[rdkb][common][bsp][Refactor and sync wifi from openwrt]
[Description]
1dacd97b [MAC80211][WiFi6][Misc][Fix patch fail]
7c02334a [MAC80211][WiFi7][Misc][Fix build fail because of mt76 version upgradation]
7a073097 [MAC80211][WiFi7][misc][ensure the first MLD bss is bss[0]]
27e2304c [MAC80211][WiFi6][mt76][Refactor due to atenl change]
1e1eb98e [MAC80211][WiFi6/7][app][Add single wiphy support for atenl & iwpriv wrapper]
d4101c33 [MAC80211][WiFi7][mt76][enable lftp for wifi7 r1 cert]
55f5732f [MAC80211][WiFi7][hostapd][set ctrl_interface for all bss]
[Release-log]
Change-Id: I9cad01561c310576a9e5bdc9f1b8eec3025e51d9
diff --git a/recipes-wifi/linux-mt76/files/patches-3.x/0019-mtk-wifi-mt76-mt7996-add-debug-tool.patch b/recipes-wifi/linux-mt76/files/patches-3.x/0019-mtk-wifi-mt76-mt7996-add-debug-tool.patch
new file mode 100644
index 0000000..e6aae93
--- /dev/null
+++ b/recipes-wifi/linux-mt76/files/patches-3.x/0019-mtk-wifi-mt76-mt7996-add-debug-tool.patch
@@ -0,0 +1,5413 @@
+From fe15bfb3335bcbdf95fed1563646d84154607b42 Mon Sep 17 00:00:00 2001
+From: Shayne Chen <shayne.chen@mediatek.com>
+Date: Fri, 24 Mar 2023 14:02:32 +0800
+Subject: [PATCH 019/116] mtk: wifi: mt76: mt7996: add debug tool
+
+Signed-off-by: StanleyYP Wang <StanleyYP.Wang@mediatek.com>
+
+Add PSM bit in sta_info
+
+Signed-off-by: Peter Chiu <chui-hao.chiu@mediatek.com>
+
+Remove the duplicate function in mtk_debugfs.c & mtk_debug_i.c
+Only enable mt7996_mcu_fw_log_2_host function in mcu.c
+
+Signed-off-by: MeiChia Chiu <meichia.chiu@mediatek.com>
+
+Support more ids category NDPA/NDP TXD/FBK and debug log recommended by
+CTD members.
+
+This commit equals to run the follwoing commands on Logan driver:
+command:
+1. iwpriv ra0 set fw_dbg=1:84
+2. iwpriv ra0 set fw_dbg=2:84
+3. iwpriv ra0 set fw_dbg=1:101
+
+Signed-off-by: Howard Hsu <howard-yh.hsu@mediatek.com>
+
+mtk: wifi: mt76: mt7996: add wtbl_info support for mt7992
+
+Signed-off-by: StanleyYP Wang <StanleyYP.Wang@mediatek.com>
+
+mtk: wifi: mt76: mt7996: add mt7992 & mt7996 CR debug offset revision
+
+Signed-off-by: StanleyYP Wang <StanleyYP.Wang@mediatek.com>
+
+mtk: wifi: mt76: mt7992: refactor code for FW log
+
+Refactor code for FW log.
+
+Signed-off-by: Benjamin Lin <benjamin-jw.lin@mediatek.com>
+
+mtk: wifi: mt76: mt7996: support disable muru debug info when recording fwlog
+
+When we record fwlog, we will also enable recording muru debug info log by
+default. However, in certain test scenarios, this can result in
+recording too many logs, causing inconvenience during issue analysis.
+Therefore, this commit adds an debug option, fw_debug_muru_disable, in
+debugfs. User can modify this option to enable/disable recording muru
+debug info log.
+
+[Usage]
+Set:
+$ echo val > debugfs/fw_debug_muru_disable
+Get:
+$ cat debugfs/fw_debug_muru_disable
+
+val can be the following values:
+0 = enable recording muru debug info (Default value)
+1 = disable recording muru debug info
+
+Signed-off-by: Howard Hsu <howard-yh.hsu@mediatek.com>
+
+mtk: wifi: mt76: mt7996: add adie id & ver dump
+
+Signed-off-by: StanleyYP Wang <StanleyYP.Wang@mediatek.com>
+---
+ mt76.h | 2 +
+ mt7996/Makefile | 4 +
+ mt7996/coredump.c | 10 +-
+ mt7996/coredump.h | 7 +
+ mt7996/debugfs.c | 128 ++-
+ mt7996/mac.c | 3 +
+ mt7996/mt7996.h | 13 +
+ mt7996/mtk_debug.h | 2286 ++++++++++++++++++++++++++++++++++++++
+ mt7996/mtk_debugfs.c | 2507 ++++++++++++++++++++++++++++++++++++++++++
+ mt7996/mtk_mcu.c | 39 +
+ mt7996/mtk_mcu.h | 19 +
+ tools/fwlog.c | 25 +-
+ 12 files changed, 5018 insertions(+), 25 deletions(-)
+ create mode 100644 mt7996/mtk_debug.h
+ create mode 100644 mt7996/mtk_debugfs.c
+ create mode 100644 mt7996/mtk_mcu.c
+ create mode 100644 mt7996/mtk_mcu.h
+
+diff --git a/mt76.h b/mt76.h
+index 7f3ec40..b421a98 100644
+--- a/mt76.h
++++ b/mt76.h
+@@ -399,6 +399,8 @@ struct mt76_txwi_cache {
+ struct sk_buff *skb;
+ void *ptr;
+ };
++
++ unsigned long jiffies;
+ };
+
+ struct mt76_rx_tid {
+diff --git a/mt7996/Makefile b/mt7996/Makefile
+index 07c8b55..a056b40 100644
+--- a/mt7996/Makefile
++++ b/mt7996/Makefile
+@@ -1,4 +1,6 @@
+ # SPDX-License-Identifier: ISC
++EXTRA_CFLAGS += -DCONFIG_MT76_LEDS
++EXTRA_CFLAGS += -DCONFIG_MTK_DEBUG
+
+ obj-$(CONFIG_MT7996E) += mt7996e.o
+
+@@ -6,3 +8,5 @@ mt7996e-y := pci.o init.o dma.o eeprom.o main.o mcu.o mac.o \
+ debugfs.o mmio.o
+
+ mt7996e-$(CONFIG_DEV_COREDUMP) += coredump.o
++
++mt7996e-y += mtk_debugfs.o mtk_mcu.o
+diff --git a/mt7996/coredump.c b/mt7996/coredump.c
+index 60b8808..a7f91b5 100644
+--- a/mt7996/coredump.c
++++ b/mt7996/coredump.c
+@@ -195,7 +195,7 @@ mt7996_coredump_fw_stack(struct mt7996_dev *dev, u8 type, struct mt7996_coredump
+ }
+ }
+
+-static struct mt7996_coredump *mt7996_coredump_build(struct mt7996_dev *dev, u8 type)
++struct mt7996_coredump *mt7996_coredump_build(struct mt7996_dev *dev, u8 type, bool full_dump)
+ {
+ struct mt7996_crash_data *crash_data = dev->coredump.crash_data[type];
+ struct mt7996_coredump *dump;
+@@ -206,7 +206,7 @@ static struct mt7996_coredump *mt7996_coredump_build(struct mt7996_dev *dev, u8
+
+ len = hdr_len;
+
+- if (coredump_memdump && crash_data->memdump_buf_len)
++ if (full_dump && coredump_memdump && crash_data->memdump_buf_len)
+ len += sizeof(*dump_mem) + crash_data->memdump_buf_len;
+
+ sofar += hdr_len;
+@@ -248,6 +248,9 @@ static struct mt7996_coredump *mt7996_coredump_build(struct mt7996_dev *dev, u8
+ mt7996_coredump_fw_state(dev, type, dump, &exception);
+ mt7996_coredump_fw_stack(dev, type, dump, exception);
+
++ if (!full_dump)
++ goto skip_dump_mem;
++
+ /* gather memory content */
+ dump_mem = (struct mt7996_coredump_mem *)(buf + sofar);
+ dump_mem->len = crash_data->memdump_buf_len;
+@@ -255,6 +258,7 @@ static struct mt7996_coredump *mt7996_coredump_build(struct mt7996_dev *dev, u8
+ memcpy(dump_mem->data, crash_data->memdump_buf,
+ crash_data->memdump_buf_len);
+
++skip_dump_mem:
+ mutex_unlock(&dev->dump_mutex);
+
+ return dump;
+@@ -264,7 +268,7 @@ int mt7996_coredump_submit(struct mt7996_dev *dev, u8 type)
+ {
+ struct mt7996_coredump *dump;
+
+- dump = mt7996_coredump_build(dev, type);
++ dump = mt7996_coredump_build(dev, type, true);
+ if (!dump) {
+ dev_warn(dev->mt76.dev, "no crash dump data found\n");
+ return -ENODATA;
+diff --git a/mt7996/coredump.h b/mt7996/coredump.h
+index 01ed373..93cd84a 100644
+--- a/mt7996/coredump.h
++++ b/mt7996/coredump.h
+@@ -75,6 +75,7 @@ struct mt7996_mem_region {
+ const struct mt7996_mem_region *
+ mt7996_coredump_get_mem_layout(struct mt7996_dev *dev, u8 type, u32 *num);
+ struct mt7996_crash_data *mt7996_coredump_new(struct mt7996_dev *dev, u8 type);
++struct mt7996_coredump *mt7996_coredump_build(struct mt7996_dev *dev, u8 type, bool full_dump);
+ int mt7996_coredump_submit(struct mt7996_dev *dev, u8 type);
+ int mt7996_coredump_register(struct mt7996_dev *dev);
+ void mt7996_coredump_unregister(struct mt7996_dev *dev);
+@@ -92,6 +93,12 @@ static inline int mt7996_coredump_submit(struct mt7996_dev *dev, u8 type)
+ return 0;
+ }
+
++static inline struct
++mt7996_coredump *mt7996_coredump_build(struct mt7996_dev *dev, u8 type, bool full_dump)
++{
++ return NULL;
++}
++
+ static inline struct
+ mt7996_crash_data *mt7996_coredump_new(struct mt7996_dev *dev, u8 type)
+ {
+diff --git a/mt7996/debugfs.c b/mt7996/debugfs.c
+index 62c03d0..344c759 100644
+--- a/mt7996/debugfs.c
++++ b/mt7996/debugfs.c
+@@ -295,11 +295,39 @@ mt7996_fw_debug_wm_set(void *data, u64 val)
+ DEBUG_SPL,
+ DEBUG_RPT_RX,
+ DEBUG_RPT_RA = 68,
+- } debug;
++ DEBUG_IDS_SND = 84,
++ DEBUG_IDS_PP = 93,
++ DEBUG_IDS_RA = 94,
++ DEBUG_IDS_BF = 95,
++ DEBUG_IDS_SR = 96,
++ DEBUG_IDS_RU = 97,
++ DEBUG_IDS_MUMIMO = 98,
++ DEBUG_IDS_ERR_LOG = 101,
