(pProslic,752);
- cfg[preset].vov_gnd = ProSLIC_ReadRAM(pProslic,751);
-
- return RC_NONE;
-}
-
-
-/* *********************************** */
-int ProSLIC_createTestInObjs(proslicTestInObjType_ptr *pTstin, uInt32 num_objs)
-{
-#ifndef DISABLE_MALLOC
- *pTstin = SIVOICE_CALLOC(sizeof(proslicTestInObjType),num_objs);
-
- if(*pTstin == NULL)
- {
-#ifdef ENABLE_DEBUG
- LOGPRINT("%s: %s: failed to allocate memory", LOGPRINT_PREFIX, __FUNCTION__);
-#endif
- return RC_NO_MEM;
- }
-
- return RC_NONE;
-#else
- SILABS_UNREFERENCED_PARAMETER(pTstin);
- SILABS_UNREFERENCED_PARAMETER(num_objs);
- return RC_UNSUPPORTED_FEATURE;
-#endif
-}
-/* *********************************** */
-int ProSLIC_destroyTestInObjs(proslicTestInObjType_ptr *pTstin)
-{
-#ifndef DISABLE_MALLOC
- SIVOICE_FREE((proslicTestInObjType_ptr) *pTstin);
- *pTstin = NULL;
- return RC_NONE;
-#else
- SILABS_UNREFERENCED_PARAMETER(pTstin);
- return RC_UNSUPPORTED_FEATURE;
-#endif
-}
-
-/* *********************************** */
-int ProSLIC_testInPCMLpbkEnable(proslicChanType *pProslic,
- proslicTestInObjType *pTstin)
-{
- uInt8 regData;
-
- /* Valid device check */
- if(TSTIN_INVALID_PART_NUM)
- {
- return RC_UNSUPPORTED_FEATURE;
- }
-
- /* Check if enabled */
- if(!pTstin->pcmLpbkTest.testEnable)
- {
- return RC_TEST_DISABLED;
- }
- /* Return if already enabled */
- if(pTstin->pcmLpbkTest.pcmLpbkEnabled)
- {
- return RC_NONE;
- }
-
- /* Store PCM Settings */
- pTstin->pcmLpbkTest.pcmModeSave = ProSLIC_ReadReg(pProslic,11); /* PCMMODE */
-
-
- /* Disable PCM bus before changing format */
- regData = pTstin->pcmLpbkTest.pcmModeSave & ~0x10; /* PCM_EN = 0 */
- ProSLIC_WriteReg(pProslic,11,regData);
-
- /* Configure for either 8 or 16bit linear */
- if(pTstin->pcmLpbkTest.pcm8BitLinear == PCM_8BIT)
- {
- regData |= 0x02; /* PCM_FMT[1] = 1 */
- regData &= ~0x01; /* PCM_FMT[0] = 0 */
- }
- else /* PCM_16BIT */
- {
- regData |= 0x03; /* PCM_FMT[1:0] = 11 */
- }
-
- ProSLIC_WriteReg(pProslic,11,regData);
-
- /* Enable PCM Loopback */
- ProSLIC_WriteReg(pProslic,43,0x01); /* LOOPBACK */
-
- /* Re-enable PCM Bus */
- ProSLIC_WriteReg(pProslic,11,regData|0x10); /* PCMMODE */
-
- pTstin->pcmLpbkTest.pcmLpbkEnabled = 1;
- DEBUG_PRINT(pProslic, "ProSLIC : TestIn : pcmLpbk : ENABLED\n");
- return RC_NONE;
-}
-
-/* *********************************** */
-int ProSLIC_testInPCMLpbkDisable(proslicChanType *pProslic,
- proslicTestInObjType *pTstin)
-{
- uInt8 regData;
-
- /* Valid device check */
- if(TSTIN_INVALID_PART_NUM)
- {
- return RC_UNSUPPORTED_FEATURE;
- }
-
- /* Check if enabled */
- if(!pTstin->pcmLpbkTest.testEnable)
- {
- return RC_TEST_DISABLED;
- }
-
- /* Return if already disabled */
- if(!pTstin->pcmLpbkTest.pcmLpbkEnabled)
- {
- return RC_NONE;
- }
-
- /* Disable PCM Bus */
- regData = ProSLIC_ReadReg(pProslic,11); /* PCMMODE */
- ProSLIC_WriteReg(pProslic,11,regData &= ~0x10);
-
- /* Disable PCM Loopback */
- ProSLIC_WriteReg(pProslic,43,0);
-
- /* Restore PCMMODE. Force disabled while changing format */
- ProSLIC_WriteReg(pProslic,11,pTstin->pcmLpbkTest.pcmModeSave &= ~0x10);
- ProSLIC_WriteReg(pProslic,11,pTstin->pcmLpbkTest.pcmModeSave);
-
- pTstin->pcmLpbkTest.pcmLpbkEnabled = 0;
- DEBUG_PRINT(pProslic, "ProSLIC : TestIn : pcmLpbk : DISABLED\n");
- return RC_NONE;
-}
-
-/* *************************************************** */
-
-int ProSLIC_testInDCFeed(proslicChanType *pProslic,
- proslicTestInObjType *pTstin)
-{
- uInt8 enhanceRegSave;
- proslicMonitorType monitor;
- ramData lcroffhk_save = 0;
- ramData lcronhk_save = 0;
-
- /* Valid device check */
- if(TSTIN_INVALID_PART_NUM)
- {
- return RC_UNSUPPORTED_FEATURE;
- }
-
- /* Check if enabled */
- if(!pTstin->dcFeedTest.testEnable)
- {
- return RC_TEST_DISABLED;
- }
-
- /* Invalidate last test results */
- pTstin->dcFeedTest.testDataValid = TSTIN_RESULTS_INVALID;
-
- /* Verify line not in use */
- if(ProSLIC_ReadReg(pProslic,34) & 0x02) /* LCR */
- {
- DEBUG_PRINT(pProslic, "\nProSLIC : TestIn : DC Feed : Line in Use\n");
-
- if(pTstin->dcFeedTest.abortIfLineInUse==ABORT_LIU_ENABLED)
- {
- return RC_LINE_IN_USE;
- }
- }
-
- /* Disable Powersave */
- enhanceRegSave = ProSLIC_ReadReg(pProslic,47);
- ProSLIC_WriteReg(pProslic,47,0x20);
- Delay(pProTimer,10);
-
- /* Onhook measurement */
- ProSLIC_LineMonitor(pProslic,&monitor);
-
- pTstin->dcFeedTest.dcfeedVtipOnhook.value = monitor.vtip;
- pTstin->dcFeedTest.dcfeedVringOnhook.value = monitor.vring;
- pTstin->dcFeedTest.dcfeedVloopOnhook.value = monitor.vtr;
- pTstin->dcFeedTest.dcfeedVbatOnhook.value = monitor.vbat;
- pTstin->dcFeedTest.dcfeedItipOnhook.value = monitor.itip;
- pTstin->dcFeedTest.dcfeedIringOnhook.value = monitor.iring;
- pTstin->dcFeedTest.dcfeedIloopOnhook.value = monitor.itr;
- pTstin->dcFeedTest.dcfeedIlongOnhook.value = monitor.ilong;
-
- /* Modify LCR threshold (optional) before connecting test load */
- if(pTstin->dcFeedTest.applyLcrThresh == LCR_CHECK_ENABLED)
- {
- lcroffhk_save = ProSLIC_ReadRAM(pProslic,852);
- lcronhk_save = ProSLIC_ReadRAM(pProslic,853);
- ProSLIC_WriteRAM(pProslic,852,pTstin->dcFeedTest.altLcrOffThresh);
- ProSLIC_WriteRAM(pProslic,853,pTstin->dcFeedTest.altLcrOnThresh);
- }
-
- /* Connect internal test load for 2nd dc feed i/v point */
- setInternalTestLoad(pProslic,1);
- Delay(pProTimer,50);
- /* Offhook measurement */
- ProSLIC_LineMonitor(pProslic,&monitor);
-
- pTstin->dcFeedTest.dcfeedVtipOffhook.value = monitor.vtip;
- pTstin->dcFeedTest.dcfeedVringOffhook.value = monitor.vring;
- pTstin->dcFeedTest.dcfeedVloopOffhook.value = monitor.vtr;
- pTstin->dcFeedTest.dcfeedVbatOffhook.value = monitor.vbat;
- pTstin->dcFeedTest.dcfeedItipOffhook.value = monitor.itip;
- pTstin->dcFeedTest.dcfeedIringOffhook.value = monitor.iring;
- pTstin->dcFeedTest.dcfeedIloopOffhook.value = monitor.itr;
- pTstin->dcFeedTest.dcfeedIlongOffhook.value = monitor.ilong;
-
- pTstin->dcFeedTest.testResult = RC_TEST_PASSED; /* initialize */
- /* Read LCR */
- if(ProSLIC_ReadReg(pProslic,34) & 0x07) /* LCRRTP */
- {
- pTstin->dcFeedTest.lcrStatus = 1;
- }
- else
- {
- pTstin->dcFeedTest.lcrStatus = 0;
- }
-
- /* Only fail check if enabled */
- if(pTstin->dcFeedTest.applyLcrThresh == LCR_CHECK_ENABLED)
- {
- pTstin->dcFeedTest.testResult |= !pTstin->dcFeedTest.lcrStatus;
- }
-
- /* Disconnect Test Load */
- setInternalTestLoad(pProslic,0);
-
- /* Restore LCR thresholds */
- if(pTstin->dcFeedTest.applyLcrThresh == LCR_CHECK_ENABLED)
- {
- ProSLIC_WriteRAM(pProslic,852,lcroffhk_save);
- ProSLIC_WriteRAM(pProslic,853,lcronhk_save);
- }
-
- /* Restore enhance reg */
- ProSLIC_WriteReg(pProslic,47,enhanceRegSave);
-
- /* Process Results */
- pTstin->dcFeedTest.testResult |= logTest(pProslic,
- &(pTstin->dcFeedTest.dcfeedVtipOnhook),"DcFeed : Vtip Onhook");
- pTstin->dcFeedTest.testResult |= logTest(pProslic,
- &(pTstin->dcFeedTest.dcfeedVringOnhook),"DcFeed : Vring Onhook");
- pTstin->dcFeedTest.testResult |= logTest(pProslic,
- &(pTstin->dcFeedTest.dcfeedVloopOnhook),"DcFeed : Vloop Onhook");
- pTstin->dcFeedTest.testResult |= logTest(pProslic,
- &(pTstin->dcFeedTest.dcfeedVbatOnhook),"DcFeed : Vbat Onhook");
- pTstin->dcFeedTest.testResult |= logTest(pProslic,
- &(pTstin->dcFeedTest.dcfeedItipOnhook),"DcFeed : Itip Onhook");
- pTstin->dcFeedTest.testResult |= logTest(pProslic,
- &(pTstin->dcFeedTest.dcfeedIringOnhook),"DcFeed : Iring Onhook");
- pTstin->dcFeedTest.testResult |= logTest(pProslic,
- &(pTstin->dcFeedTest.dcfeedIloopOnhook),"DcFeed : Iloop Onhook");
- pTstin->dcFeedTest.testResult |= logTest(pProslic,
- &(pTstin->dcFeedTest.dcfeedIlongOnhook),"DcFeed : Ilong Onhook");
-
- pTstin->dcFeedTest.testResult |= logTest(pProslic,
- &(pTstin->dcFeedTest.dcfeedVtipOffhook),"DcFeed : Vtip Offhook");
- pTstin->dcFeedTest.testResult |= logTest(pProslic,
- &(pTstin->dcFeedTest.dcfeedVringOffhook),"DcFeed : Vring Offhook");
- pTstin->dcFeedTest.testResult |= logTest(pProslic,
- &(pTstin->dcFeedTest.dcfeedVloopOffhook),"DcFeed : Vloop Offhook");
- pTstin->dcFeedTest.testResult |= logTest(pProslic,
- &(pTstin->dcFeedTest.dcfeedVbatOffhook),"DcFeed : Vbat Offhook");
- pTstin->dcFeedTest.testResult |= logTest(pProslic,
- &(pTstin->dcFeedTest.dcfeedItipOffhook),"DcFeed : Itip Offhook");
- pTstin->dcFeedTest.testResult |= logTest(pProslic,
- &(pTstin->dcFeedTest.dcfeedIringOffhook),"DcFeed : Iring Offhook");
- pTstin->dcFeedTest.testResult |= logTest(pProslic,
- &(pTstin->dcFeedTest.dcfeedIloopOffhook),"DcFeed : Iloop Offhook");
- pTstin->dcFeedTest.testResult |= logTest(pProslic,
- &(pTstin->dcFeedTest.dcfeedIlongOffhook),"DcFeed : Ilong Offhook");
-
- logStatus(pProslic,pTstin->dcFeedTest.lcrStatus,"DcFeed : LCR");
-
-
- pTstin->dcFeedTest.testDataValid = 1; /* New valid results */
-
- /* return cumulative pass/fail result */
-
- return (pTstin->dcFeedTest.testResult);
-}
-
-/* *********************************** */
-int ProSLIC_testInRinging(proslicChanType *pProslic,
- proslicTestInObjType *pTstin)
-{
- uInt8 ringcon_save,enhance_save;
- int32 vtr[MAX_RINGING_SAMPLES];
- int i;
- uInt8 lf;
- uInt32 rtper_save, ringfr_save,ringamp_save,ringof_save,rtacth_save,rtdcth_save;
- ProSLIC_DCfeed_Cfg dcfeedCfg[1];
-
- /* Valid device check */
- if(TSTIN_INVALID_PART_NUM)
- {
- return RC_UNSUPPORTED_FEATURE;
- }
-
- /* Check if enabled */
- if( (!pTstin->ringingTest.testEnable)
- || (pTstin->ringingTest.numSamples == 0) )
- {
- return RC_TEST_DISABLED;
- }
-
- /* Verify line not in use */
- if(ProSLIC_ReadReg(pProslic,34) & 0x02) /* LCR */
- {
- DEBUG_PRINT(pProslic, "\nProSLIC : TestIn : Ringing : Line in Use\n");
-
- if(pTstin->ringingTest.abortIfLineInUse)
- {
- return RC_LINE_IN_USE;
- }
- }
-
- /* Invalidate last test results */
- pTstin->ringingTest.testDataValid = TSTIN_RESULTS_INVALID;
-
- /* Check sample size/rate */
- if(pTstin->ringingTest.numSamples > MAX_RINGING_SAMPLES)
- {
- pTstin->ringingTest.numSamples = MAX_RINGING_SAMPLES;
- }
-
- if(pTstin->ringingTest.sampleInterval > MAX_RINGING_SAMPLE_INTERVAL)
- {
- pTstin->ringingTest.sampleInterval = MAX_RINGING_SAMPLE_INTERVAL;
- }
-
- if(pTstin->ringingTest.sampleInterval < MIN_RINGING_SAMPLE_INTERVAL)
- {
- pTstin->ringingTest.sampleInterval = MIN_RINGING_SAMPLE_INTERVAL;
- }
-
- /* Disable Powersave */
- enhance_save = ProSLIC_ReadReg(pProslic,47);
- ProSLIC_WriteReg(pProslic,47,0x20);
- Delay(pProTimer,10);
-
- /* Disable ring cadencing */
- ringcon_save = ProSLIC_ReadReg(pProslic,38); /* RINGCON */
- ProSLIC_WriteReg(pProslic,38,ringcon_save&0xE7); /* RINGCON */
-
- /* Must enter ringing through active state */
- lf = ProSLIC_ReadReg(pProslic,30); /* LINEFEED */
- ProSLIC_SetLinefeedStatus(pProslic,LF_FWD_ACTIVE);
- Delay(pProTimer,20); /* settle */
-
- /* Start ringing */
- ProSLIC_SetLinefeedStatus(pProslic,LF_RINGING);
- Delay(pProTimer,500);
-
- /* Verify Ring Started */
- if(ProSLIC_ReadReg(pProslic,30) != 0x44)
- {
- ProSLIC_SetLinefeedStatus(pProslic,LF_FWD_ACTIVE);
- ProSLIC_SetLinefeedStatus(pProslic,LF_OPEN);
- ProSLIC_WriteReg(pProslic,38,ringcon_save);
- ProSLIC_WriteReg(pProslic,47,enhance_save);
- ProSLIC_SetLinefeedStatus(pProslic,lf);
-
- DEBUG_PRINT(pProslic, "ProSLIC : TestIn : Ringing : Ring Start Fail\n");
-
- pTstin->ringingTest.testResult = RC_TEST_FAILED;
- return RC_RING_START_FAIL;
- }
-
- /* Capture samples */
- pTstin->ringingTest.ringingVdc.value = 0;
- for(i=0; i<pTstin->ringingTest.numSamples; i++)
- {
- vtr[i] = ProSLIC_ReadMADCScaled(pProslic,69,0); /* VDIFF_FILT */
- pTstin->ringingTest.ringingVdc.value += vtr[i];
-
- DEBUG_PRINT(pProslic, "ProSLIC : TestIn : Ringing : Vtr[%d] = %d\n",i, (int)(vtr[i]));
-
- Delay(pProTimer,pTstin->ringingTest.sampleInterval);
- }
-
- /* Restore linefeed */
- ProSLIC_SetLinefeedStatus(pProslic,LF_FWD_ACTIVE);
- Delay(pProTimer,20);
-
- /* Process Results */
- pTstin->ringingTest.ringingVdc.value /= pTstin->ringingTest.numSamples;
- for(i=0; i<pTstin->ringingTest.numSamples; i++)
- {
- vtr[i] -= pTstin->ringingTest.ringingVdc.value;
- pTstin->ringingTest.ringingVac.value += ((vtr[i]/100L) * (vtr[i]/100L));
- }
-
-
- pTstin->ringingTest.ringingVac.value /= pTstin->ringingTest.numSamples;
- pTstin->ringingTest.ringingVac.value = Isqrt32(
- pTstin->ringingTest.ringingVac.value);
- pTstin->ringingTest.ringingVac.value *= 100L;
-
- pTstin->ringingTest.testResult = RC_TEST_PASSED;
- pTstin->ringingTest.testResult |= logTest(pProslic,
- &(pTstin->ringingTest.ringingVdc),"Ringing : VDC");
- pTstin->ringingTest.testResult |= logTest(pProslic,
- &(pTstin->ringingTest.ringingVac),"Ringing : VAC");
- /*
- ** Optional Ringtrip Test
- */
-
- if(pTstin->ringingTest.ringtripTestEnable == RTP_CHECK_ENABLED)
- {
- /* Setup low voltage linefeed so low level ringing may be used */
- ProSLIC_SetLinefeedStatus(pProslic,LF_OPEN);
- storeDCFeedPreset(pProslic,&(dcfeedCfg[0]),0);
- ProSLIC_DCFeedSetupCfg(pProslic,&(ringtripTestDCFeedPreset[0]),0);
-
- /* Optional Ringtrip Test (modified ringer settings to use test load to trip) */
- rtper_save = ProSLIC_ReadRAM(pProslic,755);
- ringfr_save = ProSLIC_ReadRAM(pProslic,844);
- ringamp_save = ProSLIC_ReadRAM(pProslic,845);
- ringof_save = ProSLIC_ReadRAM(pProslic,843);
- rtacth_save = ProSLIC_ReadRAM(pProslic,848);
- rtdcth_save = ProSLIC_ReadRAM(pProslic,847);
-
- ProSLIC_WriteRAM(pProslic,755,0x50000L); /* RTPER */
- ProSLIC_WriteRAM(pProslic,844,0x7EFE000L);/* RINGFR */
- ProSLIC_WriteRAM(pProslic,845,0xD6307L); /* RINGAMP */
- ProSLIC_WriteRAM(pProslic,843,0x0L); /* RINGOF */
- ProSLIC_WriteRAM(pProslic,848,0x7827FL); /* RTACTH */
- ProSLIC_WriteRAM(pProslic,847,0xFFFFFFFL);/* RTDCTH */
-
- /* Start ringing from active state */
- ProSLIC_SetLinefeedStatus(pProslic,LF_FWD_ACTIVE);
- Delay(pProTimer,20);
- ProSLIC_SetLinefeedStatus(pProslic,LF_RINGING);
- Delay(pProTimer,200);
-
- /* Verify Ring Started */
- if(ProSLIC_ReadReg(pProslic,30) != 0x44)
- {
- ProSLIC_SetLinefeedStatus(pProslic,LF_FWD_ACTIVE);
- ProSLIC_SetLinefeedStatus(pProslic,LF_OPEN);
- ProSLIC_WriteReg(pProslic,38,ringcon_save);
- ProSLIC_WriteReg(pProslic,47,enhance_save);
-
- /* Restore DC Feed */
- ProSLIC_DCFeedSetupCfg(pProslic,&(dcfeedCfg[0]),0);
-
- /* Restore Ring Settings */
- ProSLIC_WriteRAM(pProslic,755,rtper_save); /* RTPER */
- ProSLIC_WriteRAM(pProslic,844,ringfr_save); /*RINGFR */
- ProSLIC_WriteRAM(pProslic,845,ringamp_save); /* RINGAMP */
- ProSLIC_WriteRAM(pProslic,843,ringof_save); /* RINGOF */
- ProSLIC_WriteRAM(pProslic,848,rtacth_save); /* RTACTH */
- ProSLIC_WriteRAM(pProslic,847,rtdcth_save); /* RTDCTH */
-
- ProSLIC_SetLinefeedStatus(pProslic,lf);
-
- DEBUG_PRINT(pProslic, "ProSLIC : TestIn : Ringtrip : Ring Start Fail\n");
-
- pTstin->ringingTest.testResult=RC_TEST_FAILED;
- return RC_RING_START_FAIL;
- }
-
- /* Connect Test Load to cause ringtrip */
- setInternalTestLoad(pProslic,1);
- Delay(pProTimer,200);
-
- /* Check for RTP */
- if(ProSLIC_ReadReg(pProslic,34) & 0x01) /* LCRRTP */
- {
- pTstin->ringingTest.rtpStatus = 1;
- pTstin->ringingTest.testResult |= RC_TEST_PASSED;
- }
- else
- {
- pTstin->ringingTest.rtpStatus = 0;
- pTstin->ringingTest.testResult |= RC_TEST_FAILED;
- ProSLIC_SetLinefeedStatus(pProslic,LF_FWD_ACTIVE);
- }
- setInternalTestLoad(pProslic,0);
- Delay(pProTimer,20);
-
- logStatus(pProslic,pTstin->ringingTest.rtpStatus,"Ringing : RTP");
-
- /* Restore DC Feed */
- ProSLIC_DCFeedSetupCfg(pProslic,&(dcfeedCfg[0]),0);
-
- /* Restore Ring Settings */
- ProSLIC_WriteRAM(pProslic,755,rtper_save);/* RTPER */
- ProSLIC_WriteRAM(pProslic,844,ringfr_save);/*RINGFR */
- ProSLIC_WriteRAM(pProslic,845,ringamp_save); /* RINGAMP */
- ProSLIC_WriteRAM(pProslic,843,ringof_save); /* RINGOF */
- ProSLIC_WriteRAM(pProslic,848,rtacth_save);/* RTACTH */
- ProSLIC_WriteRAM(pProslic,847,rtdcth_save);/* RTDCTH */
-
- }/* end of ringtrip test */
-
- /* Restore Linefeed */
- ProSLIC_SetLinefeedStatus(pProslic,lf);
-
- /* Restore RINGCON and ENHANCE */
- ProSLIC_WriteReg(pProslic,38,ringcon_save);
- ProSLIC_WriteReg(pProslic,47,enhance_save);
-
- pTstin->ringingTest.testDataValid = TSTIN_RESULTS_VALID;
-
- return (pTstin->ringingTest.testResult);
-}
-
-/* *********************************** */
-int ProSLIC_testInBattery(proslicChanType *pProslic,
- proslicTestInObjType *pTstin)
-{
- proslicMonitorType monitor;
-
- /* Valid device check */
- if(TSTIN_INVALID_PART_NUM)
- {
- return RC_UNSUPPORTED_FEATURE;
- }
-
- /* Check if enabled */
- if(!pTstin->batteryTest.testEnable)
- {
- return RC_TEST_DISABLED;
- }
-
- /* Invalidate last test results */
- pTstin->batteryTest.testDataValid = TSTIN_RESULTS_INVALID;
-
- /* Measure Battery */
- ProSLIC_LineMonitor(pProslic,&monitor);
-
- pTstin->batteryTest.vbat.value = monitor.vbat;
-
- pTstin->batteryTest.testResult = logTest(pProslic,&(pTstin->batteryTest.vbat),
- "Battery : VBAT");
-
- pTstin->batteryTest.testDataValid =
- TSTIN_RESULTS_VALID; /* New valid results */
-
- return (pTstin->batteryTest.testResult);
-}
-
-/* *********************************** */
-int ProSLIC_testInAudio(proslicChanType *pProslic, proslicTestInObjType *pTstin)
-{
- uInt8 enhanceRegSave;
- uInt8 lf;
- int32 data;
- int32 gainMeas1,gainMeas2;
- int32 gainMeas3 = 0;
- ProSLIC_audioGain_Cfg gainCfg;
- int32 Pin = -3980; /* -10dBm + 6.02dB (since OHT w/ no AC load) */
-
- /* Valid device check */
- if(TSTIN_INVALID_PART_NUM)
- {
- return RC_UNSUPPORTED_FEATURE;
- }
-
- /* Check if enabled */
- if(!pTstin->audioTest.testEnable)
- {
- return RC_TEST_DISABLED;
- }
-
- /* Invalidate last test results */
- pTstin->audioTest.testDataValid = TSTIN_RESULTS_INVALID;
-
- /* Verify line not in use */
- if(ProSLIC_ReadReg(pProslic,34) & 0x02) /* LCR */
- {
- DEBUG_PRINT(pProslic, "\nProSLIC : TestIn : Audio : Line in Use\n");
-
- if(pTstin->audioTest.abortIfLineInUse == ABORT_LIU_ENABLED)
- {
- return RC_LINE_IN_USE;
- }
- }
-
- /* Disable Powersave */
- enhanceRegSave = ProSLIC_ReadReg(pProslic,47);
- ProSLIC_WriteReg(pProslic,47,0x20);
- Delay(pProTimer,10);
-
-
- /* Setup Audio Filter, enable audio in OHT */
- lf = ProSLIC_ReadReg(pProslic,30); /* LINEFEED */
- ProSLIC_SetLinefeedStatus(pProslic,LF_FWD_ACTIVE);
- Delay(pProTimer,20); /* settle */
- setup1kHzBandpass(pProslic);
- ProSLIC_SetLinefeedStatus(pProslic,LF_FWD_OHT);
-
- /* Setup osc1 for 1kHz -10dBm tone, disable hybrid, enable filters */
- ProSLIC_WriteRAM(pProslic,26,0x5A80000L); /* OSC1FREQ */
- ProSLIC_WriteRAM(pProslic,27,0x5D8000L); /* OSC1AMP */
- ProSLIC_WriteReg(pProslic,48,0x02); /* OMODE */
- ProSLIC_WriteReg(pProslic,49,0x01); /* OCON */
- ProSLIC_WriteReg(pProslic,44,0x10); /* DIGCON */
- ProSLIC_WriteReg(pProslic,71,0x10); /* DIAG1 */
-
- /* Settle */
- Delay(pProTimer,800);
-
- /* Read first gain measurement (Gtx + Grx + Gzadj) */
- gainMeas1 = readAudioDiagLevel(pProslic,pTstin->audioTest.zerodBm_mVpk);
-
- /* Bypass TXACHPF and set TXACEQ to unity */
- gainCfg.acgain = ProSLIC_ReadRAM(pProslic,544); /* TXACGAIN */
- gainCfg.aceq_c0 = ProSLIC_ReadRAM(pProslic,540); /* TXACEQ_C0 */
- gainCfg.aceq_c1 = ProSLIC_ReadRAM(pProslic,541); /* TXACEQ_C1 */
- gainCfg.aceq_c2 = ProSLIC_ReadRAM(pProslic,542); /* TXACEQ_C2 */
- gainCfg.aceq_c3 = ProSLIC_ReadRAM(pProslic,543); /* TXACEQ_C3 */
- ProSLIC_WriteRAM(pProslic,544,0x8000000L);
- ProSLIC_WriteRAM(pProslic,543,0x0L);
- ProSLIC_WriteRAM(pProslic,542,0x0L);
- ProSLIC_WriteRAM(pProslic,541,0x0L);
- ProSLIC_WriteRAM(pProslic,540,0x8000000L);
- ProSLIC_WriteReg(pProslic,44,0x18);
-
- /* Settle */
- Delay(pProTimer,800);
-
- /* Read second level measurement (RX level only) */
- gainMeas2 = readAudioDiagLevel(pProslic,pTstin->audioTest.zerodBm_mVpk);
-
- /* Adjust txgain if TXACGAIN wasn't unity during gainMeas1 */
- if(gainCfg.acgain != 0x8000000L)
- {
- data = (gainCfg.acgain*10)/134217;
- gainMeas3 = dBLookup(data);
- }
-
- /* Computations */
- pTstin->audioTest.rxGain.value = gainMeas2 - Pin;
- pTstin->audioTest.txGain.value = gainMeas1 - gainMeas2 + gainMeas3;
-
-#ifdef ENABLE_DEBUG
- if( DEBUG_ENABLED(pProslic) )
- {
- LOGPRINT("ProSLIC : TestIn : Audio : gainMeas1 = %d\n", (int)gainMeas1);
- LOGPRINT("ProSLIC : TestIn : Audio : gainMeas2 = %d\n", (int)gainMeas2);
- LOGPRINT("ProSLIC : TestIn : Audio : gainMeas3 = %d\n", (int)gainMeas3);
- }
-#endif
- pTstin->audioTest.testResult = RC_TEST_PASSED;
- pTstin->audioTest.testResult |= logTest(pProslic,&(pTstin->audioTest.rxGain),
- "RX Path Gain");
- pTstin->audioTest.testResult |= logTest(pProslic,&(pTstin->audioTest.txGain),
- "TX Path Gain");
-
-
-
- /*
- ** Restore
- */
-
- /* Need to store/restore all modified reg/RAM */
- ProSLIC_WriteRAM(pProslic,544,gainCfg.acgain);
- ProSLIC_WriteRAM(pProslic,540,gainCfg.aceq_c0);
- ProSLIC_WriteRAM(pProslic,541,gainCfg.aceq_c1);
- ProSLIC_WriteRAM(pProslic,542,gainCfg.aceq_c2);
- ProSLIC_WriteRAM(pProslic,543,gainCfg.aceq_c3);
-
- ProSLIC_WriteReg(pProslic,71,0x0); /* DIAG1 */
- ProSLIC_WriteReg(pProslic,44,0x0); /* DIGCON */
- ProSLIC_WriteReg(pProslic,48,0x0); /* OMODE */
- ProSLIC_WriteReg(pProslic,49,0x0); /* OCON */
- ProSLIC_SetLinefeedStatus(pProslic,LF_FWD_ACTIVE);
- ProSLIC_WriteReg(pProslic,47,enhanceRegSave);
- ProSLIC_SetLinefeedStatus(pProslic,lf);
-
- /* Validate last test results */
- pTstin->audioTest.testDataValid = TSTIN_RESULTS_VALID;
-
- return pTstin->audioTest.testResult;
-}
-
-
-/* *********************************** */
-
-int ProSLIC_testInPcmLpbkSetup(proslicTestInObjType *pTstin,
- proslicPcmLpbkTest *pcmLpbkTest)
-{
- pTstin->pcmLpbkTest = *pcmLpbkTest;
- pTstin->pcmLpbkTest.testEnable = 1;
-
- return RC_NONE;
-}
-
-/* *********************************** */
-
-int ProSLIC_testInDcFeedSetup(proslicTestInObjType *pTstin,
- proslicDcFeedTest *dcFeedTest)
-{
- pTstin->dcFeedTest = *dcFeedTest;
- pTstin->dcFeedTest.testEnable = 1;
-
- return RC_NONE;
-}
-
-/* *********************************** */
-
-int ProSLIC_testInRingingSetup(proslicTestInObjType *pTstin,
- proslicRingingTest *ringingTest)
-{
- /* Copy limits per-channel */
-
- pTstin->ringingTest = *ringingTest;
- pTstin->ringingTest.testEnable = 1;
-
- return RC_NONE;
-}
-/* *********************************** */
-
-int ProSLIC_testInBatterySetup(proslicTestInObjType *pTstin,
- proslicBatteryTest *batteryTest)
-{
- /* Copy limits per-channel */
-
- pTstin->batteryTest = *batteryTest;
- pTstin->batteryTest.testEnable = 1;
-
- return RC_NONE;
-}
-
-/* *********************************** */
-
-int ProSLIC_testInAudioSetup(proslicTestInObjType *pTstin,
- proslicAudioTest *audioTest)
-{
- /* Copy limits per-channel */
-
- pTstin->audioTest = *audioTest;
- pTstin->audioTest.testEnable = 1;
-
- return RC_NONE;
-}
-
-
-/* *********************************** */
-int ProSLIC_testInPrintLimits(proslicChanType *pProslic,
- proslicTestInObjType *pTstin)
-{
- /* Valid device check */
- if(TSTIN_INVALID_PART_NUM)
- {
- return RC_UNSUPPORTED_FEATURE;
- }
-#ifdef ENABLE_DEBUG
- if( DEBUG_ENABLED(pProslic ) )
- {
- LOGPRINT("\n");
- LOGPRINT("************ Test-In Test Limits **************\n");
- LOGPRINT("----------------------------------------------------------------\n");
- LOGPRINT("ProSLIC : Test-In : Limits : vtip_on_min (mv) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedVtipOnhook.lowerLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : vtip_on_max (mv) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedVtipOnhook.upperLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : vring_on_min (mv) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedVringOnhook.lowerLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : vring_on_max (mv) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedVringOnhook.upperLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : vloop_on_min (mv) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedVloopOnhook.lowerLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : vloop_on_max (mv) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedVloopOnhook.upperLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : vbat_on_min (mv) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedVbatOnhook.lowerLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : vbat_on_max (mv) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedVbatOnhook.upperLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : itip_on_min (ua) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedItipOnhook.lowerLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : itip_on_max (ua) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedItipOnhook.upperLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : iring_on_min (ua) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedIringOnhook.lowerLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : iring_on_max (ua) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedIringOnhook.upperLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : iloop_on_min (ua) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedIloopOnhook.lowerLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : iloop_on_max (ua) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedIloopOnhook.upperLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : ilong_on_min (ua) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedIlongOnhook.lowerLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : ilong_on_max (ua) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedIlongOnhook.upperLimit));
- LOGPRINT("----------------------------------------------------------------\n");
- LOGPRINT("ProSLIC : Test-In : Limits : vtip_off_min (mv) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedVtipOffhook.lowerLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : vtip_off_max (mv) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedVtipOffhook.upperLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : vring_off_min (mv) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedVringOffhook.lowerLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : vring_off_max (mv) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedVringOffhook.upperLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : vloop_off_min (mv) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedVloopOffhook.lowerLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : vloop_off_max (mv) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedVloopOffhook.upperLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : vbat_off_min (mv) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedVbatOffhook.lowerLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : vbat_off_max (mv) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedVbatOffhook.upperLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : itip_off_min (ua) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedItipOffhook.lowerLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : itip_off_max (ua) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedItipOffhook.upperLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : iring_off_min (ua) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedIringOffhook.lowerLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : iring_off_max (ua) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedIringOffhook.upperLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : iloop_off_min (ua) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedIloopOffhook.lowerLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : iloop_off_max (ua) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedIloopOffhook.upperLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : ilong_off_min (ua) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedIlongOffhook.lowerLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : ilong_off_max (ua) = %d\n",
- (int)(pTstin->dcFeedTest.dcfeedIlongOffhook.upperLimit));
- LOGPRINT("----------------------------------------------------------------\n");
- LOGPRINT("ProSLIC : Test-In : Limits : ringing_vac_min (mv) = %d\n",
- (int)(pTstin->ringingTest.ringingVac.lowerLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : ringing_vac_max (mv) = %d\n",
- (int)(pTstin->ringingTest.ringingVac.upperLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : ringing_vdc_min (mv) = %d\n",
- (int)(pTstin->ringingTest.ringingVdc.lowerLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : ringing_vdc_max (mv) = %d\n",
- (int)(pTstin->ringingTest.ringingVdc.upperLimit));
- LOGPRINT("----------------------------------------------------------------\n");
- LOGPRINT("ProSLIC : Test-In : Limits : battery_vbat_min (mv) = %d\n",
- (int)(pTstin->batteryTest.vbat.lowerLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : battery_vbat_max (mv) = %d\n",
- (int)(pTstin->batteryTest.vbat.upperLimit));
- LOGPRINT("----------------------------------------------------------------\n");
- LOGPRINT("ProSLIC : Test-In : Limits : audio_txgain_min (mdB) = %d\n",
- (int)(pTstin->audioTest.txGain.lowerLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : audio_txgain_max (mdB) = %d\n",
- (int)(pTstin->audioTest.txGain.upperLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : audio_rxgain_min (mdB) = %d\n",
- (int)(pTstin->audioTest.rxGain.lowerLimit));
- LOGPRINT("ProSLIC : Test-In : Limits : audio_rxgain_max (mdB) = %d\n",
- (int)(pTstin->audioTest.rxGain.upperLimit));
- LOGPRINT("----------------------------------------------------------------\n");
- LOGPRINT("\n");
- }
-#else
- SILABS_UNREFERENCED_PARAMETER(pTstin);
-#endif
- return RC_NONE;
-}
-
-
-static ProSLIC_DCfeed_Cfg testLoad_DC_Cfg[] =
-{
- {
- 0x1DC6E1D3L, /* SLOPE_VLIM */
- 0x1F909679L, /* SLOPE_RFEED */
- 0x0040A0E0L, /* SLOPE_ILIM */
- 0x1B8687BBL, /* SLOPE_DELTA1 */
- 0x1CC4B75DL, /* SLOPE_DELTA2 */
- 0x05A38633L, /* V_VLIM (48.000 v) */
- 0x050D2839L, /* V_RFEED (43.000 v) */
- 0x03FE7F0FL, /* V_ILIM (34.000 v) */
- 0x009DAFD9L, /* CONST_RFEED (10.000 mA) */
- 0x0045CBBCL, /* CONST_ILIM (15.000 mA) */
- 0x002D8D96L, /* I_VLIM (0.000 mA) */
- 0x005B0AFBL, /* LCRONHK (10.000 mA) */
- 0x006D4060L, /* LCROFFHK (12.000 mA) */
- 0x00008000L, /* LCRDBI (5.000 ms) */
- 0x0048D595L, /* LONGHITH (8.000 mA) */
- 0x003FBAE2L, /* LONGLOTH (7.000 mA) */
- 0x00008000L, /* LONGDBI (5.000 ms) */
- 0x000F0000L, /* LCRMASK (150.000 ms) */
- 0x00080000L, /* LCRMASK_POLREV (80.000 ms) */
- 0x00140000L, /* LCRMASK_STATE (200.000 ms) */
- 0x00140000L, /* LCRMASK_LINECAP (200.000 ms) */
- 0x01BA5E35L, /* VCM_OH (27.000 v) */
- 0x0051EB85L, /* VOV_BAT (5.000 v) */
- 0x00418937L, /* VOV_GND (4.000 v) */
- }
-};
-
-/* *********************************** */
-int ProSLIC_testLoadTest(
- SiVoiceChanType_ptr pProslic,
- BOOLEAN is_testStart,
- uint32_t timeDelayMsec)
-{
- static ProSLIC_DCfeed_Cfg dcfeedCfg;
- static uInt8 digcon_reg_cache;
-
- TRACEPRINT(pProslic, " channel: %u is_testStart: %u delay = %u",
- pProslic->channel,
- is_testStart,
- timeOffhookMsec);
- /* Valid device check */
-
- if(TSTIN_INVALID_PART_NUM)
- {
- return RC_UNSUPPORTED_FEATURE;
- }
-
- if( TRUE == is_testStart )
- {
- /* Verify line not in use */
- if(ProSLIC_ReadReg(pProslic,PROSLIC_REG_LCRRTP) & 0x02) /* LCR */
- {
- DEBUG_PRINT(pProslic, "\nLine in Use: %u.\n", pProslic->channel);
- return RC_LINE_IN_USE;
- }
-
- /* Setup lower ILIM linefeed */
- ProSLIC_SetLinefeedStatus(pProslic,LF_OPEN);
- storeDCFeedPreset(pProslic, &dcfeedCfg, 0);
-
- ProSLIC_DCFeedSetupCfg( pProslic, testLoad_DC_Cfg, 0 );
-
- ProSLIC_SetLinefeedStatus(pProslic,LF_FWD_ACTIVE);
- Delay(pProTimer,100);
-
- /* Connect Test Load to cause LCR interrupt*/
- setInternalTestLoad(pProslic,1);
- Delay(pProTimer, timeDelayMsec);
- DEBUG_PRINT(pProslic, "\n%s: test load on for channel %u\n",
- __FUNCTION__, pProslic->channel);
-
- /* Disable hybrid circuit for test load loopback */
- digcon_reg_cache = ProSLIC_ReadReg(pProslic,PROSLIC_REG_DIGCON);
-
- ProSLIC_WriteReg(pProslic, PROSLIC_REG_DIGCON,
- digcon_reg_cache |0x10 );
-
- /* At this point the test load should of caused a LCR interrupt and
- there is an audio path available. NOTE: there may be some distortion
- of the audio...
- */
-
- }
- else
- {
- /* Restore hybrid circuit */
- ProSLIC_WriteReg(pProslic,
- PROSLIC_REG_DIGCON, digcon_reg_cache );
-
- /* Disconnect Test Load */
- setInternalTestLoad(pProslic,0);
- Delay(pProTimer, timeDelayMsec);
- DEBUG_PRINT(pProslic, "\n%s: test load off for channel %u.\n",
- __FUNCTION__, pProslic->channel);
-
- /* Restore DC Feed */
- ProSLIC_DCFeedSetupCfg(pProslic, &dcfeedCfg, 0);
- }
-
- return RC_NONE;
-}
-
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/src/si3218x_LCCB_constants.c b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/src/si3218x_LCCB_constants.c
deleted file mode 100644
index ad948e9..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/src/si3218x_LCCB_constants.c
+++ /dev/null
@@ -1,686 +0,0 @@
-// SPDX-License-Identifier: GPL-2.0
-/*
- * Si3218x ProSLIC API Configuration Tool Version 4.2.1
- * Last Updated in API Release: 9.2.0
- * source XML file: si3218x_LCCB_constants.xml
- *
- * Auto generated file from configuration tool.
- */
-
-
-#include "../inc/proslic.h"
-#include "../inc/si3218x.h"
-
-Si3218x_General_Cfg Si3218x_General_Configuration = {
-0x72, /* DEVICE_KEY */
-BO_DCDC_LCCB, /* BOM_OPT */
-VDC_4P5_16P0, /* VDC_RANGE_OPT */
-AUTO_ZCAL_ENABLED, /* ZCAL_ENABLE */
-BO_STD_BOM, /* PM_BOM */
-0x00000000L, /* DCDC_OITHRESH_LO */
-0x01A00000L, /* DCDC_OITHRESH_HI */
-0x00A00000L, /* DCDC_OVTHRESH */
-5000L, /* DCDC_UVTHRESH */
-1000L, /* DCDC_UVHYST */
-0x00000000L, /* DCDC_FSW_VTHLO */
-0x00000000L, /* DCDC_FSW_VHYST */
-0x0048D15BL, /* P_TH_HVIC */
-0x07FEB800L, /* COEF_P_HVIC */
-0x00083120L, /* BAT_HYST */
-0x03D70A20L, /* VBATH_EXPECT (60.00V) */
-0x06666635L, /* VBATR_EXPECT (100.00V) */
-0x0FFF0000L, /* PWRSAVE_TIMER */
-0x01999A00L, /* OFFHOOK_THRESH */
-0x00F00000L, /* VBAT_TRACK_MIN */
-0x00F00000L, /* VBAT_TRACK_MIN_RNG */
-0x0ADD5500L, /* DCDC_ANA_SCALE */
-0x00800000L, /* THERM_DBI */
-0x00FFFFFFL, /* VOV_DCDC_SLOPE */
-0x00A18937L, /* VOV_DCDC_OS */
-0x00A18937L, /* VOV_RING_BAT_DCDC */
-0x00E49BA5L, /* VOV_RING_BAT_MAX */
-0x01018900L, /* DCDC_VERR */
-0x0080C480L, /* DCDC_VERR_HYST */
-0x00400000L, /* PD_UVLO */
-0x00400000L, /* PD_OVLO */
-0x00200000L, /* PD_OCLO */
-0x00400000L, /* PD_SWDRV */
-0x00000000L, /* DCDC_UVPOL */
-0x00200000L, /* DCDC_RNGTYPE */
-0x00180000L, /* DCDC_ANA_TOFF */
-0x00100000L, /* DCDC_ANA_TONMIN */
-0x012FC000L, /* DCDC_ANA_TONMAX */
-0x50, /* IRQEN1 */
-0x13, /* IRQEN2 */
-0x03, /* IRQEN3 */
-0x00, /* IRQEN4 */
-0x30, /* ENHANCE */
-0x3F, /* AUTO */
-};
-
-Si3218x_audioGain_Cfg Si3218x_audioGain_Presets [] = {
-{0x1377080L,0, 0x0L, 0x0L, 0x0L, 0x0L},
-{0x80C3180L,0, 0x0L, 0x0L, 0x0L, 0x0L}
-};
-
-Si3218x_Ring_Cfg Si3218x_Ring_Presets[] ={
-{
-/*
- Loop = 500.0 ft @ 0.044 ohms/ft, REN = 3, Rcpe = 600 ohms
- Rprot = 54 ohms, Type = LPR, Waveform = SINE
-*/
-0x00050000L, /* RTPER */
-0x07EFE000L, /* RINGFR (20.000 Hz) */
-0x00209380L, /* RINGAMP (55.000 vrms) */
-0x00000000L, /* RINGPHAS */
-0x00000000L, /* RINGOF (0.000 vdc) */
-0x15E5200EL, /* SLOPE_RING (100.000 ohms) */
-0x006C94D6L, /* IRING_LIM (70.000 mA) */
-0x00522220L, /* RTACTH (45.357 mA) */
-0x0FFFFFFFL, /* RTDCTH (450.000 mA) */
-0x00006000L, /* RTACDB (75.000 ms) */
-0x00006000L, /* RTDCDB (75.000 ms) */
-0x0051EB82L, /* VOV_RING_BAT (5.000 v) */
-0x00000000L, /* VOV_RING_GND (0.000 v) */
-0x05B835EFL, /* VBATR_EXPECT (89.368 v) */
-0x80, /* RINGTALO (2.000 s) */
-0x3E, /* RINGTAHI */
-0x00, /* RINGTILO (4.000 s) */
-0x7D, /* RINGTIHI */
-0x00000000L, /* ADAP_RING_MIN_I */
-0x00003000L, /* COUNTER_IRING_VAL */
-0x00051EB8L, /* COUNTER_VTR_VAL */
-0x00000000L, /* CONST_028 */
-0x00000000L, /* CONST_032 */
-0x00000000L, /* CONST_038 */
-0x00000000L, /* CONST_046 */
-0x00000000L, /* RRD_DELAY */
-0x00000000L, /* RRD_DELAY2 */
-0x01893740L, /* VBAT_TRACK_MIN_RNG */
-0x98, /* RINGCON */
-0x00, /* USERSTAT */
-0x02DC1AF7L, /* VCM_RING (43.434 v) */
-0x02DC1AF7L, /* VCM_RING_FIXED */
-0x003126E8L, /* DELTA_VCM */
-0x00200000L, /* DCDC_RNGTYPE */
-}, /* DEFAULT_RINGING */
-{
-/*
- Loop = 500.0 ft @ 0.044 ohms/ft, REN = 5, Rcpe = 600 ohms
- Rprot = 54 ohms, Type = LPR, Waveform = SINE
-*/
-0x00050000L, /* RTPER */
-0x07EFE000L, /* RINGFR (20.000 Hz) */
-0x001C0AFCL, /* RINGAMP (45.000 vrms) */
-0x00000000L, /* RINGPHAS */
-0x00000000L, /* RINGOF (0.000 vdc) */
-0x15E5200EL, /* SLOPE_RING (100.000 ohms) */
-0x006C94D6L, /* IRING_LIM (70.000 mA) */
-0x0068A9B9L, /* RTACTH (57.798 mA) */
-0x0FFFFFFFL, /* RTDCTH (450.000 mA) */
-0x00006000L, /* RTACDB (75.000 ms) */
-0x00006000L, /* RTDCDB (75.000 ms) */
-0x0051EB82L, /* VOV_RING_BAT (5.000 v) */
-0x00000000L, /* VOV_RING_GND (0.000 v) */
-0x04F7DA57L, /* VBATR_EXPECT (77.628 v) */
-0x80, /* RINGTALO (2.000 s) */
-0x3E, /* RINGTAHI */
-0x00, /* RINGTILO (4.000 s) */
-0x7D, /* RINGTIHI */
-0x00000000L, /* ADAP_RING_MIN_I */
-0x00003000L, /* COUNTER_IRING_VAL */
-0x00051EB8L, /* COUNTER_VTR_VAL */
-0x00000000L, /* CONST_028 */
-0x00000000L, /* CONST_032 */
-0x00000000L, /* CONST_038 */
-0x00000000L, /* CONST_046 */
-0x00000000L, /* RRD_DELAY */
-0x00000000L, /* RRD_DELAY2 */
-0x01893740L, /* VBAT_TRACK_MIN_RNG */
-0x98, /* RINGCON */
-0x00, /* USERSTAT */
-0x027BED2BL, /* VCM_RING (37.564 v) */
-0x027BED2BL, /* VCM_RING_FIXED */
-0x003126E8L, /* DELTA_VCM */
-0x00200000L, /* DCDC_RNGTYPE */
-} /* RING_F20_45VRMS_0VDC_LPR */
-};
-
-Si3218x_DCfeed_Cfg Si3218x_DCfeed_Presets[] = {
-{
-0x1C8A024CL, /* SLOPE_VLIM */
-0x1F909679L, /* SLOPE_RFEED */
-0x0040A0E0L, /* SLOPE_ILIM */
-0x1D5B21A9L, /* SLOPE_DELTA1 */
-0x1DD87A3EL, /* SLOPE_DELTA2 */
-0x05A38633L, /* V_VLIM (48.000 v) */
-0x050D2839L, /* V_RFEED (43.000 v) */
-0x03FE7F0FL, /* V_ILIM (34.000 v) */
-0x00B4F3C3L, /* CONST_RFEED (15.000 mA) */
-0x005D0FA6L, /* CONST_ILIM (20.000 mA) */
-0x002D8D96L, /* I_VLIM (0.000 mA) */
-0x005B0AFBL, /* LCRONHK (10.000 mA) */
-0x006D4060L, /* LCROFFHK (12.000 mA) */
-0x00008000L, /* LCRDBI (5.000 ms) */
-0x0048D595L, /* LONGHITH (8.000 mA) */
-0x003FBAE2L, /* LONGLOTH (7.000 mA) */
-0x00008000L, /* LONGDBI (5.000 ms) */
-0x000F0000L, /* LCRMASK (150.000 ms) */
-0x00080000L, /* LCRMASK_POLREV (80.000 ms) */
-0x00140000L, /* LCRMASK_STATE (200.000 ms) */
-0x00140000L, /* LCRMASK_LINECAP (200.000 ms) */
-0x01BA5E35L, /* VCM_OH (27.000 v) */
-0x0051EB85L, /* VOV_BAT (5.000 v) */
-0x00418937L, /* VOV_GND (4.000 v) */
-}, /* DCFEED_48V_20MA */
-{
-0x1C8A024CL, /* SLOPE_VLIM */
-0x1EE08C11L, /* SLOPE_RFEED */
-0x0040A0E0L, /* SLOPE_ILIM */
-0x1C940D71L, /* SLOPE_DELTA1 */
-0x1DD87A3EL, /* SLOPE_DELTA2 */
-0x05A38633L, /* V_VLIM (48.000 v) */
-0x050D2839L, /* V_RFEED (43.000 v) */
-0x03FE7F0FL, /* V_ILIM (34.000 v) */
-0x01241BC9L, /* CONST_RFEED (15.000 mA) */
-0x0074538FL, /* CONST_ILIM (25.000 mA) */
-0x002D8D96L, /* I_VLIM (0.000 mA) */
-0x005B0AFBL, /* LCRONHK (10.000 mA) */
-0x006D4060L, /* LCROFFHK (12.000 mA) */
-0x00008000L, /* LCRDBI (5.000 ms) */
-0x0048D595L, /* LONGHITH (8.000 mA) */
-0x003FBAE2L, /* LONGLOTH (7.000 mA) */
-0x00008000L, /* LONGDBI (5.000 ms) */
-0x000F0000L, /* LCRMASK (150.000 ms) */
-0x00080000L, /* LCRMASK_POLREV (80.000 ms) */
-0x00140000L, /* LCRMASK_STATE (200.000 ms) */
-0x00140000L, /* LCRMASK_LINECAP (200.000 ms) */
-0x01BA5E35L, /* VCM_OH (27.000 v) */
-0x0051EB85L, /* VOV_BAT (5.000 v) */
-0x00418937L, /* VOV_GND (4.000 v) */
-}, /* DCFEED_48V_25MA */
-{
-0x1E655196L, /* SLOPE_VLIM */
-0x001904EFL, /* SLOPE_RFEED */
-0x0040A0E0L, /* SLOPE_ILIM */
-0x1B4CAD9EL, /* SLOPE_DELTA1 */
-0x1BB0F47CL, /* SLOPE_DELTA2 */
-0x05A38633L, /* V_VLIM (48.000 v) */
-0x043AA4A6L, /* V_RFEED (36.000 v) */
-0x025977EAL, /* V_ILIM (20.000 v) */
-0x0068B19AL, /* CONST_RFEED (18.000 mA) */
-0x005D0FA6L, /* CONST_ILIM (20.000 mA) */
-0x002D8D96L, /* I_VLIM (0.000 mA) */
-0x005B0AFBL, /* LCRONHK (10.000 mA) */
-0x006D4060L, /* LCROFFHK (12.000 mA) */
-0x00008000L, /* LCRDBI (5.000 ms) */
-0x0048D595L, /* LONGHITH (8.000 mA) */
-0x003FBAE2L, /* LONGLOTH (7.000 mA) */
-0x00008000L, /* LONGDBI (5.000 ms) */
-0x000F0000L, /* LCRMASK (150.000 ms) */
-0x00080000L, /* LCRMASK_POLREV (80.000 ms) */
-0x00140000L, /* LCRMASK_STATE (200.000 ms) */
-0x00140000L, /* LCRMASK_LINECAP (200.000 ms) */
-0x01BA5E35L, /* VCM_OH (27.000 v) */
-0x0051EB85L, /* VOV_BAT (5.000 v) */
-0x00418937L, /* VOV_GND (4.000 v) */
-}, /* DCFEED_PSTN_DET_1 */
-{
-0x1A10433FL, /* SLOPE_VLIM */
-0x1C206275L, /* SLOPE_RFEED */
-0x0040A0E0L, /* SLOPE_ILIM */
-0x1C1F426FL, /* SLOPE_DELTA1 */
-0x1EB51625L, /* SLOPE_DELTA2 */
-0x041C91DBL, /* V_VLIM (35.000 v) */
-0x03E06C43L, /* V_RFEED (33.000 v) */
-0x038633E0L, /* V_ILIM (30.000 v) */
-0x022E5DE5L, /* CONST_RFEED (10.000 mA) */
-0x005D0FA6L, /* CONST_ILIM (20.000 mA) */
-0x0021373DL, /* I_VLIM (0.000 mA) */
-0x005B0AFBL, /* LCRONHK (10.000 mA) */
-0x006D4060L, /* LCROFFHK (12.000 mA) */
-0x00008000L, /* LCRDBI (5.000 ms) */
-0x0048D595L, /* LONGHITH (8.000 mA) */
-0x003FBAE2L, /* LONGLOTH (7.000 mA) */
-0x00008000L, /* LONGDBI (5.000 ms) */
-0x000F0000L, /* LCRMASK (150.000 ms) */
-0x00080000L, /* LCRMASK_POLREV (80.000 ms) */
-0x00140000L, /* LCRMASK_STATE (200.000 ms) */
-0x00140000L, /* LCRMASK_LINECAP (200.000 ms) */
-0x01BA5E35L, /* VCM_OH (27.000 v) */
-0x0051EB85L, /* VOV_BAT (5.000 v) */
-0x00418937L, /* VOV_GND (4.000 v) */
-} /* DCFEED_PSTN_DET_2 */
-};
-
-Si3218x_Impedance_Cfg Si3218x_Impedance_Presets[] ={
-/* Source: Database file: cwdb.db */
-/* Database information: */
-/* parameters: zref=600_0_0 rprot=30 rfuse=24 emi_cap=10*/
-{
-{0x07F3A400L, 0x000FF180L, 0x00009380L, 0x1FFDA800L, /* TXACEQ */
- 0x07EF1600L, 0x0014B500L, 0x1FFD6580L, 0x1FFCA400L}, /* RXACEQ */
-{0x0008EF00L, 0x00099780L, 0x017DF600L, 0x0096B900L, /* ECFIR/ECIIR */
- 0x02549000L, 0x1E4B7D00L, 0x018EEE00L, 0x1EEE0600L,
- 0x008A8080L, 0x1F713080L, 0x0489BA00L, 0x03592500L},
-{0x0086CE00L, 0x1EF46980L, 0x0084CB00L, 0x0FE34F00L, /* ZSYNTH */
- 0x181CA780L, 0x5D},
- 0x08EB8E00L, /* TXACGAIN */
- 0x01532100L, /* RXACGAIN */
- 0x07AA7180L, 0x18558F00L, 0x0754E300L, /* RXACHPF */
-#ifdef ENABLE_HIRES_GAIN
- 0, 0 /* TXGAIN*10, RXGAIN*10 (hi_res) */
-#else
- 0, 0 /* TXGAIN, RXGAIN */
-#endif
- }, /* ZSYN_600_0_0_30_0 */
-/* Source: Database file: cwdb.db */
-/* Database information: */
-/* parameters: zref=270_750_150 rprot=30 rfuse=24 emi_cap=10*/
-{
-{0x0750E500L, 0x1FC70280L, 0x000BA980L, 0x1FFD2880L, /* TXACEQ */
- 0x0A8E2380L, 0x1B905280L, 0x00847700L, 0x1FDAFA00L}, /* RXACEQ */
-{0x002C8880L, 0x1F630D80L, 0x027F7980L, 0x1F3AD200L, /* ECFIR/ECIIR */
- 0x040B8680L, 0x1F414D00L, 0x01427B00L, 0x00208200L,
- 0x0026AE00L, 0x1FD71680L, 0x0C8EDB00L, 0x1B688A00L},
-{0x1F657980L, 0x0096FE00L, 0x00035500L, 0x0D7FE800L, /* ZSYNTH */
- 0x1A7F1A80L, 0xB4},
- 0x08000000L, /* TXACGAIN */
- 0x01106B80L, /* RXACGAIN */
- 0x07BC8400L, 0x18437C80L, 0x07790880L, /* RXACHPF */
-#ifdef ENABLE_HIRES_GAIN
- 0, 0 /* TXGAIN*10, RXGAIN*10 (hi_res) */
-#else
- 0, 0 /* TXGAIN, RXGAIN */
-#endif
- }, /* ZSYN_270_750_150_30_0 */
-/* Source: Database file: cwdb.db */
-/* Database information: */
-/* parameters: zref=370_620_310 rprot=30 rfuse=24 emi_cap=10*/
-{
-{0x08363C80L, 0x1FB03200L, 0x1FFBD200L, 0x1FFC7A00L, /* TXACEQ */
- 0x0A0D0800L, 0x1BEB0880L, 0x1F9DF080L, 0x1FE07F00L}, /* RXACEQ */
-{0x00236380L, 0x1F947D00L, 0x020DE380L, 0x1FBEED00L, /* ECFIR/ECIIR */
- 0x03050300L, 0x1F7D1D00L, 0x010A9F80L, 0x00329D80L,
- 0x003E4100L, 0x1FC0DF00L, 0x0DAADE80L, 0x1A4F2600L},
-{0x00226100L, 0x1F8EEE80L, 0x004E9D00L, 0x0F0B9B00L, /* ZSYNTH */
- 0x18F3E580L, 0x99},
- 0x0808D100L, /* TXACGAIN */
- 0x0131BE80L, /* RXACGAIN */
- 0x07B5C100L, 0x184A3F80L, 0x076B8200L, /* RXACHPF */
-#ifdef ENABLE_HIRES_GAIN
- 0, 0 /* TXGAIN*10, RXGAIN*10 (hi_res) */
-#else
- 0, 0 /* TXGAIN, RXGAIN */
-#endif
- }, /* ZSYN_370_620_310_30_0 */
-/* Source: Database file: cwdb.db */
-/* Database information: */
-/* parameters: zref=220_820_120 rprot=30 rfuse=24 emi_cap=10*/
-{
-{0x07194B80L, 0x1FC63800L, 0x0008D280L, 0x1FFC0600L, /* TXACEQ */
- 0x0A849680L, 0x1BB04480L, 0x00A4AA00L, 0x1FD3E680L}, /* RXACEQ */
-{0x001B8C00L, 0x1FC65400L, 0x016A5F00L, 0x01323C80L, /* ECFIR/ECIIR */
- 0x01DB4980L, 0x01484700L, 0x00258000L, 0x007E9C80L,
- 0x0016FF00L, 0x1FE69100L, 0x0CE9A400L, 0x1B0EA980L},
-{0x00B3D800L, 0x1D2F8280L, 0x021C8B00L, 0x0A157F00L, /* ZSYNTH */
- 0x1DE99E80L, 0xAD},
- 0x08000000L, /* TXACGAIN */
- 0x01084680L, /* RXACGAIN */
- 0x07BBFA80L, 0x18440600L, 0x0777F580L, /* RXACHPF */
-#ifdef ENABLE_HIRES_GAIN
- 0, 0 /* TXGAIN*10, RXGAIN*10 (hi_res) */
-#else
- 0, 0 /* TXGAIN, RXGAIN */
-#endif
- }, /* ZSYN_220_820_120_30_0 */
-/* Source: Database file: cwdb.db */
-/* Database information: */
-/* parameters: zref=600_0_0 rprot=30 rfuse=24 emi_cap=10*/
-{
-{0x07F3A400L, 0x000FF180L, 0x00009380L, 0x1FFDA800L, /* TXACEQ */
- 0x07EF1600L, 0x0014B500L, 0x1FFD6580L, 0x1FFCA400L}, /* RXACEQ */
-{0x0008EF00L, 0x00099780L, 0x017DF600L, 0x0096B900L, /* ECFIR/ECIIR */
- 0x02549000L, 0x1E4B7D00L, 0x018EEE00L, 0x1EEE0600L,
- 0x008A8080L, 0x1F713080L, 0x0489BA00L, 0x03592500L},
-{0x0086CE00L, 0x1EF46980L, 0x0084CB00L, 0x0FE34F00L, /* ZSYNTH */
- 0x181CA780L, 0x5D},
- 0x08EB8E00L, /* TXACGAIN */
- 0x01532100L, /* RXACGAIN */
- 0x07AA7180L, 0x18558F00L, 0x0754E300L, /* RXACHPF */
-#ifdef ENABLE_HIRES_GAIN
- 0, 0 /* TXGAIN*10, RXGAIN*10 (hi_res) */
-#else
- 0, 0 /* TXGAIN, RXGAIN */
-#endif
- }, /* ZSYN_600_0_1000_30_0 */
-/* Source: Database file: cwdb.db */
-/* Database information: */
-/* parameters: zref=200_680_100 rprot=30 rfuse=24 emi_cap=10*/
-{
-{0x0778B980L, 0x1FB97E00L, 0x00030780L, 0x1FFC2580L, /* TXACEQ */
- 0x09CC0780L, 0x1D104400L, 0x0076CB80L, 0x1FDE3D80L}, /* RXACEQ */
-{0x1FF64C00L, 0x00456280L, 0x00BEC500L, 0x014D3E80L, /* ECFIR/ECIIR */
- 0x02EB2B00L, 0x1E983B80L, 0x029EE280L, 0x1E7B7400L,
- 0x00D19A80L, 0x1F293D80L, 0x06116D00L, 0x01D55C00L},
-{0x01241700L, 0x1CB53A80L, 0x02269400L, 0x0A14BA00L, /* ZSYNTH */
- 0x1DE9D080L, 0x99},
- 0x08000000L, /* TXACGAIN */
- 0x01152480L, /* RXACGAIN */
- 0x07B96C00L, 0x18469480L, 0x0772D800L, /* RXACHPF */
-#ifdef ENABLE_HIRES_GAIN
- 0, 0 /* TXGAIN*10, RXGAIN*10 (hi_res) */
-#else
- 0, 0 /* TXGAIN, RXGAIN */
-#endif
- }, /* ZSYN_200_680_100_30_0 */
-/* Source: Database file: cwdb.db */
-/* Database information: */
-/* parameters: zref=220_820_115 rprot=30 rfuse=24 emi_cap=10*/
-{
-{0x070AC700L, 0x1FCC7280L, 0x00098700L, 0x1FFCE080L, /* TXACEQ */
- 0x0A6A6400L, 0x1BE48B80L, 0x009F3B80L, 0x1FD56000L}, /* RXACEQ */
-{0x00314700L, 0x1F6C1D80L, 0x02347480L, 0x00158B80L, /* ECFIR/ECIIR */
- 0x03173D00L, 0x0058E580L, 0x00A6DA80L, 0x004B0780L,
- 0x001B1300L, 0x1FE2DE80L, 0x0C313180L, 0x1BB7FE00L},
-{0x1FD95980L, 0x1ECDE680L, 0x0156F600L, 0x0A0C9600L, /* ZSYNTH */
- 0x1DEBF080L, 0xB4},
- 0x08000000L, /* TXACGAIN */
- 0x01069C80L, /* RXACGAIN */
- 0x07BECB80L, 0x18413500L, 0x077D9700L, /* RXACHPF */
-#ifdef ENABLE_HIRES_GAIN
- 0, 0 /* TXGAIN*10, RXGAIN*10 (hi_res) */
-#else
- 0, 0 /* TXGAIN, RXGAIN */
-#endif
- }, /* ZSYN_220_820_115_30_0 */
-/* Source: Database file: cwdb.db */
-/* Database information: */
-/* parameters: zref=600_0_0 rprot=30 rfuse=24 emi_cap=0*/
-{
-{0x081A5300L, 0x1FE00A00L, 0x00071580L, 0x1FFE2600L, /* TXACEQ */
- 0x07F9A800L, 0x1FFA7D80L, 0x1FF59E80L, 0x1FFF1400L}, /* RXACEQ */
-{0x0052DC80L, 0x1F455780L, 0x0297A080L, 0x0006D980L, /* ECFIR/ECIIR */
- 0x0195DC00L, 0x000E1E80L, 0x1FC53680L, 0x00050800L,
- 0x00233400L, 0x1FE6DC00L, 0x1FCD1E00L, 0x1FD2FE00L},
-{0x007B9C00L, 0x1F296C80L, 0x005BCD00L, 0x09F07F00L, /* ZSYNTH */
- 0x1DF35080L, 0x6F},
- 0x08C2DA80L, /* TXACGAIN */
- 0x01495A80L, /* RXACGAIN */
- 0x07BECC80L, 0x18413400L, 0x077D9900L, /* RXACHPF */
-#ifdef ENABLE_HIRES_GAIN
- 0, 0 /* TXGAIN*10, RXGAIN*10 (hi_res) */
-#else
- 0, 0 /* TXGAIN, RXGAIN */
-#endif
- } /* WB_ZSYN_600_0_0_20_0 */
-};
-
-Si3218x_FSK_Cfg Si3218x_FSK_Presets[] ={
-{
-{
-0x02232000L, /* FSK01 */
-0x077C2000L /* FSK10 */
-},
-{
-0x0015C000L, /* FSKAMP0 (0.080 vrms )*/
-0x000BA000L /* FSKAMP1 (0.080 vrms) */
-},
-{
-0x06B60000L, /* FSKFREQ0 (2200.0 Hz space) */
-0x079C0000L /* FSKFREQ1 (1200.0 Hz mark) */
-},
-0x00, /* FSK8 */
-0x00, /* FSKDEPTH (1 deep fifo) */
-}, /* DEFAULT_FSK */
-{
-{
-0x026E4000L, /* FSK01 */
-0x0694C000L /* FSK10 */
-},
-{
-0x0014C000L, /* FSKAMP0 (0.080 vrms )*/
-0x000CA000L /* FSKAMP1 (0.080 vrms) */
-},
-{
-0x06D20000L, /* FSKFREQ0 (2100.0 Hz space) */
-0x078B0000L /* FSKFREQ1 (1300.0 Hz mark) */
-},
-0x00, /* FSK8 */
-0x00, /* FSKDEPTH (1 deep fifo) */
-} /* ETSI_FSK */
-};
-
-Si3218x_PulseMeter_Cfg Si3218x_PulseMeter_Presets[] ={
-{
-0x007A2B6AL, /* PM_AMP_THRESH (1.000) */
-0, /* Freq (12kHz) */
-0, /* PM_AUTO (off)*/
-0x07D00000L, /* PM_active (2000 ms) */
-0x07D00000L /* PM_inactive (2000 ms) */
- } /* DEFAULT_PULSE_METERING */
-};
-
-Si3218x_Tone_Cfg Si3218x_Tone_Presets[] = {
-{
- {
- 0x07B30000L, /* OSC1FREQ (350.000 Hz) */
- 0x000C6000L, /* OSC1AMP (-18.000 dBm) */
- 0x00000000L, /* OSC1PHAS (0.000 rad) */
- 0x00, /* O1TALO (0 ms) */
- 0x00, /* O1TAHI */
- 0x00, /* O1TILO (0 ms) */
- 0x00 /* O1TIHI */
- },
- {
- 0x07870000L, /* OSC2FREQ (440.000 Hz) */
- 0x000FA000L, /* OSC2AMP (-18.000 dBm) */
- 0x00000000L, /* OSC2PHAS (0.000 rad) */
- 0x00, /* O2TALO (0 ms) */
- 0x00, /* O2TAHI */
- 0x00, /* O2TILO (0 ms) */
- 0x00 /* O2TIHI */
- },
- 0x66 /* OMODE */
-}, /* TONEGEN_FCC_DIAL */
-{
- {
- 0x07700000L, /* OSC1FREQ (480.000 Hz) */
- 0x00112000L, /* OSC1AMP (-18.000 dBm) */
- 0x00000000L, /* OSC1PHAS (0.000 rad) */
- 0xA0, /* O1TALO (500 ms) */
- 0x0F, /* O1TAHI */
- 0xA0, /* O1TILO (500 ms) */
- 0x0F /* O1TIHI */
- },
- {
- 0x07120000L, /* OSC2FREQ (620.000 Hz) */
- 0x00164000L, /* OSC2AMP (-18.000 dBm) */
- 0x00000000L, /* OSC2PHAS (0.000 rad) */
- 0xA0, /* O2TALO (500 ms) */
- 0x0F, /* O2TAHI */
- 0xA0, /* O2TILO (500 ms) */
- 0x0F /* O2TIHI */
- },
- 0x66 /* OMODE */
-}, /* TONEGEN_FCC_BUSY */
-{
- {
- 0x07700000L, /* OSC1FREQ (480.000 Hz) */
- 0x00112000L, /* OSC1AMP (-18.000 dBm) */
- 0x00000000L, /* OSC1PHAS (0.000 rad) */
- 0x80, /* O1TALO (2000 ms) */
- 0x3E, /* O1TAHI */
- 0x00, /* O1TILO (4000 ms) */
- 0x7D /* O1TIHI */
- },
- {
- 0x07870000L, /* OSC2FREQ (440.000 Hz) */
- 0x000FA000L, /* OSC2AMP (-18.000 dBm) */
- 0x00000000L, /* OSC2PHAS (0.000 rad) */
- 0x80, /* O2TALO (2000 ms) */
- 0x3E, /* O2TAHI */
- 0x00, /* O2TILO (4000 ms) */
- 0x7D /* O2TIHI */
- },
- 0x66 /* OMODE */
-}, /* TONEGEN_FCC_RINGBACK */
-{
- {
- 0x07700000L, /* OSC1FREQ (480.000 Hz) */
- 0x00112000L, /* OSC1AMP (-18.000 dBm) */
- 0x00000000L, /* OSC1PHAS (0.000 rad) */
- 0x60, /* O1TALO (300 ms) */
- 0x09, /* O1TAHI */
- 0x60, /* O1TILO (300 ms) */
- 0x09 /* O1TIHI */
- },
- {
- 0x07120000L, /* OSC2FREQ (620.000 Hz) */
- 0x00164000L, /* OSC2AMP (-18.000 dBm) */
- 0x00000000L, /* OSC2PHAS (0.000 rad) */
- 0x60, /* O2TALO (300 ms) */
- 0x09, /* O2TAHI */
- 0x40, /* O2TILO (200 ms) */
- 0x06 /* O2TIHI */
- },
- 0x66 /* OMODE */
-}, /* TONEGEN_FCC_REORDER */
-{
- {
- 0x07700000L, /* OSC1FREQ (480.000 Hz) */
- 0x00112000L, /* OSC1AMP (-18.000 dBm) */
- 0x00000000L, /* OSC1PHAS (0.000 rad) */
- 0x40, /* O1TALO (200 ms) */
- 0x06, /* O1TAHI */
- 0x40, /* O1TILO (200 ms) */
- 0x06 /* O1TIHI */
- },
- {
- 0x07120000L, /* OSC2FREQ (620.000 Hz) */
- 0x00164000L, /* OSC2AMP (-18.000 dBm) */
- 0x00000000L, /* OSC2PHAS (0.000 rad) */
- 0x40, /* O2TALO (200 ms) */
- 0x06, /* O2TAHI */
- 0x40, /* O2TILO (200 ms) */
- 0x06 /* O2TIHI */
- },
- 0x66 /* OMODE */
-}, /* TONEGEN_FCC_CONGESTION */
-{
- {
- 0x1F2F0000L, /* OSC1FREQ (2130.000 Hz) */
- 0x0063A000L, /* OSC1AMP (-18.000 dBm) */
- 0x00000000L, /* OSC1PHAS (0.000 rad) */
- 0x80, /* O1TALO (80 ms) */
- 0x02, /* O1TAHI */
- 0x80, /* O1TILO (80 ms) */
- 0x02 /* O1TIHI */
- },
- {
- 0x1B8E0000L, /* OSC2FREQ (2750.000 Hz) */
- 0x00A84000L, /* OSC2AMP (-18.000 dBm) */
- 0x00000000L, /* OSC2PHAS (0.000 rad) */
- 0x80, /* O2TALO (80 ms) */
- 0x02, /* O2TAHI */
- 0x40, /* O2TILO (1000 ms) */
- 0x1F /* O2TIHI */
- },
- 0x66 /* OMODE */
-}, /* TONEGEN_FCC_CAS */
-{
- {
- 0x07870000L, /* OSC1FREQ (440.000 Hz) */
- 0x000FA000L, /* OSC1AMP (-18.000 dBm) */
- 0x00000000L, /* OSC1PHAS (0.000 rad) */
- 0x60, /* O1TALO (300 ms) */
- 0x09, /* O1TAHI */
- 0x00, /* O1TILO (8000 ms) */
- 0xFA /* O1TIHI */
- },
- {
- 0x1B8E0000L, /* OSC2FREQ (2750.000 Hz) */
- 0x00A84000L, /* OSC2AMP (-18.000 dBm) */
- 0x00000000L, /* OSC2PHAS (0.000 rad) */
- 0x80, /* O2TALO (2000 ms) */
- 0x3E, /* O2TAHI */
- 0x00, /* O2TILO (4000 ms) */
- 0x7D /* O2TIHI */
- },
- 0x06 /* OMODE */
-}, /* TONEGEN_FCC_SAS */
-{
- {
- 0x1F2F0000L, /* OSC1FREQ (2130.000 Hz) */
- 0x01BD0000L, /* OSC1AMP (-5.000 dBm) */
- 0x00000000L, /* OSC1PHAS (0.000 rad) */
- 0x20, /* O1TALO (100 ms) */
- 0x03, /* O1TAHI */
- 0x20, /* O1TILO (100 ms) */
- 0x03 /* O1TIHI */
- },
- {
- 0x1B8E0000L, /* OSC2FREQ (2750.000 Hz) */
- 0x02EFC000L, /* OSC2AMP (-5.000 dBm) */
- 0x00000000L, /* OSC2PHAS (0.000 rad) */
- 0x20, /* O2TALO (100 ms) */
- 0x03, /* O2TAHI */
- 0x20, /* O2TILO (100 ms) */
- 0x03 /* O2TIHI */
- },
- 0x66 /* OMODE */
-}, /* TONEGEN_ETSI_DTAS */
-{
- {
- 0x05A40000L, /* OSC1FREQ (1004.000 Hz) */
- 0x005DE000L, /* OSC1AMP (-10.000 dBm) */
- 0x00000000L, /* OSC1PHAS (0.000 rad) */