++ };
++ u8 debug_category[] = {
++ DEBUG_TXCMD,
++ DEBUG_CMD_RPT_TX,
++ DEBUG_CMD_RPT_TRIG,
++ DEBUG_SPL,
++ DEBUG_RPT_RX,
++ DEBUG_RPT_RA,
++ DEBUG_IDS_SND,
++ DEBUG_IDS_PP,
++ DEBUG_IDS_RA,
++ DEBUG_IDS_BF,
++ DEBUG_IDS_SR,
++ DEBUG_IDS_RU,
++ DEBUG_IDS_MUMIMO,
++ DEBUG_IDS_ERR_LOG,
++ };
+ bool tx, rx, en;
+ int ret;
++ u8 i;
+
+ dev->fw_debug_wm = val ? MCU_FW_LOG_TO_HOST : 0;
++#ifdef CONFIG_MTK_DEBUG
++ dev->fw_debug_wm = val;
++#endif
+
+ if (dev->fw_debug_bin)
+ val = MCU_FW_LOG_RELAY;
+@@ -314,18 +342,21 @@ mt7996_fw_debug_wm_set(void *data, u64 val)
+ if (ret)
+ return ret;
+
+- for (debug = DEBUG_TXCMD; debug <= DEBUG_RPT_RA; debug++) {
+- if (debug == 67)
+- continue;
+-
+- if (debug == DEBUG_RPT_RX)
++ for (i = 0; i < ARRAY_SIZE(debug_category); i++) {
++ if (debug_category[i] == DEBUG_RPT_RX)
+ val = en && rx;
+ else
+ val = en && tx;
+
+- ret = mt7996_mcu_fw_dbg_ctrl(dev, debug, val);
++ ret = mt7996_mcu_fw_dbg_ctrl(dev, debug_category[i], val);
+ if (ret)
+ return ret;
++
++ if (debug_category[i] == DEBUG_IDS_SND && en) {
++ ret = mt7996_mcu_fw_dbg_ctrl(dev, debug_category[i], 2);
++ if (ret)
++ return ret;
++ }
+ }
+
+ return 0;
+@@ -397,6 +428,39 @@ remove_buf_file_cb(struct dentry *f)
+ return 0;
+ }
+
++static int
++mt7996_fw_debug_muru_set(void *data)
++{
++ struct mt7996_dev *dev = data;
++ enum {
++ DEBUG_BSRP_STATUS = 256,
++ DEBUG_TX_DATA_BYTE_CONUT,
++ DEBUG_RX_DATA_BYTE_CONUT,
++ DEBUG_RX_TOTAL_BYTE_CONUT,
++ DEBUG_INVALID_TID_BSR,
++ DEBUG_UL_LONG_TERM_PPDU_TYPE,
++ DEBUG_DL_LONG_TERM_PPDU_TYPE,
++ DEBUG_PPDU_CLASS_TRIG_ONOFF,
++ DEBUG_AIRTIME_BUSY_STATUS,
++ DEBUG_UL_OFDMA_MIMO_STATUS,
++ DEBUG_RU_CANDIDATE,
++ DEBUG_MEC_UPDATE_AMSDU,
++ } debug;
++ int ret;
++
++ if (dev->fw_debug_muru_disable)
++ return 0;
++
++ for (debug = DEBUG_BSRP_STATUS; debug <= DEBUG_MEC_UPDATE_AMSDU; debug++) {
++ ret = mt7996_mcu_muru_dbg_info(dev, debug,
++ dev->fw_debug_bin & BIT(0));
++ if (ret)
++ return ret;
++ }
++
++ return 0;
++}
++
+ static int
+ mt7996_fw_debug_bin_set(void *data, u64 val)
+ {
+@@ -405,17 +469,23 @@ mt7996_fw_debug_bin_set(void *data, u64 val)
+ .remove_buf_file = remove_buf_file_cb,
+ };
+ struct mt7996_dev *dev = data;
++ int ret;
+
+- if (!dev->relay_fwlog)
++ if (!dev->relay_fwlog) {
+ dev->relay_fwlog = relay_open("fwlog_data", dev->debugfs_dir,
+ 1500, 512, &relay_cb, NULL);
+- if (!dev->relay_fwlog)
+- return -ENOMEM;
++ if (!dev->relay_fwlog)
++ return -ENOMEM;
++ }
+
+ dev->fw_debug_bin = val;
+
+ relay_reset(dev->relay_fwlog);
+
++ ret = mt7996_fw_debug_muru_set(dev);
++ if (ret)
++ return ret;
++
+ return mt7996_fw_debug_wm_set(dev, dev->fw_debug_wm);
+ }
+
+@@ -785,6 +855,30 @@ mt7996_rf_regval_set(void *data, u64 val)
+ DEFINE_DEBUGFS_ATTRIBUTE(fops_rf_regval, mt7996_rf_regval_get,
+ mt7996_rf_regval_set, "0x%08llx\n");
+
++static int
++mt7996_fw_debug_muru_disable_set(void *data, u64 val)
++{
++ struct mt7996_dev *dev = data;
++
++ dev->fw_debug_muru_disable = !!val;
++
++ return 0;
++}
++
++static int
++mt7996_fw_debug_muru_disable_get(void *data, u64 *val)
++{
++ struct mt7996_dev *dev = data;
++
++ *val = dev->fw_debug_muru_disable;
++
++ return 0;
++}
++
++DEFINE_DEBUGFS_ATTRIBUTE(fops_fw_debug_muru_disable,
++ mt7996_fw_debug_muru_disable_get,
++ mt7996_fw_debug_muru_disable_set, "%lld\n");
++
+ int mt7996_init_debugfs(struct mt7996_phy *phy)
+ {
+ struct mt7996_dev *dev = phy->dev;
+@@ -820,10 +914,17 @@ int mt7996_init_debugfs(struct mt7996_phy *phy)
+ debugfs_create_devm_seqfile(dev->mt76.dev, "rdd_monitor", dir,
+ mt7996_rdd_monitor);
+ }
++ debugfs_create_file("fw_debug_muru_disable", 0600, dir, dev,
++ &fops_fw_debug_muru_disable);
+
+ if (phy == &dev->phy)
+ dev->debugfs_dir = dir;
+
++#ifdef CONFIG_MTK_DEBUG
++ debugfs_create_u16("wlan_idx", 0600, dir, &dev->wlan_idx);
++ mt7996_mtk_init_debugfs(phy, dir);
++#endif
++
+ return 0;
+ }
+
+@@ -835,7 +936,11 @@ mt7996_debugfs_write_fwlog(struct mt7996_dev *dev, const void *hdr, int hdrlen,
+ unsigned long flags;
+ void *dest;
+
++ if (!dev->relay_fwlog)
++ return;
++
+ spin_lock_irqsave(&lock, flags);
++
+ dest = relay_reserve(dev->relay_fwlog, hdrlen + len + 4);
+ if (dest) {
+ *(u32 *)dest = hdrlen + len;
+@@ -868,9 +973,6 @@ void mt7996_debugfs_rx_fw_monitor(struct mt7996_dev *dev, const void *data, int
+ .msg_type = cpu_to_le16(PKT_TYPE_RX_FW_MONITOR),
+ };
+
+- if (!dev->relay_fwlog)
+- return;
+-
+ hdr.serial_id = cpu_to_le16(dev->fw_debug_seq++);
+ hdr.timestamp = cpu_to_le32(mt76_rr(dev, MT_LPON_FRCR(0)));
+ hdr.len = *(__le16 *)data;
+diff --git a/mt7996/mac.c b/mt7996/mac.c
+index d88bbfb..1f53d23 100644
+--- a/mt7996/mac.c
++++ b/mt7996/mac.c
+@@ -936,6 +936,9 @@ int mt7996_tx_prepare_skb(struct mt76_dev *mdev, void *txwi_ptr,
+ id = mt76_token_consume(mdev, &t);
+ if (id < 0)
+ return id;
++#ifdef CONFIG_MTK_DEBUG
++ t->jiffies = jiffies;
++#endif
+
+ pid = mt76_tx_status_skb_add(mdev, wcid, tx_info->skb);
+ memset(txwi_ptr, 0, MT_TXD_SIZE);
+diff --git a/mt7996/mt7996.h b/mt7996/mt7996.h
+index e12ad31..696e16f 100644
+--- a/mt7996/mt7996.h
++++ b/mt7996/mt7996.h
+@@ -362,6 +362,7 @@ struct mt7996_dev {
+ u8 fw_debug_wa;
+ u8 fw_debug_bin;
+ u16 fw_debug_seq;
++ bool fw_debug_muru_disable;
+
+ struct dentry *debugfs_dir;
+ struct rchan *relay_fwlog;
+@@ -374,6 +375,17 @@ struct mt7996_dev {
+ spinlock_t reg_lock;
+
+ u8 wtbl_size_group;
++
++#ifdef CONFIG_MTK_DEBUG
++ u16 wlan_idx;
++ struct {
++ u8 sku_disable;
++ u32 fw_dbg_module;
++ u8 fw_dbg_lv;
++ u32 bcn_total_cnt[__MT_MAX_BAND];
++ } dbg;
++ const struct mt7996_dbg_reg_desc *dbg_reg;
++#endif
+ };
+
+ enum {
+@@ -670,6 +682,7 @@ u32 mt7996_wed_init_buf(void *ptr, dma_addr_t phys, int token_id);
+
+ #ifdef CONFIG_MTK_DEBUG
+ int mt7996_mtk_init_debugfs(struct mt7996_phy *phy, struct dentry *dir);
++int mt7996_mcu_muru_dbg_info(struct mt7996_dev *dev, u16 item, u8 val);
+ #endif
+
+ #ifdef CONFIG_NET_MEDIATEK_SOC_WED
+diff --git a/mt7996/mtk_debug.h b/mt7996/mtk_debug.h
+new file mode 100644
+index 0000000..27d8f1c
+--- /dev/null
++++ b/mt7996/mtk_debug.h
+@@ -0,0 +1,2286 @@
++#ifndef __MTK_DEBUG_H
++#define __MTK_DEBUG_H
++
++#ifdef CONFIG_MTK_DEBUG
++#define NO_SHIFT_DEFINE 0xFFFFFFFF
++#define BITS(m, n) (~(BIT(m)-1) & ((BIT(n) - 1) | BIT(n)))
++
++#define GET_FIELD(_field, _reg) \
++ ({ \
++ (((_reg) & (_field##_MASK)) >> (_field##_SHIFT)); \
++ })
++
++#define __DBG_OFFS(id) (dev->dbg_reg->offs_rev[(id)])
++
++enum dbg_offs_rev {
++ AGG_AALCR2,
++ AGG_AALCR3,
++ AGG_AALCR4,
++ AGG_AALCR5,
++ AGG_AALCR6,
++ AGG_AALCR7,
++ MIB_TDRCR0,
++ MIB_TDRCR1,
++ MIB_TDRCR2,
++ MIB_TDRCR3,
++ MIB_TDRCR4,
++ MIB_RSCR26,
++ MIB_TSCR18,
++ MIB_TRDR0,
++ MIB_TRDR2,
++ MIB_TRDR3,
++ MIB_TRDR4,
++ MIB_TRDR5,
++ MIB_TRDR6,
++ MIB_TRDR7,
++ MIB_TRDR8,
++ MIB_TRDR9,
++ MIB_TRDR10,
++ MIB_TRDR11,
++ MIB_TRDR12,
++ MIB_TRDR13,
++ MIB_TRDR14,
++ MIB_TRDR15,
++ MIB_MSR0,
++ MIB_MSR1,
++ MIB_MSR2,
++ MIB_MCTR5,
++ MIB_MCTR6,
++ __MT_DBG_OFFS_REV_MAX,
++};
++
++static const u32 mt7996_dbg_offs[] = {
++ [AGG_AALCR2] = 0x128,
++ [AGG_AALCR3] = 0x12c,
++ [AGG_AALCR4] = 0x130,
++ [AGG_AALCR5] = 0x134,
++ [AGG_AALCR6] = 0x138,
++ [AGG_AALCR7] = 0x13c,
++ [MIB_TDRCR0] = 0x728,
++ [MIB_TDRCR1] = 0x72c,
++ [MIB_TDRCR2] = 0x730,
++ [MIB_TDRCR3] = 0x734,
++ [MIB_TDRCR4] = 0x738,
++ [MIB_RSCR26] = 0x950,
++ [MIB_TSCR18] = 0xa1c,
++ [MIB_TRDR0] = 0xa24,
++ [MIB_TRDR2] = 0xa2c,
++ [MIB_TRDR3] = 0xa30,
++ [MIB_TRDR4] = 0xa34,
++ [MIB_TRDR5] = 0xa38,
++ [MIB_TRDR6] = 0xa3c,
++ [MIB_TRDR7] = 0xa40,
++ [MIB_TRDR8] = 0xa44,
++ [MIB_TRDR9] = 0xa48,
++ [MIB_TRDR10] = 0xa4c,
++ [MIB_TRDR11] = 0xa50,
++ [MIB_TRDR12] = 0xa54,
++ [MIB_TRDR13] = 0xa58,
++ [MIB_TRDR14] = 0xa5c,
++ [MIB_TRDR15] = 0xa60,
++ [MIB_MSR0] = 0xa64,