- 0x00, /* O1TALO (8000 ms) */
- 0xFA, /* O1TAHI */
- 0x00, /* O1TILO (8000 ms) */
- 0xFA /* O1TIHI */
- },
- {
- 0x07870000L, /* OSC2FREQ (440.000 Hz) */
- 0x000FA000L, /* OSC2AMP (-18.000 dBm) */
- 0x00000000L, /* OSC2PHAS (0.000 rad) */
- 0x80, /* O2TALO (2000 ms) */
- 0x3E, /* O2TAHI */
- 0x00, /* O2TILO (4000 ms) */
- 0x7D /* O2TIHI */
- },
- 0x47 /* OMODE */
-} /* TONEGEN_1004 */
-};
-
-Si3218x_PCM_Cfg Si3218x_PCM_Presets[] ={
- {
- 0x01, /* PCM_FMT - u-Law */
- 0x00, /* WIDEBAND - DISABLED (3.4kHz BW) */
- 0x00, /* PCM_TRI - PCLK RISING EDGE */
- 0x00, /* TX_EDGE - PCLK RISING EDGE */
- 0x00 /* A-LAW - INVERT NONE */
- }, /* PCM_8ULAW */
- {
- 0x00, /* PCM_FMT - A-Law */
- 0x00, /* WIDEBAND - DISABLED (3.4kHz BW) */
- 0x00, /* PCM_TRI - PCLK RISING EDGE */
- 0x00, /* TX_EDGE - PCLK RISING EDGE */
- 0x00 /* A-LAW - INVERT NONE */
- }, /* PCM_8ALAW */
- {
- 0x03, /* PCM_FMT - 16-bit Linear */
- 0x00, /* WIDEBAND - DISABLED (3.4kHz BW) */
- 0x00, /* PCM_TRI - PCLK RISING EDGE */
- 0x00, /* TX_EDGE - PCLK RISING EDGE */
- 0x00 /* A-LAW - INVERT NONE */
- }, /* PCM_16LIN */
- {
- 0x03, /* PCM_FMT - 16-bit Linear */
- 0x01, /* WIDEBAND - ENABLED (7kHz BW) */
- 0x00, /* PCM_TRI - PCLK RISING EDGE */
- 0x00, /* TX_EDGE - PCLK RISING EDGE */
- 0x00 /* A-LAW - INVERT NONE */
- } /* PCM_16LIN_WB */
-};
-
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/src/si3218x_intf.c b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/src/si3218x_intf.c
deleted file mode 100644
index 7b778f5..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/src/si3218x_intf.c
+++ /dev/null
@@ -1,3135 +0,0 @@
-// SPDX-License-Identifier: GPL-2.0
-/*
- * SI3218X ProSLIC interface implementation file
- *
- * Author(s):
- * cdp
- *
- * Distributed by:
- * Silicon Laboratories, Inc
- *
- * This file contains proprietary information.
- * No dissemination allowed without prior written permission from
- * Silicon Laboratories, Inc.
- *
- */
-
-#include "../config_inc/si_voice_datatypes.h"
-#include "../inc/si_voice_ctrl.h"
-#include "../inc/si_voice_timer_intf.h"
-#include "../inc/proslic.h"
-#include "../inc/si3218x.h"
-#include "../inc/si3218x_intf.h"
-#include "../inc/si3218x_registers.h"
-#include "../config_inc/proslic_api_config.h"
-
-#define SI3218X_IRING_LIM_MAX 0xA00000L /* 103mA */
-#define SI3218X_REVA 2
-
-#define WriteReg pProslic->deviceId->ctrlInterface->WriteRegister_fptr
-#define ReadReg pProslic->deviceId->ctrlInterface->ReadRegister_fptr
-#define pProHW pProslic->deviceId->ctrlInterface->hCtrl
-#define Reset pProslic->deviceId->ctrlInterface->Reset_fptr
-#define Delay pProslic->deviceId->ctrlInterface->Delay_fptr
-#define pProTimer pProslic->deviceId->ctrlInterface->hTimer
-#define WriteRAM pProslic->deviceId->ctrlInterface->WriteRAM_fptr
-#define ReadRAM pProslic->deviceId->ctrlInterface->ReadRAM_fptr
-#define TimeElapsed pProslic->deviceId->ctrlInterface->timeElapsed_fptr
-#define getTime pProslic->deviceId->ctrlInterface->getTime_fptr
-
-#define WriteRegX deviceId->ctrlInterface->WriteRegister_fptr
-#define ReadRegX deviceId->ctrlInterface->ReadRegister_fptr
-#define pProHWX deviceId->ctrlInterface->hCtrl
-#define DelayX deviceId->ctrlInterface->Delay_fptr
-#define pProTimerX deviceId->ctrlInterface->hTimer
-#define ReadRAMX deviceId->ctrlInterface->ReadRAM_fptr
-#define WriteRAMX deviceId->ctrlInterface->WriteRAM_fptr
-
-#define DEVICE_KEY_MIN 0x6E
-#define DEVICE_KEY_MAX 0x77
-
-#ifdef ENABLE_DEBUG
-static const char LOGPRINT_PREFIX[] = "Si3218x: ";
-#endif
-
-/*
-** Externs
-*/
-
-/* General Configuration */
-extern Si3218x_General_Cfg Si3218x_General_Configuration;
-#ifdef SIVOICE_MULTI_BOM_SUPPORT
-extern const proslicPatch SI3218X_PATCH_A;
-extern Si3218x_General_Cfg Si3218x_General_Configuration_MultiBOM[];
-extern int si3218x_genconf_multi_max_preset;
-#else
-extern const proslicPatch SI3218X_PATCH_A_DEFAULT;
-#endif
-
-/* Ringing */
-#ifndef DISABLE_RING_SETUP
-extern Si3218x_Ring_Cfg Si3218x_Ring_Presets[];
-#endif
-
-/* Zsynth */
-#ifndef DISABLE_ZSYNTH_SETUP
-extern Si3218x_Impedance_Cfg Si3218x_Impedance_Presets [];
-#endif
-
-/* Audio Gain Scratch */
-extern Si3218x_audioGain_Cfg Si3218x_audioGain_Presets[];
-
-/* Pulse Metering */
-#ifndef DISABLE_PULSE_SETUP
-extern Si3218x_PulseMeter_Cfg Si3218x_PulseMeter_Presets [];
-#endif
-
-/* PCM */
-#ifndef DISABLE_PCM_SETUP
-extern Si3218x_PCM_Cfg Si3218x_PCM_Presets [];
-#endif
-
-#define SI3218X_RAM_DCDC_DCFF_ENABLE SI3218X_RAM_GENERIC_8
-#define GCONF Si3218x_General_Configuration
-
-/*
-** Constants
-*/
-#define BIT20LSB 1048576L
-#define OITHRESH_OFFS 900L
-#define OITHRESH_SCALE 100L
-#define OVTHRESH_OFFS 71000
-#define OVTHRESH_SCALE 3000L
-#define UVTHRESH_OFFS 4057L
-#define UVTHRESH_SCALE 187L
-#define UVHYST_OFFS 548L
-#define UVHYST_SCALE 47L
-
-/*
-** Local functions are defined first
-*/
-
-/*
-** Function: getChipType
-**
-** Description:
-** Decode ID register to identify chip type
-**
-** Input Parameters:
-** ID register value
-**
-** Return:
-** partNumberType
-*/
-static partNumberType getChipType(uInt8 data)
-{
- /* For the parts that have a HV variant, we map to the lower voltage version,
- the actual differences are handled in the constants file
- */
-
- const uInt8 partNums[8] =
- {
- UNSUPPORTED_PART_NUM, UNSUPPORTED_PART_NUM, UNSUPPORTED_PART_NUM, UNSUPPORTED_PART_NUM,
- SI32184, SI32182, SI32185, SI32183
- };
-
- uInt8 partNum = (data & 0x38) >> 3; /* PART_NUM[2:0] = ID[5:3] */
-
- return partNums[ partNum ];
-}
-
-int Si3218x_GetChipInfo(proslicChanType_ptr pProslic)
-{
- uInt8 id;
- id = ReadReg(pProHW, pProslic->channel, PROSLIC_REG_ID);
-
- pProslic->deviceId->chipRev = id & 0x7;
- pProslic->deviceId->chipType = getChipType(id);
-
- if(pProslic->deviceId->chipType == UNSUPPORTED_PART_NUM)
- {
-#ifdef ENABLE_DEBUG
- LOGPRINT("%sregister 0 read = 0x%02X\n", LOGPRINT_PREFIX, id);
-#endif
- return RC_SPI_FAIL;
- }
- else
- {
- return RC_NONE;
- }
-}
-
-/*
-** Function: Si3218x_ConverterSetup
-**
-** Description:
-** Program revision specific settings before powering converter
-**
-** Specifically, from general parameters and knowledge that this
-** is Si32188x, setup dcff drive, gate drive polarity, and charge pump.
-**
-** Returns:
-** int (error)
-**
-*/
-int Si3218x_ConverterSetup(proslicChanType_ptr pProslic)
-{
- ramData inv_off;
-
- /* Option to add a per-channel inversion for maximum flexibility */
- if(pProslic->dcdc_polarity_invert)
- {
- inv_off = 0x100000L;
- }
- else
- {
- inv_off = 0x0L;
- }
-
- switch(Si3218x_General_Configuration.bom_option)
- {
- case BO_DCDC_LCQC_5W:
- case BO_DCDC_LCCB:
- case BO_DCDC_LCCB110:
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_DCDC_LIFT_EN,
- 0x0L); /* dcff disabled */
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_DCDC_SWDRV_POL,
- inv_off); /* non-inverted */
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_DCDC_CPUMP,
- 0x100000L); /* Charge pump on */
- Delay(pProTimer,20); /* Cpump settle */
- break;
-
- case BO_DCDC_BUCK_BOOST:
- /*
- ** RevC buck-boost designs are identical to RevB - no gate drive,
- ** dcff enabled, non-inverting (charge pump off)
- */
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_DCDC_CPUMP,0x0L);
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_DCDC_SWDRV_POL,inv_off);
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_DCDC_LIFT_EN,
- 0x100000L); /* dcff enabled */
- break;
-
- default:
- return RC_DCDC_SETUP_ERR;
- }
-
- return RC_NONE;
-}
-
-/*
-** Function: Si3218x_PowerUpConverter
-**
-** Description:
-** Powers all DC/DC converters sequentially with delay to minimize
-** peak power draw on VDC.
-**
-** Returns:
-** int (error)
-**
-*/
-
-int Si3218x_PowerUpConverter(proslicChanType_ptr pProslic)
-{
- errorCodeType error = RC_DCDC_SETUP_ERR;
- int32 vbath,vbat;
- uInt8 reg = 0;
- int timer = 0;
-
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_CHANNEL_TYPE_ERR;
- }
-
- /*
- ** - powerup digital dc/dc w/ OV clamping and shutdown
- ** - delay
- ** - verify no short circuits by looking for vbath/2
- ** - clear dcdc status
- ** - switch to analog converter with OV clamping only (no shutdown)
- ** - select analog dcdc and disable pwrsave
- ** - delay
- */
-
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_LINEFEED,
- LF_FWD_OHT); /* Force out of pwrsave mode if called in error */
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_LINEFEED,
- LF_OPEN); /* Ensure open line before powering up converter */
- reg = ReadReg(pProHW,pProslic->channel,SI3218X_REG_ENHANCE);
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_ENHANCE,
- reg&0x07); /* Disable powersave mode */
-
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_PD_DCDC,
- 0x700000L); /* In case OV or UV previously occurred */
-
- /*
- ** Setup converter drive polarity and charge pump enable
- ** based on bom
- */
-
- error = Si3218x_ConverterSetup(pProslic);
-
- if(error != RC_NONE)
- {
- DEBUG_PRINT (pProslic, "%sChannel %d : DCDC initialization failed\n",
- LOGPRINT_PREFIX, pProslic->channel);
- return error;
- }
-
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_PD_DCDC,0x600000L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_PD_BIAS,0x200000L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_PD_HVIC,0x200000L);
- Delay(pProTimer,50);
-
- vbath = ReadRAM(pProHW,pProslic->channel,SI3218X_RAM_VBATH_EXPECT);
- vbat = ReadRAM(pProHW,pProslic->channel,SI3218X_RAM_MADC_VBAT);
- if(vbat & 0x10000000L)
- {
- vbat |= 0xF0000000L;
- }
- if(vbat < (vbath / 2))
- {
- pProslic->channelEnable = 0;
- error = RC_VBAT_UP_TIMEOUT;
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_PD_DCDC,
- 0x300000L); /* shutdown converter */
- DEBUG_PRINT (pProslic,
- "%sChannel %d : DCDC Short Circuit Failure - disabling channel\n%sVBAT = %d.%d\n",
- LOGPRINT_PREFIX, pProslic->channel, LOGPRINT_PREFIX,
- (int)((vbat/SCALE_V_MADC)/1000),
- SIVOICE_ABS(((vbat/SCALE_V_MADC) - (vbat/SCALE_V_MADC)/1000*1000)));
- return error;
- }
- else /* Enable analog converter */
- {
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_DCDC_STATUS,0L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_PD_DCDC,0x400000L);
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_ENHANCE,
- reg); /* Restore ENHANCE */
- Delay(pProTimer,50);
- }
-
- /*
- ** - monitor vbat vs expected level (VBATH_EXPECT)
- */
- vbath = ReadRAM(pProHW,pProslic->channel,SI3218X_RAM_VBATH_EXPECT);
- do
- {
- vbat = ReadRAM(pProHW,pProslic->channel,SI3218X_RAM_MADC_VBAT);
- if(vbat & 0x10000000L)
- {
- vbat |= 0xF0000000L;
- }
- Delay(pProTimer,10);
- }
- while((vbat < (vbath - COMP_5V))
- &&(timer++ < SI3218X_TIMEOUT_DCDC_UP)); /* 2 sec timeout */
-
- DEBUG_PRINT (pProslic, "%sChannel %d : VBAT Up = %d.%d v\n",
- LOGPRINT_PREFIX,
- pProslic->channel,(int)((vbat/SCALE_V_MADC)/1000),
- SIVOICE_ABS(((vbat/SCALE_V_MADC) - (vbat/SCALE_V_MADC)/1000*1000)));
- if(timer > SI3218X_TIMEOUT_DCDC_UP)
- {
- /* Error handling - shutdown converter, disable channel, set error tag */
- pProslic->channelEnable = 0;
- error = RC_VBAT_UP_TIMEOUT;
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_PD_DCDC,
- 0x900000L); /* shutdown converter */
- DEBUG_PRINT (pProslic, "%sChannel %d : DCDC Power up timeout : Status=0x%08X\n",
- LOGPRINT_PREFIX, pProslic->channel, ReadRAM(pProHW,pProslic->channel,
- SI3218X_RAM_DCDC_STATUS));
- }
-
- return error;
-}
-
-/*
-**
-** PROSLIC INITIALIZATION FUNCTIONS
-**
-*/
-
-/*
-** Function: Si3218x_Init_MultiBOM
-**
-** Description:
-** - probe SPI to establish daisy chain length
-** - load patch
-** - initialize general parameters
-** - calibrate madc
-** - bring up DC/DC converters
-** - calibrate everything except madc & lb
-**
-** Input Parameters:
-** pProslic: pointer to PROSLIC object array
-** fault: error code
-**
-** Return:
-** error code
-*/
-
-#ifdef SIVOICE_MULTI_BOM_SUPPORT
-int Si3218x_Init_MultiBOM (proslicChanType_ptr *pProslic, int size, int preset)
-{
-
- if(preset < si3218x_genconf_multi_max_preset)
- {
- /* Copy selected General Configuration parameters to Std structure */
- Si3218x_General_Configuration = Si3218x_General_Configuration_MultiBOM[preset];
- }
- else
- {
- return RC_INVALID_PRESET;
- }
- return Si3218x_Init_with_Options(pProslic,size, INIT_NO_OPT);
-}
-#endif
-
-
-/*
-** Function: Si3218x_SelectPatch
-**
-** Select patch based on general parameters
-**
-** Input Parameters:
-** pProslic: pointer to PROSLIC object array
-** fault: error code
-** patch: Pointer to proslicPatch pointer
-**
-** Return:
-** error code
-*/
-int Si3218x_SelectPatch(proslicChanType_ptr pProslic,
- const proslicPatch **patch)
-{
-
-#ifdef SIVOICE_MULTI_BOM_SUPPORT
- if(Si3218x_General_Configuration.bom_option == BO_DCDC_LCQC_5W
- || Si3218x_General_Configuration.bom_option == BO_DCDC_LCCB
- || Si3218x_General_Configuration.bom_option == BO_DCDC_LCCB110
- || Si3218x_General_Configuration.bom_option == BO_DCDC_BUCK_BOOST)
- {
- *patch = &(SI3218X_PATCH_A);
- }
- else
- {
- DEBUG_PRINT(pProslic, "%sChannel %d : Invalid Patch\n", LOGPRINT_PREFIX,
- pProslic->channel);
- pProslic->channelEnable = 0;
- pProslic->error = RC_INVALID_PATCH;
- return RC_INVALID_PATCH;
- }
-#else
- SILABS_UNREFERENCED_PARAMETER(pProslic);
- *patch = &(SI3218X_PATCH_A_DEFAULT);
-#endif
-
- return RC_NONE;
-}
-
-/*
-** Function: Si3218x_GenParamUpdate
-**
-** Update general parameters
-**
-** Input Parameters:
-** pProslic: pointer to PROSLIC object array
-** fault: error code
-**
-** Return:
-** error code
-*/
-
-int Si3218x_GenParamUpdate(proslicChanType_ptr pProslic,initSeqType seq)
-{
- ramData ram_data;
- uInt8 data;
-
- switch(seq)
- {
- case INIT_SEQ_PRE_CAL:
- /*
- ** Force pwrsave off and disable AUTO-tracking - set to user configured state after cal
- */
- WriteReg(pProHW, pProslic->channel,SI3218X_REG_ENHANCE,0);
- WriteReg(pProHW, pProslic->channel,SI3218X_REG_AUTO,0x2F);
-
- /*
- ** General Parameter Updates
- */
-
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_P_TH_HVIC,
- Si3218x_General_Configuration.p_th_hvic);
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_COEF_P_HVIC,
- Si3218x_General_Configuration.coef_p_hvic);
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_BAT_HYST,
- Si3218x_General_Configuration.bat_hyst);
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_VBATH_EXPECT,
- Si3218x_General_Configuration.vbath_expect);
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_VBATR_EXPECT,
- Si3218x_General_Configuration.vbatr_expect);
-
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_PWRSAVE_TIMER,
- Si3218x_General_Configuration.pwrsave_timer);
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_OFFHOOK_THRESH,
- Si3218x_General_Configuration.pwrsave_ofhk_thresh);
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_VBAT_TRACK_MIN,
- Si3218x_General_Configuration.vbat_track_min);
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_VBAT_TRACK_MIN_RNG,
- Si3218x_General_Configuration.vbat_track_min_rng);
-
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_THERM_DBI,
- Si3218x_General_Configuration.therm_dbi);
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_VOV_DCDC_SLOPE,
- Si3218x_General_Configuration.vov_dcdc_slope);
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_VOV_DCDC_OS,
- Si3218x_General_Configuration.vov_dcdc_os);
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_VOV_RING_BAT_MAX,
- Si3218x_General_Configuration.vov_ring_bat_max);
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_DCDC_VERR,
- Si3218x_General_Configuration.dcdc_verr);
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_DCDC_VERR_HYST,
- Si3218x_General_Configuration.dcdc_verr_hyst);
-
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_PD_UVLO,
- Si3218x_General_Configuration.pd_uvlo);
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_PD_OVLO,
- Si3218x_General_Configuration.pd_ovlo);
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_PD_OCLO,
- Si3218x_General_Configuration.pd_oclo);
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_PD_SWDRV,
- Si3218x_General_Configuration.pd_swdrv);
-
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_DCDC_UVPOL,
- Si3218x_General_Configuration.dcdc_uvpol);
-
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_DCDC_RNGTYPE,
- Si3218x_General_Configuration.dcdc_rngtype);
-
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_DCDC_ANA_TOFF,
- Si3218x_General_Configuration.dcdc_ana_toff);
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_DCDC_ANA_TONMIN,
- Si3218x_General_Configuration.dcdc_ana_tonmin);
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_DCDC_ANA_TONMAX,
- Si3218x_General_Configuration.dcdc_ana_tonmax);
-
-
- /*
- ** Hardcoded RAM
- */
-
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_DCDC_OITHRESH_LO,
- GCONF.i_oithresh_lo);
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_DCDC_OITHRESH_HI,
- GCONF.i_oithresh_hi);
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_DCDC_OVTHRESH,GCONF.v_ovthresh);
-
- ram_data = (GCONF.v_uvthresh > UVTHRESH_OFFS)?(GCONF.v_uvthresh -
- UVTHRESH_OFFS)/UVTHRESH_SCALE:0L;
- ram_data *= BIT20LSB;
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_DCDC_UVTHRESH,ram_data);
-
- ram_data = (GCONF.v_uvhyst > UVHYST_OFFS)?(GCONF.v_uvhyst -
- UVHYST_OFFS)/UVHYST_SCALE:0L;
- ram_data *= BIT20LSB;
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_DCDC_UVHYST,ram_data);
-
- /* Set default audio gain based on PM bom */
- if(Si3218x_General_Configuration.pm_bom == BO_PM_BOM)
- {
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_SCALE_KAUDIO,BOM_KAUDIO_PM);
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_AC_ADC_GAIN,BOM_AC_ADC_GAIN_PM);
- }
- else
- {
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_SCALE_KAUDIO,BOM_KAUDIO_NO_PM);
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_AC_ADC_GAIN,
- BOM_AC_ADC_GAIN_NO_PM);
- }
-
- /*
- ** Hardcoded changes to default settings
- */
- data = ReadReg(pProHW, pProslic->channel,SI3218X_REG_GPIO_CFG1);
- data &= 0xF9; /* Clear DIR for GPIO 1&2 */
- data |= 0x60; /* Set ANA mode for GPIO 1&2 */
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_GPIO_CFG1,
- data); /* coarse sensors analog mode */
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_PDN,
- 0x80); /* madc powered in open state */
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACHPF_A1_1,
- 0x71EB851L); /* Fix HPF corner */
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_PD_REF_OSC,
- 0x200000L); /* PLL freerun workaround */
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_ILOOPLPF,
- 0x4EDDB9L); /* 20pps pulse dialing enhancement */
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_ILONGLPF,
- 0x806D6L); /* 20pps pulse dialing enhancement */
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_VDIFFLPF,
- 0x10038DL); /* 20pps pulse dialing enhancement */
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_DCDC_VREF_CTRL,0x0L);
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_VCM_TH,0x106240L);
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_VCMLPF,0x10059FL);
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_CM_SPEEDUP_TIMER,0x0F0000);
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_VCM_HYST,0x206280L);
-
- /* Prevent Ref Osc from powering down in PLL Freerun mode (pd_ref_osc) */
- ram_data = ReadRAM(pProHW, pProslic->channel,SI3218X_RAM_PWRSAVE_CTRL_LO);
- WriteRAM(pProHW, pProslic->channel,SI3218X_RAM_PWRSAVE_CTRL_LO,
- ram_data&0x07FFFFFFL); /* clear b27 */
- break;
-
-
- case INIT_SEQ_POST_CAL:
- WriteReg(pProHW, pProslic->channel,SI3218X_REG_ENHANCE,
- Si3218x_General_Configuration.enhance&0x1F);
- WriteReg(pProHW, pProslic->channel,SI3218X_REG_AUTO,
- Si3218x_General_Configuration.auto_reg);
- if(Si3218x_General_Configuration.zcal_en)
- {
- WriteReg(pProHW,pProslic->channel, SI3218X_REG_ZCAL_EN, 0x04);
- }
- break;
-
- default:
- break;
- }
- return RC_NONE;
-}
-
-/*
-** Function: Si3218x_Init_with_Options
-**
-** Description:
-** - probe SPI to establish daisy chain length
-** - load patch
-** - initialize general parameters
-** - calibrate madc
-** - bring up DC/DC converters
-** - calibrate everything except madc & lb
-**
-** Input Parameters:
-** pProslic: pointer to PROSLIC object array
-** fault: error code
-**
-** Return:
-** error code
-*/
-
-int Si3218x_Init_with_Options (proslicChanType_ptr *pProslic, int size,
- initOptionsType init_opt)
-{
- /*
- ** This function will initialize the chipRev and chipType members in pProslic
- ** as well as load the initialization structures.
- */
-
- uInt8 data;
- uInt8 calSetup[] = {0x00, 0x00, 0x01, 0x80}; /* CALR0-CALR3 */
- int k, device_count;
- const proslicPatch *patch;
- uInt8 status;
-
- LOGPRINT("%s(%d) size = %d init_opt = %d\n", __FUNCTION__, __LINE__, size,
- init_opt);
- /*
- **
- ** First qualify general parameters by identifying valid device key. This
- ** will prevent inadvertent use of other device's preset files, which could
- ** lead to improper initialization and high current states.