++ [MIB_MSR1] = 0xa68,
++ [MIB_MSR2] = 0xa6c,
++ [MIB_MCTR5] = 0xa70,
++ [MIB_MCTR6] = 0xa74,
++};
++
++static const u32 mt7992_dbg_offs[] = {
++ [AGG_AALCR2] = 0x12c,
++ [AGG_AALCR3] = 0x130,
++ [AGG_AALCR4] = 0x134,
++ [AGG_AALCR5] = 0x138,
++ [AGG_AALCR6] = 0x13c,
++ [AGG_AALCR7] = 0x140,
++ [MIB_TDRCR0] = 0x768,
++ [MIB_TDRCR1] = 0x76c,
++ [MIB_TDRCR2] = 0x770,
++ [MIB_TDRCR3] = 0x774,
++ [MIB_TDRCR4] = 0x778,
++ [MIB_RSCR26] = 0x994,
++ [MIB_TSCR18] = 0xb18,
++ [MIB_TRDR0] = 0xb20,
++ [MIB_TRDR2] = 0xb28,
++ [MIB_TRDR3] = 0xb2c,
++ [MIB_TRDR4] = 0xb30,
++ [MIB_TRDR5] = 0xb34,
++ [MIB_TRDR6] = 0xb38,
++ [MIB_TRDR7] = 0xb3c,
++ [MIB_TRDR8] = 0xb40,
++ [MIB_TRDR9] = 0xb44,
++ [MIB_TRDR10] = 0xb48,
++ [MIB_TRDR11] = 0xb4c,
++ [MIB_TRDR12] = 0xb50,
++ [MIB_TRDR13] = 0xb54,
++ [MIB_TRDR14] = 0xb58,
++ [MIB_TRDR15] = 0xb5c,
++ [MIB_MSR0] = 0xb60,
++ [MIB_MSR1] = 0xb64,
++ [MIB_MSR2] = 0xb68,
++ [MIB_MCTR5] = 0xb6c,
++ [MIB_MCTR6] = 0xb70,
++};
++
++/* used to differentiate between generations */
++struct mt7996_dbg_reg_desc {
++ const u32 id;
++ const u32 *offs_rev;
++};
++
++/* AGG */
++#define BN0_WF_AGG_TOP_BASE 0x820e2000
++#define BN1_WF_AGG_TOP_BASE 0x820f2000
++#define IP1_BN0_WF_AGG_TOP_BASE 0x830e2000
++
++#define BN0_WF_AGG_TOP_SCR_ADDR (BN0_WF_AGG_TOP_BASE + 0x0) // 2000
++#define BN0_WF_AGG_TOP_SCR0_ADDR (BN0_WF_AGG_TOP_BASE + 0x4) // 2004
++#define BN0_WF_AGG_TOP_SCR1_ADDR (BN0_WF_AGG_TOP_BASE + 0x8) // 2008
++#define BN0_WF_AGG_TOP_BCR_ADDR (BN0_WF_AGG_TOP_BASE + 0xc) // 200C
++#define BN0_WF_AGG_TOP_BWCR_ADDR (BN0_WF_AGG_TOP_BASE + 0x10) // 2010
++#define BN0_WF_AGG_TOP_ARCR0_ADDR (BN0_WF_AGG_TOP_BASE + 0x14) // 2014
++#define BN0_WF_AGG_TOP_ARUCR_ADDR (BN0_WF_AGG_TOP_BASE + 0x18) // 2018
++#define BN0_WF_AGG_TOP_ARDCR_ADDR (BN0_WF_AGG_TOP_BASE + 0x1c) // 201C
++#define BN0_WF_AGG_TOP_AALCR0_ADDR (BN0_WF_AGG_TOP_BASE + 0x20) // 2020
++#define BN0_WF_AGG_TOP_AALCR1_ADDR (BN0_WF_AGG_TOP_BASE + 0x24) // 2024
++#define BN0_WF_AGG_TOP_PCR0_ADDR (BN0_WF_AGG_TOP_BASE + 0x28) // 2028
++#define BN0_WF_AGG_TOP_PCR1_ADDR (BN0_WF_AGG_TOP_BASE + 0x2c) // 202C
++#define BN0_WF_AGG_TOP_TTCR0_ADDR (BN0_WF_AGG_TOP_BASE + 0x30) // 2030
++#define BN0_WF_AGG_TOP_TTCR1_ADDR (BN0_WF_AGG_TOP_BASE + 0x34) // 2034
++#define BN0_WF_AGG_TOP_ACR1_ADDR (BN0_WF_AGG_TOP_BASE + 0x38) // 2038
++#define BN0_WF_AGG_TOP_ACR4_ADDR (BN0_WF_AGG_TOP_BASE + 0x3c) // 203C
++#define BN0_WF_AGG_TOP_ACR5_ADDR (BN0_WF_AGG_TOP_BASE + 0x40) // 2040
++#define BN0_WF_AGG_TOP_ACR6_ADDR (BN0_WF_AGG_TOP_BASE + 0x44) // 2044
++#define BN0_WF_AGG_TOP_ACR8_ADDR (BN0_WF_AGG_TOP_BASE + 0x4c) // 204C
++#define BN0_WF_AGG_TOP_MRCR_ADDR (BN0_WF_AGG_TOP_BASE + 0x50) // 2050
++#define BN0_WF_AGG_TOP_MMPDR_ADDR (BN0_WF_AGG_TOP_BASE + 0x54) // 2054
++#define BN0_WF_AGG_TOP_GFPDR_ADDR (BN0_WF_AGG_TOP_BASE + 0x58) // 2058
++#define BN0_WF_AGG_TOP_VHTPDR_ADDR (BN0_WF_AGG_TOP_BASE + 0x5c) // 205C
++#define BN0_WF_AGG_TOP_HEPDR_ADDR (BN0_WF_AGG_TOP_BASE + 0x60) // 2060
++#define BN0_WF_AGG_TOP_CTCR_ADDR (BN0_WF_AGG_TOP_BASE + 0x64) // 2064
++#define BN0_WF_AGG_TOP_ATCR3_ADDR (BN0_WF_AGG_TOP_BASE + 0x68) // 2068
++#define BN0_WF_AGG_TOP_SRCR_ADDR (BN0_WF_AGG_TOP_BASE + 0x6c) // 206C
++#define BN0_WF_AGG_TOP_VBCR_ADDR (BN0_WF_AGG_TOP_BASE + 0x70) // 2070
++#define BN0_WF_AGG_TOP_TCR_ADDR (BN0_WF_AGG_TOP_BASE + 0x74) // 2074
++#define BN0_WF_AGG_TOP_SRHS_ADDR (BN0_WF_AGG_TOP_BASE + 0x78) // 2078
++#define BN0_WF_AGG_TOP_DBRCR0_ADDR (BN0_WF_AGG_TOP_BASE + 0x7c) // 207C
++#define BN0_WF_AGG_TOP_DBRCR1_ADDR (BN0_WF_AGG_TOP_BASE + 0x80) // 2080
++#define BN0_WF_AGG_TOP_CTETCR_ADDR (BN0_WF_AGG_TOP_BASE + 0x84) // 2084
++#define BN0_WF_AGG_TOP_WPDR_ADDR (BN0_WF_AGG_TOP_BASE + 0x88) // 2088
++#define BN0_WF_AGG_TOP_PLRPDR_ADDR (BN0_WF_AGG_TOP_BASE + 0x8c) // 208C
++#define BN0_WF_AGG_TOP_CECR_ADDR (BN0_WF_AGG_TOP_BASE + 0x90) // 2090
++#define BN0_WF_AGG_TOP_OMRCR0_ADDR (BN0_WF_AGG_TOP_BASE + 0x94) // 2094
++#define BN0_WF_AGG_TOP_OMRCR1_ADDR (BN0_WF_AGG_TOP_BASE + 0x98) // 2098
++#define BN0_WF_AGG_TOP_OMRCR2_ADDR (BN0_WF_AGG_TOP_BASE + 0x9c) // 209C
++#define BN0_WF_AGG_TOP_OMRCR3_ADDR (BN0_WF_AGG_TOP_BASE + 0xa0) // 20A0
++#define BN0_WF_AGG_TOP_TMCR_ADDR (BN0_WF_AGG_TOP_BASE + 0xa4) // 20A4
++#define BN0_WF_AGG_TOP_TWTCR_ADDR (BN0_WF_AGG_TOP_BASE + 0xa8) // 20A8
++#define BN0_WF_AGG_TOP_TWTSTACR_ADDR (BN0_WF_AGG_TOP_BASE + 0xac) // 20AC
++#define BN0_WF_AGG_TOP_TWTE0TB_ADDR (BN0_WF_AGG_TOP_BASE + 0xb0) // 20B0
++#define BN0_WF_AGG_TOP_TWTE1TB_ADDR (BN0_WF_AGG_TOP_BASE + 0xb4) // 20B4
++#define BN0_WF_AGG_TOP_TWTE2TB_ADDR (BN0_WF_AGG_TOP_BASE + 0xb8) // 20B8
++#define BN0_WF_AGG_TOP_TWTE3TB_ADDR (BN0_WF_AGG_TOP_BASE + 0xbc) // 20BC
++#define BN0_WF_AGG_TOP_TWTE4TB_ADDR (BN0_WF_AGG_TOP_BASE + 0xc0) // 20C0
++#define BN0_WF_AGG_TOP_TWTE5TB_ADDR (BN0_WF_AGG_TOP_BASE + 0xc4) // 20C4
++#define BN0_WF_AGG_TOP_TWTE6TB_ADDR (BN0_WF_AGG_TOP_BASE + 0xc8) // 20C8
++#define BN0_WF_AGG_TOP_TWTE7TB_ADDR (BN0_WF_AGG_TOP_BASE + 0xcc) // 20CC
++#define BN0_WF_AGG_TOP_TWTE8TB_ADDR (BN0_WF_AGG_TOP_BASE + 0xd0) // 20D0
++#define BN0_WF_AGG_TOP_TWTE9TB_ADDR (BN0_WF_AGG_TOP_BASE + 0xd4) // 20D4
++#define BN0_WF_AGG_TOP_TWTEATB_ADDR (BN0_WF_AGG_TOP_BASE + 0xd8) // 20D8
++#define BN0_WF_AGG_TOP_TWTEBTB_ADDR (BN0_WF_AGG_TOP_BASE + 0xdc) // 20DC
++#define BN0_WF_AGG_TOP_TWTECTB_ADDR (BN0_WF_AGG_TOP_BASE + 0xe0) // 20E0
++#define BN0_WF_AGG_TOP_TWTEDTB_ADDR (BN0_WF_AGG_TOP_BASE + 0xe4) // 20E4
++#define BN0_WF_AGG_TOP_TWTEETB_ADDR (BN0_WF_AGG_TOP_BASE + 0xe8) // 20E8
++#define BN0_WF_AGG_TOP_TWTEFTB_ADDR (BN0_WF_AGG_TOP_BASE + 0xec) // 20EC
++#define BN0_WF_AGG_TOP_ATCR0_ADDR (BN0_WF_AGG_TOP_BASE + 0x108) // 2108
++#define BN0_WF_AGG_TOP_ATCR1_ADDR (BN0_WF_AGG_TOP_BASE + 0x10c) // 210C
++#define BN0_WF_AGG_TOP_TCCR_ADDR (BN0_WF_AGG_TOP_BASE + 0x110) // 2110
++#define BN0_WF_AGG_TOP_TFCR_ADDR (BN0_WF_AGG_TOP_BASE + 0x114) // 2114
++#define BN0_WF_AGG_TOP_MUCR0_ADDR (BN0_WF_AGG_TOP_BASE + 0x118) // 2118
++#define BN0_WF_AGG_TOP_MUCR1_ADDR (BN0_WF_AGG_TOP_BASE + 0x11c) // 211C
++#define BN0_WF_AGG_TOP_AALCR2_ADDR (BN0_WF_AGG_TOP_BASE + __DBG_OFFS(AGG_AALCR2))
++#define BN0_WF_AGG_TOP_AALCR3_ADDR (BN0_WF_AGG_TOP_BASE + __DBG_OFFS(AGG_AALCR3))
++#define BN0_WF_AGG_TOP_AALCR4_ADDR (BN0_WF_AGG_TOP_BASE + __DBG_OFFS(AGG_AALCR4))
++#define BN0_WF_AGG_TOP_AALCR5_ADDR (BN0_WF_AGG_TOP_BASE + __DBG_OFFS(AGG_AALCR5))
++#define BN0_WF_AGG_TOP_AALCR6_ADDR (BN0_WF_AGG_TOP_BASE + __DBG_OFFS(AGG_AALCR6))
++#define BN0_WF_AGG_TOP_AALCR7_ADDR (BN0_WF_AGG_TOP_BASE + __DBG_OFFS(AGG_AALCR7))
++#define BN0_WF_AGG_TOP_CSDCR0_ADDR (BN0_WF_AGG_TOP_BASE + 0x150) // 2150
++#define BN0_WF_AGG_TOP_CSDCR1_ADDR (BN0_WF_AGG_TOP_BASE + 0x154) // 2154
++#define BN0_WF_AGG_TOP_CSDCR2_ADDR (BN0_WF_AGG_TOP_BASE + 0x158) // 2158
++#define BN0_WF_AGG_TOP_CSDCR3_ADDR (BN0_WF_AGG_TOP_BASE + 0x15c) // 215C
++#define BN0_WF_AGG_TOP_CSDCR4_ADDR (BN0_WF_AGG_TOP_BASE + 0x160) // 2160
++#define BN0_WF_AGG_TOP_DYNSCR_ADDR (BN0_WF_AGG_TOP_BASE + 0x178) // 2178
++#define BN0_WF_AGG_TOP_DYNSSCR_ADDR (BN0_WF_AGG_TOP_BASE + 0x198) // 2198
++#define BN0_WF_AGG_TOP_TCDCNT0_ADDR (BN0_WF_AGG_TOP_BASE + 0x2c8) // 22C8
++#define BN0_WF_AGG_TOP_TCDCNT1_ADDR (BN0_WF_AGG_TOP_BASE + 0x2cc) // 22CC
++#define BN0_WF_AGG_TOP_TCSR0_ADDR (BN0_WF_AGG_TOP_BASE + 0x2d0) // 22D0
++#define BN0_WF_AGG_TOP_TCSR1_ADDR (BN0_WF_AGG_TOP_BASE + 0x2d4) // 22D4
++#define BN0_WF_AGG_TOP_TCSR2_ADDR (BN0_WF_AGG_TOP_BASE + 0x2d8) // 22D8
++#define BN0_WF_AGG_TOP_DCR_ADDR (BN0_WF_AGG_TOP_BASE + 0x2e4) // 22E4
++#define BN0_WF_AGG_TOP_SMDCR_ADDR (BN0_WF_AGG_TOP_BASE + 0x2e8) // 22E8
++#define BN0_WF_AGG_TOP_TXCMDSMCR_ADDR (BN0_WF_AGG_TOP_BASE + 0x2ec) // 22EC
++#define BN0_WF_AGG_TOP_SMCR0_ADDR (BN0_WF_AGG_TOP_BASE + 0x2f0) // 22F0