- */
-
- data = Si3218x_General_Configuration.device_key;
-
- if((data < DEVICE_KEY_MIN)||(data > DEVICE_KEY_MAX))
- {
- pProslic[0]->error = RC_INVALID_GEN_PARAM;
- return pProslic[0]->error;
- }
-
- /* reset error code */
- for(k = 0; k < size; k++)
- {
- pProslic[k]->error = RC_NONE;
- }
-
- if( (init_opt == INIT_REINIT) || (init_opt == INIT_SOFTRESET) )
- {
- ProSLIC_ReInit_helper(pProslic, size, init_opt, SI3218X_CHAN_PER_DEVICE);
-
- /* for single channel devices, we need do a full restore.. */
- if(init_opt == INIT_REINIT)
- {
- init_opt = 0;
- }
-}
-
- if( init_opt != INIT_REINIT )
- {
- if( (SiVoice_IdentifyChannels(pProslic, size, &device_count, NULL) != RC_NONE)
- ||(device_count == 0) )
- {
- DEBUG_PRINT(*pProslic, "%s: failed to detect any ProSLICs\n", LOGPRINT_PREFIX);
- return RC_SPI_FAIL;
- }
-
- /*
- ** Probe each channel and enable all channels that respond
- */
- for (k=0; k<size; k++)
- {
- if ((pProslic[k]->channelEnable)
- &&(pProslic[k]->channelType == PROSLIC))
- {
- if ( (ProSLIC_VerifyMasterStat(pProslic[k]) != RC_NONE)
- || (ProSLIC_VerifyControlInterface(pProslic[k]) != RC_NONE) )
- {
- pProslic[k]->channelEnable = 0;
- pProslic[k]->error = RC_SPI_FAIL;
- DEBUG_PRINT(*pProslic, "%s: SPI communications or PCLK/FS failure\n", LOGPRINT_PREFIX);
- return pProslic[k]->error; /* Halt init if SPI fail */
- }
- }
- }
- } /* init_opt !REINIT */
-
-
- if( (init_opt != INIT_NO_PATCH_LOAD ) && (init_opt != INIT_REINIT) )
- {
- /*
- ** Load patch (load on every channel since single channel device)
- */
- for (k=0; k<size; k++)
- {
- if ((pProslic[k]->channelEnable)&&(pProslic[k]->channelType == PROSLIC))
- {
-
- /* Select Patch*/
- if (pProslic[k]->deviceId->chipRev == SI3218X_REVA )
- {
- status = (uInt8) Si3218x_SelectPatch(pProslic[k],&patch);
- }
- else
- {
- DEBUG_PRINT(pProslic[k], "%sChannel %d : Unsupported Device Revision (%d)\n",
- LOGPRINT_PREFIX, pProslic[k]->channel,pProslic[k]->deviceId->chipRev );
- pProslic[k]->channelEnable = 0;
- pProslic[k]->error = RC_UNSUPPORTED_DEVICE_REV;
- return RC_UNSUPPORTED_DEVICE_REV;
- }
-
- data = 1; /* Use this as a flag to see if we need to load the patch */
- /* If the patch doesn't match, we need to do a full init, change settings */
- if(init_opt == INIT_SOFTRESET)
- {
- ramData patchData;
- patchData = pProslic[k]->ReadRAMX(pProslic[k]->pProHWX, pProslic[k]->channel,
- PROSLIC_RAM_PATCHID);
-
- if( patchData == patch->patchSerial)
- {
- data = 0;
- }
- else
- {
- init_opt = INIT_NO_OPT;
- }
- } /* SOFTRESET */
-
- /* Load Patch */
- if(status == RC_NONE)
- {
- if(data == 1)
- {
- Si3218x_LoadPatch(pProslic[k],patch);
-#ifndef DISABLE_VERIFY_PATCH
- /* Optional Patch Verification */
- data = (uInt8)Si3218x_VerifyPatch(pProslic[k],patch);
- if (data != RC_NONE)
- {
- DEBUG_PRINT(pProslic[k], "%sChannel %d : Patch verification failed (%d)\n",
- LOGPRINT_PREFIX, k, data);
- pProslic[k]->channelEnable=0;
- pProslic[k]->error = RC_PATCH_ERR;
- return data;
- }
-#endif
- }
- }
- else
- {
- return status;
- }
- } /* channel == PROSLIC */
- } /* for all channles */
- }/* init_opt - need to reload patch */
-
- /*
- ** Load general parameters - includes all BOM dependencies
- */
- if(init_opt != INIT_SOFTRESET)
- {
- for (k=0; k<size; k++)
- {
- if ((pProslic[k]->channelEnable)&&(pProslic[k]->channelType == PROSLIC))
- {
- Si3218x_GenParamUpdate(pProslic[k],INIT_SEQ_PRE_CAL);
- }
-
- pProslic[k]->WriteRAMX(pProslic[k]->pProHWX,pProslic[k]->channel,
- SI3218X_RAM_IRING_LIM,SI3218X_IRING_LIM_MAX);
- }
- }
-
- if((init_opt != INIT_NO_CAL)
- && (init_opt != INIT_SOFTRESET)) /* Must recal on single channel devices */
- {
- /*
- ** Calibrate (madc offset)
- */
- ProSLIC_Calibrate(pProslic,size,calSetup,TIMEOUT_MADC_CAL);
- }/* init_opt */
-
- /*
- ** Bring up DC/DC converters sequentially to minimize
- ** peak power demand on VDC
- */
- for (k=0; k<size; k++)
- {
- if ((pProslic[k]->channelEnable)&&(pProslic[k]->channelType == PROSLIC))
- {
- pProslic[k]->error = Si3218x_PowerUpConverter(pProslic[k]);
- }
- }
-
- if((init_opt != INIT_NO_CAL) && (init_opt != INIT_SOFTRESET))
- {
- /*
- ** Calibrate remaining cals (except madc, lb)
- */
- calSetup[1] = SI3218X_CAL_STD_CALR1;
- calSetup[2] = SI3218X_CAL_STD_CALR2;
-
- ProSLIC_Calibrate(pProslic,size,calSetup,TIMEOUT_GEN_CAL);
- }
-
- /*
- ** Apply post calibration general parameters
- */
- if(init_opt != INIT_SOFTRESET)
- {
- for (k=0; k<size; k++)
- {
-
- if ((pProslic[k]->channelEnable)&&(pProslic[k]->channelType == PROSLIC))
- {
- Si3218x_GenParamUpdate(pProslic[k],INIT_SEQ_POST_CAL);
- }
- }
- }
-
- /* Restore linefeed state after initialization for REINIT/SOFTRESET */
- if( (init_opt == INIT_REINIT) || (init_opt == INIT_SOFTRESET) )
- {
- for(k = 0; k < size; k++)
- {
- pProslic[k]->WriteRegX(pProslic[k]->pProHWX,pProslic[k]->channel,
- SI3218X_REG_LINEFEED,pProslic[k]->scratch);
- }
- }
-
- /*
- ** If any channel incurred a non-fatal error, return
- ** RC_NON_FATAL_INIT_ERR to trigger user to read each channel's
- ** error status
- */
- for (k=0; k<size; k++)
- {
- if(pProslic[k]->error != RC_NONE)
- {
- return RC_NON_FATAL_INIT_ERR;
- }
- }
-
- return RC_NONE;
-}
-
-/*
-** Function: Si3218x_EnableInterrupts
-**
-** Description:
-** Enables interrupts
-**
-** Input Parameters:
-** pProslic: pointer to PROSLIC channel obj
-**
-** Returns:
-** 0
-*/
-
-int Si3218x_EnableInterrupts (proslicChanType_ptr pProslic)
-{
- uInt8 i;
-#ifdef GCI_MODE
- uInt8 data;
-#endif
- /* Clear pending interrupts first */
- for(i = SI3218X_REG_IRQ1; i < SI3218X_REG_IRQ4; i++)
- {
-#ifdef GCI_MODE
- data = ReadReg(pProHW,pProslic->channel, i);
- WriteReg(pProHW,pProslic->channel,i,data); /*clear interrupts (gci only)*/
-#else
- (void)ReadReg(pProHW,pProslic->channel, i);
-#endif
-
- }
-
- WriteReg (pProHW,pProslic->channel,SI3218X_REG_IRQEN1,
- Si3218x_General_Configuration.irqen1);
- WriteReg (pProHW,pProslic->channel,SI3218X_REG_IRQEN2,
- Si3218x_General_Configuration.irqen2);
- WriteReg (pProHW,pProslic->channel,SI3218X_REG_IRQEN3,
- Si3218x_General_Configuration.irqen3);
- WriteReg (pProHW,pProslic->channel,SI3218X_REG_IRQEN4,
- Si3218x_General_Configuration.irqen4);
-
- return RC_NONE;
-}
-
-/*
-**
-** PROSLIC CONFIGURATION FUNCTIONS
-**
-*/
-
-/*
-** Function: Si3218x_RingSetup
-**
-** Description:
-** configure ringing
-**
-** Input Parameters:
-** pProslic: pointer to PROSLIC channel obj
-** preset: ring preset
-**
-** Returns:
-** 0
-*/
-
-#ifndef DISABLE_RING_SETUP
-int Si3218x_RingSetup (proslicChanType *pProslic, int preset)
-{
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_CHANNEL_TYPE_ERR;
- }
-
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RTPER,
- Si3218x_Ring_Presets[preset].rtper);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RINGFR,
- Si3218x_Ring_Presets[preset].freq);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RINGAMP,
- Si3218x_Ring_Presets[preset].amp);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RINGPHAS,
- Si3218x_Ring_Presets[preset].phas);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RINGOF,
- Si3218x_Ring_Presets[preset].offset);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_SLOPE_RING,
- Si3218x_Ring_Presets[preset].slope_ring);
-
- if(Si3218x_Ring_Presets[preset].iring_lim > SI3218X_IRING_LIM_MAX)
- {
- Si3218x_Ring_Presets[preset].iring_lim = SI3218X_IRING_LIM_MAX;
- }
-
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_IRING_LIM,
- Si3218x_Ring_Presets[preset].iring_lim);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RTACTH,
- Si3218x_Ring_Presets[preset].rtacth);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RTDCTH,
- Si3218x_Ring_Presets[preset].rtdcth);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RTACDB,
- Si3218x_Ring_Presets[preset].rtacdb);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RTDCDB,
- Si3218x_Ring_Presets[preset].rtdcdb);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_VOV_RING_BAT,
- Si3218x_Ring_Presets[preset].vov_ring_bat);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_VOV_RING_GND,
- Si3218x_Ring_Presets[preset].vov_ring_gnd);
-
-#ifndef NOCLAMP_VBATR
- /* Always limit VBATR_EXPECT to the general configuration maximum */
- if(Si3218x_Ring_Presets[preset].vbatr_expect >
- Si3218x_General_Configuration.vbatr_expect)
- {
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_VBATR_EXPECT,
- Si3218x_General_Configuration.vbatr_expect);
- DEBUG_PRINT(pProslic,
- "%sRingSetup : VBATR_EXPECT : Clamped to Gen Conf Limit\n",LOGPRINT_PREFIX);
- }
- else
- {
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_VBATR_EXPECT,
- Si3218x_Ring_Presets[preset].vbatr_expect);
- }
-
-#else
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_VBATR_EXPECT,
- Si3218x_Ring_Presets[preset].vbatr_expect);
-#endif
-
-
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_RINGTALO,
- Si3218x_Ring_Presets[preset].talo);
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_RINGTAHI,
- Si3218x_Ring_Presets[preset].tahi);
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_RINGTILO,
- Si3218x_Ring_Presets[preset].tilo);
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_RINGTIHI,
- Si3218x_Ring_Presets[preset].tihi);
-
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_VBAT_TRACK_MIN_RNG,
- Si3218x_Ring_Presets[preset].dcdc_vref_min_rng);
-
- /*
- ** LPR Handler
- **
- ** If USERSTAT == 0x01, adjust RINGCON and clear USERSTAT
- */
- if (Si3218x_Ring_Presets[preset].userstat == 0x01)
- {
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_RINGCON,
- (0x80|Si3218x_Ring_Presets[preset].ringcon) & ~(0x40));
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_USERSTAT,0x00);
- }
- else
- {
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_RINGCON,
- Si3218x_Ring_Presets[preset].ringcon);
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_USERSTAT,
- Si3218x_Ring_Presets[preset].userstat);
- }
-
-
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_VCM_RING,
- Si3218x_Ring_Presets[preset].vcm_ring);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_VCM_RING_FIXED,
- Si3218x_Ring_Presets[preset].vcm_ring_fixed);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_DELTA_VCM,
- Si3218x_Ring_Presets[preset].delta_vcm);
-
-
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_DCDC_RNGTYPE,
- Si3218x_Ring_Presets[preset].dcdc_rngtype);
-
-
- /*
- ** If multi bom supported **AND** a buck boost converter
- ** is being used, force dcdc_rngtype to be fixed.
- */
-#ifdef SIVOICE_MULTI_BOM_SUPPORT
-#define DCDC_RNGTYPE_BKBT 0L
- /* Automatically adjust DCDC_RNGTYPE */
- if(Si3218x_General_Configuration.bom_option == BO_DCDC_BUCK_BOOST)
- {
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_DCDC_RNGTYPE,DCDC_RNGTYPE_BKBT);
- }
-#endif
-
-
- return RC_NONE;
-}
-#endif
-
-/*
-** Function: PROSLIC_ZsynthSetup
-**
-** Description:
-** configure impedance synthesis
-*/
-
-#ifndef DISABLE_ZSYNTH_SETUP
-int Si3218x_ZsynthSetup (proslicChanType *pProslic, int preset)
-{
- uInt8 lf;
- uInt8 cal_en = 0;
- uInt16 timer = 500;
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_CHANNEL_TYPE_ERR;
- }
-
- lf = ReadReg(pProHW,pProslic->channel,SI3218X_REG_LINEFEED);
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_LINEFEED,0);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACEQ_C0,
- Si3218x_Impedance_Presets[preset].audioEQ.txaceq_c0);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACEQ_C1,
- Si3218x_Impedance_Presets[preset].audioEQ.txaceq_c1);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACEQ_C2,
- Si3218x_Impedance_Presets[preset].audioEQ.txaceq_c2);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACEQ_C3,
- Si3218x_Impedance_Presets[preset].audioEQ.txaceq_c3);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACEQ_C0,
- Si3218x_Impedance_Presets[preset].audioEQ.rxaceq_c0);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACEQ_C1,
- Si3218x_Impedance_Presets[preset].audioEQ.rxaceq_c1);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACEQ_C2,
- Si3218x_Impedance_Presets[preset].audioEQ.rxaceq_c2);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACEQ_C3,
- Si3218x_Impedance_Presets[preset].audioEQ.rxaceq_c3);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_ECFIR_C2,
- Si3218x_Impedance_Presets[preset].hybrid.ecfir_c2);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_ECFIR_C3,
- Si3218x_Impedance_Presets[preset].hybrid.ecfir_c3);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_ECFIR_C4,
- Si3218x_Impedance_Presets[preset].hybrid.ecfir_c4);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_ECFIR_C5,
- Si3218x_Impedance_Presets[preset].hybrid.ecfir_c5);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_ECFIR_C6,
- Si3218x_Impedance_Presets[preset].hybrid.ecfir_c6);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_ECFIR_C7,
- Si3218x_Impedance_Presets[preset].hybrid.ecfir_c7);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_ECFIR_C8,
- Si3218x_Impedance_Presets[preset].hybrid.ecfir_c8);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_ECFIR_C9,
- Si3218x_Impedance_Presets[preset].hybrid.ecfir_c9);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_ECIIR_B0,
- Si3218x_Impedance_Presets[preset].hybrid.ecfir_b0);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_ECIIR_B1,
- Si3218x_Impedance_Presets[preset].hybrid.ecfir_b1);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_ECIIR_A1,
- Si3218x_Impedance_Presets[preset].hybrid.ecfir_a1);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_ECIIR_A2,
- Si3218x_Impedance_Presets[preset].hybrid.ecfir_a2);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_ZSYNTH_A1,
- Si3218x_Impedance_Presets[preset].zsynth.zsynth_a1);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_ZSYNTH_A2,
- Si3218x_Impedance_Presets[preset].zsynth.zsynth_a2);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_ZSYNTH_B1,
- Si3218x_Impedance_Presets[preset].zsynth.zsynth_b1);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_ZSYNTH_B0,
- Si3218x_Impedance_Presets[preset].zsynth.zsynth_b0);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_ZSYNTH_B2,
- Si3218x_Impedance_Presets[preset].zsynth.zsynth_b2);
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_RA,
- Si3218x_Impedance_Presets[preset].zsynth.ra);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACGAIN,
- Si3218x_Impedance_Presets[preset].txgain);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACGAIN_SAVE,
- Si3218x_Impedance_Presets[preset].rxgain);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACGAIN,
- Si3218x_Impedance_Presets[preset].rxgain);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACHPF_B0_1,
- Si3218x_Impedance_Presets[preset].rxachpf_b0_1);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACHPF_B1_1,
- Si3218x_Impedance_Presets[preset].rxachpf_b1_1);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACHPF_A1_1,
- Si3218x_Impedance_Presets[preset].rxachpf_a1_1);
-
- /*
- ** Scale based on desired gain plan
- */
- Si3218x_dbgSetTXGain(pProslic,Si3218x_Impedance_Presets[preset].txgain_db,
- preset,TXACGAIN_SEL);
- Si3218x_dbgSetRXGain(pProslic,Si3218x_Impedance_Presets[preset].rxgain_db,
- preset,RXACGAIN_SEL);
- Si3218x_TXAudioGainSetup(pProslic,TXACGAIN_SEL);
- Si3218x_RXAudioGainSetup(pProslic,RXACGAIN_SEL);
-
- /*
- ** Perform Zcal in case OHT used (eg. no offhook event to trigger auto Zcal)
- */
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_CALR0,0x00);
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_CALR1,0x40);
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_CALR2,0x00);
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_CALR3,0x80); /* start cal */
-
- /* Wait for zcal to finish */
- do
- {
- cal_en = ReadReg(pProHW,pProslic->channel,SI3218X_REG_CALR3);
- Delay(pProTimer,1);
- timer--;
- }
- while((cal_en&0x80)&&(timer>0));
-
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_LINEFEED,lf);
-
- if(timer > 0)
- {
- return RC_NONE;
- }
- else
- {
- return RC_CAL_TIMEOUT;
- }
-}
-#endif
-
-/*
-** Function: PROSLIC_AudioGainSetup
-**
-** Description:
-** configure audio gains
-*/
-int Si3218x_TXAudioGainSetup (proslicChanType *pProslic, int preset)
-{
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_CHANNEL_TYPE_ERR;
- }
-
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACGAIN,
- Si3218x_audioGain_Presets[preset].acgain);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACEQ_C0,
- Si3218x_audioGain_Presets[preset].aceq_c0);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACEQ_C1,
- Si3218x_audioGain_Presets[preset].aceq_c1);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACEQ_C2,
- Si3218x_audioGain_Presets[preset].aceq_c2);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACEQ_C3,
- Si3218x_audioGain_Presets[preset].aceq_c3);
-
- return RC_NONE;
-}
-
-/*
-** Function: PROSLIC_AudioGainSetup
-**
-** Description:
-** configure audio gains
-*/
-
-int Si3218x_RXAudioGainSetup (proslicChanType *pProslic, int preset)
-{
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_CHANNEL_TYPE_ERR;
- }
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACGAIN_SAVE,
- Si3218x_audioGain_Presets[preset].acgain);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACGAIN,
- Si3218x_audioGain_Presets[preset].acgain);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACEQ_C0,
- Si3218x_audioGain_Presets[preset].aceq_c0);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACEQ_C1,
- Si3218x_audioGain_Presets[preset].aceq_c1);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACEQ_C2,
- Si3218x_audioGain_Presets[preset].aceq_c2);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACEQ_C3,
- Si3218x_audioGain_Presets[preset].aceq_c3);
-
- return RC_NONE;
-}
-
-
-/*
-** Function: PROSLIC_AudioGainScale
-**
-** Description:
-** Multiply path gain by passed value for PGA and EQ scale (no reference to dB,
-** multiply by a scale factor)
-*/
-int Si3218x_AudioGainScale (proslicChanType *pProslic, int preset,
- uInt32 pga_scale, uInt32 eq_scale,int rx_tx_sel)
-{
-
- if(rx_tx_sel == TXACGAIN_SEL)
- {
- Si3218x_audioGain_Presets[TXACGAIN_SEL].acgain =
- (Si3218x_Impedance_Presets[preset].txgain/1000)*pga_scale;
- if (Si3218x_Impedance_Presets[preset].audioEQ.txaceq_c0 & 0x10000000L)
- {
- Si3218x_Impedance_Presets[preset].audioEQ.txaceq_c0 |= 0xf0000000L;
- }
- if (Si3218x_Impedance_Presets[preset].audioEQ.txaceq_c1 & 0x10000000L)
- {
- Si3218x_Impedance_Presets[preset].audioEQ.txaceq_c1 |= 0xf0000000L;
- }
- if (Si3218x_Impedance_Presets[preset].audioEQ.txaceq_c2 & 0x10000000L)
- {
- Si3218x_Impedance_Presets[preset].audioEQ.txaceq_c2 |= 0xf0000000L;
- }
- if (Si3218x_Impedance_Presets[preset].audioEQ.txaceq_c3 & 0x10000000L)
- {
- Si3218x_Impedance_Presets[preset].audioEQ.txaceq_c3 |= 0xf0000000L;
- }
- Si3218x_audioGain_Presets[TXACGAIN_SEL].aceq_c0 = ((int32)
- Si3218x_Impedance_Presets[preset].audioEQ.txaceq_c0/1000)*eq_scale;
- Si3218x_audioGain_Presets[TXACGAIN_SEL].aceq_c1 = ((int32)
- Si3218x_Impedance_Presets[preset].audioEQ.txaceq_c1/1000)*eq_scale;
- Si3218x_audioGain_Presets[TXACGAIN_SEL].aceq_c2 = ((int32)
- Si3218x_Impedance_Presets[preset].audioEQ.txaceq_c2/1000)*eq_scale;
- Si3218x_audioGain_Presets[TXACGAIN_SEL].aceq_c3 = ((int32)
- Si3218x_Impedance_Presets[preset].audioEQ.txaceq_c3/1000)*eq_scale;
-
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACGAIN,
- Si3218x_audioGain_Presets[TXACGAIN_SEL].acgain);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACEQ_C0,
- Si3218x_audioGain_Presets[TXACGAIN_SEL].aceq_c0);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACEQ_C1,
- Si3218x_audioGain_Presets[TXACGAIN_SEL].aceq_c1);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACEQ_C2,
- Si3218x_audioGain_Presets[TXACGAIN_SEL].aceq_c2);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACEQ_C3,
- Si3218x_audioGain_Presets[TXACGAIN_SEL].aceq_c3);
- }
- else
- {
- Si3218x_audioGain_Presets[RXACGAIN_SEL].acgain =
- (Si3218x_Impedance_Presets[preset].rxgain/1000)*pga_scale;
- if (Si3218x_Impedance_Presets[preset].audioEQ.rxaceq_c0 & 0x10000000L)
- {
- Si3218x_Impedance_Presets[preset].audioEQ.rxaceq_c0 |= 0xf0000000L;
- }
- if (Si3218x_Impedance_Presets[preset].audioEQ.rxaceq_c1 & 0x10000000L)
- {
- Si3218x_Impedance_Presets[preset].audioEQ.rxaceq_c1 |= 0xf0000000L;
- }
- if (Si3218x_Impedance_Presets[preset].audioEQ.rxaceq_c2 & 0x10000000L)
- {
- Si3218x_Impedance_Presets[preset].audioEQ.rxaceq_c2 |= 0xf0000000L;
- }
- if (Si3218x_Impedance_Presets[preset].audioEQ.rxaceq_c3 & 0x10000000L)
- {
- Si3218x_Impedance_Presets[preset].audioEQ.rxaceq_c3 |= 0xf0000000L;
- }
- Si3218x_audioGain_Presets[RXACGAIN_SEL].aceq_c0 = ((int32)
- Si3218x_Impedance_Presets[preset].audioEQ.rxaceq_c0/1000)*eq_scale;
- Si3218x_audioGain_Presets[RXACGAIN_SEL].aceq_c1 = ((int32)
- Si3218x_Impedance_Presets[preset].audioEQ.rxaceq_c1/1000)*eq_scale;
- Si3218x_audioGain_Presets[RXACGAIN_SEL].aceq_c2 = ((int32)
- Si3218x_Impedance_Presets[preset].audioEQ.rxaceq_c2/1000)*eq_scale;
- Si3218x_audioGain_Presets[RXACGAIN_SEL].aceq_c3 = ((int32)
- Si3218x_Impedance_Presets[preset].audioEQ.rxaceq_c3/1000)*eq_scale;
-
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACGAIN_SAVE,
- Si3218x_audioGain_Presets[RXACGAIN_SEL].acgain);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACGAIN,
- Si3218x_audioGain_Presets[RXACGAIN_SEL].acgain);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACEQ_C0,
- Si3218x_audioGain_Presets[RXACGAIN_SEL].aceq_c0);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACEQ_C1,
- Si3218x_audioGain_Presets[RXACGAIN_SEL].aceq_c1);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACEQ_C2,
- Si3218x_audioGain_Presets[RXACGAIN_SEL].aceq_c2);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACEQ_C3,
- Si3218x_audioGain_Presets[RXACGAIN_SEL].aceq_c3);
- }
- return 0;
-}
-int Si3218x_TXAudioGainScale (proslicChanType *pProslic, int preset,
- uInt32 pga_scale, uInt32 eq_scale)
-{
- return Si3218x_AudioGainScale(pProslic,preset,pga_scale,eq_scale,TXACGAIN_SEL);
-}
-int Si3218x_RXAudioGainScale (proslicChanType *pProslic, int preset,
- uInt32 pga_scale, uInt32 eq_scale)
-{
- return Si3218x_AudioGainScale(pProslic,preset,pga_scale,eq_scale,RXACGAIN_SEL);
-}
-
-
-/*
-** Function: PROSLIC_DCFeedSetup
-**
-** Description:
-** configure dc feed
-*/
-
-#ifndef DISABLE_DCFEED_SETUP
-int Si3218x_DCFeedSetupCfg (proslicChanType *pProslic, Si3218x_DCfeed_Cfg *cfg,
- int preset)
-{
- uInt8 lf;
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_CHANNEL_TYPE_ERR;
- }
- lf = ReadReg(pProHW,pProslic->channel,SI3218X_REG_LINEFEED);
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_LINEFEED,0);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_SLOPE_VLIM,
- cfg[preset].slope_vlim);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_SLOPE_RFEED,
- cfg[preset].slope_rfeed);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_SLOPE_ILIM,
- cfg[preset].slope_ilim);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_SLOPE_DELTA1,cfg[preset].delta1);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_SLOPE_DELTA2,cfg[preset].delta2);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_V_VLIM,cfg[preset].v_vlim);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_V_RFEED,cfg[preset].v_rfeed);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_V_ILIM,cfg[preset].v_ilim);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_CONST_RFEED,
- cfg[preset].const_rfeed);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_CONST_ILIM,
- cfg[preset].const_ilim);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_I_VLIM,cfg[preset].i_vlim);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_LCRONHK,cfg[preset].lcronhk);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_LCROFFHK,cfg[preset].lcroffhk);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_LCRDBI,cfg[preset].lcrdbi);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_LONGHITH,cfg[preset].longhith);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_LONGLOTH,cfg[preset].longloth);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_LONGDBI,cfg[preset].longdbi);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_LCRMASK,cfg[preset].lcrmask);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_LCRMASK_POLREV,
- cfg[preset].lcrmask_polrev);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_LCRMASK_STATE,
- cfg[preset].lcrmask_state);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_LCRMASK_LINECAP,
- cfg[preset].lcrmask_linecap);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_VCM_OH,cfg[preset].vcm_oh);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_VOV_BAT,cfg[preset].vov_bat);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_VOV_GND,cfg[preset].vov_gnd);
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_LINEFEED,lf);
-
- return RC_NONE;
-}
-
-#endif
-
-/*
-** Function: PROSLIC_PulseMeterSetup
-**
-** Description:
-** configure pulse metering
-*/
-
-#ifndef DISABLE_PULSE_SETUP
-int Si3218x_PulseMeterSetup (proslicChanType *pProslic, int preset)
-{
- uInt8 reg;
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_CHANNEL_TYPE_ERR;
- }
-
- else
- {
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_PM_AMP_THRESH,
- Si3218x_PulseMeter_Presets[preset].pm_amp_thresh);
- reg = (Si3218x_PulseMeter_Presets[preset].pmFreq<<1)|
- (Si3218x_PulseMeter_Presets[preset].pmAuto<<3);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_PM_ACTIVE,
- Si3218x_PulseMeter_Presets[preset].pmActive);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_PM_INACTIVE,
- Si3218x_PulseMeter_Presets[preset].pmInactive);
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_PMCON,reg);
- return RC_NONE;
- }
-
-}
-#endif
-
-/*
-** Function: PROSLIC_PCMSetup
-**
-** Description:
-** configure pcm
-*/
-
-#ifndef DISABLE_PCM_SETUP
-int Si3218x_PCMSetup(proslicChanType *pProslic, int preset)
-{
- uInt8 regTemp;
- uInt8 pmEn;
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_CHANNEL_TYPE_ERR;
- }
-
- pmEn = ReadReg(pProHW,pProslic->channel,
- SI3218X_REG_PMCON) & 0x01; /* PM/wideband lockout */
- if (Si3218x_PCM_Presets[preset].widebandEn && pmEn)
- {
-#ifdef ENABLE_DEBUG
- LOGPRINT ("%s Wideband Mode is not supported while Pulse Metering is enabled.\n",
- LOGPRINT_PREFIX);
-#endif
- }
- else if (Si3218x_PCM_Presets[preset].widebandEn && !pmEn)
- {
- /* TXIIR settings */
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACIIR_B0_1,0x3538E80L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACIIR_B1_1,0x3538E80L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACIIR_A1_1,0x1AA9100L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACIIR_B0_2,0x216D100L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACIIR_B1_2,0x2505400L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACIIR_B2_2,0x216D100L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACIIR_A1_2,0x2CB8100L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACIIR_A2_2,0x1D7FA500L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACIIR_B0_3,0x2CD9B00L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACIIR_B1_3,0x1276D00L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACIIR_B2_3,0x2CD9B00L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACIIR_A1_3,0x2335300L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACIIR_A2_3,0x19D5F700L);
- /* RXIIR settings */
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACIIR_B0_1,0x6A71D00L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACIIR_B1_1,0x6A71D00L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACIIR_A1_1,0x1AA9100L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACIIR_B0_2,0x216D100L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACIIR_B1_2,0x2505400L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACIIR_B2_2,0x216D100L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACIIR_A1_2,0x2CB8100L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACIIR_A2_2,0x1D7FA500L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACIIR_B0_3,0x2CD9B00L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACIIR_B1_3,0x1276D00L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACIIR_B2_3,0x2CD9B00L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACIIR_A1_3,0x2335300L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACIIR_A2_3,0x19D5F700L);
- /*
- ** RXHPF
- ** Note: Calling ProSLIC_ZsynthSetup() will overwrite some
- ** of these values. ProSLIC_PCMSetup() should always
- ** be called after loading coefficients when using
- ** wideband mode
- */
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACHPF_B0_1,0x7CFF900L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACHPF_B1_1,0x18300700L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACHPF_A1_1,0x79FF201L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACHPF_B0_2,0x7CEDA1DL);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACHPF_B1_2,0x106320D4L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACHPF_B2_2,0x7CEDA1DL);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACHPF_A1_2,0xF9A910FL);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACHPF_A2_2,0x185FFDA8L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACHPF_GAIN,0x08000000L);
- /* TXHPF */
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACHPF_B0_1,0x0C7FF4CEL);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACHPF_B1_1,0x13800B32L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACHPF_A1_1,0x079FF201L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACHPF_B0_2,0x030FDD10L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACHPF_B1_2,0x19E0996CL);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACHPF_B2_2,0x030FDD10L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACHPF_A1_2,0x0F9A910FL);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACHPF_A2_2,0x185FFDA8L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACHPF_GAIN,0x0CD30000L);
-
- regTemp = ReadReg(pProHW,pProslic->channel,SI3218X_REG_DIGCON);
-#ifndef DISABLE_HPF_WIDEBAND
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_DIGCON,
- regTemp&~(0xC)); /* Enable HPF */
-#else
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_DIGCON,
- regTemp|(0xC)); /* Disable HPF */
-#endif
- regTemp = ReadReg(pProHW,pProslic->channel,SI3218X_REG_ENHANCE);
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_ENHANCE,regTemp|1);
- }
- else
- {
- regTemp = ReadReg(pProHW,pProslic->channel,SI3218X_REG_DIGCON);
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_DIGCON,regTemp&~(0xC));
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACIIR_B0_1,0x3538E80L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACIIR_B1_1,0x3538E80L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACIIR_A1_1,0x1AA9100L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACIIR_B0_2,0x216D100L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACIIR_B1_2,0x2505400L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACIIR_B2_2,0x216D100L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACIIR_A1_2,0x2CB8100L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACIIR_A2_2,0x1D7FA500L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACIIR_B0_3,0x2CD9B00L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACIIR_B1_3,0x1276D00L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACIIR_B2_3,0x2CD9B00L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACIIR_A1_3,0x2335300L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_TXACIIR_A2_3,0x19D5F700L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACIIR_B0_1,0x6A71D00L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACIIR_B1_1,0x6A71D00L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACIIR_A1_1,0x1AA9100L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACIIR_B0_2,0x216D100L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACIIR_B1_2,0x2505400L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACIIR_B2_2,0x216D100L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACIIR_A1_2,0x2CB8100L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACIIR_A2_2,0x1D7FA500L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACIIR_B0_3,0x2CD9B00L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACIIR_B1_3,0x1276D00L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACIIR_B2_3,0x2CD9B00L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACIIR_A1_3,0x2335300L);
- WriteRAM(pProHW,pProslic->channel,SI3218X_RAM_RXACIIR_A2_3,0x19D5F700L);
- regTemp = ReadReg(pProHW,pProslic->channel,SI3218X_REG_ENHANCE);
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_ENHANCE,regTemp&~(1));
- }
- regTemp = Si3218x_PCM_Presets[preset].pcmFormat;
- regTemp |= Si3218x_PCM_Presets[preset].pcm_tri << 5;
- regTemp |= Si3218x_PCM_Presets[preset].alaw_inv << 2;
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_PCMMODE,regTemp);
- regTemp = ReadReg(pProHW,pProslic->channel,SI3218X_REG_PCMTXHI);
- regTemp &= 3;
- regTemp |= Si3218x_PCM_Presets[preset].tx_edge<<4;
- WriteReg(pProHW,pProslic->channel,SI3218X_REG_PCMTXHI,regTemp);
-
- return RC_NONE;
-}
-#endif
-
-/*
-**
-** PROSLIC CONTROL FUNCTIONS
-**
-*/
-
-/*
-
-** Function: PROSLIC_dbgSetDCFeed
-**
-** Description:
-** provisionally function for setting up
-** dcfeed given desired open circuit voltage
-** and loop current.
-*/
-
-int Si3218x_dbgSetDCFeed (proslicChanType *pProslic, uInt32 v_vlim_val,
- uInt32 i_ilim_val, int32 preset)
-{
-#ifndef DISABLE_DCFEED_SETUP
- /* Note: * needs more descriptive return codes in the event of an out of range argument */
- uInt16 vslope = 160;
- uInt16 rslope = 720;
- uInt32 vscale1 = 1386;
- uInt32 vscale2 =
- 1422; /* 1386x1422 = 1970892 broken down to minimize trunc err */
- uInt32 iscale1 = 913;
- uInt32 iscale2 = 334; /* 913x334 = 304942 */
- uInt32 i_rfeed_val, v_rfeed_val, const_rfeed_val, i_vlim_val, const_ilim_val,
- v_ilim_val;
- int32 signedVal;
- /* Set Linefeed to open state before modifying DC Feed */
-
- /* Assumptions must be made to minimize computations. This limits the
- ** range of available settings, but should be more than adequate for
- ** short loop applications.