++#define BN0_WF_AGG_TOP_SMCR1_ADDR (BN0_WF_AGG_TOP_BASE + 0x2f4) // 22F4
++#define BN0_WF_AGG_TOP_SMCR2_ADDR (BN0_WF_AGG_TOP_BASE + 0x2f8) // 22F8
++#define BN0_WF_AGG_TOP_SMCR3_ADDR (BN0_WF_AGG_TOP_BASE + 0x2fc) // 22FC
++
++#define BN0_WF_AGG_TOP_AALCR0_AC01_AGG_LIMIT_ADDR BN0_WF_AGG_TOP_AALCR0_ADDR
++#define BN0_WF_AGG_TOP_AALCR0_AC01_AGG_LIMIT_MASK 0x03FF0000 // AC01_AGG_LIMIT[25..16]
++#define BN0_WF_AGG_TOP_AALCR0_AC01_AGG_LIMIT_SHFT 16
++#define BN0_WF_AGG_TOP_AALCR0_AC00_AGG_LIMIT_ADDR BN0_WF_AGG_TOP_AALCR0_ADDR
++#define BN0_WF_AGG_TOP_AALCR0_AC00_AGG_LIMIT_MASK 0x000003FF // AC00_AGG_LIMIT[9..0]
++#define BN0_WF_AGG_TOP_AALCR0_AC00_AGG_LIMIT_SHFT 0
++
++#define BN0_WF_AGG_TOP_AALCR1_AC03_AGG_LIMIT_ADDR BN0_WF_AGG_TOP_AALCR1_ADDR
++#define BN0_WF_AGG_TOP_AALCR1_AC03_AGG_LIMIT_MASK 0x03FF0000 // AC03_AGG_LIMIT[25..16]
++#define BN0_WF_AGG_TOP_AALCR1_AC03_AGG_LIMIT_SHFT 16
++#define BN0_WF_AGG_TOP_AALCR1_AC02_AGG_LIMIT_ADDR BN0_WF_AGG_TOP_AALCR1_ADDR
++#define BN0_WF_AGG_TOP_AALCR1_AC02_AGG_LIMIT_MASK 0x000003FF // AC02_AGG_LIMIT[9..0]
++#define BN0_WF_AGG_TOP_AALCR1_AC02_AGG_LIMIT_SHFT 0
++
++#define BN0_WF_AGG_TOP_AALCR2_AC11_AGG_LIMIT_ADDR BN0_WF_AGG_TOP_AALCR2_ADDR
++#define BN0_WF_AGG_TOP_AALCR2_AC11_AGG_LIMIT_MASK 0x03FF0000 // AC11_AGG_LIMIT[25..16]
++#define BN0_WF_AGG_TOP_AALCR2_AC11_AGG_LIMIT_SHFT 16
++#define BN0_WF_AGG_TOP_AALCR2_AC10_AGG_LIMIT_ADDR BN0_WF_AGG_TOP_AALCR2_ADDR
++#define BN0_WF_AGG_TOP_AALCR2_AC10_AGG_LIMIT_MASK 0x000003FF // AC10_AGG_LIMIT[9..0]
++#define BN0_WF_AGG_TOP_AALCR2_AC10_AGG_LIMIT_SHFT 0
++
++#define BN0_WF_AGG_TOP_AALCR3_AC13_AGG_LIMIT_ADDR BN0_WF_AGG_TOP_AALCR3_ADDR
++#define BN0_WF_AGG_TOP_AALCR3_AC13_AGG_LIMIT_MASK 0x03FF0000 // AC13_AGG_LIMIT[25..16]
++#define BN0_WF_AGG_TOP_AALCR3_AC13_AGG_LIMIT_SHFT 16
++#define BN0_WF_AGG_TOP_AALCR3_AC12_AGG_LIMIT_ADDR BN0_WF_AGG_TOP_AALCR3_ADDR
++#define BN0_WF_AGG_TOP_AALCR3_AC12_AGG_LIMIT_MASK 0x000003FF // AC12_AGG_LIMIT[9..0]
++#define BN0_WF_AGG_TOP_AALCR3_AC12_AGG_LIMIT_SHFT 0
++
++#define BN0_WF_AGG_TOP_AALCR4_AC21_AGG_LIMIT_ADDR BN0_WF_AGG_TOP_AALCR4_ADDR
++#define BN0_WF_AGG_TOP_AALCR4_AC21_AGG_LIMIT_MASK 0x03FF0000 // AC21_AGG_LIMIT[25..16]
++#define BN0_WF_AGG_TOP_AALCR4_AC21_AGG_LIMIT_SHFT 16
++#define BN0_WF_AGG_TOP_AALCR4_AC20_AGG_LIMIT_ADDR BN0_WF_AGG_TOP_AALCR4_ADDR
++#define BN0_WF_AGG_TOP_AALCR4_AC20_AGG_LIMIT_MASK 0x000003FF // AC20_AGG_LIMIT[9..0]
++#define BN0_WF_AGG_TOP_AALCR4_AC20_AGG_LIMIT_SHFT 0
++
++#define BN0_WF_AGG_TOP_AALCR5_AC23_AGG_LIMIT_ADDR BN0_WF_AGG_TOP_AALCR5_ADDR
++#define BN0_WF_AGG_TOP_AALCR5_AC23_AGG_LIMIT_MASK 0x03FF0000 // AC23_AGG_LIMIT[25..16]
++#define BN0_WF_AGG_TOP_AALCR5_AC23_AGG_LIMIT_SHFT 16
++#define BN0_WF_AGG_TOP_AALCR5_AC22_AGG_LIMIT_ADDR BN0_WF_AGG_TOP_AALCR5_ADDR
++#define BN0_WF_AGG_TOP_AALCR5_AC22_AGG_LIMIT_MASK 0x000003FF // AC22_AGG_LIMIT[9..0]
++#define BN0_WF_AGG_TOP_AALCR5_AC22_AGG_LIMIT_SHFT 0
++
++#define BN0_WF_AGG_TOP_AALCR6_AC31_AGG_LIMIT_ADDR BN0_WF_AGG_TOP_AALCR6_ADDR
++#define BN0_WF_AGG_TOP_AALCR6_AC31_AGG_LIMIT_MASK 0x03FF0000 // AC31_AGG_LIMIT[25..16]
++#define BN0_WF_AGG_TOP_AALCR6_AC31_AGG_LIMIT_SHFT 16
++#define BN0_WF_AGG_TOP_AALCR6_AC30_AGG_LIMIT_ADDR BN0_WF_AGG_TOP_AALCR6_ADDR
++#define BN0_WF_AGG_TOP_AALCR6_AC30_AGG_LIMIT_MASK 0x000003FF // AC30_AGG_LIMIT[9..0]
++#define BN0_WF_AGG_TOP_AALCR6_AC30_AGG_LIMIT_SHFT 0
++#define BN0_WF_AGG_TOP_AALCR7_AC33_AGG_LIMIT_ADDR BN0_WF_AGG_TOP_AALCR7_ADDR
++#define BN0_WF_AGG_TOP_AALCR7_AC33_AGG_LIMIT_MASK 0x03FF0000 // AC33_AGG_LIMIT[25..16]
++#define BN0_WF_AGG_TOP_AALCR7_AC33_AGG_LIMIT_SHFT 16
++#define BN0_WF_AGG_TOP_AALCR7_AC32_AGG_LIMIT_ADDR BN0_WF_AGG_TOP_AALCR7_ADDR
++#define BN0_WF_AGG_TOP_AALCR7_AC32_AGG_LIMIT_MASK 0x000003FF // AC32_AGG_LIMIT[9..0]
++#define BN0_WF_AGG_TOP_AALCR7_AC32_AGG_LIMIT_SHFT 0
++
++/* DMA */
++struct queue_desc {
++ u32 hw_desc_base;
++ u16 ring_size;
++ char *const ring_info;
++};
++
++// HOST DMA
++#define WF_WFDMA_HOST_DMA0_BASE 0xd4000
++
++#define WF_WFDMA_HOST_DMA0_HOST_INT_STA_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x200) /* 4200 */
++#define WF_WFDMA_HOST_DMA0_HOST_INT_ENA_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0X204) /* 4204 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_GLO_CFG_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x208) /* 4208 */
++
++#define WF_WFDMA_HOST_DMA0_WPDMA_GLO_CFG_RX_DMA_BUSY_ADDR \
++ WF_WFDMA_HOST_DMA0_WPDMA_GLO_CFG_ADDR
++#define WF_WFDMA_HOST_DMA0_WPDMA_GLO_CFG_RX_DMA_BUSY_MASK \
++ 0x00000008 /* RX_DMA_BUSY[3] */
++#define WF_WFDMA_HOST_DMA0_WPDMA_GLO_CFG_RX_DMA_BUSY_SHFT 3
++#define WF_WFDMA_HOST_DMA0_WPDMA_GLO_CFG_RX_DMA_EN_ADDR \
++ WF_WFDMA_HOST_DMA0_WPDMA_GLO_CFG_ADDR
++#define WF_WFDMA_HOST_DMA0_WPDMA_GLO_CFG_RX_DMA_EN_MASK \
++ 0x00000004 /* RX_DMA_EN[2] */
++#define WF_WFDMA_HOST_DMA0_WPDMA_GLO_CFG_RX_DMA_EN_SHFT 2
++#define WF_WFDMA_HOST_DMA0_WPDMA_GLO_CFG_TX_DMA_BUSY_ADDR \
++ WF_WFDMA_HOST_DMA0_WPDMA_GLO_CFG_ADDR
++#define WF_WFDMA_HOST_DMA0_WPDMA_GLO_CFG_TX_DMA_BUSY_MASK \
++ 0x00000002 /* TX_DMA_BUSY[1] */
++#define WF_WFDMA_HOST_DMA0_WPDMA_GLO_CFG_TX_DMA_BUSY_SHFT 1
++#define WF_WFDMA_HOST_DMA0_WPDMA_GLO_CFG_TX_DMA_EN_ADDR \
++ WF_WFDMA_HOST_DMA0_WPDMA_GLO_CFG_ADDR
++#define WF_WFDMA_HOST_DMA0_WPDMA_GLO_CFG_TX_DMA_EN_MASK \
++ 0x00000001 /* TX_DMA_EN[0] */
++#define WF_WFDMA_HOST_DMA0_WPDMA_GLO_CFG_TX_DMA_EN_SHFT 0
++
++
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING0_CTRL0_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x300) /* 4300 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING0_CTRL1_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x304) /* 4304 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING0_CTRL2_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x308) /* 4308 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING0_CTRL3_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x30c) /* 430C */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING1_CTRL0_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x310) /* 4310 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING1_CTRL1_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x314) /* 4314 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING1_CTRL2_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x318) /* 4318 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING1_CTRL3_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x31c) /* 431C */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING2_CTRL0_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x320) /* 4320 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING2_CTRL1_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x324) /* 4324 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING2_CTRL2_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x328) /* 4328 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING2_CTRL3_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x32c) /* 432C */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING3_CTRL0_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x330) /* 4330 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING3_CTRL1_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x334) /* 4334 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING3_CTRL2_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x338) /* 4338 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING3_CTRL3_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x33c) /* 433C */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING4_CTRL0_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x340) /* 4340 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING4_CTRL1_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x344) /* 4344 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING4_CTRL2_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x348) /* 4348 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING4_CTRL3_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x34c) /* 434C */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING5_CTRL0_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x350) /* 4350 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING5_CTRL1_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x354) /* 4354 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING5_CTRL2_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x358) /* 4358 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING5_CTRL3_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x35c) /* 435C */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING6_CTRL0_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x360) /* 4360 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING6_CTRL1_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x364) /* 4364 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING6_CTRL2_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x368) /* 4368 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING6_CTRL3_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x36c) /* 436C */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING16_CTRL0_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x400) /* 4400 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING16_CTRL1_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x404) /* 4404 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING16_CTRL2_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x408) /* 4408 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING16_CTRL3_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x40c) /* 440C */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING17_CTRL0_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x410) /* 4410 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING17_CTRL1_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x414) /* 4414 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING17_CTRL2_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x418) /* 4418 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING17_CTRL3_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x41c) /* 441C */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING18_CTRL0_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x420) /* 4420 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING18_CTRL1_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x424) /* 4424 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING18_CTRL2_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x428) /* 4428 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING18_CTRL3_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x42c) /* 442C */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING19_CTRL0_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x430) /* 4430 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING19_CTRL1_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x434) /* 4434 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING19_CTRL2_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x438) /* 4438 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING19_CTRL3_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x43c) /* 443C */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING20_CTRL0_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x440) /* 4440 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING20_CTRL1_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x444) /* 4444 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING20_CTRL2_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x448) /* 4448 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING20_CTRL3_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x44c) /* 444C */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING21_CTRL0_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x450) /* 4450 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING21_CTRL1_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x454) /* 4454 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING21_CTRL2_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x458) /* 4458 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING21_CTRL3_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x45c) /* 445c */
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING22_CTRL0_ADDR (WF_WFDMA_HOST_DMA0_BASE + 0x460) // 4460
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING22_CTRL1_ADDR (WF_WFDMA_HOST_DMA0_BASE + 0x464) // 4464
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING22_CTRL2_ADDR (WF_WFDMA_HOST_DMA0_BASE + 0x468) // 4468
++#define WF_WFDMA_HOST_DMA0_WPDMA_TX_RING22_CTRL3_ADDR (WF_WFDMA_HOST_DMA0_BASE + 0x46c) // 446C
++
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING0_CTRL0_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x500) /* 4500 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING0_CTRL1_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x504) /* 4504 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING0_CTRL2_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x508) /* 4508 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING0_CTRL3_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x50c) /* 450C */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING1_CTRL0_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x510) /* 4510 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING1_CTRL1_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x514) /* 4514 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING1_CTRL2_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x518) /* 4518 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING1_CTRL3_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x51c) /* 451C */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING2_CTRL0_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x520) /* 4520 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING2_CTRL1_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x524) /* 4524 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING2_CTRL2_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x528) /* 4528 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING2_CTRL3_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x52C) /* 452C */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING3_CTRL0_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x530) /* 4530 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING3_CTRL1_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x534) /* 4534 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING3_CTRL2_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x538) /* 4538 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING3_CTRL3_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x53C) /* 453C */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING4_CTRL0_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x540) /* 4540 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING4_CTRL1_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x544) /* 4544 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING4_CTRL2_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x548) /* 4548 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING4_CTRL3_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x54c) /* 454C */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING5_CTRL0_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x550) /* 