- **
- ** Assumtions:
- **
- ** SLOPE_VLIM => 160ohms
- ** SLOPE_RFEED => 720ohms
- ** I_RFEED => 3*I_ILIM/4
- **
- ** With these assumptions, the DC Feed parameters now become
- **
- ** Inputs: V_VLIM, I_ILIM
- ** Constants: SLOPE_VLIM, SLOPE_ILIM, SLOPE_RFEED, SLOPE_DELTA1, SLOPE_DELTA2
- ** Outputs: V_RFEED, V_ILIM, I_VLIM, CONST_RFEED, CONST_ILIM
- **
- */
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_CHANNEL_TYPE_ERR;
- }
-
- /* Validate arguments */
- if((i_ilim_val < 15)||(i_ilim_val > 45))
- {
- return 1; /* need error code */
- }
- if((v_vlim_val < 30)||(v_vlim_val > 52))
- {
- return 1; /* need error code */
- }
-
- /* Calculate voltages in mV and currents in uA */
- v_vlim_val *= 1000;
- i_ilim_val *= 1000;
-
- /* I_RFEED */
- i_rfeed_val = (3*i_ilim_val)/4;
-
- /* V_RFEED */
- v_rfeed_val = v_vlim_val - (i_rfeed_val*vslope)/1000;
-
- /* V_ILIM */
- v_ilim_val = v_rfeed_val - (rslope*(i_ilim_val - i_rfeed_val))/1000;
-
- /* I_VLIM */
- i_vlim_val = (v_vlim_val*1000)/4903;
-
- /* CONST_RFEED */
- signedVal = v_rfeed_val * (i_ilim_val - i_rfeed_val);
- signedVal /= (v_rfeed_val - v_ilim_val);
- signedVal = i_rfeed_val + signedVal;
-
- /* signedVal in uA here */
- signedVal *= iscale1;
- signedVal /= 100;
- signedVal *= iscale2;
- signedVal /= 10;
-
- if(signedVal < 0)
- {
- const_rfeed_val = (signedVal)+ (1L<<29);
- }
- else
- {
- const_rfeed_val = signedVal & 0x1FFFFFFF;
- }
-
- /* CONST_ILIM */
- const_ilim_val = i_ilim_val;
-
- /* compute RAM values */
- v_vlim_val *= vscale1;
- v_vlim_val /= 100;
- v_vlim_val *= vscale2;
- v_vlim_val /= 10;
-
- v_rfeed_val *= vscale1;
- v_rfeed_val /= 100;
- v_rfeed_val *= vscale2;
- v_rfeed_val /= 10;
-
- v_ilim_val *= vscale1;
- v_ilim_val /= 100;
- v_ilim_val *= vscale2;
- v_ilim_val /= 10;
-
- const_ilim_val *= iscale1;
- const_ilim_val /= 100;
- const_ilim_val *= iscale2;
- const_ilim_val /= 10;
-
- i_vlim_val *= iscale1;
- i_vlim_val /= 100;
- i_vlim_val *= iscale2;
- i_vlim_val /= 10;
-
- Si3218x_DCfeed_Presets[preset].slope_vlim = 0x18842BD7L;
- Si3218x_DCfeed_Presets[preset].slope_rfeed = 0x1E8886DEL;
- Si3218x_DCfeed_Presets[preset].slope_ilim = 0x40A0E0L;
- Si3218x_DCfeed_Presets[preset].delta1 = 0x1EABA1BFL;
- Si3218x_DCfeed_Presets[preset].delta2 = 0x1EF744EAL;
- Si3218x_DCfeed_Presets[preset].v_vlim = v_vlim_val;
- Si3218x_DCfeed_Presets[preset].v_rfeed = v_rfeed_val;
- Si3218x_DCfeed_Presets[preset].v_ilim = v_ilim_val;
- Si3218x_DCfeed_Presets[preset].const_rfeed = const_rfeed_val;
- Si3218x_DCfeed_Presets[preset].const_ilim = const_ilim_val;
- Si3218x_DCfeed_Presets[preset].i_vlim = i_vlim_val;
-
- return RC_NONE;
-#else
- SILABS_UNREFERENCED_PARAMETER(pProslic);
- SILABS_UNREFERENCED_PARAMETER(preset);
- SILABS_UNREFERENCED_PARAMETER(v_vlim_val);
- SILABS_UNREFERENCED_PARAMETER(i_ilim_val);
- return RC_IGNORE;
-#endif
-}
-
-/*
-** Function: PROSLIC_dbgSetDCFeedVopen
-**
-** Description:
-** provisionally function for setting up
-** dcfeed given desired open circuit voltage.
-** Entry I_ILIM value will be used.
-*/
-int Si3218x_dbgSetDCFeedVopen (proslicChanType *pProslic, uInt32 v_vlim_val,
- int32 preset)
-{
-#ifndef DISABLE_DCFEED_SETUP
- uInt32 i_ilim_val;
- uInt32 iscale1 = 913;
- uInt32 iscale2 = 334; /* 913x334 = 304942 */
-
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_CHANNEL_TYPE_ERR;
- }
-
- /* Read present CONST_ILIM value */
- i_ilim_val = Si3218x_DCfeed_Presets[preset].const_ilim;
-
-
- i_ilim_val /= iscale2;
- i_ilim_val /= iscale1;
-
- return Si3218x_dbgSetDCFeed(pProslic,v_vlim_val,i_ilim_val,preset);
-#else
- SILABS_UNREFERENCED_PARAMETER(pProslic);
- SILABS_UNREFERENCED_PARAMETER(preset);
- SILABS_UNREFERENCED_PARAMETER(v_vlim_val);
- return RC_IGNORE;
-#endif
-}
-
-/*
-** Function: PROSLIC_dbgSetDCFeedIloop
-**
-** Description:
-** provisionally function for setting up
-** dcfeed given desired loop current.
-** Entry V_VLIM value will be used.
-*/
-int Si3218x_dbgSetDCFeedIloop (proslicChanType *pProslic, uInt32 i_ilim_val,
- int32 preset)
-{
-#ifndef DISABLE_DCFEED_SETUP
-
- uInt32 v_vlim_val;
- uInt32 vscale1 = 1386;
- uInt32 vscale2 =
- 1422; /* 1386x1422 = 1970892 broken down to minimize trunc err */
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_CHANNEL_TYPE_ERR;
- }
-
- /* Read present V_VLIM value */
- v_vlim_val = Si3218x_DCfeed_Presets[preset].v_vlim;
-
- v_vlim_val /= vscale2;
- v_vlim_val /= vscale1;
-
- return Si3218x_dbgSetDCFeed(pProslic,v_vlim_val,i_ilim_val, preset);
-#else
- SILABS_UNREFERENCED_PARAMETER(pProslic);
- SILABS_UNREFERENCED_PARAMETER(preset);
- SILABS_UNREFERENCED_PARAMETER(i_ilim_val);
- return RC_IGNORE;
-#endif
-}
-
-typedef struct
-{
- uInt8 freq;
- ramData ringfr; /* trise scale for trap */
- uInt32 ampScale;
-} ProSLIC_SineRingFreqLookup;
-
-typedef struct
-{
- uInt8 freq;
- ramData rtacth;
- ramData rtper;
- ramData rtdb;
-} ProSLIC_SineRingtripLookup;
-
-typedef struct
-{
- uInt8 freq;
- uInt16 cfVal[6];
-} ProSLIC_TrapRingFreqLookup;
-
-typedef struct
-{
- uInt8 freq;
- ramData rtper;
- ramData rtdb;
- uInt32 rtacth[6];
-} ProSLIC_TrapRingtripLookup;
-
-static const ProSLIC_SineRingFreqLookup sineRingFreqTable[] =
- /* Freq RINGFR, vScale */
- {
- {15, 0x7F6E930L, 18968L},
- {16, 0x7F5A8E0L, 20234L},
- {20, 0x7EFD9D5L, 25301L},
- {22, 0x7EC770AL, 27843L},
- {23, 0x7EAA6E2L, 29113L},
- {25, 0x7E6C925L, 31649L},
- {30, 0x7DBB96BL, 38014L},
- {34, 0x7D34155L, 42270L}, /* Actually 33.33Hz */
- {35, 0x7CEAD72L, 44397L},
- {40, 0x7BFA887L, 50802L},
- {45, 0x7AEAE74L, 57233L},
- {50, 0x79BC384L, 63693L},
- {0,0,0}
- }; /* terminator */
-
-static const ProSLIC_SineRingtripLookup sineRingtripTable[] =
- /* Freq rtacth */
- {
- {15, 11440000L, 0x6A000L, 0x4000L },
- {16, 10810000L, 0x64000L, 0x4000L },
- {20, 8690000L, 0x50000L, 0x8000L },
- {22, 7835000L, 0x48000L, 0x8000L },
- {23, 7622000L, 0x46000L, 0x8000L },
- {25, 6980000L, 0x40000L, 0xA000L },
- {30, 5900000L, 0x36000L, 0xA000L },
- {34, 10490000L, 0x60000L, 0x6000L }, /* Actually 33.33 */
- {35, 10060000L, 0x5C000L, 0x6000L },
- {40, 8750000L, 0x50000L, 0x8000L },
- {45, 7880000L, 0x48000L, 0x8000L },
- {50, 7010000L, 0x40000L, 0xA000L },
- {0,0L, 0L, 0L}
- }; /* terminator */
-
-static const ProSLIC_TrapRingFreqLookup trapRingFreqTable[] =
- /* Freq multCF11 multCF12 multCF13 multCF14 multCF15 multCF16*/
- {
- {15, {69,122, 163, 196, 222,244}},
- {16, {65,115, 153, 184, 208,229}},
- {20, {52,92, 122, 147, 167,183}},
- {22, {47,83, 111, 134, 152,166}},
- {23, {45,80, 107, 128, 145,159}},
- {25, {42,73, 98, 118, 133,146}},
- {30, {35,61, 82, 98, 111,122}},
- {34, {31,55, 73, 88, 100,110}},
- {35, {30,52, 70, 84, 95,104}},
- {40, {26,46, 61, 73, 83,91}},
- {45, {23,41, 54, 65, 74,81}},
- {50, {21,37, 49, 59, 67,73}},
- {0,{0L,0L,0L,0L}} /* terminator */
- };
-
-
-static const ProSLIC_TrapRingtripLookup trapRingtripTable[] =
- /* Freq rtper rtdb rtacthCR11 rtacthCR12 rtacthCR13 rtacthCR14 rtacthCR15 rtacthCR16*/
- {
- {15, 0x6A000L, 0x4000L, {16214894L, 14369375L, 12933127L, 11793508L, 10874121L, 10121671L}},
- {16, 0x64000L, 0x4000L, {15201463L, 13471289L, 12124806L, 11056414L, 10194489L, 9489067L}},
- {20, 0x50000L, 0x6000L, {12161171L, 10777031L, 9699845L, 8845131L, 8155591L, 7591253L}},
- {22, 0x48000L, 0x6000L, {11055610L, 9797301L, 8818041L, 8041028L, 7414174L, 6901139L}},
- {23, 0x46000L, 0x6000L, {10574931L, 9371331L, 8434648L, 7691418L, 7091818L, 6601090L}},
- {25, 0x40000L, 0x8000L, {9728937L, 8621625L, 7759876L, 7076105L, 6524473L, 6073003L}},
- {30, 0x36000L, 0x8000L, {8107447L, 7184687L, 6466563L, 5896754L, 5437061L, 5060836L}},
- {34, 0x60000L, 0x6000L, {7297432L, 6466865L, 5820489L, 5307609L, 4893844L, 4555208L}},
- {35, 0x5C000L, 0x6000L, {6949240L, 6158303L, 5542769L, 5054361L, 4660338L, 4337859L}},
- {40, 0x50000L, 0x6000L, {6080585L, 5388516L, 4849923L, 4422565L, 4077796L, 3795627L}},
- {45, 0x48000L, 0x6000L, {5404965L, 4789792L, 4311042L, 3931169L, 3624707L, 3373890L}},
- {50, 0x40000L, 0x8000L, {4864468L, 4310812L, 3879938L, 3538052L, 3262236L, 3036501L}},
- {0,0x0L, 0x0L, {0L,0L,0L,0L}} /* terminator */
- };
-
-/*
-** Function: PROSLIC_dbgRingingSetup
-**
-** Description:
-** Provision function for setting up
-** Ring type, frequency, amplitude and dc offset.
-** Main use will be by peek/poke applications.
-*/
-int Si3218x_dbgSetRinging (proslicChanType *pProslic,
- ProSLIC_dbgRingCfg *ringCfg, int preset)
-{
-#ifndef DISABLE_RING_SETUP
- int errVal,i=0;
- uInt32 vScale = 1608872L; /* (2^28/170.25)*((100+4903)/4903) */
- ramData dcdcVminTmp;
-
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_CHANNEL_TYPE_ERR;
- }
-
- errVal = RC_NONE;
-
- switch(ringCfg->ringtype)
- {
- case ProSLIC_RING_SINE:
- i=0;
- do
- {
- if(sineRingFreqTable[i].freq >= ringCfg->freq)
- {
- break;
- }
- i++;
- }
- while (sineRingFreqTable[i].freq);
-
- /* Set to maximum value if exceeding maximum value from table */
- if(sineRingFreqTable[i].freq == 0)
- {
- i--;
- errVal = RC_RING_V_LIMITED;
- }
-
- /* Update RINGFR RINGAMP, RINGOFFSET, and RINGCON */
- Si3218x_Ring_Presets[preset].freq = sineRingFreqTable[i].ringfr;
- Si3218x_Ring_Presets[preset].amp = ringCfg->amp * sineRingFreqTable[i].ampScale;
- Si3218x_Ring_Presets[preset].offset = ringCfg->offset * vScale;
- Si3218x_Ring_Presets[preset].phas = 0L;
-
- /* Don't alter anything in RINGCON other than clearing the TRAP bit */
- Si3218x_Ring_Presets[preset].ringcon &= 0xFE;
-
- Si3218x_Ring_Presets[preset].rtper = sineRingtripTable[i].rtper;
- Si3218x_Ring_Presets[preset].rtacdb = sineRingtripTable[i].rtdb;
- Si3218x_Ring_Presets[preset].rtdcdb = sineRingtripTable[i].rtdb;
- Si3218x_Ring_Presets[preset].rtdcth = 0xFFFFFFFL;
- Si3218x_Ring_Presets[preset].rtacth = sineRingtripTable[i].rtacth;
- break;
-
- case ProSLIC_RING_TRAP_CF11:
- case ProSLIC_RING_TRAP_CF12:
- case ProSLIC_RING_TRAP_CF13:
- case ProSLIC_RING_TRAP_CF14:
- case ProSLIC_RING_TRAP_CF15:
- case ProSLIC_RING_TRAP_CF16:
- i=0;
- do
- {
- if(trapRingFreqTable[i].freq >= ringCfg->freq)
- {
- break;
- }
- i++;
- }
- while (trapRingFreqTable[i].freq);
-
- /* Set to maximum value if exceeding maximum value from table */
- if(trapRingFreqTable[i].freq == 0)
- {
- i--;
- errVal = RC_RING_V_LIMITED;
- }
-
- /* Update RINGFR RINGAMP, RINGOFFSET, and RINGCON */
- Si3218x_Ring_Presets[preset].amp = ringCfg->amp * vScale;
- Si3218x_Ring_Presets[preset].freq =
- Si3218x_Ring_Presets[preset].amp/trapRingFreqTable[i].cfVal[ringCfg->ringtype];
- Si3218x_Ring_Presets[preset].offset = ringCfg->offset * vScale;
- Si3218x_Ring_Presets[preset].phas = 262144000L/trapRingFreqTable[i].freq;
-
- /* Don't alter anything in RINGCON other than setting the TRAP bit */
- Si3218x_Ring_Presets[preset].ringcon |= 0x01;
-
- /* RTPER and debouce timers */
- Si3218x_Ring_Presets[preset].rtper = trapRingtripTable[i].rtper;
- Si3218x_Ring_Presets[preset].rtacdb = trapRingtripTable[i].rtdb;
- Si3218x_Ring_Presets[preset].rtdcdb = trapRingtripTable[i].rtdb;
-
-
- Si3218x_Ring_Presets[preset].rtdcth = 0xFFFFFFFL;
- Si3218x_Ring_Presets[preset].rtacth =
- trapRingtripTable[i].rtacth[ringCfg->ringtype];
-
-
- break;
- }
-
- /*
- ** DCDC tracking sluggish under light load at higher ring freq.
- ** Reduce tracking depth above 40Hz. This should have no effect
- ** if using the Buck-Boost architecture.
- */
- if((sineRingFreqTable[i].freq >= 40)
- ||(Si3218x_General_Configuration.bom_option == BO_DCDC_BUCK_BOOST))
- {
- dcdcVminTmp = ringCfg->amp + ringCfg->offset;
- dcdcVminTmp *= 1000;
- dcdcVminTmp *= SCALE_V_MADC;
- Si3218x_Ring_Presets[preset].dcdc_vref_min_rng = dcdcVminTmp;
- }
- else
- {
- Si3218x_Ring_Presets[preset].dcdc_vref_min_rng = 0x1800000L;
- }
-
- return errVal;
-#else
- SILABS_UNREFERENCED_PARAMETER(pProslic);
- SILABS_UNREFERENCED_PARAMETER(preset);
- SILABS_UNREFERENCED_PARAMETER(ringCfg);
- return RC_IGNORE;
-#endif
-}
-
-
-typedef struct
-{
- int32 gain;
- uInt32 scale;
-} ProSLIC_GainScaleLookup;
-
-#ifndef ENABLE_HIRES_GAIN
-static int Si3218x_dbgSetGain (proslicChanType *pProslic, int32 gain,
- int impedance_preset, int tx_rx_sel)
-{
- int errVal = 0;
- int32 i;
- int32 gain_pga, gain_eq;
- const ProSLIC_GainScaleLookup gainScaleTable[]
- = /* gain, scale=10^(gain/20) */
- {
- {-30, 32},
- {-29, 35},
- {-28, 40},
- {-27, 45},
- {-26, 50},
- {-25, 56},
- {-24, 63},
- {-23, 71},
- {-22, 79},
- {-21, 89},
- {-20, 100},
- {-19, 112},
- {-18, 126},
- {-17, 141},
- {-16, 158},
- {-15, 178},
- {-14, 200},
- {-13, 224},
- {-12, 251},
- {-11, 282},
- {-10, 316},
- {-9, 355},
- {-8, 398},
- {-7, 447},
- {-6, 501},
- {-5, 562},
- {-4, 631},
- {-3, 708},
- {-2, 794},
- {-1, 891},
- {0, 1000},
- {1, 1122},
- {2, 1259},
- {3, 1413},
- {4, 1585},
- {5, 1778},
- {6, 1995},
- {0xff,0} /* terminator */
- };
-
- SILABS_UNREFERENCED_PARAMETER(pProslic);
-
- /* Test against max gain */
- if (gain > PROSLIC_EXTENDED_GAIN_MAX)
- {
- errVal = RC_GAIN_OUT_OF_RANGE;
- DEBUG_PRINT(pProslic, "%sdbgSetGain: Gain %d out of range\n", LOGPRINT_PREFIX,
- (int)gain);
- gain = PROSLIC_EXTENDED_GAIN_MAX; /* Clamp to maximum */
- }
-
- /* Test against min gain */
- if (gain < PROSLIC_GAIN_MIN)
- {
- errVal = RC_GAIN_OUT_OF_RANGE;
- DEBUG_PRINT(pProslic, "%sdbgSetGain: Gain %d out of range\n", LOGPRINT_PREFIX,
- (int)gain);
- gain = PROSLIC_GAIN_MIN; /* Clamp to minimum */
- }
-
- /* Distribute gain */
- if(gain == 0)
- {
- gain_pga = 0;
- gain_eq = 0;
- }
- else if(gain > PROSLIC_GAIN_MAX)
- {
- if(tx_rx_sel == TXACGAIN_SEL)
- {
- gain_pga = PROSLIC_GAIN_MAX;
- gain_eq = gain - PROSLIC_GAIN_MAX;
- }
- else
- {
- gain_pga = gain - PROSLIC_GAIN_MAX;
- gain_eq = PROSLIC_GAIN_MAX;
- }
- }
- else if(gain > 0)
- {
- if(tx_rx_sel == TXACGAIN_SEL)
- {
- gain_pga = gain;
- gain_eq = 0;
- }
- else
- {
- gain_pga = 0;
- gain_eq = gain;
- }
- }
- else
- {
- if(tx_rx_sel == TXACGAIN_SEL)
- {
- gain_pga = 0;
- gain_eq = gain;
- }
- else
- {
- gain_pga = gain;
- gain_eq = 0;
- }
-
- }
-
-
- /*
- ** Lookup PGA Appropriate PGA Gain
- */
- i=0;
- do
- {
- if(gainScaleTable[i].gain >= gain_pga) /* was gain_1 */
- {
- break;
- }
- i++;
- }
- while (gainScaleTable[i].gain!=0xff);
-
- /* Set to maximum value if exceeding maximum value from table */
- if(gainScaleTable[i].gain == 0xff)
- {
- i--;
- errVal = RC_GAIN_DELTA_TOO_LARGE;
- }
-
- if(tx_rx_sel == TXACGAIN_SEL)
- {
- Si3218x_audioGain_Presets[0].acgain =
- (Si3218x_Impedance_Presets[impedance_preset].txgain/1000)
- *gainScaleTable[i].scale;
- }
- else
- {
- Si3218x_audioGain_Presets[1].acgain =
- (Si3218x_Impedance_Presets[impedance_preset].rxgain/1000)
- *gainScaleTable[i].scale;
- }
-
-
- /*
- ** Lookup EQ Gain
- */
- i=0;
- do
- {
- if(gainScaleTable[i].gain >= gain_eq) /* was gain_2 */
- {
- break;
- }
- i++;
- }
- while (gainScaleTable[i].gain!=0xff);
-
- /* Set to maximum value if exceeding maximum value from table */
- if(gainScaleTable[i].gain == 0xff)
- {
- i--;
- errVal = RC_GAIN_DELTA_TOO_LARGE;
- }
-
- if(tx_rx_sel == TXACGAIN_SEL)
- {
- /*sign extend negative numbers*/
- if (Si3218x_Impedance_Presets[impedance_preset].audioEQ.txaceq_c0 & 0x10000000L)
- {
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.txaceq_c0 |= 0xf0000000L;
- }
- if (Si3218x_Impedance_Presets[impedance_preset].audioEQ.txaceq_c1 & 0x10000000L)
- {
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.txaceq_c1 |= 0xf0000000L;
- }
- if (Si3218x_Impedance_Presets[impedance_preset].audioEQ.txaceq_c2 & 0x10000000L)
- {
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.txaceq_c2 |= 0xf0000000L;
- }
- if (Si3218x_Impedance_Presets[impedance_preset].audioEQ.txaceq_c3 & 0x10000000L)
- {
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.txaceq_c3 |= 0xf0000000L;
- }
-
- Si3218x_audioGain_Presets[0].aceq_c0 = ((int32)
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.txaceq_c0/1000)
- *gainScaleTable[i].scale;
- Si3218x_audioGain_Presets[0].aceq_c1 = ((int32)
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.txaceq_c1/1000)
- *gainScaleTable[i].scale;
- Si3218x_audioGain_Presets[0].aceq_c2 = ((int32)
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.txaceq_c2/1000)
- *gainScaleTable[i].scale;
- Si3218x_audioGain_Presets[0].aceq_c3 = ((int32)
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.txaceq_c3/1000)
- *gainScaleTable[i].scale;
- }
- else
- {
- /*sign extend negative numbers*/
- if (Si3218x_Impedance_Presets[impedance_preset].audioEQ.rxaceq_c0 & 0x10000000L)
- {
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.rxaceq_c0 |= 0xf0000000L;
- }
- if (Si3218x_Impedance_Presets[impedance_preset].audioEQ.rxaceq_c1 & 0x10000000L)
- {
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.rxaceq_c1 |= 0xf0000000L;
- }
- if (Si3218x_Impedance_Presets[impedance_preset].audioEQ.rxaceq_c2 & 0x10000000L)
- {
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.rxaceq_c2 |= 0xf0000000L;
- }
- if (Si3218x_Impedance_Presets[impedance_preset].audioEQ.rxaceq_c3 & 0x10000000L)
- {
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.rxaceq_c3 |= 0xf0000000L;
- }
-
- Si3218x_audioGain_Presets[1].aceq_c0 = ((int32)
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.rxaceq_c0/1000)
- *gainScaleTable[i].scale;
- Si3218x_audioGain_Presets[1].aceq_c1 = ((int32)
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.rxaceq_c1/1000)
- *gainScaleTable[i].scale;
- Si3218x_audioGain_Presets[1].aceq_c2 = ((int32)
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.rxaceq_c2/1000)
- *gainScaleTable[i].scale;
- Si3218x_audioGain_Presets[1].aceq_c3 = ((int32)
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.rxaceq_c3/1000)
- *gainScaleTable[i].scale;
- }
-
-
- return errVal;
-}
-#else /* ENABLE_HIRES_GAIN */
-/*
-** Function: Si3218x_dbgSetGainHiRes()
-**
-** Description:
-** Provision function for setting up
-** TX and RX gain with 0.1dB resolution instead
-** of 1.0dB resolution
-*/
-static int Si3218x_dbgSetGainHiRes (proslicChanType *pProslic, int32 gain,
- int impedance_preset, int tx_rx_sel)
-{
- int errVal = 0;
- int32 i;
- int32 coarseGainIndex, fineGainIndex;
- int32 gain_pga, gain_eq;
- int32 coarseGain, fineGain;
- int32 tmp;
- const ProSLIC_GainScaleLookup coarseGainScaleTable[]
- = /* gain, scale=10^(gain/20) */
- {
- {-30, 32},
- {-29, 35},
- {-28, 40},
- {-27, 45},
- {-26, 50},
- {-25, 56},
- {-24, 63},
- {-23, 71},
- {-22, 79},
- {-21, 89},
- {-20, 100},
- {-19, 112},
- {-18, 126},
- {-17, 141},
- {-16, 158},
- {-15, 178},
- {-14, 200},
- {-13, 224},
- {-12, 251},
- {-11, 282},
- {-10, 316},
- {-9, 355},
- {-8, 398},
- {-7, 447},
- {-6, 501},
- {-5, 562},
- {-4, 631},
- {-3, 708},
- {-2, 794},
- {-1, 891},
- {0, 1000},
- {1, 1122},
- {2, 1259},
- {3, 1413},
- {4, 1585},
- {5, 1778},
- {6, 1995},
- {0xff,0} /* terminator */
- };
-
- const ProSLIC_GainScaleLookup fineGainScaleTable[]
- = /* gain, scale=10^(gain/20) */
- {
- {-9, 902},
- {-8, 912},
- {-7, 923},
- {-6, 933},
- {-5, 944},
- {-4, 955},
- {-3, 966},
- {-2, 977},
- {-1, 989},
- {0, 1000},
- {1, 1012},
- {2, 1023},
- {3, 1035},
- {4, 1047},
- {5, 1059},
- {6, 1072},
- {7, 1084},
- {8, 1096},
- {9, 1109},
- {0xff,0} /* terminator */
- };
-
- SILABS_UNREFERENCED_PARAMETER(pProslic);
-
- /* Test against max gain */
- if (gain > (PROSLIC_GAIN_MAX*10L))
- {
- errVal = RC_GAIN_OUT_OF_RANGE;
- DEBUG_PRINT(pProslic, "%sdbgSetGain: Gain %d dB*10 out of range\n",
- LOGPRINT_PREFIX, gain);
- gain = (PROSLIC_GAIN_MAX*10L); /* Clamp to maximum */
- }
-
- /* Test against min gain */
- if (gain < (PROSLIC_GAIN_MIN*10L))
- {
- errVal = RC_GAIN_OUT_OF_RANGE;
- DEBUG_PRINT(pProslic, "%sdbgSetGain: Gain %d dB*10 out of range\n",
- LOGPRINT_PREFIX, gain);
- gain = (PROSLIC_GAIN_MIN*10); /* Clamp to minimum */
- }
-
- /* Distribute gain */
- coarseGain = gain/10L;
- fineGain = gain - (coarseGain*10L);
-
- /* Distribute coarseGain */
- if(coarseGain == 0)
- {
- gain_pga = 0;
- gain_eq = 0;
- }
- else if(coarseGain > 0)
- {
- if(tx_rx_sel == TXACGAIN_SEL)
- {
- gain_pga = coarseGain;
- gain_eq = 0;
- }
- else
- {
- gain_pga = 0;
- gain_eq = coarseGain;
- }
- }
- else
- {
- if(tx_rx_sel == TXACGAIN_SEL)
- {
- gain_pga = 0;
- gain_eq = coarseGain;
- }
- else
- {
- gain_pga = coarseGain;
- gain_eq = 0;
- }
- }
-
- /*
- ** Lookup PGA Appopriate PGA Gain
- */
- i=0;
- do
- {
- if(coarseGainScaleTable[i].gain >= gain_pga)
- {
- break;
- }
- i++;
- }
- while (coarseGainScaleTable[i].gain!=0xff);
-
- /* Set to maximum value if exceeding maximum value from table */
- if(coarseGainScaleTable[i].gain == 0xff)
- {
- i--;
- errVal = RC_GAIN_DELTA_TOO_LARGE;
- }
-
- coarseGainIndex = i; /* Store coarse index */
-
- /* Find fineGain */
- i = 0;
- do
- {
- if(fineGainScaleTable[i].gain >= fineGain)
- {
- break;
- }
- i++;
- }
- while (fineGainScaleTable[i].gain!=0xff);
-
- /* Set to maximum value if exceeding maximum value from table */
- if(fineGainScaleTable[i].gain == 0xff)
- {
- i--;
- errVal = RC_GAIN_DELTA_TOO_LARGE;
- }
-
- fineGainIndex = i;
-
- if(tx_rx_sel == TXACGAIN_SEL)
- {
- Si3218x_audioGain_Presets[0].acgain = ((
- Si3218x_Impedance_Presets[impedance_preset].txgain/1000L)
- *coarseGainScaleTable[coarseGainIndex].scale);
- }
- else
- {
- Si3218x_audioGain_Presets[1].acgain = ((
- Si3218x_Impedance_Presets[impedance_preset].rxgain/1000L)
- * coarseGainScaleTable[coarseGainIndex].scale)/1000L
- * fineGainScaleTable[fineGainIndex].scale;
- }
-
- /*
- ** Lookup EQ Gain
- */
- i=0;
- do
- {
- if(coarseGainScaleTable[i].gain >= gain_eq)
- {
- break;
- }
- i++;
- }
- while (coarseGainScaleTable[i].gain!=0xff);
-
- /* Set to maximum value if exceeding maximum value from table */
- if(coarseGainScaleTable[i].gain == 0xff)
- {
- i--;
- errVal = RC_GAIN_DELTA_TOO_LARGE;
- }
-
- coarseGainIndex = i; /* Store coarse index */
-
- if(tx_rx_sel == TXACGAIN_SEL)
- {
- /*sign extend negative numbers*/
- if (Si3218x_Impedance_Presets[impedance_preset].audioEQ.txaceq_c0 & 0x10000000L)
- {
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.txaceq_c0 |= 0xf0000000L;
- }
- if (Si3218x_Impedance_Presets[impedance_preset].audioEQ.txaceq_c1 & 0x10000000L)
- {
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.txaceq_c1 |= 0xf0000000L;
- }
- if (Si3218x_Impedance_Presets[impedance_preset].audioEQ.txaceq_c2 & 0x10000000L)
- {
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.txaceq_c2 |= 0xf0000000L;
- }
- if (Si3218x_Impedance_Presets[impedance_preset].audioEQ.txaceq_c3 & 0x10000000L)
- {
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.txaceq_c3 |= 0xf0000000L;
- }
-
- tmp = (((int32)
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.txaceq_c0/1000L)
- *coarseGainScaleTable[coarseGainIndex].scale);
- tmp = tmp / (int32)1000L;
- tmp = tmp * (int32)fineGainScaleTable[fineGainIndex].scale;
- Si3218x_audioGain_Presets[0].aceq_c0 = tmp;
-
- tmp = (((int32)
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.txaceq_c1/1000L)
- *coarseGainScaleTable[coarseGainIndex].scale);
- tmp = tmp / (int32)1000L;
- tmp = tmp * (int32)fineGainScaleTable[fineGainIndex].scale;
- Si3218x_audioGain_Presets[0].aceq_c1 = tmp;
-
- tmp = (((int32)
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.txaceq_c2/1000L)
- *coarseGainScaleTable[coarseGainIndex].scale);
- tmp = tmp / (int32)1000L;
- tmp = tmp * (int32)fineGainScaleTable[fineGainIndex].scale;
- Si3218x_audioGain_Presets[0].aceq_c2 = tmp;
-
- tmp = (((int32)
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.txaceq_c3/1000L)
- *coarseGainScaleTable[coarseGainIndex].scale);
- tmp = tmp / (int32)1000L;
- tmp = tmp * (int32)fineGainScaleTable[fineGainIndex].scale;
- Si3218x_audioGain_Presets[0].aceq_c3 = tmp;
- }
- else
- {
- /*sign extend negative numbers*/
- if (Si3218x_Impedance_Presets[impedance_preset].audioEQ.rxaceq_c0 & 0x10000000L)
- {
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.rxaceq_c0 |= 0xf0000000L;
- }
- if (Si3218x_Impedance_Presets[impedance_preset].audioEQ.rxaceq_c1 & 0x10000000L)
- {
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.rxaceq_c1 |= 0xf0000000L;
- }
- if (Si3218x_Impedance_Presets[impedance_preset].audioEQ.rxaceq_c2 & 0x10000000L)
- {
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.rxaceq_c2 |= 0xf0000000L;
- }
- if (Si3218x_Impedance_Presets[impedance_preset].audioEQ.rxaceq_c3 & 0x10000000L)
- {
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.rxaceq_c3 |= 0xf0000000L;
- }
-
- Si3218x_audioGain_Presets[1].aceq_c0 = ((int32)
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.rxaceq_c0/1000)
- *coarseGainScaleTable[i].scale;
- Si3218x_audioGain_Presets[1].aceq_c1 = ((int32)
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.rxaceq_c1/1000)
- * coarseGainScaleTable[i].scale;
- Si3218x_audioGain_Presets[1].aceq_c2 = ((int32)
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.rxaceq_c2/1000)
- * coarseGainScaleTable[i].scale;
- Si3218x_audioGain_Presets[1].aceq_c3 = ((int32)
- Si3218x_Impedance_Presets[impedance_preset].audioEQ.rxaceq_c3/1000)
- * coarseGainScaleTable[i].scale;
- }
-
- return errVal;
-}
-#endif /* ENABLE_HIRES_GAIN */
-
-/*
-** Function: PROSLIC_dbgSetTXGain
-**
-** Description:
-** Provision function for setting up
-** TX gain
-*/
-
-int Si3218x_dbgSetTXGain (proslicChanType *pProslic, int32 gain,
- int impedance_preset, int audio_gain_preset)
-{
- SILABS_UNREFERENCED_PARAMETER(audio_gain_preset);
-#ifdef ENABLE_HIRES_GAIN
- return Si3218x_dbgSetGainHiRes(pProslic,gain,impedance_preset,TXACGAIN_SEL);
-#else
- return Si3218x_dbgSetGain(pProslic,gain,impedance_preset,TXACGAIN_SEL);
-#endif
-}
-
-/*
-** Function: PROSLIC_dbgSetRXGain
-**
-** Description:
-** Provision function for setting up
-** RX gain
-*/
-int Si3218x_dbgSetRXGain (proslicChanType *pProslic, int32 gain,
- int impedance_preset, int audio_gain_preset)
-{
- SILABS_UNREFERENCED_PARAMETER(audio_gain_preset);
-#ifdef ENABLE_HIRES_GAIN
- return Si3218x_dbgSetGainHiRes(pProslic,gain,impedance_preset,RXACGAIN_SEL);
-#else
- return Si3218x_dbgSetGain(pProslic,gain,impedance_preset,RXACGAIN_SEL);
-#endif
-}
-
-/*
-** Function: Si3218x_GetRAMScale
-**
-** Description:
-** Read scale factor for passed RAM location
-**
-** Return Value:
-** int32 scale
-*/
-static int32 Si3218x_GetRAMScale(uInt16 addr)
-{
- int32 scale;
-
- switch(addr)
- {
- case SI3218X_RAM_MADC_ILOOP:
- case SI3218X_RAM_MADC_ITIP:
- case SI3218X_RAM_MADC_IRING:
- case SI3218X_RAM_MADC_ILONG:
- scale = SCALE_I_MADC;
- break;
-
- case SI3218X_RAM_MADC_VTIPC:
- case SI3218X_RAM_MADC_VRINGC:
- case SI3218X_RAM_MADC_VBAT:
- case SI3218X_RAM_MADC_VDC:
- case SI3218X_RAM_MADC_VDC_OS:
- case SI3218X_RAM_MADC_VLONG:
- case SI3218X_RAM_VDIFF_SENSE:
- case SI3218X_RAM_VDIFF_FILT:
- case SI3218X_RAM_VDIFF_COARSE:
- case SI3218X_RAM_VTIP:
- case SI3218X_RAM_VRING:
- scale = SCALE_V_MADC;
- break;
-
- default:
- scale = 1;
- break;
- }
-
- return scale;
-}
-
-/*
-** Function: Si3218x_ReadMADCScaled
-**
-** Description:
-** Read MADC (or other sensed voltages/currents) and
-** return scaled value in int32 format.