4550 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING5_CTRL1_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x554) /* 4554 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING5_CTRL2_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x558) /* 4558 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING5_CTRL3_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x55c) /* 455C */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING6_CTRL0_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x560) /* 4560 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING6_CTRL1_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x564) /* 4564 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING6_CTRL2_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x568) /* 4568 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING6_CTRL3_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x56c) /* 456C */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING7_CTRL0_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x570) /* 4570 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING7_CTRL1_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x574) /* 4574 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING7_CTRL2_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x578) /* 4578 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING7_CTRL3_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x57c) /* 457C */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING8_CTRL0_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x580) /* 4580 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING8_CTRL1_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x584) /* 4584 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING8_CTRL2_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x588) /* 4588 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING8_CTRL3_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x58c) /* 458C */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING9_CTRL0_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x590) /* 4590 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING9_CTRL1_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x594) /* 4594 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING9_CTRL2_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x598) /* 4598 */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING9_CTRL3_ADDR \
++ (WF_WFDMA_HOST_DMA0_BASE + 0x59c) /* 459C */
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING10_CTRL0_ADDR (WF_WFDMA_HOST_DMA0_BASE + 0x5a0) // 45A0
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING10_CTRL1_ADDR (WF_WFDMA_HOST_DMA0_BASE + 0x5a4) // 45A4
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING10_CTRL2_ADDR (WF_WFDMA_HOST_DMA0_BASE + 0x5a8) // 45A8
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING10_CTRL3_ADDR (WF_WFDMA_HOST_DMA0_BASE + 0x5ac) // 45AC
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING11_CTRL0_ADDR (WF_WFDMA_HOST_DMA0_BASE + 0x5b0) // 45B0
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING11_CTRL1_ADDR (WF_WFDMA_HOST_DMA0_BASE + 0x5b4) // 45B4
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING11_CTRL2_ADDR (WF_WFDMA_HOST_DMA0_BASE + 0x5b8) // 45B8
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING11_CTRL3_ADDR (WF_WFDMA_HOST_DMA0_BASE + 0x5bc) // 45BC
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING12_CTRL0_ADDR (WF_WFDMA_HOST_DMA0_BASE + 0x5C0) // 45C0
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING12_CTRL1_ADDR (WF_WFDMA_HOST_DMA0_BASE + 0x5C4) // 45C4
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING12_CTRL2_ADDR (WF_WFDMA_HOST_DMA0_BASE + 0x5C8) // 45C8
++#define WF_WFDMA_HOST_DMA0_WPDMA_RX_RING12_CTRL3_ADDR (WF_WFDMA_HOST_DMA0_BASE + 0x5CC) // 45CC
++
++// HOST PCIE1 DMA
++#define WF_WFDMA_HOST_DMA0_PCIE1_BASE 0xd8000
++
++#define WF_WFDMA_HOST_DMA0_PCIE1_HOST_INT_STA_ADDR (WF_WFDMA_HOST_DMA0_PCIE1_BASE + 0x200) // 8200
++#define WF_WFDMA_HOST_DMA0_PCIE1_HOST_INT_ENA_ADDR (WF_WFDMA_HOST_DMA0_PCIE1_BASE + 0X204) // 8204
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_GLO_CFG_ADDR (WF_WFDMA_HOST_DMA0_PCIE1_BASE + 0x208) // 8208
++
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_GLO_CFG_PDMA_BT_SIZE_SHFT 4
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_GLO_CFG_RX_DMA_BUSY_MASK 0x00000008
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_GLO_CFG_RX_DMA_BUSY_SHFT 3
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_GLO_CFG_RX_DMA_EN_MASK 0x00000004
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_GLO_CFG_RX_DMA_EN_SHFT 2
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_GLO_CFG_TX_DMA_BUSY_MASK 0x00000002
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_GLO_CFG_TX_DMA_BUSY_SHFT 1
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_GLO_CFG_TX_DMA_EN_MASK 0x00000001
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_GLO_CFG_TX_DMA_EN_SHFT 0
++
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_TX_RING21_CTRL0_ADDR (WF_WFDMA_HOST_DMA0_PCIE1_BASE + 0x450) // 8450
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_TX_RING21_CTRL1_ADDR (WF_WFDMA_HOST_DMA0_PCIE1_BASE + 0x454) // 8454
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_TX_RING21_CTRL2_ADDR (WF_WFDMA_HOST_DMA0_PCIE1_BASE + 0x458) // 8458
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_TX_RING21_CTRL3_ADDR (WF_WFDMA_HOST_DMA0_PCIE1_BASE + 0x45c) // 845C
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_TX_RING22_CTRL0_ADDR (WF_WFDMA_HOST_DMA0_PCIE1_BASE + 0x460) // 8460
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_TX_RING22_CTRL1_ADDR (WF_WFDMA_HOST_DMA0_PCIE1_BASE + 0x464) // 8464
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_TX_RING22_CTRL2_ADDR (WF_WFDMA_HOST_DMA0_PCIE1_BASE + 0x468) // 8468
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_TX_RING22_CTRL3_ADDR (WF_WFDMA_HOST_DMA0_PCIE1_BASE + 0x46c) // 846C
++
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_RX_RING3_CTRL0_ADDR (WF_WFDMA_HOST_DMA0_PCIE1_BASE + 0x530) // 8530
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_RX_RING3_CTRL1_ADDR (WF_WFDMA_HOST_DMA0_PCIE1_BASE + 0x534) // 8534
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_RX_RING3_CTRL2_ADDR (WF_WFDMA_HOST_DMA0_PCIE1_BASE + 0x538) // 8538
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_RX_RING3_CTRL3_ADDR (WF_WFDMA_HOST_DMA0_PCIE1_BASE + 0x53C) // 853C
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_RX_RING5_CTRL0_ADDR (WF_WFDMA_HOST_DMA0_PCIE1_BASE + 0x550) // 8550
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_RX_RING5_CTRL1_ADDR (WF_WFDMA_HOST_DMA0_PCIE1_BASE + 0x554) // 8554
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_RX_RING5_CTRL2_ADDR (WF_WFDMA_HOST_DMA0_PCIE1_BASE + 0x558) // 8558
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_RX_RING5_CTRL3_ADDR (WF_WFDMA_HOST_DMA0_PCIE1_BASE + 0x55c) // 855C
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_RX_RING6_CTRL0_ADDR (WF_WFDMA_HOST_DMA0_PCIE1_BASE + 0x560) // 8560
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_RX_RING6_CTRL1_ADDR (WF_WFDMA_HOST_DMA0_PCIE1_BASE + 0x564) // 8564
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_RX_RING6_CTRL2_ADDR (WF_WFDMA_HOST_DMA0_PCIE1_BASE + 0x568) // 8568
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_RX_RING6_CTRL3_ADDR (WF_WFDMA_HOST_DMA0_PCIE1_BASE + 0x56c) // 856C
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_RX_RING7_CTRL0_ADDR (WF_WFDMA_HOST_DMA0_PCIE1_BASE + 0x570) // 8570
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_RX_RING7_CTRL1_ADDR (WF_WFDMA_HOST_DMA0_PCIE1_BASE + 0x574) // 8574
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_RX_RING7_CTRL2_ADDR (WF_WFDMA_HOST_DMA0_PCIE1_BASE + 0x578) // 8578
++#define WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_RX_RING7_CTRL3_ADDR (WF_WFDMA_HOST_DMA0_PCIE1_BASE + 0x57c) // 857C
++//MCU DMA
++//#define WF_WFDMA_MCU_DMA0_BASE 0x02000
++#define WF_WFDMA_MCU_DMA0_BASE 0x54000000
++
++#define WF_WFDMA_MCU_DMA0_HOST_INT_STA_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x200) // 0200
++#define WF_WFDMA_MCU_DMA0_HOST_INT_ENA_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0X204) // 0204
++#define WF_WFDMA_MCU_DMA0_WPDMA_GLO_CFG_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x208) // 0208
++
++#define WF_WFDMA_MCU_DMA0_WPDMA_GLO_CFG_RX_DMA_BUSY_ADDR WF_WFDMA_MCU_DMA0_WPDMA_GLO_CFG_ADDR
++#define WF_WFDMA_MCU_DMA0_WPDMA_GLO_CFG_RX_DMA_BUSY_MASK 0x00000008 // RX_DMA_BUSY[3]
++#define WF_WFDMA_MCU_DMA0_WPDMA_GLO_CFG_RX_DMA_BUSY_SHFT 3
++#define WF_WFDMA_MCU_DMA0_WPDMA_GLO_CFG_RX_DMA_EN_ADDR WF_WFDMA_MCU_DMA0_WPDMA_GLO_CFG_ADDR
++#define WF_WFDMA_MCU_DMA0_WPDMA_GLO_CFG_RX_DMA_EN_MASK 0x00000004 // RX_DMA_EN[2]
++#define WF_WFDMA_MCU_DMA0_WPDMA_GLO_CFG_RX_DMA_EN_SHFT 2
++#define WF_WFDMA_MCU_DMA0_WPDMA_GLO_CFG_TX_DMA_BUSY_ADDR WF_WFDMA_MCU_DMA0_WPDMA_GLO_CFG_ADDR
++#define WF_WFDMA_MCU_DMA0_WPDMA_GLO_CFG_TX_DMA_BUSY_MASK 0x00000002 // TX_DMA_BUSY[1]
++#define WF_WFDMA_MCU_DMA0_WPDMA_GLO_CFG_TX_DMA_BUSY_SHFT 1
++#define WF_WFDMA_MCU_DMA0_WPDMA_GLO_CFG_TX_DMA_EN_ADDR WF_WFDMA_MCU_DMA0_WPDMA_GLO_CFG_ADDR
++#define WF_WFDMA_MCU_DMA0_WPDMA_GLO_CFG_TX_DMA_EN_MASK 0x00000001 // TX_DMA_EN[0]
++#define WF_WFDMA_MCU_DMA0_WPDMA_GLO_CFG_TX_DMA_EN_SHFT 0
++
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING0_CTRL0_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x300) // 0300
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING0_CTRL1_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x304) // 0304
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING0_CTRL2_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x308) // 0308
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING0_CTRL3_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x30c) // 030C
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING1_CTRL0_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x310) // 0310
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING1_CTRL1_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x314) // 0314
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING1_CTRL2_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x318) // 0318
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING1_CTRL3_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x31c) // 031C
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING2_CTRL0_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x320) // 0320
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING2_CTRL1_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x324) // 0324
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING2_CTRL2_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x328) // 0328
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING2_CTRL3_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x32c) // 032C
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING3_CTRL0_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x330) // 0330
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING3_CTRL1_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x334) // 0334
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING3_CTRL2_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x338) // 0338
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING3_CTRL3_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x33c) // 033C
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING4_CTRL0_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x340) // 0340
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING4_CTRL1_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x344) // 0344
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING4_CTRL2_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x348) // 0348
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING4_CTRL3_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x34c) // 034C
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING5_CTRL0_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x350) // 0350
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING5_CTRL1_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x354) // 0354
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING5_CTRL2_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x358) // 0358
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING5_CTRL3_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x35c) // 035C
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING6_CTRL0_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x360) // 0360
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING6_CTRL1_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x364) // 0364
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING6_CTRL2_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x368) // 0368
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING6_CTRL3_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x36c) // 036C
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING7_CTRL0_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x370) // 0370
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING7_CTRL1_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x374) // 0374
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING7_CTRL2_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x378) // 0378
++#define WF_WFDMA_MCU_DMA0_WPDMA_TX_RING7_CTRL3_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x37c) // 037C
++
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING0_CTRL0_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x500) // 0500
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING0_CTRL1_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x504) // 0504
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING0_CTRL2_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x508) // 0508
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING0_CTRL3_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x50c) // 050C
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING1_CTRL0_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x510) // 0510
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING1_CTRL1_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x514) // 0514
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING1_CTRL2_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x518) // 0518
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING1_CTRL3_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x51c) // 051C
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING2_CTRL0_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x520) // 0520
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING2_CTRL1_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x524) // 0524
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING2_CTRL2_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x528) // 0528
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING2_CTRL3_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x52C) // 052C
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING3_CTRL0_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x530) // 0530
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING3_CTRL1_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x534) // 0534