-**
-** Return Value:
-** int32 voltage in mV or
-** int32 current in uA
-*/
-int32 Si3218x_ReadMADCScaled(proslicChanType_ptr pProslic,uInt16 addr,
- int32 scale)
-{
- int32 data;
-
- /*
- ** Read 29-bit RAM and sign extend to 32-bits
- */
- data = ReadRAM(pProHW,pProslic->channel,addr);
- if(data & 0x10000000L)
- {
- data |= 0xF0000000L;
- }
-
- /*
- ** Scale to provided value, or use defaults if scale = 0
- */
- if(scale == 0)
- {
- scale = Si3218x_GetRAMScale(addr);
- }
-
- data /= scale;
-
- return data;
-}
-
-/*
-** Function: Si3218x_LineMonitor
-**
-** Description:
-** Monitor line voltages and currents
-*/
-int Si3218x_LineMonitor(proslicChanType *pProslic, proslicMonitorType *monitor)
-{
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_CHANNEL_TYPE_ERR;
- }
-
- if(pProslic->channelEnable)
- {
- monitor->vtr = ReadRAM(pProHW,pProslic->channel,SI3218X_RAM_VDIFF_FILT);
- if(monitor->vtr & 0x10000000L)
- {
- monitor->vtr |= 0xf0000000L;
- }
- monitor->vtr /= SCALE_V_MADC;
-
- monitor->vtip = ReadRAM(pProHW,pProslic->channel,SI3218X_RAM_VTIP);
- if(monitor->vtip & 0x10000000L)
- {
- monitor->vtip |= 0xf0000000L;
- }
- monitor->vtip /= SCALE_V_MADC;
-
- monitor->vring = ReadRAM(pProHW,pProslic->channel,SI3218X_RAM_VRING);
- if(monitor->vring & 0x10000000L)
- {
- monitor->vring |= 0xf0000000L;
- }
- monitor->vring /= SCALE_V_MADC;
-
- monitor->vlong = ReadRAM(pProHW,pProslic->channel,SI3218X_RAM_MADC_VLONG);
- if(monitor->vlong & 0x10000000L)
- {
- monitor->vlong |= 0xf0000000L;
- }
- monitor->vlong /= SCALE_V_MADC;
-
- monitor->vbat = ReadRAM(pProHW,pProslic->channel,SI3218X_RAM_MADC_VBAT);
- if(monitor->vbat & 0x10000000L)
- {
- monitor->vbat |= 0xf0000000L;
- }
- monitor->vbat /= SCALE_V_MADC;
-
- monitor->vdc = 0; /* Si3218x has no SVDC */
-
- monitor->itr = ReadRAM(pProHW,pProslic->channel,SI3218X_RAM_MADC_ILOOP);
- if(monitor->itr & 0x10000000L)
- {
- monitor->itr |= 0xf0000000L;
- }
- monitor->itr /= SCALE_I_MADC;
-
- monitor->itip = ReadRAM(pProHW,pProslic->channel,SI3218X_RAM_MADC_ITIP);
- if(monitor->itip & 0x10000000L)
- {
- monitor->itip |= 0xf0000000L;
- }
- monitor->itip /= SCALE_I_MADC;
-
- monitor->iring = ReadRAM(pProHW,pProslic->channel,SI3218X_RAM_MADC_IRING);
- if(monitor->iring & 0x10000000L)
- {
- monitor->iring |= 0xf0000000L;
- }
- monitor->iring /= SCALE_I_MADC;
-
- monitor->ilong = ReadRAM(pProHW,pProslic->channel,SI3218X_RAM_MADC_ILONG);
- if(monitor->ilong & 0x10000000L)
- {
- monitor->ilong |= 0xf0000000L;
- }
- monitor->ilong /= SCALE_I_MADC;
-
- monitor->p_hvic = ReadRAM(pProHW,pProslic->channel,
- SI3218X_RAM_P_Q1_D); /* P_HVIC_LPF */
- if(monitor->p_hvic & 0x10000000L)
- {
- monitor->p_hvic |= 0xf0000000L;
- }
- monitor->p_hvic /= SCALE_P_MADC;
- }
-
- return RC_NONE;
-}
-
-/*
-** Function: Si3218x_PSTNCheck
-**
-** Description:
-** Continuous monitoring of longitudinal current.
-** If an average of N samples exceed avgThresh or a
-** single sample exceeds singleThresh, the linefeed
-** is forced into the open state.
-**
-** This protects the port from connecting to a live
-** pstn line (faster than power alarm).
-**
-*/
-int Si3218x_PSTNCheck (proslicChanType *pProslic,
- proslicPSTNCheckObjType *pPSTNCheck)
-{
- uInt8 i;
-
- if( (pProslic->channelType != PROSLIC)
- || (pPSTNCheck->samples == 0) )
- {
- return RC_NONE; /* Ignore DAA channels */
- }
-
- /* Adjust buffer index */
- if(pPSTNCheck->count >= pPSTNCheck->samples)
- {
- pPSTNCheck->buffFull = TRUE;
- pPSTNCheck->count = 0; /* reset buffer ptr */
- }
-
- /* Read next sample */
- pPSTNCheck->ilong[pPSTNCheck->count] = ReadRAM(pProHW,pProslic->channel,
- SI3218X_RAM_MADC_ILONG);
- if(pPSTNCheck->ilong[pPSTNCheck->count] & 0x10000000L)
- {
- pPSTNCheck->ilong[pPSTNCheck->count] |= 0xf0000000L;
- }
- pPSTNCheck->ilong[pPSTNCheck->count] /= SCALE_I_MADC;
-
- /* Monitor magnitude only */
- if(pPSTNCheck->ilong[pPSTNCheck->count] < 0)
- {
- pPSTNCheck->ilong[pPSTNCheck->count] = -pPSTNCheck->ilong[pPSTNCheck->count];
- }
-
- /* Quickly test for single measurement violation */
- if(pPSTNCheck->ilong[pPSTNCheck->count] > pPSTNCheck->singleThresh)
- {
- return RC_PSTN_CHECK_SINGLE_FAIL; /* fail */
- }
-
- /* Average once buffer is full */
- if(pPSTNCheck->buffFull == TRUE)
- {
- pPSTNCheck->avgIlong = 0;
- for(i=0; i<pPSTNCheck->samples; i++)
- {
- pPSTNCheck->avgIlong += pPSTNCheck->ilong[i];
- }
- pPSTNCheck->avgIlong /= pPSTNCheck->samples;
-
- if(pPSTNCheck->avgIlong > pPSTNCheck->avgThresh)
- {
- /* reinit obj and return fail */
- pPSTNCheck->count = 0;
- pPSTNCheck->buffFull = FALSE;
- return RC_PSTN_CHECK_AVG_FAIL;
- }
- else
- {
- pPSTNCheck->count++;
- return RC_NONE;
- }
- }
- else
- {
- pPSTNCheck->count++;
- return RC_NONE;
- }
-}
-
-#ifdef PSTN_DET_ENABLE
-/*
-** Function: abs_int32
-**
-** Description:
-** abs implementation for int32 type
-*/
-static int32 abs_int32(int32 a)
-{
- if(a < 0)
- {
- return -1*a;
- }
- return a;
-}
-
-/*
-** Function: Si3218x_DiffPSTNCheck
-**
-** Description:
-** Monitor for excessive longitudinal current, which
-** would be present if a live pstn line was connected
-** to the port.
-**
-** Returns:
-** RC_NONE - test in progress
-** RC_COMPLETE_NO_ERR - test complete, no alarms or errors
-** RC_POWER_ALARM_HVIC - test interrupted by HVIC power alarm
-** RC_
-**
-*/
-
-int Si3218x_DiffPSTNCheck (proslicChanType *pProslic,
- proslicDiffPSTNCheckObjType *pPSTNCheck)
-{
- uInt8 loop_status;
- int i;
-
- if(pProslic->channelType != PROSLIC)
- {
- return RC_CHANNEL_TYPE_ERR; /* Ignore DAA channels */
- }
-
-
- switch(pPSTNCheck->pState.stage)
- {
- case 0:
- /* Optional OPEN foreign voltage measurement - only execute if LCS = 0 */
- /* Disable low power mode */
- pPSTNCheck->enhanceRegSave = ReadReg(pProHW,pProslic->channel, PROSLIC_REG_ENHANCE);
- WriteReg(pProHW,pProslic->channel, PROSLIC_REG_ENHANCE,
- pPSTNCheck->enhanceRegSave&0x07); /* Disable powersave */
- pPSTNCheck->vdiff1_avg = 0;
- pPSTNCheck->vdiff2_avg = 0;
- pPSTNCheck->iloop1_avg = 0;
- pPSTNCheck->iloop2_avg = 0;
- pPSTNCheck->return_status = RC_COMPLETE_NO_ERR;
- /* Do OPEN state hazardous voltage measurement if enabled and ONHOOK */
- Si3218x_ReadHookStatus(pProslic,&loop_status);
- if((loop_status == PROSLIC_ONHOOK)&&(pPSTNCheck->femf_enable == 1))
- {
- pPSTNCheck->pState.stage++;
- }
- else
- {
- pPSTNCheck->pState.stage = 10;
- }
-
- return RC_NONE;
-
- case 1:
- /* Change linefeed to OPEN state for HAZV measurement, setup coarse sensors */
- pPSTNCheck->lfstate_entry = ReadReg(pProHW,pProslic->channel, PROSLIC_REG_LINEFEED);
- ProSLIC_SetLinefeedStatus(pProslic,LF_OPEN);
- pPSTNCheck->pState.stage++;
- return RC_NONE;
-
- case 2:
- /* Settle */
- ProSLIC_PSTN_delay_poll(&(pPSTNCheck->pState), PSTN_DET_OPEN_FEMF_SETTLE);
- return RC_NONE;
-
- case 3:
- /* Measure HAZV */
- pPSTNCheck->vdiff_open = Si3218x_ReadMADCScaled(pProslic,SI3218X_RAM_VDIFF_COARSE,0);
- DEBUG_PRINT(pProslic, "%sDiff PSTN : Vopen = %d mV\n", LOGPRINT_PREFIX,
- pPSTNCheck->vdiff_open);
-
- /* Stop PSTN check if differential voltage > max_femf_vopen present */
- if(abs_int32(pPSTNCheck->vdiff_open) > pPSTNCheck->max_femf_vopen)
- {
- pPSTNCheck->pState.stage = 70;
- pPSTNCheck->return_status = RC_PSTN_OPEN_FEMF;
- }
- else
- {
- pPSTNCheck->pState.stage = 10;
- }
- return 0;
-
- case 10:
- /* Load first DC feed preset */
- ProSLIC_DCFeedSetup(pProslic,pPSTNCheck->dcfPreset1);
- ProSLIC_SetLinefeedStatus(pProslic,LF_FWD_ACTIVE);
- pPSTNCheck->pState.stage++;
- return RC_NONE;
-
- case 11:
- /* Settle */
- ProSLIC_PSTN_delay_poll(&(pPSTNCheck->pState), PSTN_DET_DIFF_IV1_SETTLE);
- return RC_NONE;
-
- case 12:
- /* Measure VDIFF and ILOOP, switch to 2nd DCFEED setup */
- pPSTNCheck->vdiff1[pPSTNCheck->pState.sampleIterations] =
- Si3218x_ReadMADCScaled(pProslic,SI3218X_RAM_VDIFF_FILT,0);
- pPSTNCheck->iloop1[pPSTNCheck->pState.sampleIterations] =
- Si3218x_ReadMADCScaled(pProslic,SI3218X_RAM_MADC_ILOOP,0);
-#ifdef ENABLE_DEBUG
- if ( DEBUG_ENABLED(pProslic) )
- {
- LOGPRINT("%sDiff PSTN: Vdiff1[%d] = %d mV\n", LOGPRINT_PREFIX,
- pPSTNCheck->pState.sampleIterations,
- pPSTNCheck->vdiff1[pPSTNCheck->pState.sampleIterations]);
- LOGPRINT("%sDiff PSTN: Iloop1[%d] = %d uA\n", LOGPRINT_PREFIX,
- pPSTNCheck->pState.sampleIterations,
- pPSTNCheck->iloop1[pPSTNCheck->pState.sampleIterations]);
- }
-#endif
- pPSTNCheck->pState.sampleIterations++;
- if(pPSTNCheck->pState.sampleIterations >= pPSTNCheck->samples)
- {
- ProSLIC_DCFeedSetup(pProslic,pPSTNCheck->dcfPreset2);
- pPSTNCheck->pState.stage++;
- pPSTNCheck->pState.sampleIterations = 0;
- }
- return RC_NONE;
-
- case 13:
- /* Settle feed 500ms */
- ProSLIC_PSTN_delay_poll(&(pPSTNCheck->pState), PSTN_DET_DIFF_IV2_SETTLE);
- return RC_NONE;
-
- case 14:
- /* Measure VDIFF and ILOOP*/
- pPSTNCheck->vdiff2[pPSTNCheck->pState.sampleIterations] =
- Si3218x_ReadMADCScaled(pProslic,SI3218X_RAM_VDIFF_FILT,0);
- pPSTNCheck->iloop2[pPSTNCheck->pState.sampleIterations] =
- Si3218x_ReadMADCScaled(pProslic,SI3218X_RAM_MADC_ILOOP,0);
-#ifdef ENABLE_DEBUG
- if ( DEBUG_ENABLED(pProslic) )
- {
- LOGPRINT("%sDiff PSTN: Vdiff2[%d] = %d mV\n", LOGPRINT_PREFIX,
- pPSTNCheck->pState.sampleIterations,
- pPSTNCheck->vdiff2[pPSTNCheck->pState.sampleIterations]);
- LOGPRINT("%sDiff PSTN: Iloop2[%d] = %d uA\n", LOGPRINT_PREFIX,
- pPSTNCheck->pState.sampleIterations,
- pPSTNCheck->iloop2[pPSTNCheck->pState.sampleIterations]);
- }
-#endif
- pPSTNCheck->pState.sampleIterations++;
- if(pPSTNCheck->pState.sampleIterations >= pPSTNCheck->samples)
- {
- /* Compute averages */
- for (i=0; i<pPSTNCheck->samples; i++)
- {
- pPSTNCheck->vdiff1_avg += pPSTNCheck->vdiff1[i];
- pPSTNCheck->iloop1_avg += pPSTNCheck->iloop1[i];
- pPSTNCheck->vdiff2_avg += pPSTNCheck->vdiff2[i];
- pPSTNCheck->iloop2_avg += pPSTNCheck->iloop2[i];
- }
-
- pPSTNCheck->vdiff1_avg /= pPSTNCheck->samples;
- pPSTNCheck->iloop1_avg /= pPSTNCheck->samples;
- pPSTNCheck->vdiff2_avg /= pPSTNCheck->samples;
- pPSTNCheck->iloop2_avg /= pPSTNCheck->samples;
-
- /* Force small (probably offset) currents to minimum value */
- if(abs_int32(pPSTNCheck->iloop1_avg) < PSTN_DET_MIN_ILOOP)
- {
- pPSTNCheck->iloop1_avg = PSTN_DET_MIN_ILOOP;
- }
- if(abs_int32(pPSTNCheck->iloop2_avg) < PSTN_DET_MIN_ILOOP)
- {
- pPSTNCheck->iloop2_avg = PSTN_DET_MIN_ILOOP;
- }
-
- /* Calculate measured loop impedance */
- pPSTNCheck->rl1 = abs_int32((
- pPSTNCheck->vdiff1_avg*1000L)/pPSTNCheck->iloop1_avg);
- pPSTNCheck->rl2 = abs_int32((
- pPSTNCheck->vdiff2_avg*1000L)/pPSTNCheck->iloop2_avg);
-
- /* Force non-zero loop resistance */
- if(pPSTNCheck->rl1 == 0)
- {
- pPSTNCheck->rl1 = 1;
- }
- if(pPSTNCheck->rl2 == 0)
- {
- pPSTNCheck->rl2 = 1;
- }
-
- /* Qualify loop impedances */
- pPSTNCheck->rl_ratio = (pPSTNCheck->rl1*1000L)/pPSTNCheck->rl2;
-#ifdef ENABLE_DEBUG
- if ( DEBUG_ENABLED(pProslic) )
- {
- const char fmt_string[] = "%sDiffPSTN: %s = %d %s\n";
- LOGPRINT(fmt_string, LOGPRINT_PREFIX, "VDIFF1", pPSTNCheck->vdiff1_avg, "mV");
- LOGPRINT(fmt_string, LOGPRINT_PREFIX, "ILOOP1",pPSTNCheck->iloop1_avg, "uA");
- LOGPRINT(fmt_string, LOGPRINT_PREFIX, "VDIFF2",pPSTNCheck->vdiff2_avg, "mV");
- LOGPRINT(fmt_string, LOGPRINT_PREFIX, "ILOOP2",pPSTNCheck->iloop2_avg, "uA");
- LOGPRINT(fmt_string, LOGPRINT_PREFIX, "RL1",pPSTNCheck->rl1, "ohm");
- LOGPRINT(fmt_string, LOGPRINT_PREFIX, "RL2",pPSTNCheck->rl2, "ohm");
- LOGPRINT(fmt_string, LOGPRINT_PREFIX, "RL_Ratio",pPSTNCheck->rl_ratio, " ");
- }
-#endif
-
- /* Restore */
- pPSTNCheck->pState.sampleIterations = 0;
- pPSTNCheck->pState.stage = 70;
- }
- return RC_NONE;
-
- case 70: /* Reset test state, restore entry conditions */
- ProSLIC_DCFeedSetup(pProslic,pPSTNCheck->entryDCFeedPreset);
- ProSLIC_SetLinefeedStatus(pProslic,pPSTNCheck->lfstate_entry);
- WriteReg(pProHW,pProslic->channel,PROSLIC_REG_ENHANCE, pPSTNCheck->enhanceRegSave);
- pPSTNCheck->pState.stage = 0;
- pPSTNCheck->pState.waitIterations = 0;
- pPSTNCheck->pState.sampleIterations = 0;
- return pPSTNCheck->return_status;
-
- }
- return RC_NONE;
-}
-
-#endif
-
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/src/si_voice.c b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/src/si_voice.c
deleted file mode 100644
index c30ee2c..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/src/si_voice.c
+++ /dev/null
@@ -1,563 +0,0 @@
-// SPDX-License-Identifier: GPL-2.0
-/*
- * Author(s):
- * laj
- *
- * Distributed by:
- * Silicon Laboratories, Inc
- *
- * This file contains proprietary information.
- * No dissemination allowed without prior written permission from
- * Silicon Laboratories, Inc.
- *
- * File Description:
- * This file contains common (ProSIC + DAA) functions.
- *
- */
-
-#include "../config_inc/si_voice_datatypes.h"
-#include "../inc/si_voice.h"
-#include "../config_inc/proslic_api_config.h"
-
-#ifdef ENABLE_DEBUG
-#define LOGPRINT_PREFIX "SiVoice: "
-#endif
-
-#ifdef SI3217X
-#include "si3217x.h"
-#include "si3217x_intf.h"
-#endif
-
-#ifdef SI3218X
-#include "../inc/si3218x.h"
-#include "../inc/si3218x_intf.h"
-#endif
-
-#ifdef SI3219X
-#include "si3219x.h"
-#include "si3219x_intf.h"
-#endif
-
-#ifdef SI3226X
-#include "si3226x.h"
-#include "si3226x_intf.h"
-#endif
-
-#ifdef SI3228X
-#include "si3228x.h"
-#include "si3228x_intf.h"
-#endif
-
-#define pCtrl(X) (X)->deviceId->ctrlInterface
-#define pProHW(X) pCtrl((X))->hCtrl
-#define ReadReg(PCHAN, CHANNEL, REGADDR) (PCHAN)->deviceId->ctrlInterface->ReadRegister_fptr(pProHW(PCHAN), (CHANNEL), (REGADDR))
-#define WriteReg(PCHAN, CHANNEL, REGADDR, REGDATA) (PCHAN)->deviceId->ctrlInterface->WriteRegister_fptr(pProHW(PCHAN), (CHANNEL), (REGADDR), (REGDATA))
-
-/*
-** Control object constructor/destructor
-*/
-int SiVoice_createControlInterfaces (SiVoiceControlInterfaceType **pCtrlIntf,
- uInt32 interface_count)
-{
- TRACEPRINT_NOCHAN("count = %lu\n", (unsigned long)interface_count);
-#ifndef DISABLE_MALLOC
- *pCtrlIntf = SIVOICE_CALLOC(sizeof(SiVoiceControlInterfaceType),
- interface_count);
- if(*pCtrlIntf == NULL)
- {
-#ifdef ENABLE_DEBUG
- LOGPRINT("%s%s: failed to allocate memory", LOGPRINT_PREFIX, __FUNCTION__);
-#endif
- return RC_NO_MEM;
- }
-
- return RC_NONE;
-#else
- SILABS_UNREFERENCED_PARAMETER(pCtrlIntf);
- SILABS_UNREFERENCED_PARAMETER(interface_count);
- return RC_UNSUPPORTED_FEATURE;
-#endif
-}
-
-int SiVoice_destroyControlInterfaces ( SiVoiceControlInterfaceType **pCtrlIntf )
-{
-
- TRACEPRINT_NOCHAN("\n",NULL);
-#ifndef DISABLE_MALLOC
- if( pCtrlIntf && *pCtrlIntf)
- {
- SIVOICE_FREE ((SiVoiceControlInterfaceType *)*pCtrlIntf);
- *pCtrlIntf = NULL;
- }
- return RC_NONE;
-#else
- SILABS_UNREFERENCED_PARAMETER(pCtrlIntf);
- return RC_UNSUPPORTED_FEATURE;
-#endif
-}
-
-/*
-** Device object constructor/destructor
-*/
-int SiVoice_createDevices (SiVoiceDeviceType **pDevice, uInt32 device_count)
-{
-
- TRACEPRINT_NOCHAN("\n",NULL);
-#ifndef DISABLE_MALLOC
- *pDevice = SIVOICE_CALLOC (sizeof(SiVoiceDeviceType), device_count);
-
- if(*pDevice == NULL)
- {
-#ifdef ENABLE_DEBUG
- LOGPRINT("%s%s: failed to allocate memory", LOGPRINT_PREFIX, __FUNCTION__);
-#endif
- return RC_NO_MEM;
- }
- return RC_NONE;
-#else
- SILABS_UNREFERENCED_PARAMETER(pDevice);
- SILABS_UNREFERENCED_PARAMETER(device_count);
- return RC_UNSUPPORTED_FEATURE;
-#endif
-}
-
-int SiVoice_destroyDevices (SiVoiceDeviceType **pDevice)
-{
-
- TRACEPRINT_NOCHAN("\n", NULL);
-#ifndef DISABLE_MALLOC
- if(pDevice && *pDevice)
- {
- SIVOICE_FREE ((SiVoiceDeviceType *)*pDevice);
- *pDevice = NULL;
- }
- return RC_NONE;
-#else
- SILABS_UNREFERENCED_PARAMETER(pDevice);
- return RC_UNSUPPORTED_FEATURE;
-#endif
-}
-
-/*
-** Channel object constructor/destructor
-*/
-int SiVoice_createChannels (SiVoiceChanType_ptr *pChan, uInt32 channel_count)
-{
-
- TRACEPRINT_NOCHAN("count = %lu\n", (unsigned long) channel_count);
-#ifndef DISABLE_MALLOC
- *pChan = SIVOICE_CALLOC(sizeof(SiVoiceChanType),channel_count);
- if(*pChan == NULL)
- {
-#ifdef ENABLE_DEBUG
- LOGPRINT("%s%s: failed to allocate memory", LOGPRINT_PREFIX, __FUNCTION__);
-#endif
- return RC_NO_MEM;
- }
- return RC_NONE;
-#else
- SILABS_UNREFERENCED_PARAMETER(pChan);
- SILABS_UNREFERENCED_PARAMETER(channel_count);
- return RC_UNSUPPORTED_FEATURE;
-#endif
-}
-
-int SiVoice_destroyChannels (SiVoiceChanType_ptr *hProslic)
-{
-
- TRACEPRINT_NOCHAN("\n",NULL);
-#ifndef DISABLE_MALLOC
- if(hProslic && *hProslic)
- {
- SIVOICE_FREE ((SiVoiceChanType_ptr)*hProslic);
- *hProslic = NULL;
- }
- return RC_NONE;
-#else
- SILABS_UNREFERENCED_PARAMETER(hProslic);
- return RC_UNSUPPORTED_FEATURE;
-#endif
-}
-
-/*
-** Host control linkage
-*/
-int SiVoice_setControlInterfaceCtrlObj (SiVoiceControlInterfaceType *pCtrlIntf,
- void *hCtrl)
-{
- TRACEPRINT_NOCHAN("\n",NULL);
- pCtrlIntf->hCtrl = hCtrl;
- return RC_NONE;
-}
-
-/*
-** Host reset linkage
-*/
-int SiVoice_setControlInterfaceReset (SiVoiceControlInterfaceType *pCtrlIntf,
- ctrl_Reset_fptr Reset_fptr)
-{
- TRACEPRINT_NOCHAN("\n",NULL);
- pCtrlIntf->Reset_fptr = Reset_fptr;
- return RC_NONE;
-}
-
-/*
-** Host register/RAM read/write linkage
-*/
-int SiVoice_setControlInterfaceWriteRegister (SiVoiceControlInterfaceType
- *pCtrlIntf, ctrl_WriteRegister_fptr WriteRegister_fptr)
-{
- TRACEPRINT_NOCHAN("\n",NULL);
- pCtrlIntf->WriteRegister_fptr = WriteRegister_fptr;
- return RC_NONE;
-}
-
-int SiVoice_setControlInterfaceReadRegister (SiVoiceControlInterfaceType
- *pCtrlIntf, ctrl_ReadRegister_fptr ReadRegister_fptr)
-{
- TRACEPRINT_NOCHAN("\n",NULL);
- pCtrlIntf->ReadRegister_fptr = ReadRegister_fptr;
- return RC_NONE;
-}
-
-int SiVoice_setControlInterfaceWriteRAM (SiVoiceControlInterfaceType *pCtrlIntf,
- ctrl_WriteRAM_fptr WriteRAM_fptr)
-{
- TRACEPRINT_NOCHAN("\n",NULL);
- pCtrlIntf->WriteRAM_fptr = WriteRAM_fptr;
- return RC_NONE;
-}
-
-int SiVoice_setControlInterfaceReadRAM (SiVoiceControlInterfaceType *pCtrlIntf,
- ctrl_ReadRAM_fptr ReadRAM_fptr)
-{
- TRACEPRINT_NOCHAN("\n",NULL);
- pCtrlIntf->ReadRAM_fptr = ReadRAM_fptr;
- return RC_NONE;
-}
-
-/*
-** Host timer linkage
-*/
-int SiVoice_setControlInterfaceTimerObj (SiVoiceControlInterfaceType *pCtrlIntf,
- void *hTimer)
-{
- TRACEPRINT_NOCHAN("\n",NULL);
- pCtrlIntf->hTimer = hTimer;
- return RC_NONE;
-}
-
-int SiVoice_setControlInterfaceDelay (SiVoiceControlInterfaceType *pCtrlIntf,
- system_delay_fptr Delay_fptr)
-{
- TRACEPRINT_NOCHAN("\n",NULL);
- pCtrlIntf->Delay_fptr = Delay_fptr;
- return RC_NONE;
-}
-
-int SiVoice_setControlInterfaceSemaphore (SiVoiceControlInterfaceType
- *pCtrlIntf, ctrl_Semaphore_fptr semaphore_fptr)
-{
- TRACEPRINT_NOCHAN("\n",NULL);
- pCtrlIntf->Semaphore_fptr = semaphore_fptr;
- return RC_NONE;
-}
-
-int SiVoice_setControlInterfaceTimeElapsed (SiVoiceControlInterfaceType
- *pCtrlIntf, system_timeElapsed_fptr timeElapsed_fptr)
-{
- TRACEPRINT_NOCHAN("\n",NULL);
- pCtrlIntf->timeElapsed_fptr = timeElapsed_fptr;
- return RC_NONE;
-}
-
-int SiVoice_setControlInterfaceGetTime (SiVoiceControlInterfaceType *pCtrlIntf,
- system_getTime_fptr getTime_fptr)
-{
- TRACEPRINT_NOCHAN("\n",NULL);
- pCtrlIntf->getTime_fptr = getTime_fptr;
- return RC_NONE;
-}
-
-/*
-** Channel object initialization
-*/
-int SiVoice_SWInitChan (SiVoiceChanType_ptr pChan,int channel,int chipType,
- SiVoiceDeviceType *pDeviceObj, SiVoiceControlInterfaceType *pCtrlIntf)
-{
- TRACEPRINT_NOCHAN( "channel = %d chipType = %d\n", channel, chipType);
- pChan->channel = (uInt8)channel;
- pChan->deviceId = pDeviceObj;
- pChan->deviceId->ctrlInterface = pCtrlIntf;
- pChan->channelEnable=1;
- pChan->error = RC_NONE;
- pChan->debugMode = 0;
- pChan->dcdc_polarity_invert = 0;
-#ifdef PROSLIC_BOM_DEFAULT
- pChan->bomOption = PROSLIC_BOM_DEFAULT;
-#else
- pChan->bomOption = 0;
-#endif
-
- switch (chipType)
- {
- case SI3217X_TYPE:
- pChan->deviceId->chipType = SI32171;
- break;
-
- case SI3218X_TYPE:
- pChan->deviceId->chipType = SI32180;
- break;
-
- case SI3219X_TYPE:
- pChan->deviceId->chipType = SI32190;
- break;
-
- case SI3226X_TYPE:
- pChan->deviceId->chipType = SI32260;
- break;
-
- case SI3228X_TYPE:
- pChan->deviceId->chipType = SI32280;
- break;
-
- case SI3050_TYPE:
- pChan->deviceId->chipType = SI3050;
- break;
-
- default:
- return RC_UNSUPPORTED_FEATURE;
- }
- return RC_NONE;
-}
-
-/*
-** Reset control
-*/
-int SiVoice_Reset (SiVoiceChanType_ptr pChan)
-{
- TRACEPRINT_NOCHAN( "\n", NULL);
- /*
- ** assert reset, wait 250ms, release reset, wait 250ms
- */
- pChan->deviceId->ctrlInterface->Reset_fptr(
- pChan->deviceId->ctrlInterface->hCtrl,1);
-
- pChan->deviceId->ctrlInterface->Delay_fptr(
- pChan->deviceId->ctrlInterface->hTimer,250);
-
- pChan->deviceId->ctrlInterface->Reset_fptr(
- pChan->deviceId->ctrlInterface->hCtrl,0);
-
- pChan->deviceId->ctrlInterface->Delay_fptr(
- pChan->deviceId->ctrlInterface->hTimer,250);
-
- return RC_NONE;
-}
-
-/*
-** Debug Mode Control
-*/
-int SiVoice_setSWDebugMode (SiVoiceChanType_ptr pChan, int debugEn)
-{
-#ifdef ENABLE_DEBUG
- TRACEPRINT_NOCHAN( "debugEn %d\n", debugEn);
- pChan->debugMode = (0xFE & pChan->debugMode) | (debugEn != 0);
-#else
- SILABS_UNREFERENCED_PARAMETER(pChan);
- SILABS_UNREFERENCED_PARAMETER(debugEn);
-#endif
- return RC_NONE;
-}
-
-/*
-** Trace Mode Control
-*/
-int SiVoice_setTraceMode (SiVoiceChanType_ptr pChan, int traceEn)
-{
-#ifdef ENABLE_TRACES
- TRACEPRINT_NOCHAN( "debugEn %d\n", traceEn);
- pChan->debugMode = (0xFD & pChan->debugMode) | ((traceEn != 0)<<1);
-#else
- SILABS_UNREFERENCED_PARAMETER(pChan);
- SILABS_UNREFERENCED_PARAMETER(traceEn);
-#endif
- return RC_NONE;
-}
-
-/*
-** Error status
-*/
-int SiVoice_getErrorFlag (SiVoiceChanType_ptr pChan, int *error)
-{
- TRACEPRINT( pChan, "\n", NULL);
- *error = pChan->error;
- return RC_NONE;
-}
-
-int SiVoice_clearErrorFlag (SiVoiceChanType_ptr pChan)
-{
- TRACEPRINT( pChan, "\n", NULL);
- pChan->error = RC_NONE;
- return RC_NONE;
-}
-
-/*
-** Channel status
-*/
-int SiVoice_setChannelEnable (SiVoiceChanType_ptr pChan, int chanEn)
-{
- TRACEPRINT( pChan, "enable = %d\n", chanEn);
- pChan->channelEnable = chanEn;
- return RC_NONE;
-}
-
-int SiVoice_getChannelEnable (SiVoiceChanType_ptr pChan, int *chanEn)
-{
- TRACEPRINT( pChan, "\n", NULL);
- *chanEn = pChan->channelEnable;
- return RC_NONE;
-}
-
-uInt8 SiVoice_ReadReg(SiVoiceChanType_ptr hProslic,uInt8 addr)
-{
- TRACEPRINT( hProslic, "addr = %u\n", (unsigned int)addr);
- return ReadReg(hProslic, hProslic->channel, addr);
-}
-
-int SiVoice_WriteReg(SiVoiceChanType_ptr hProslic,uInt8 addr,uInt8 data)
-{
- TRACEPRINT( hProslic, "addr = %u data = 0x%02X\n", (unsigned int)addr,
- (unsigned int) data);
- return WriteReg(hProslic, hProslic->channel, addr, data);
-}
-
-/*****************************************************************************************************/
-#if defined(SI3217X) || defined(SI3218X) || defined(SI3219X) || defined(SI3226X) || defined(SI3228X)
-#include "../inc/proslic.h"
-
-/* Iterate through the number of channels to determine if it's a SLIC, DAA, or unknown. Rev ID and chiptype is
- * also filled in.
- */
-int SiVoice_IdentifyChannels(SiVoiceChanType_ptr *pProslic, int size,
- int *slicCount, int *daaCount)
-{
- int i;
- int rc = RC_NONE;
- SiVoiceChanType_ptr currentChannel;
-
- TRACEPRINT( *pProslic, "size = %d\n", size);
-
- if(slicCount)
- {
- *slicCount = 0;
- }
- if(daaCount)
- {
- *daaCount = 0;
- }
-
- for(i = 0; i < size; i++)
- {
- currentChannel = pProslic[i];
- /* SiVoice_SWInitChan() fills in the chipType initially with something the user provided, fill it
- * in with the correct info.. The GetChipInfo may probe registers to compare them with their
- * initial values, so this function MUST only be called after a chipset reset.
- */
-#ifdef SI3217X
- if (currentChannel->deviceId->chipType >= SI32171
- && currentChannel->deviceId->chipType <= SI32179)
- {
- rc = Si3217x_GetChipInfo(currentChannel);
- }
-#endif
-
-#ifdef SI3218X
- if (currentChannel->deviceId->chipType >= SI32180
- && currentChannel->deviceId->chipType <= SI32189)
- {
- rc = Si3218x_GetChipInfo(currentChannel);
- }
-#endif
-
-#ifdef SI3219X
- if ( IS_SI3219X(currentChannel->deviceId) )
- {
- rc = Si3219x_GetChipInfo(currentChannel);
- }
-#endif
-
-#ifdef SI3226X
- if (currentChannel->deviceId->chipType >= SI32260
- && currentChannel->deviceId->chipType <= SI32269)
- {
- rc = Si3226x_GetChipInfo(currentChannel);
- }
-#endif
-
-#ifdef SI3228X
- if (currentChannel->deviceId->chipType >= SI32280
- && currentChannel->deviceId->chipType <= SI32289)
- {
- rc = Si3228x_GetChipInfo(currentChannel);
- }
-#endif
-
- if(rc != RC_NONE)
- {
- return rc;
- }
-
- currentChannel->channelType = ProSLIC_identifyChannelType(currentChannel);
- if(currentChannel->channelType == PROSLIC)
- {
- if(slicCount)
- {
- (*slicCount)++;
- }
- }
- else if(currentChannel->channelType == DAA)
- {
- if(daaCount)
- {
- (*daaCount)++;
- }
- }
-#ifdef ENABLE_DEBUG
- {
- const char *dev_type = "UNKNOWN";
- if(currentChannel->channelType == PROSLIC)
- {
- dev_type = "PROSLIC";
- }
- else if(currentChannel->channelType == DAA)
- {
- dev_type = "DAA";
- }
- LOGPRINT("%sChannel %d: Type = %s Rev = %d\n",
- LOGPRINT_PREFIX, currentChannel->channel, dev_type,
- currentChannel->deviceId->chipRev);
-
- }
-#endif /* ENABLE_DEBUG */
- }
- return RC_NONE;
-}
-#endif
-
-/*
-** Function: ProSLIC_Version
-**
-** Description:
-** Return API version
-**
-** Returns:
-** string of the API release.
-*/
-
-extern const char *SiVoiceAPIVersion;
-char *SiVoice_Version()
-{
- return (char *)SiVoiceAPIVersion;
-}
-
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/src/si_voice_version.c b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/src/si_voice_version.c
deleted file mode 100644
index 5d4aaaa..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/src/si_voice_version.c
+++ /dev/null
@@ -1,21 +0,0 @@
-// SPDX-License-Identifier: GPL-2.0
-/*
- * file: si_voice_version.c
- *
- * Distributed by:
- * Silicon Laboratories, Inc
- *
- * This file contains proprietary information.
- * No dissemination allowed without prior written permission from
- * Silicon Laboratories, Inc.
- *
- * THIS FILE IS AUTOGENERATED - DO NOT MODIFY
- *
- */
-
-
-
-char *SiVoiceAPIVersion = "9.2.0";
-
-
-
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/src/vdaa.c b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/src/vdaa.c
deleted file mode 100644
index 9a73c44..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/src/vdaa.c
+++ /dev/null
@@ -1,1350 +0,0 @@
-// SPDX-License-Identifier: GPL-2.0
-/*
- * Vdaa VoiceDAA interface implementation file
- *
- * Distributed by:
- * Silicon Laboratories, Inc
- *
- * This file contains proprietary information.
- * No dissemination allowed without prior written permission from
- * Silicon Laboratories, Inc.
- *
- * File Description:
- * This is the implementation file for the main VoiceDAA API.
- *
- */
-
-#include "../config_inc/si_voice_datatypes.h"
-#include "../inc/si_voice_ctrl.h"
-#include "../inc/si_voice_timer_intf.h"
-#include "../inc/vdaa.h"
-#include "../inc/vdaa_registers.h"
-#include "../config_inc/vdaa_api_config.h"
-
-#define WriteReg pVdaa->deviceId->ctrlInterface->WriteRegister_fptr
-#define ReadReg pVdaa->deviceId->ctrlInterface->ReadRegister_fptr
-#define pVdaaHW pVdaa->deviceId->ctrlInterface->hCtrl
-
-#define WriteRegX deviceId->ctrlInterface->WriteRegister_fptr
-#define ReadRegX deviceId->ctrlInterface->ReadRegister_fptr
-#define pVdaaHWX deviceId->ctrlInterface->hCtrl
-#define LOGPRINT_PREFIX "VDAA: "
-
-/*
-** Static VDAA driver functions
-*/
-
-/*
-** Function: isVerifiedDAA
-**
-** Description:
-** Verifies addressed channel is DAA
-**
-** Input Parameters:
-** pVdaa: pointer to SiVoiceChanType or vdaaChanType
-**
-** Return:
-** Verified DAA
-** Not DAA RC_CHANNEL_TYPE_ERR
-**
-*/
-
-static int isVerifiedDAA(vdaaChanType *pVdaa)
-{
- uInt8 data = ReadReg(pVdaaHW,pVdaa->channel,LSIDE_REV);
- if ( (data & 0x40) == 0 ) /*This bit is always 1 for DAA*/
- {
- LOGPRINT("%sDAA device not detected\n",LOGPRINT_PREFIX);
- return RC_CHANNEL_TYPE_ERR;
- }
- else
- {
- /* For Si3050, the value will be zero initially (calloc), for Si32178/9, this will
- * be non-zero (Rev B).
- */
- if(pVdaa->deviceId->chipRev == 0)
- {
- /* Read Device ID and store it */
- /* NOTE: in earlier releases we also read the line side info here. This is now done
- Vdaa_duringPowerUpLineside since the information we read was always 0.
- */
- data = pVdaa->ReadRegX(pVdaa->pVdaaHWX,pVdaa->channel,SYS_LINE_DEV_REV);
- pVdaa->deviceId->chipRev= data&0xF;
-#ifdef ENABLE_DEBUG
- LOGPRINT("%sChipRev = 0x%x\n", LOGPRINT_PREFIX, pVdaa->deviceId->chipRev);
-#endif
- }
- }
-
- return RC_NONE;
-}
-
-#if 0 /* Removed for now since it isn't used, keeping code as reference */
-/*
-** Function: probeDaisyChain
-**
-** Description:
-** Identify how many VDAA devices are in daisychain
-** Only called if channel 0 has be previously qualified
-** as a VDAA.
-**
-** Input Parameters:
-** pVdaa: pointer to SiVoiceChanType or vdaaChanType
-**
-** Return:
-** number of channels in daisy chain
-**
-*/
-
-static int probeDaisyChain (vdaaChanType *pVdaa)
-{
- int i=0;
- WriteReg(pVdaaHW,BROADCAST,PCMRX_CNT_LO,0x23); /* Broadcast */
- while ((ReadReg(pVdaaHW,(uInt8)i++,PCMRX_CNT_LO) == 0x23)
- &&(i<=16)); /* Count number of channels */
- return i-1; /* Return number of channels */
-}
-#endif
-
-/*
-**
-** ------ VDAA CONFIGURATION FUNCTIONS -----
-**
-*/
-
-/*
-** Function: Vdaa_RingDetectSetup
-**
-** Description:
-** configure ring detect setup
-**
-** Returns:
-**
-*/
-
-#ifndef DISABLE_VDAA_RING_DETECT_SETUP
-extern vdaa_Ring_Detect_Cfg Vdaa_Ring_Detect_Presets[];
-int Vdaa_RingDetectSetup (vdaaChanType *pVdaa,int32 preset)
-{
-
- uInt8 regTemp = 0;
- TRACEPRINT( pVdaa, "preset = %d\n", (unsigned int) preset);
- if(pVdaa->channelType != DAA)
- {
- return RC_IGNORE;
- }
-
- regTemp = ReadReg(pVdaaHW,pVdaa->channel,CTRL2) & 0xfB;
- regTemp |= Vdaa_Ring_Detect_Presets[preset].rdi<<2;
- WriteReg(pVdaaHW,pVdaa->channel,CTRL2,regTemp);
-
- regTemp = ReadReg(pVdaaHW,pVdaa->channel,INTL_CTRL1) & 0xfe;
- regTemp |= Vdaa_Ring_Detect_Presets[preset].rt&1;
- WriteReg(pVdaaHW,pVdaa->channel,INTL_CTRL1,regTemp);
-
- regTemp = ReadReg(pVdaaHW,pVdaa->channel,INTL_CTRL2) & 0xef;
- regTemp |= ((Vdaa_Ring_Detect_Presets[preset].rt>>1)<<4);
- WriteReg(pVdaaHW,pVdaa->channel,INTL_CTRL2,regTemp);
-
- WriteReg(pVdaaHW,pVdaa->channel,INTL_CTRL3,
- Vdaa_Ring_Detect_Presets[preset].rfwe<<1);
-
- regTemp = (Vdaa_Ring_Detect_Presets[preset].rdly&0x3) << 6;
- regTemp |= Vdaa_Ring_Detect_Presets[preset].rmx ;
- WriteReg(pVdaaHW,pVdaa->channel,RNG_VLD_CTRL1,regTemp);
-
- regTemp = (Vdaa_Ring_Detect_Presets[preset].rdly>>2) << 7;
- regTemp |= Vdaa_Ring_Detect_Presets[preset].rto << 3 ;
- regTemp |= Vdaa_Ring_Detect_Presets[preset].rcc ;
- WriteReg(pVdaaHW,pVdaa->channel,RNG_VLD_CTRL2,regTemp);
-
- regTemp = Vdaa_Ring_Detect_Presets[preset].rngv << 7;
- regTemp |= Vdaa_Ring_Detect_Presets[preset].ras ;
- WriteReg(pVdaaHW,pVdaa->channel,RNG_VLD_CTRL3,regTemp);
-
- regTemp = Vdaa_Ring_Detect_Presets[preset].rpol<<1;
- WriteReg(pVdaaHW,pVdaa->channel,DAA_CTRL4,regTemp);
-
- return RC_NONE;
-}
-#endif
-
-/*
-** Function: Vdaa_TXAudioGainSetup
-**
-** Description:
-** configure tx audio gain
-**
-** Returns:
-**
-**
-*/
-#ifndef DISABLE_VDAA_AUDIO_GAIN_SETUP
-extern vdaa_audioGain_Cfg Vdaa_audioGain_Presets[];
-
-int Vdaa_TXAudioGainSetup (vdaaChanType *pVdaa,int32 preset)
-{
- uInt8 regTemp = 0;
- TRACEPRINT( pVdaa, "preset = %d\n", (unsigned int) preset);
-
- if(pVdaa->channelType != DAA)
- {
- return RC_IGNORE;
- }
-
- if(Vdaa_audioGain_Presets[preset].xga2 == XGA_ATTEN)
- {
- regTemp = 0x10;
- }
-
- regTemp |= Vdaa_audioGain_Presets[preset].acgain2 ;
- WriteReg(pVdaaHW,pVdaa->channel,TX_GN_CTRL2,regTemp);
-
- regTemp = 0;
- if(Vdaa_audioGain_Presets[preset].xga3 == XGA_ATTEN)
- {
- regTemp = 0x10 ;
- }
-
- regTemp |= Vdaa_audioGain_Presets[preset].acgain3 ;
- WriteReg(pVdaaHW,pVdaa->channel,TX_GN_CTRL3,regTemp);
-
- if(Vdaa_audioGain_Presets[preset].cpEn)
- {
- WriteReg(pVdaaHW,pVdaa->channel,TXCALL_PROG_ATTEN,
- Vdaa_audioGain_Presets[preset].callProgress);
- }
-
- return RC_NONE;
-}
-# endif
-
-
-/*
-** Function: Vdaa_RXAudioGainSetup
-**
-** Description:
-** configure rx audio gain
-**
-** Returns:
-**
-**
-*/
-#ifndef DISABLE_VDAA_AUDIO_GAIN_SETUP
-extern vdaa_audioGain_Cfg Vdaa_audioGain_Presets[];
-
-int Vdaa_RXAudioGainSetup (vdaaChanType *pVdaa,int32 preset)
-{
- uInt8 regTemp = 0;
-
- TRACEPRINT( pVdaa, "preset = %d\n", (unsigned int) preset);
- if(pVdaa->channelType != DAA)
- {
- return RC_IGNORE;
- }
-
- if(Vdaa_audioGain_Presets[preset].xga2 == XGA_ATTEN)
- {
- regTemp = 0x10;
- }
- regTemp |= Vdaa_audioGain_Presets[preset].acgain2 ;
- WriteReg(pVdaaHW,pVdaa->channel,RX_GN_CTRL2,regTemp);
-
- regTemp = 0;
- if(Vdaa_audioGain_Presets[preset].xga3 == XGA_ATTEN)
- {
- regTemp = 0x10;
- }
- regTemp |= Vdaa_audioGain_Presets[preset].acgain3 ;
- WriteReg(pVdaaHW,pVdaa->channel,RX_GN_CTRL3,regTemp);
-
- if(Vdaa_audioGain_Presets[preset].cpEn)
- {
- WriteReg(pVdaaHW,pVdaa->channel,RXCALL_PROG_ATTEN,
- Vdaa_audioGain_Presets[preset].callProgress);
- }
-
- return RC_NONE;
-}
-#endif
-
-
-/*
-** Function: Vdaa_PCMSetup
-**
-** Description:
-** configure pcm format, clocking and edge placement
-**
-** Returns:
-**
-**
-*/
-#ifndef DISABLE_VDAA_PCM_SETUP
-extern vdaa_PCM_Cfg Vdaa_PCM_Presets [];
-
-int Vdaa_PCMSetup (vdaaChanType *pVdaa,int32 preset)
-{
- uInt8 regTemp = 0;
-
- TRACEPRINT( pVdaa, "preset = %d\n", (unsigned int) preset);
- if(pVdaa->channelType != DAA)
- {
- return RC_IGNORE;
- }
-
- regTemp = ReadReg(pVdaaHW,pVdaa->channel,PCM_SPI_CTRL)&0xe0;
- regTemp |= Vdaa_PCM_Presets[preset].pcm_tri;
- regTemp |= Vdaa_PCM_Presets[preset].pcmHwy << 1;
- regTemp |= Vdaa_PCM_Presets[preset].pcmFormat << 3;
- WriteReg(pVdaaHW,pVdaa->channel,PCM_SPI_CTRL,regTemp);
-
- return RC_NONE;
-}
-#endif
-
-/*
-** Function: Vdaa_PCMTimeSlotSetup
-**
-** Description:
-** configure pcm timeslot
-**
-** Returns:
-**
-*/
-int Vdaa_PCMTimeSlotSetup (vdaaChanType *pVdaa, uInt16 rxcount, uInt16 txcount)
-{
- uInt8 data = 0;
- uInt8 pcmStatus;
-
- TRACEPRINT( pVdaa, "rxcount = %u txcount = %u\n", (unsigned int)rxcount,
- (unsigned int)txcount);
- if(pVdaa->channelType != DAA)
- {
- return RC_IGNORE;
- }
-
- /* Disable PCM if enabled - restore after updating timeslots */
- pcmStatus = ReadReg(pVdaaHW,pVdaa->channel,PCM_SPI_CTRL);
- if (pcmStatus&0x20)
- {
- WriteReg(pVdaaHW,pVdaa->channel,PCM_SPI_CTRL,pcmStatus&~(0x20));
- }
-
- /*Storing 10 bit value of Transmit PCM sample in REG 34 and REG 35[0:1]*/
- data = (uInt8)(txcount & 0xff);
- WriteReg(pVdaaHW,pVdaa->channel,PCMTX_CNT_LO,data);
- data = (uInt8)(txcount >> 8) ;
- WriteReg(pVdaaHW,pVdaa->channel,PCMTX_CNT_HI,data);
-
- /*Storing 10 bit value of Receive PCM sample in REG 34 and REG 35[0:1]*/
- data = (uInt8)(rxcount & 0xff);
- WriteReg(pVdaaHW,pVdaa->channel,PCMRX_CNT_LO,data);
- data = (uInt8)(rxcount >> 8);
- WriteReg(pVdaaHW,pVdaa->channel,PCMRX_CNT_HI,data);
-
- /* Enable back the PCM after storing the values*/
- WriteReg(pVdaaHW,pVdaa->channel,PCM_SPI_CTRL,pcmStatus);
-
- return RC_NONE;
-}
-
-/*
-** Function: Vdaa_CountrySetup
-**
-** Description:
-** configure country specific settings
-**
-** Returns:
-**
-**
-*/
-
-#ifndef DISABLE_VDAA_COUNTRY_SETUP
-extern vdaa_Country_Cfg Vdaa_Country_Presets [];
-
-int Vdaa_CountrySetup (vdaaChanType *pVdaa,int32 preset)
-{
- uInt8 regTemp = 0;
-
- TRACEPRINT( pVdaa, "preset = %d\n", (unsigned int) preset);
- if(pVdaa->channelType != DAA)
- {
- return RC_IGNORE;
- }
-
- regTemp = ReadReg(pVdaaHW,pVdaa->channel,CTRL2) & 0xFD;
- WriteReg(pVdaaHW,pVdaa->channel,CTRL2,regTemp); /* disable hybrid */
-
- regTemp = ReadReg(pVdaaHW,pVdaa->channel,INTL_CTRL1) & 0xFD;
- regTemp |= Vdaa_Country_Presets[preset].rz << 1 ;
- WriteReg(pVdaaHW,pVdaa->channel,INTL_CTRL1,regTemp);
-
- regTemp = Vdaa_Country_Presets[preset].dcr;
- regTemp |= Vdaa_Country_Presets[preset].ilim<<1;
- regTemp |= Vdaa_Country_Presets[preset].mini<<4;
- regTemp |= Vdaa_Country_Presets[preset].dcv<<6;
- WriteReg(pVdaaHW,pVdaa->channel,DC_TERM_CTRL,regTemp);
-
- regTemp = ReadReg(pVdaaHW,pVdaa->channel,AC_TERM_CTRL) & 0xF0;
- regTemp |= Vdaa_Country_Presets[preset].acim;
- WriteReg(pVdaaHW,pVdaa->channel,AC_TERM_CTRL,regTemp);
-
- regTemp = ReadReg(pVdaaHW,pVdaa->channel,SPRK_QNCH_CTRL) & 0xAF;
- regTemp |= ((Vdaa_Country_Presets[preset].ohs_sq >> 2)&1)<<4 ;
- regTemp |= ((Vdaa_Country_Presets[preset].ohs_sq >> 3)&1)<<6 ;
- WriteReg(pVdaaHW,pVdaa->channel,SPRK_QNCH_CTRL,regTemp);
-
- regTemp = ReadReg(pVdaaHW,pVdaa->channel,INTL_CTRL1) & 0xBF;
- regTemp |= ((Vdaa_Country_Presets[preset].ohs_sq >> 1)&1)<<6 ;
- WriteReg(pVdaaHW,pVdaa->channel,INTL_CTRL1,regTemp);
-
- regTemp = ReadReg(pVdaaHW,pVdaa->channel,DAA_CTRL5) & 0xE7;
- regTemp |= (Vdaa_Country_Presets[preset].ohs_sq&1)<<3 ;
- WriteReg(pVdaaHW,pVdaa->channel,DAA_CTRL5,regTemp);
-
- regTemp = ReadReg(pVdaaHW,pVdaa->channel,CTRL2) & 0xFD;
- regTemp |= (Vdaa_Country_Presets[preset].hbe)<<1 ;
- WriteReg(pVdaaHW,pVdaa->channel,CTRL2,regTemp);
-
- return RC_NONE;
-}
-#endif
-
-/*
-** Function: Vdaa_HybridSetup
-**
-** Description:
-** configure hybrid
-**
-*/
-
-#ifndef DISABLE_VDAA_HYBRID_SETUP
-extern vdaa_Hybrid_Cfg Vdaa_Hybrid_Presets [];
-
-int Vdaa_HybridSetup (vdaaChanType *pVdaa,int32 preset)
-{
- uInt8 regSave = 0;
-
- TRACEPRINT( pVdaa, "preset = %d\n", (unsigned int) preset);
- if(pVdaa->channelType != DAA)
- {
- return RC_IGNORE;
- }
-
- regSave = ReadReg(pVdaaHW,pVdaa->channel,CTRL2);
- WriteReg(pVdaaHW,pVdaa->channel,CTRL2,regSave&0xFD); /* disable hybrid */
-
- WriteReg(pVdaaHW,pVdaa->channel,HYB1,Vdaa_Hybrid_Presets[preset].hyb1);
- WriteReg(pVdaaHW,pVdaa->channel,HYB2,Vdaa_Hybrid_Presets[preset].hyb2);
- WriteReg(pVdaaHW,pVdaa->channel,HYB3,Vdaa_Hybrid_Presets[preset].hyb3);
- WriteReg(pVdaaHW,pVdaa->channel,HYB4,Vdaa_Hybrid_Presets[preset].hyb4);
- WriteReg(pVdaaHW,pVdaa->channel,HYB5,Vdaa_Hybrid_Presets[preset].hyb5);
- WriteReg(pVdaaHW,pVdaa->channel,HYB6,Vdaa_Hybrid_Presets[preset].hyb6);
- WriteReg(pVdaaHW,pVdaa->channel,HYB7,Vdaa_Hybrid_Presets[preset].hyb7);
- WriteReg(pVdaaHW,pVdaa->channel,HYB8,Vdaa_Hybrid_Presets[preset].hyb8);
-
- WriteReg(pVdaaHW,pVdaa->channel,CTRL2,
- regSave); /* Restore hybrid enable state at entry */
-
- return RC_NONE;
-}
-#endif
-
-/*
-** Function: Vdaa_SetAudioMute
-**
-** Description:
-** Control RX and TX mute
-**
-*/
-
-int Vdaa_SetAudioMute(vdaaChanType *pVdaa, tMUTE mute)
-{
- uInt8 regData;
-
- TRACEPRINT( pVdaa, "mode = %u\n", (unsigned int) mute);
- if(pVdaa->channelType != DAA)
- {
- return RC_IGNORE;
- }
-
- regData = ReadReg(pVdaaHW,pVdaa->channel,TXRX_GN_CTRL);
-
- switch(mute)
- {
- case MUTE_DISABLE_ALL:
- regData = 0;
- break;
-
- case MUTE_DISABLE_RX:
- regData &= 0x80;
- break;
-
- case MUTE_DISABLE_TX:
- regData &= 0x08;
- break;
-
- case MUTE_ENABLE_RX:
- regData |= 0x08;
- break;
-
- case MUTE_ENABLE_TX:
- regData |= 0x80;
- break;
-
- case MUTE_ENABLE_ALL:
- regData = 0x88;
- break;
- }
-
- WriteReg(pVdaaHW,pVdaa->channel,TXRX_GN_CTRL,regData);
-
- return RC_NONE;
-}
-
-/*
-** Function: Vdaa_PCMStart
-**
-** Description:
-** Enables PCM bus
-**
-*/
-
-int Vdaa_PCMStart (vdaaChanType *pVdaa)
-{
- uInt8 data = 0;
-
- TRACEPRINT( pVdaa, "\n", NULL);
- if(pVdaa->channelType != DAA)
- {
- return RC_IGNORE;
- }
-
- /*Enable PCM transfers by setting REG 33[5]=1 */
- data = ReadReg(pVdaaHW,pVdaa->channel,PCM_SPI_CTRL);
- data |= 0x20;
- WriteReg(pVdaaHW,pVdaa->channel,PCM_SPI_CTRL,data);
- return RC_NONE;
-}
-
-/*
-** Function: Vdaa_PCMStop
-**
-** Description:
-** Disables PCM bus
-**
-*/
-
-int Vdaa_PCMStop (vdaaChanType *pVdaa)
-{
- uInt8 data = 0;
-
- TRACEPRINT( pVdaa, "\n", NULL);
- if(pVdaa->channelType != DAA)
- {
- return RC_IGNORE;
- }
-
- /*disable PCM transfers by setting REG 33[5]=0 */
- data = ReadReg(pVdaaHW,pVdaa->channel,PCM_SPI_CTRL);
- data &= ~(0x20);
- WriteReg(pVdaaHW,pVdaa->channel,PCM_SPI_CTRL,data);
- return RC_NONE;
-}
-
-/*
-** Function: Vdaa_SetInterruptMask
-**
-** Description:
-** Enables interrupts based on passed 9-bit bitmask. Bit
-** values defined by vdaaIntMask enum.
-**
-*/
-
-int Vdaa_SetInterruptMask(vdaaChanType *pVdaa, vdaaIntMask bitmask)
-{
- uInt8 intMaskReg = 0;
- uInt8 cviReg = 0;
-
- TRACEPRINT( pVdaa, "mask = 0x%03x\n", (unsigned int)bitmask);
- /* Channel validation */
- if(pVdaa->channelType != DAA)
- {
- return RC_CHANNEL_TYPE_ERR;
- }
-
- intMaskReg = (uInt8)(bitmask & 0x00ff);
- cviReg = ReadReg(pVdaaHW,pVdaa->channel,LN_VI_THRESH_INTE_CTRL);
- cviReg |= (uInt8) ((bitmask >> 7) & 0x0002);
-
- WriteReg (pVdaaHW,pVdaa->channel,INTE_MSK,intMaskReg);
- WriteReg(pVdaaHW,pVdaa->channel,LN_VI_THRESH_INTE_CTRL,cviReg);
-
- return RC_NONE;
-}
-
-/*
-** Function: Vdaa_ReadRingDetectStatus
-**
-** Description:
-** Reads ring detect/hook status
-**
-** Returns:
-**
-**
-*/
-
-int Vdaa_ReadRingDetectStatus (vdaaChanType *pVdaa,
- vdaaRingDetectStatusType *pStatus)
-{
- uInt8 reg;
-
- TRACEPRINT( pVdaa, "\n", NULL);
- if(pVdaa->channelType != DAA)
- {
- return RC_IGNORE;
- }
-
- reg = ReadReg(pVdaaHW,pVdaa->channel,DAA_CTRL1);
- pStatus->offhook = reg & 0x01;
- pStatus->ringDetected = (reg & 0x4)>>2;
- pStatus->onhookLineMonitor = (reg & 0x8)>>3;
- pStatus->ringDetectedPos = (reg & 0x20)>>5;
- pStatus->ringDetectedNeg = (reg & 0x40)>>6;
- return RC_NONE;
-}
-
-/*
-** Function: Vdaa_Init
-**
-** Description:
-** Initialize VDAA, load general config parameters
-**
-*/
-
-extern vdaa_General_Cfg Vdaa_General_Configuration;
-
-int Vdaa_Init (vdaaChanType_ptr *pVdaa,int size)
-{
- uInt8 data;
- int k;
- int num_devices = 0;
-
- TRACEPRINT( *pVdaa, "size = %d\n", size);
-
- for (k=0; k<size; k++)
- {
-
- if(pVdaa[k]->channelType == PROSLIC)
- {
- continue; /* Skip if we know this is a ProSLIC, else check the device out */
- }
-
- if (isVerifiedDAA(pVdaa[k]) == RC_CHANNEL_TYPE_ERR)
- {
- pVdaa[k]->channelEnable = FALSE;
- pVdaa[k]->error = RC_CHANNEL_TYPE_ERR;
- pVdaa[k]->channelType = UNKNOWN;
- DEBUG_PRINT(pVdaa[k], "%sVDAA not supported on this device\n",LOGPRINT_PREFIX);
- continue;
- }
- else
- {
- pVdaa[k]->channelType = DAA;
- }
-
- if (pVdaa[k]->channelEnable)
- {
- /*Try to write innocuous register to test SPI is working*/
- pVdaa[k]->WriteRegX(pVdaa[k]->pVdaaHWX,pVdaa[k]->channel,PCMRX_CNT_LO,0x5A);
- data = pVdaa[k]->ReadRegX(pVdaa[k]->pVdaaHWX,pVdaa[k]->channel,PCMRX_CNT_LO);
- if (data != 0x5A)
- {
- pVdaa[k]->error = RC_SPI_FAIL;
- pVdaa[k]->channelEnable = FALSE;
- DEBUG_PRINT(pVdaa[k], "%sVDAA %d not communicating\n",LOGPRINT_PREFIX,
- pVdaa[k]->channel);
- }
- else
- {
- num_devices++;
- }
- }
- }
-
- if(num_devices == 0)
- {
- DEBUG_PRINT(*pVdaa, "%sNo DAA devices detected\n", LOGPRINT_PREFIX);
- return RC_SPI_FAIL;
- }
-
- for (k=0; k<size; k++)
- {
- if(pVdaa[k]->channelType != DAA)
- {
- continue; /* Skip PROSLIC or UNDEFINED ports */
- }
- if (pVdaa[k]->channelEnable)
- {
-
- /* Apply General Configuration parameters */
-
- /* No need to read-modify-write here since registers are in their reset state */
- data = (Vdaa_General_Configuration.pwmm << 4) |
- (Vdaa_General_Configuration.pwmEnable << 3);
- pVdaa[k]->WriteRegX(pVdaa[k]->pVdaaHWX,pVdaa[k]->channel,CTRL1, data);
-
- data = (Vdaa_General_Configuration.inte << 7) | (Vdaa_General_Configuration.intp
- << 6) | 0x03;
- pVdaa[k]->WriteRegX(pVdaa[k]->pVdaaHWX,pVdaa[k]->channel,CTRL2, data);
-
- data = (Vdaa_General_Configuration.hssm << 3);
- pVdaa[k]->WriteRegX(pVdaa[k]->pVdaaHWX,pVdaa[k]->channel,SMPL_CTRL, data);
-
- data = (Vdaa_General_Configuration.iire << 4);
- pVdaa[k]->WriteRegX(pVdaa[k]->pVdaaHWX,pVdaa[k]->channel,INTL_CTRL1, data);
-
- data = (Vdaa_General_Configuration.rcald << 4);
- pVdaa[k]->WriteRegX(pVdaa[k]->pVdaaHWX,pVdaa[k]->channel,RES_CALIB, data);
-
- data = (Vdaa_General_Configuration.full2 << 4);
- pVdaa[k]->WriteRegX(pVdaa[k]->pVdaaHWX,pVdaa[k]->channel,AC_TERM_CTRL, data);
-
- data = (Vdaa_General_Configuration.lvfd) | (Vdaa_General_Configuration.filt <<
- 1) |
- (Vdaa_General_Configuration.foh << 5) | (Vdaa_General_Configuration.full << 7);
- pVdaa[k]->WriteRegX(pVdaa[k]->pVdaaHWX,pVdaa[k]->channel,DAA_CTRL5, data);
-
- data = (Vdaa_General_Configuration.spim << 6);
- pVdaa[k]->WriteRegX(pVdaa[k]->pVdaaHWX,pVdaa[k]->channel,PCM_SPI_CTRL, data);
-
- data = (Vdaa_General_Configuration.cvp) | (Vdaa_General_Configuration.cvs << 2);
- pVdaa[k]->WriteRegX(pVdaa[k]->pVdaaHWX,pVdaa[k]->channel,LN_VI_THRESH_INTE_CTRL,
- data);
-
- data = (Vdaa_General_Configuration.gce << 1) | (Vdaa_General_Configuration.rg1
- << 2);
- pVdaa[k]->WriteRegX(pVdaa[k]->pVdaaHWX,pVdaa[k]->channel,SPRK_QNCH_CTRL, data);
-
- /* Enable Lineside Device */
- Vdaa_PowerupLineside(pVdaa[k]);
- }
- }
- DEBUG_PRINT(*pVdaa,"%sDAA initialization completed\n",LOGPRINT_PREFIX);
- return RC_NONE;
-}
-
-/*
-** Function: Vdaa_ReadLinefeedStatus
-**
-** Description:
-** Read Status of Line Feed
-**
-** Returns:
-** RC_VDAA_ILOOP_OVLD if LCS >= 0x1F
-** - no overload
-**
-*/
-
-int Vdaa_ReadLinefeedStatus (vdaaChanType *pVdaa,int8 *vloop, int16 *iloop)
-{
- int16 regTemp = 0x1F;
- uInt8 iloop_reg; /* REG 12[4:0] = Loop current*/
-
- TRACEPRINT( pVdaa, "\n", NULL);
- if(pVdaa->channelType != DAA)
- {
- return RC_IGNORE;
- }
- regTemp &= ReadReg(pVdaaHW,pVdaa->channel,LSIDE_STAT);
- iloop_reg = (uInt8)regTemp;
- *iloop = (regTemp*LCS_SCALE_NUM) /
- LCS_SCALE_DEN; /* Multiply the read result by 3.3mA/bit*/
-
- *vloop = (int8) ReadReg(pVdaaHW,pVdaa->channel,LINE_VOLT_STAT);
- if(*vloop & 0x80)
- {
- *vloop = ~(*vloop - 1)*(-1);
- }
-
- if (iloop_reg == 0x1F)
- {
- return RC_VDAA_ILOOP_OVLD;
- }
- return RC_NONE;
-}
-
-/*
-** Function: Vdaa_GetInterrupts
-**
-** Description:
-** Get Interrupts
-**
-** Returns:
-** number of interrupts
-**
-*/
-
-int Vdaa_GetInterrupts (vdaaChanType *pVdaa,vdaaIntType *pIntData)
-{
- uInt8 data = 0;
- int j;
- TRACEPRINT( pVdaa, "\n", NULL);
- pIntData->number = 0;
-
- if(pVdaa->channelType != DAA)
- {
- return RC_IGNORE;
- }
-
- data = ReadReg(pVdaaHW,pVdaa->channel,INTE_SRC); /*Snapshot Interrupts*/
- WriteReg(pVdaaHW,pVdaa->channel,INTE_SRC,~(data)); /*Clear interrupts*/
-
- for (j=0; j<8; j++)
- {
- if (data &(1<<j))
- {
-
- pIntData->irqs[pIntData->number] = j;
- pIntData->number++;
-
- }
- }
- data = ReadReg(pVdaaHW,pVdaa->channel,LN_VI_THRESH_INTE_CTRL);
-
- if (data &(0x08)) /*to determine if CVI Interrupt is set*/
- {
- pIntData->irqs[pIntData->number] = CVI;
- pIntData->number++;
- data &= ~(0x08);
- WriteReg(pVdaaHW,pVdaa->channel,LN_VI_THRESH_INTE_CTRL,data);
-
- }
-
- return pIntData->number;
-}
-
-/*
-** Function: Vdaa_ClearInterrupts
-**
-** Description:
-** Clear Interrupts
-**
-** Returns:
-**
-**
-*/
-
-int Vdaa_ClearInterrupts (vdaaChanType *pVdaa)
-{
- uInt8 data = 0;
-
- TRACEPRINT( pVdaa, "\n", NULL);
- if(pVdaa->channelType != DAA)
- {
- return RC_IGNORE;
- }
-
- WriteReg(pVdaaHW,pVdaa->channel,INTE_SRC,
- 0x00); /* Clear interrupts in REG 4 by writing 0's*/
-
- /*Clear CVI interrupt by writing 0 at REG 44[3]*/
- data = ReadReg(pVdaaHW,pVdaa->channel,LN_VI_THRESH_INTE_CTRL);
- WriteReg(pVdaaHW,pVdaa->channel,LN_VI_THRESH_INTE_CTRL,data&0xF7);
-
- return RC_NONE;
-}
-
-/*
-** Function: Vdaa_GetHookStatus
-**
-** Description:
-** Read VDAA Hook Status
-**
-** Return Values -
-** VDAA_ONHOOK
-** VDAA_OFFHOOK
-** VDAA_ONHOOK_MONITOR
-** RC_INVALID_HOOK_STATUS
-*/
-
-uInt8 Vdaa_GetHookStatus (vdaaChanType *pVdaa)
-{
- uInt8 data;
-
- TRACEPRINT( pVdaa, "\n", NULL);
- if(pVdaa->channelType != DAA)
- {
- return RC_IGNORE;
- }
-
- data = ReadReg(pVdaaHW,pVdaa->channel,DAA_CTRL1);
- data &= 0x09; /* Look at only ONHM and OH */
-
- if((data & 0x80)&&(data & 0x01))
- {
- return VDAA_ONHOOK_MONITOR;
- }
- else if (data & 0x01)
- {
- return VDAA_OFFHOOK;
- }
- else
- {
- return VDAA_ONHOOK;
- }
-}
-
-/*
-** Function: Vdaa_SetHookStatus
-**
-** Description:
-** Set VDAA Hook switch to ONHOOK, OFFHOOK,
-** or ONHOOK_MONITOR
-**
-*/
-
-int Vdaa_SetHookStatus (vdaaChanType *pVdaa,uInt8 newHookStatus)
-{
- uInt8 data= 0 ;
-
- TRACEPRINT( pVdaa, "hookstate = %u\n", (unsigned int) newHookStatus);
-
- if(pVdaa->channelType != DAA)
- {
- return RC_IGNORE;
- }
-
- switch (newHookStatus)
- {
- case VDAA_DIG_LOOPBACK:
- /*Setting REG6[4]=1,REG5[0]=0,REG5[3]=0*/
- data = ReadReg(pVdaaHW,pVdaa->channel,DAA_CTRL2);
- data |= 0x10;
- WriteReg(pVdaaHW,pVdaa->channel,DAA_CTRL2,data);
- data = ReadReg(pVdaaHW,pVdaa->channel,DAA_CTRL1);
- data &= ~(0x09);
- WriteReg(pVdaaHW,pVdaa->channel,DAA_CTRL1,data);
- break;
-
- case VDAA_ONHOOK:
- /*Setting REG6[4]=0,REG5[0]=0,REG5[3]=0*/
- data = ReadReg(pVdaaHW,pVdaa->channel,DAA_CTRL1);
- data &= 0xF6;
- WriteReg(pVdaaHW,pVdaa->channel,DAA_CTRL1,data);
- data = ReadReg(pVdaaHW,pVdaa->channel,DAA_CTRL2);
- data &= 0xEF;
- WriteReg(pVdaaHW,pVdaa->channel,DAA_CTRL2,data);
- break;
-
- case VDAA_OFFHOOK:
- /*Setting REG6[4]=0,REG5[0]=1,REG5[3]=0*/
- data = ReadReg(pVdaaHW,pVdaa->channel,DAA_CTRL1);
- data &= 0xF7;
- data |= 0x01;
- WriteReg(pVdaaHW,pVdaa->channel,DAA_CTRL1,data);
- data = ReadReg(pVdaaHW,pVdaa->channel,DAA_CTRL2);
- data &= 0xEF;
- WriteReg(pVdaaHW,pVdaa->channel,DAA_CTRL2,data);
- break;
-
- case VDAA_ONHOOK_MONITOR:
- /*Setting REG6[4]=0,REG5[0]=0,REG5[3]=1*/
- data = ReadReg(pVdaaHW,pVdaa->channel,DAA_CTRL1);
- data &= 0xFE;
- data |= 0x08;
- WriteReg(pVdaaHW,pVdaa->channel,DAA_CTRL1,data);
- data = ReadReg(pVdaaHW,pVdaa->channel,DAA_CTRL2);
- data &= 0xEF;
- WriteReg(pVdaaHW,pVdaa->channel,DAA_CTRL2,data);
- break;
-
- default:
- return RC_UNSUPPORTED_OPTION;
- }
-
- return RC_NONE;
-}
-
-/*
-** Function: Vdaa_SetLoopbackMode
-**
-** Description:
-** Loopback mode control
-**
-*/
-
-int Vdaa_SetLoopbackMode(vdaaChanType_ptr pVdaa, tLpbkMode lpbk_mode,
- tLpbkStatus lpbk_status)
-{
- uInt8 regData;
-
- TRACEPRINT(pVdaa, "lpbk_mode = %u lpbk_status = %d\n", (unsigned int) lpbk_mode,
- (unsigned int) lpbk_status);
- if(pVdaa->channelType != DAA)
- {
- return RC_IGNORE;
- }
-
- switch(lpbk_mode)
- {
- case LPBK_NONE:
- /* Disable all loopback types, regardless of lpbk_status */
- regData = ReadReg(pVdaaHW,pVdaa->channel,CTRL1);
- if(regData & 0x02)
- {
- WriteReg(pVdaaHW,pVdaa->channel,CTRL1, regData & ~(0x02));
- }
-
- regData = ReadReg(pVdaaHW,pVdaa->channel,DAA_CTRL3);
- if(regData & 0x01)
- {
- WriteReg(pVdaaHW,pVdaa->channel,DAA_CTRL3,0);
- }
-
- regData = ReadReg(pVdaaHW,pVdaa->channel,PCM_SPI_CTRL);
- if(regData & 0x80)
- {
- WriteReg(pVdaaHW,pVdaa->channel,PCM_SPI_CTRL, regData & ~(0x80));
- }
- break;
-
- case LPBK_IDL:
- if(lpbk_status)
- {
- regData = ReadReg(pVdaaHW,pVdaa->channel,CTRL1);
- WriteReg(pVdaaHW,pVdaa->channel,CTRL1, regData | 0x02);
- }
- else
- {
- regData = ReadReg(pVdaaHW,pVdaa->channel,CTRL1);
- WriteReg(pVdaaHW,pVdaa->channel,CTRL1, regData & ~(0x02));
- }
- break;
-
- case LPBK_DDL:
- if(lpbk_status)
- {
- WriteReg(pVdaaHW,pVdaa->channel,DAA_CTRL3, 0x01);
- }
- else
- {
- WriteReg(pVdaaHW,pVdaa->channel,DAA_CTRL3, 0);
- }
- break;
-
- case LPBK_PCML:
- if(lpbk_status)
- {
- regData = ReadReg(pVdaaHW,pVdaa->channel,PCM_SPI_CTRL);
- WriteReg(pVdaaHW,pVdaa->channel,PCM_SPI_CTRL, regData | 0x80);
- }
- else
- {
- regData = ReadReg(pVdaaHW,pVdaa->channel,PCM_SPI_CTRL);
- WriteReg(pVdaaHW,pVdaa->channel,PCM_SPI_CTRL, regData & ~(0x80));
- }
- break;
-
- default:
- return RC_UNSUPPORTED_OPTION;
- }
-
- return RC_NONE;
-}
-
-/*
-** Function: Vdaa_ADCCal
-**
-** Description:
-** This function calibrates the VDAA ADC manually
-**
-*/
-
-int Vdaa_ADCCal (vdaaChanType_ptr pVdaa, int32 size)
-{
- uInt8 regTemp = 0;
- int32 i;
-
- TRACEPRINT(pVdaa, "size = %d\n", (int) size);
- if(pVdaa->channelType != DAA)
- {
- return RC_IGNORE;
- }
-
- for(i = 0; i < size; i++)
- {
- /* Clear the previous ADC Calibration data by toggling CALZ*/
- regTemp = ReadReg(pVdaaHW,pVdaa->channel,INTL_CTRL2);
- regTemp |= 0x80;
- WriteReg(pVdaaHW,pVdaa->channel,INTL_CTRL2,regTemp);
- regTemp &= ~0x80;
- WriteReg(pVdaaHW,pVdaa->channel,INTL_CTRL2,regTemp);
-
- regTemp = ReadReg(pVdaaHW,pVdaa->channel,INTL_CTRL2); /*disable auto cal*/
- regTemp |= 0x20;
- WriteReg(pVdaaHW,pVdaa->channel,INTL_CTRL2,regTemp);
-
- regTemp |= 0x40; /*initiate manual cal*/
- WriteReg(pVdaaHW,pVdaa->channel,INTL_CTRL2,regTemp);
- regTemp &= ~0x40;
- WriteReg(pVdaaHW,pVdaa->channel,INTL_CTRL2,regTemp);
- pVdaa++;
- }
- return RC_NONE;
-}
-
-/*
-** Function: Vdaa_EnableWatchdog
-**
-** Description:
-** Enables watchdog timer
-**
-*/
-
-int Vdaa_EnableWatchdog(vdaaChanType_ptr pVdaa)
-{
- uInt8 regTemp;
-
- TRACEPRINT(pVdaa, "\n", NULL);
- if(pVdaa->channelType != DAA)
- {
- return RC_IGNORE;
- }
-
- regTemp = ReadReg(pVdaaHW,pVdaa->channel,CTRL2);
- WriteReg(pVdaaHW,pVdaa->channel,CTRL2,regTemp | 0x10);
-
- return RC_NONE;
-}
-
-/*
-** Function: Vdaa_SetHybridEnable
-**
-** Description:
-** Enables watchdog timer
-**
-*/
-
-int Vdaa_SetHybridEnable(vdaaChanType_ptr pVdaa, int enable)
-{
- uInt8 regTemp;
- TRACEPRINT(pVdaa, "enable = %d\n", enable);
-
- if(pVdaa->channelType != DAA)
- {
- return RC_IGNORE;
- }
-
- regTemp = ReadReg(pVdaaHW,pVdaa->channel,CTRL2);
- if(enable)
- {
- WriteReg(pVdaaHW,pVdaa->channel,CTRL2,regTemp | 0x02);
- }
- else
- {
- WriteReg(pVdaaHW,pVdaa->channel,CTRL2,regTemp & ~(0x02));
- }
-
- return RC_NONE;
-}
-
-
-/*
-** Function: Vdaa_SoftReset
-**
-** Description:
-** Execute soft reset
-**
-*/
-
-int Vdaa_SoftReset(vdaaChanType_ptr pVdaa)
-{
- TRACEPRINT(pVdaa, "\n", NULL);
- if(pVdaa->channelType != DAA)
- {
- return RC_IGNORE;
- }
-
- WriteReg(pVdaaHW,pVdaa->channel,CTRL1,0x80);
- return RC_NONE;
-}
-
-/*
-** Function: Vdaa_ReadFDTStatus
-**
-** Description:
-** Read FDT bit
-**
-** Returns:
-** 0 - Frame Not Detected
-** 1 - Frame Detected
-**
-*/
-
-int Vdaa_ReadFDTStatus(vdaaChanType_ptr pVdaa)
-{
- TRACEPRINT(pVdaa, "\n", NULL);
- return (ReadReg(pVdaaHW,pVdaa->channel,LSIDE_REV) & 0x40);
-}
-
-/*
-** Function: Vdaa_PowerupLineside
-**
-** Description:
-** Power up lineside device
-**
-*/
-
-int Vdaa_PowerupLineside(vdaaChanType_ptr pVdaa)
-{
- uInt8 data;
-
- TRACEPRINT(pVdaa, "\n", NULL);
- if(pVdaa->channelType != DAA)
- {
- return RC_IGNORE;
- }
-
- WriteReg(pVdaaHW,pVdaa->channel,DAA_CTRL2,0); /* Powerup lineside device */
- /* We do a double read to give the front end time to power up and sync up with the system side.. */
- data = ReadReg(pVdaaHW,pVdaa->channel,LSIDE_REV);
- data = 0;
- data = ReadReg(pVdaaHW,pVdaa->channel,LSIDE_REV);
- pVdaa->deviceId->lsRev= ((data&0x3C)>>2);
- data = pVdaa->ReadRegX(pVdaa->pVdaaHWX,pVdaa->channel,SYS_LINE_DEV_REV);
- pVdaa->deviceId->lsType= ((data&~(0xF))>>4);
-
- return RC_NONE;
-}
-
-/*
-** Function: Vdaa_PowerdownLineside
-**
-** Description:
-** Power down lineside device
-**
-*/
-
-int Vdaa_PowerdownLineside(vdaaChanType_ptr pVdaa)
-{
- TRACEPRINT(pVdaa, "\n", NULL);
- if(pVdaa->channelType != DAA)
- {
- return RC_IGNORE;
- }
-
- WriteReg(pVdaaHW,pVdaa->channel,DAA_CTRL2,0x10);
- return RC_NONE;
-}
-
-/*
-** Function: Vdaa_PrintDebugData
-**
-** Description:
-** Dump of VDAA register space
-**
-** Input Parameters:
-** pVdaa: pointer to SiVoiceChanType or vdaaChanType
-**
-*/
-
-int Vdaa_PrintDebugData (vdaaChanType *pVdaa)
-{
-#ifdef ENABLE_DEBUG
- int i;
- for (i=0; i<60; i++)
- {
- LOGPRINT ("%sRegister %d = %X\n",LOGPRINT_PREFIX,i,ReadReg(pVdaaHW,
- pVdaa->channel,i));
- }
-#endif
- return RC_NONE;
-}
-
-/*
-** Function: Vdaa_InitLineInUseCheck
-**
-** Description:
-** Set line in use test limits
-**
-** Input Parameters:
-** liuCfg: pointer to vdaa_LIU_Config
-** minOnV: minimum acceptable onhook voltage (below indicates parallel handset)
-** minOffV: minimum acceptable offhook voltage (below indicates parallel handset)
-** minOffI: minimum acceptable offhook loop current (below indicates parallel handset)
-**
-*/
-
-int Vdaa_InitLineInUseCheck(vdaa_LIU_Config *liuCfg, int8 minOnV, int8 minOffV,
- int16 minOffI)
-{
- TRACEPRINT_NOCHAN("min0nV = %d minoffV = %d minOffI = %d\n", minOnV, minOffV,
- minOffI);
- liuCfg->status = PAR_HANDSET_NOT_DETECTED;
- liuCfg->min_onhook_vloop = minOnV;
- liuCfg->min_offhook_vloop = minOffV;
- liuCfg->min_offhook_iloop = minOffI;
- return RC_NONE;
-}
-
-/*
-** Function: Vdaa_CheckForLineInUse
-**
-** Description:
-** Monitor LVCS to detect intrusion or parallel handset
-**
-** Input Parameters:
-** pVdaa: pointer to SiVoiceChanType or vdaaChanType
-** liuCfg: pointer to vdaa_LIU_Config
-**
-** Output Parameters:
-**
-** Return:
-** VDAA_ONHOOK - line is onhook
-** VDAA_OFFHOOK - line is offhook (in use)
-**
-*/
-
-uInt8 Vdaa_CheckForLineInUse(vdaaChanType *pVdaa, vdaa_LIU_Config *liuCfg)
-{
- int8 vloop;
- int16 iloop;
-
- TRACEPRINT(pVdaa, "\n", NULL);
- if(pVdaa->channelType != DAA)
- {
- return RC_IGNORE;
- }
-
- /* Check voltage and current */
- Vdaa_ReadLinefeedStatus(pVdaa, &vloop,&iloop);
- if(vloop < 0)
- {
- vloop *= -1;
- }
- liuCfg->measured_iloop = iloop;
- liuCfg->measured_vloop = vloop;
- liuCfg->status = PAR_HANDSET_NOT_DETECTED;
-
- /* Read hookswitch status */
- if(Vdaa_GetHookStatus(pVdaa) == VDAA_OFFHOOK)
- {
- if((vloop < liuCfg->min_offhook_vloop)||(iloop < liuCfg->min_offhook_iloop))
- {
- liuCfg->status = PAR_HANDSET_DETECTED;
- }
-
- return VDAA_OFFHOOK;
- }
- else
- {
- if(vloop < liuCfg->min_onhook_vloop)
- {
- liuCfg->status = PAR_HANDSET_DETECTED;
- }
-
- return VDAA_ONHOOK;
- }
-}
-
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/src/vdaa_constants.c b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/src/vdaa_constants.c
deleted file mode 100644
index 9c4606b..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/src/vdaa_constants.c
+++ /dev/null
@@ -1,201 +0,0 @@
-// SPDX-License-Identifier: GPL-2.0
-/*
- * Si3217x ProSLIC API Configuration Tool Version 4.2.1
- * Last Updated in API Release: 9.2.0
- * source XML file: si3217x_FLBK_GDRV_constants.xml
- *
- * Auto generated file from configuration tool.
- */
-
-#include "../inc/vdaa.h"
-
-vdaa_General_Cfg Vdaa_General_Configuration = {
- INTE_DISABLED,
- INTE_ACTIVE_LOW,
- RES_CAL_ENABLED,
- FS_8KHZ,
- FOH_128,
- LVS_FORCE_ENABLED,
- CVS_CURRENT,
- CVP_ABOVE,
- GCE_DISABLED,
- IIR_DISABLED,
- FULL2_ENABLED,
- FULL_DISABLED,
- FILT_HPF_200HZ,
- RG1_DISABLED,
- PWM_DELTA_SIGMA,
- PWM_DISABLED,
- SPIM_TRI_CS
-};
-
-vdaa_Country_Cfg Vdaa_Country_Presets[] ={
- {
- RZ_MAX,
- DC_50,
- AC_600,
- DCV3_5,
- MINI_10MA,
- ILIM_DISABLED,
- OHS_LESS_THAN_0_5MS,
- HYBRID_ENABLED
- }, /* COU_USA */
- {
- RZ_MAX,
- DC_50,
- AC_270__750_150,
- DCV3_5,
- MINI_10MA,
- ILIM_ENABLED,
- OHS_3MS,
- HYBRID_ENABLED
- }, /* COU_GERMANY */
- {
- RZ_MAX,
- DC_50,
- AC_200__680_100,
- DCV3_5,
- MINI_10MA,
- ILIM_DISABLED,
- OHS_LESS_THAN_0_5MS,
- HYBRID_ENABLED
- }, /* COU_CHINA */
- {
- RZ_MAX,
- DC_50,
- AC_220__820_120,
- DCV3_2,
- MINI_12MA,
- ILIM_DISABLED,
- OHS_26MS,
- HYBRID_ENABLED
- } /* COU_AUSTRALIA */
-};
-
-vdaa_audioGain_Cfg Vdaa_audioGain_Presets[] ={
- {
- 0, /* mute */
- XGA_GAIN, /* xXGA2 */
- 0, /* xXG2 */
- XGA_GAIN, /* xXGA3 */
- 0, /* xXG3 */
- 64, /* AxM */
- 0 /* cpEn */
- }, /* AUDIO_GAIN_0DB */
- {
- 0, /* mute */
- XGA_ATTEN, /* xXGA2 */
- 4, /* xXG2 */
- XGA_GAIN, /* xXGA3 */
- 0, /* xXG3 */
- 64, /* AxM */
- 0 /* cpEn */
- }, /* AUDIO_ATTEN_4DB */
- {
- 0, /* mute */
- XGA_ATTEN, /* xXGA2 */
- 6, /* xXG2 */
- XGA_GAIN, /* xXGA3 */
- 0, /* xXG3 */
- 64, /* AxM */
- 0 /* cpEn */
- }, /* AUDIO_ATTEN_6DB */
- {
- 0, /* mute */
- XGA_ATTEN, /* xXGA2 */
- 11, /* xXG2 */
- XGA_GAIN, /* xXGA3 */
- 0, /* xXG3 */
- 64, /* AxM */
- 0 /* cpEn */
- } /* AUDIO_ATTEN_11DB */
-};
-
-vdaa_Ring_Detect_Cfg Vdaa_Ring_Detect_Presets[] ={
- {
- RDLY_512MS,
- RT__13_5VRMS_16_5VRMS,
- 12, /* RMX */
- RTO_1408MS,
- RCC_640MS,
- RNGV_DISABLED,
- 17, /* RAS */
- RFWE_HALF_WAVE,
- RDI_BEG_END_BURST,
- RGDT_ACTIVE_LOW
- }, /* RING_DET_NOVAL_LOWV */
- {
- RDLY_512MS,
- RT__40_5VRMS_49_5VRMS,
- 12, /* RMX */
- RTO_1408MS,
- RCC_640MS,
- RNGV_ENABLED,
- 17, /* RAS */
- RFWE_RNGV_RING_ENV,
- RDI_BEG_END_BURST,
- RGDT_ACTIVE_LOW
- } /* RING_DET_VAL_HIGHV */
-};
-
-vdaa_PCM_Cfg Vdaa_PCM_Presets[] ={
- {
- U_LAW,
- PCLK_1_PER_BIT,
- TRI_POS_EDGE
- }, /* DAA_PCM_8ULAW */
- {
- A_LAW,
- PCLK_1_PER_BIT,
- TRI_POS_EDGE
- }, /* DAA_PCM_8ALAW */
- {
- LINEAR_16_BIT,
- PCLK_1_PER_BIT,
- TRI_POS_EDGE
- } /* DAA_PCM_16LIN */
-};
-
-vdaa_Hybrid_Cfg Vdaa_Hybrid_Presets[] ={
- {
- 0, /* HYB1 */
- 254, /* HYB2 */
- 0, /* HYB3 */
- 1, /* HYB4 */
- 255, /* HYB5 */
- 1, /* HYB6 */
- 0, /* HYB7 */
- 0 /* HYB8 */
- }, /* HYB_600_0_0_500FT_24AWG */
- {
- 4, /* HYB1 */
- 246, /* HYB2 */
- 242, /* HYB3 */
- 4, /* HYB4 */
- 254, /* HYB5 */
- 255, /* HYB6 */
- 1, /* HYB7 */
- 255 /* HYB8 */
- }, /* HYB_270_750_150_500FT_24AWG */
- {
- 4, /* HYB1 */
- 245, /* HYB2 */
- 243, /* HYB3 */
- 7, /* HYB4 */
- 253, /* HYB5 */
- 0, /* HYB6 */
- 1, /* HYB7 */
- 255 /* HYB8 */
- }, /* HYB_200_680_100_500FT_24AWG */
- {
- 4, /* HYB1 */
- 244, /* HYB2 */
- 241, /* HYB3 */
- 6, /* HYB4 */
- 253, /* HYB5 */
- 255, /* HYB6 */
- 2, /* HYB7 */
- 255 /* HYB8 */
- } /* HYB_220_820_120_500FT_24AWG */
-};
-
diff --git a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/timer.h b/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/timer.h
deleted file mode 100644
index 02b8a01..0000000
--- a/target/linux/mediatek/files-5.4/sound/soc/codecs/si3218x/timer.h
+++ /dev/null
@@ -1,89 +0,0 @@
-/* SPDX-License-Identifier: GPL-2.0 */
-/*
- * $Id: Timer.h 109 2008-10-22 19:45:09Z lajordan@SILABS.COM $
- *
- * This file is system specific and should be edited for your hardware platform
- *
- * This file is used by proslic_timer_intf.h and proslic_spiGci.h
- */
-#ifndef TIME_TYPE_H
-#define TIME_TYPE_H
-
-typedef long long _int64;
-
-/*
-** System timer interface structure
-*/
-typedef struct{
- _int64 ticksPerSecond;
-} systemTimer_S;
-
-/*
-** System time stamp
-*/
-typedef struct{
- _int64 time;
-} timeStamp;
-
-/*
-** Function: SYSTEM_TimerInit
-**
-** Description:
-** Initializes the timer used in the delay and time measurement functions
-** by doing a long inaccurate sleep and counting the ticks
-**
-** Input Parameters:
-**
-** Return:
-** none
-*/
-void TimerInit (systemTimer_S *pTimerObj);
-/*
-** Function: DelayWrapper
-**
-** Description:
-** Waits the specified number of ms
-**
-** Input Parameters:
-** hTimer: timer pointer
-** timeInMs: time in ms to wait
-**
-** Return:
-** none
-*/
-int time_DelayWrapper (void *hTimer, int timeInMs);
-
-
-/*
-** Function: TimeElapsedWrapper
-**
-** Description:
-** Calculates number of ms that have elapsed
-**
-** Input Parameters:
-** hTImer: pointer to timer object
-** startTime: timer value when function last called
-** timeInMs: pointer to time elapsed
-**
-** Return:
-** timeInMs: time elapsed since start time
-*/
-int time_TimeElapsedWrapper (void *hTimer, void *startTime, int *timeInMs);
-
-int time_GetTimeWrapper (void *hTimer, void *time);
-#endif
-/*
-** $Log: Timer.h,v $
-** Revision 1.2 2007/02/21 16:55:18 lajordan
-** moved function prototypes here
-**
-** Revision 1.1 2007/02/16 23:55:07 lajordan
-** no message
-**
-** Revision 1.2 2007/02/15 23:33:25 lajordan
-** no message
-**
-** Revision 1.1.1.1 2006/07/13 20:26:08 lajordan
-** no message
-**
-*/
diff --git a/target/linux/mediatek/patches-5.4/0402-sound-add-mt7986-driver-and-slic-driver.patch b/target/linux/mediatek/patches-5.4/0402-sound-add-mt7986-driver-and-slic-driver.patch
deleted file mode 100644
index ee5ea6f..0000000
--- a/target/linux/mediatek/patches-5.4/0402-sound-add-mt7986-driver-and-slic-driver.patch
+++ /dev/null
@@ -1,91 +0,0 @@
---- a/sound/soc/codecs/Kconfig
-+++ b/sound/soc/codecs/Kconfig
-@@ -164,6 +164,7 @@
- select SND_SOC_RT5677 if I2C && SPI_MASTER
- select SND_SOC_RT5682 if I2C
- select SND_SOC_SGTL5000 if I2C
-+ select SND_SOC_SI3218X_SPI
- select SND_SOC_SI476X if MFD_SI476X_CORE
- select SND_SOC_SIMPLE_AMPLIFIER
- select SND_SOC_SIRF_AUDIO_CODEC
-@@ -1484,6 +1485,14 @@
- config SND_SOC_NAU8825
- tristate
-
-+config SND_SOC_SI3218X
-+ tristate
-+
-+config SND_SOC_SI3218X_SPI
-+ tristate "Proslic SI3218X"
-+ depends on SPI
-+ select SND_SOC_SI3218X
-+
- config SND_SOC_TPA6130A2
- tristate "Texas Instruments TPA6130A2 headphone amplifier"
- depends on I2C
---- a/sound/soc/codecs/Makefile
-+++ b/sound/soc/codecs/Makefile
-@@ -176,6 +176,7 @@
- snd-soc-sigmadsp-objs := sigmadsp.o
- snd-soc-sigmadsp-i2c-objs := sigmadsp-i2c.o
- snd-soc-sigmadsp-regmap-objs := sigmadsp-regmap.o
-+snd-soc-si3218x-spi-objs := si3218x-spi.o
- snd-soc-si476x-objs := si476x.o
- snd-soc-sirf-audio-codec-objs := sirf-audio-codec.o
- snd-soc-spdif-tx-objs := spdif_transmitter.o
-@@ -563,3 +564,7 @@
- obj-$(CONFIG_SND_SOC_MAX98504) += snd-soc-max98504.o
- obj-$(CONFIG_SND_SOC_SIMPLE_AMPLIFIER) += snd-soc-simple-amplifier.o
- obj-$(CONFIG_SND_SOC_TPA6130A2) += snd-soc-tpa6130a2.o
-+
-+# Proslic si3218x
-+obj-$(CONFIG_SND_SOC_SI3218X) += si3218x/
-+obj-$(CONFIG_SND_SOC_SI3218X_SPI) += snd-soc-si3218x-spi.o
---- a/sound/soc/mediatek/Kconfig
-+++ b/sound/soc/mediatek/Kconfig
-@@ -53,6 +53,36 @@
- Select Y if you have such device.
- If unsure select "N".
-
-+config SND_SOC_MT79XX
-+ tristate "ASoC support for Mediatek MT79XX chip"
-+ depends on ARCH_MEDIATEK
-+ select SND_SOC_MEDIATEK
-+ help
-+ This adds ASoC platform driver support for Mediatek MT79XX chip
-+ that can be used with other codecs.
-+ Select Y if you have such device.
-+ If unsure select "N".
-+
-+config SND_SOC_MT79XX_WM8960
-+ tristate "ASoc Audio driver for MT79XX with WM8960 codec"
-+ depends on SND_SOC_MT79XX && I2C
-+ select SND_SOC_WM8960
-+ help
-+ This adds ASoC driver for Mediatek MT79XX boards
-+ with the WM8960 codecs.
-+ Select Y if you have such device.
-+ If unsure select "N".
-+
-+config SND_SOC_MT79XX_SI3218X
-+ tristate "ASoc Audio driver for MT79XX with SI3218X codec"
-+ depends on SND_SOC_MT79XX && SPI
-+ select SND_SOC_SI3218X_SPI
-+ help
-+ This adds ASoC driver for Mediatek MT79XX boards
-+ with the SI3218X codecs.
-+ Select Y if you have such device.
-+ If unsure select "N".
-+
- config SND_SOC_MT8173
- tristate "ASoC support for Mediatek MT8173 chip"
- depends on ARCH_MEDIATEK
---- a/sound/soc/mediatek/Makefile
-+++ b/sound/soc/mediatek/Makefile
-@@ -2,5 +2,6 @@
- obj-$(CONFIG_SND_SOC_MEDIATEK) += common/
- obj-$(CONFIG_SND_SOC_MT2701) += mt2701/
- obj-$(CONFIG_SND_SOC_MT6797) += mt6797/
-+obj-$(CONFIG_SND_SOC_MT79XX) += mt79xx/
- obj-$(CONFIG_SND_SOC_MT8173) += mt8173/
- obj-$(CONFIG_SND_SOC_MT8183) += mt8183/
diff --git a/target/linux/mediatek/patches-5.4/0402-sound-add-mt7986-driver.patch b/target/linux/mediatek/patches-5.4/0402-sound-add-mt7986-driver.patch
new file mode 100644
index 0000000..973f565
--- /dev/null
+++ b/target/linux/mediatek/patches-5.4/0402-sound-add-mt7986-driver.patch
@@ -0,0 +1,48 @@
+--- a/sound/soc/mediatek/Kconfig
++++ b/sound/soc/mediatek/Kconfig
+@@ -53,6 +53,36 @@
+ Select Y if you have such device.
+ If unsure select "N".
+
++config SND_SOC_MT79XX
++ tristate "ASoC support for Mediatek MT79XX chip"
++ depends on ARCH_MEDIATEK
++ select SND_SOC_MEDIATEK
++ help
++ This adds ASoC platform driver support for Mediatek MT79XX chip
++ that can be used with other codecs.
++ Select Y if you have such device.
++ If unsure select "N".
++
++config SND_SOC_MT79XX_WM8960
++ tristate "ASoc Audio driver for MT79XX with WM8960 codec"
++ depends on SND_SOC_MT79XX && I2C
++ select SND_SOC_WM8960
++ help
++ This adds ASoC driver for Mediatek MT79XX boards
++ with the WM8960 codecs.
++ Select Y if you have such device.
++ If unsure select "N".
++
++config SND_SOC_MT79XX_SI3218X
++ tristate "ASoc Audio driver for MT79XX with SI3218X codec"
++ depends on SND_SOC_MT79XX && SPI
++ select SND_SOC_SI3218X_SPI
++ help
++ This adds ASoC driver for Mediatek MT79XX boards
++ with the SI3218X codecs.
++ Select Y if you have such device.
++ If unsure select "N".
++
+ config SND_SOC_MT8173
+ tristate "ASoC support for Mediatek MT8173 chip"
+ depends on ARCH_MEDIATEK
+--- a/sound/soc/mediatek/Makefile
++++ b/sound/soc/mediatek/Makefile
+@@ -2,5 +2,6 @@
+ obj-$(CONFIG_SND_SOC_MEDIATEK) += common/
+ obj-$(CONFIG_SND_SOC_MT2701) += mt2701/
+ obj-$(CONFIG_SND_SOC_MT6797) += mt6797/
++obj-$(CONFIG_SND_SOC_MT79XX) += mt79xx/
+ obj-$(CONFIG_SND_SOC_MT8173) += mt8173/
+ obj-$(CONFIG_SND_SOC_MT8183) += mt8183/