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING3_CTRL2_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x538) // 0538
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING3_CTRL3_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x53C) // 053C
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING4_CTRL0_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x540) // 0540
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING4_CTRL1_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x544) // 0544
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING4_CTRL2_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x548) // 0548
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING4_CTRL3_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x54C) // 054C
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING5_CTRL0_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x550) // 0550
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING5_CTRL1_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x554) // 0554
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING5_CTRL2_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x558) // 0558
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING5_CTRL3_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x55C) // 055C
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING6_CTRL0_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x560) // 0560
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING6_CTRL1_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x564) // 0564
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING6_CTRL2_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x568) // 0568
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING6_CTRL3_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x56c) // 056C
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING7_CTRL0_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x570) // 0570
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING7_CTRL1_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x574) // 0574
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING7_CTRL2_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x578) // 0578
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING7_CTRL3_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x57c) // 057C
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING8_CTRL0_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x580) // 0580
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING8_CTRL1_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x584) // 0584
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING8_CTRL2_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x588) // 0588
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING8_CTRL3_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x58c) // 058C
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING9_CTRL0_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x590) // 0590
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING9_CTRL1_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x594) // 0594
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING9_CTRL2_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x598) // 0598
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING9_CTRL3_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x59c) // 059C
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING10_CTRL0_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x5A0) // 05A0
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING10_CTRL1_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x5A4) // 05A4
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING10_CTRL2_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x5A8) // 05A8
++#define WF_WFDMA_MCU_DMA0_WPDMA_RX_RING10_CTRL3_ADDR (WF_WFDMA_MCU_DMA0_BASE + 0x5Ac) // 05AC
++
++// MEM DMA
++#define WF_WFDMA_MEM_DMA_BASE 0x58000000
++
++#define WF_WFDMA_MEM_DMA_HOST_INT_STA_ADDR (WF_WFDMA_MEM_DMA_BASE + 0x200) // 0200
++#define WF_WFDMA_MEM_DMA_HOST_INT_ENA_ADDR (WF_WFDMA_MEM_DMA_BASE + 0X204) // 0204
++#define WF_WFDMA_MEM_DMA_WPDMA_GLO_CFG_ADDR (WF_WFDMA_MEM_DMA_BASE + 0x208) // 0208
++
++#define WF_WFDMA_MEM_DMA_WPDMA_GLO_CFG_RX_DMA_BUSY_ADDR WF_WFDMA_MEM_DMA_WPDMA_GLO_CFG_ADDR
++#define WF_WFDMA_MEM_DMA_WPDMA_GLO_CFG_RX_DMA_BUSY_MASK 0x00000008 // RX_DMA_BUSY[3]
++#define WF_WFDMA_MEM_DMA_WPDMA_GLO_CFG_RX_DMA_BUSY_SHFT 3
++#define WF_WFDMA_MEM_DMA_WPDMA_GLO_CFG_RX_DMA_EN_ADDR WF_WFDMA_MEM_DMA_WPDMA_GLO_CFG_ADDR
++#define WF_WFDMA_MEM_DMA_WPDMA_GLO_CFG_RX_DMA_EN_MASK 0x00000004 // RX_DMA_EN[2]
++#define WF_WFDMA_MEM_DMA_WPDMA_GLO_CFG_RX_DMA_EN_SHFT 2
++#define WF_WFDMA_MEM_DMA_WPDMA_GLO_CFG_TX_DMA_BUSY_ADDR WF_WFDMA_MEM_DMA_WPDMA_GLO_CFG_ADDR
++#define WF_WFDMA_MEM_DMA_WPDMA_GLO_CFG_TX_DMA_BUSY_MASK 0x00000002 // TX_DMA_BUSY[1]
++#define WF_WFDMA_MEM_DMA_WPDMA_GLO_CFG_TX_DMA_BUSY_SHFT 1
++#define WF_WFDMA_MEM_DMA_WPDMA_GLO_CFG_TX_DMA_EN_ADDR WF_WFDMA_MEM_DMA_WPDMA_GLO_CFG_ADDR
++#define WF_WFDMA_MEM_DMA_WPDMA_GLO_CFG_TX_DMA_EN_MASK 0x00000001 // TX_DMA_EN[0]
++#define WF_WFDMA_MEM_DMA_WPDMA_GLO_CFG_TX_DMA_EN_SHFT 0
++
++#define WF_WFDMA_MEM_DMA_WPDMA_TX_RING0_CTRL0_ADDR (WF_WFDMA_MEM_DMA_BASE + 0x300) // 0300
++#define WF_WFDMA_MEM_DMA_WPDMA_TX_RING0_CTRL1_ADDR (WF_WFDMA_MEM_DMA_BASE + 0x304) // 0304
++#define WF_WFDMA_MEM_DMA_WPDMA_TX_RING0_CTRL2_ADDR (WF_WFDMA_MEM_DMA_BASE + 0x308) // 0308
++#define WF_WFDMA_MEM_DMA_WPDMA_TX_RING0_CTRL3_ADDR (WF_WFDMA_MEM_DMA_BASE + 0x30c) // 030C
++#define WF_WFDMA_MEM_DMA_WPDMA_TX_RING1_CTRL0_ADDR (WF_WFDMA_MEM_DMA_BASE + 0x310) // 0310
++#define WF_WFDMA_MEM_DMA_WPDMA_TX_RING1_CTRL1_ADDR (WF_WFDMA_MEM_DMA_BASE + 0x314) // 0314
++#define WF_WFDMA_MEM_DMA_WPDMA_TX_RING1_CTRL2_ADDR (WF_WFDMA_MEM_DMA_BASE + 0x318) // 0318
++#define WF_WFDMA_MEM_DMA_WPDMA_TX_RING1_CTRL3_ADDR (WF_WFDMA_MEM_DMA_BASE + 0x31c) // 031C
++#define WF_WFDMA_MEM_DMA_WPDMA_TX_RING2_CTRL0_ADDR (WF_WFDMA_MEM_DMA_BASE + 0x320) // 0320
++#define WF_WFDMA_MEM_DMA_WPDMA_TX_RING2_CTRL1_ADDR (WF_WFDMA_MEM_DMA_BASE + 0x324) // 0324
++#define WF_WFDMA_MEM_DMA_WPDMA_TX_RING2_CTRL2_ADDR (WF_WFDMA_MEM_DMA_BASE + 0x328) // 0328
++#define WF_WFDMA_MEM_DMA_WPDMA_TX_RING2_CTRL3_ADDR (WF_WFDMA_MEM_DMA_BASE + 0x32c) // 032C
++
++#define WF_WFDMA_MEM_DMA_WPDMA_RX_RING0_CTRL0_ADDR (WF_WFDMA_MEM_DMA_BASE + 0x500) // 0500
++#define WF_WFDMA_MEM_DMA_WPDMA_RX_RING0_CTRL1_ADDR (WF_WFDMA_MEM_DMA_BASE + 0x504) // 0504
++#define WF_WFDMA_MEM_DMA_WPDMA_RX_RING0_CTRL2_ADDR (WF_WFDMA_MEM_DMA_BASE + 0x508) // 0508
++#define WF_WFDMA_MEM_DMA_WPDMA_RX_RING0_CTRL3_ADDR (WF_WFDMA_MEM_DMA_BASE + 0x50c) // 050C
++#define WF_WFDMA_MEM_DMA_WPDMA_RX_RING1_CTRL0_ADDR (WF_WFDMA_MEM_DMA_BASE + 0x510) // 0510
++#define WF_WFDMA_MEM_DMA_WPDMA_RX_RING1_CTRL1_ADDR (WF_WFDMA_MEM_DMA_BASE + 0x514) // 0514
++#define WF_WFDMA_MEM_DMA_WPDMA_RX_RING1_CTRL2_ADDR (WF_WFDMA_MEM_DMA_BASE + 0x518) // 0518
++#define WF_WFDMA_MEM_DMA_WPDMA_RX_RING1_CTRL3_ADDR (WF_WFDMA_MEM_DMA_BASE + 0x51c) // 051C
++#define WF_WFDMA_MEM_DMA_WPDMA_RX_RING2_CTRL0_ADDR (WF_WFDMA_MEM_DMA_BASE + 0x520) // 0520
++#define WF_WFDMA_MEM_DMA_WPDMA_RX_RING2_CTRL1_ADDR (WF_WFDMA_MEM_DMA_BASE + 0x524) // 0524
++#define WF_WFDMA_MEM_DMA_WPDMA_RX_RING2_CTRL2_ADDR (WF_WFDMA_MEM_DMA_BASE + 0x528) // 0528
++#define WF_WFDMA_MEM_DMA_WPDMA_RX_RING2_CTRL3_ADDR (WF_WFDMA_MEM_DMA_BASE + 0x52C) // 052C
++
++/* MIB */
++#define WF_UMIB_TOP_BASE 0x820cd000
++#define BN0_WF_MIB_TOP_BASE 0x820ed000
++#define BN1_WF_MIB_TOP_BASE 0x820fd000
++#define IP1_BN0_WF_MIB_TOP_BASE 0x830ed000
++
++#define WF_UMIB_TOP_B0BROCR_ADDR (WF_UMIB_TOP_BASE + 0x484) // D484
++#define WF_UMIB_TOP_B0BRBCR_ADDR (WF_UMIB_TOP_BASE + 0x4D4) // D4D4
++#define WF_UMIB_TOP_B0BRDCR_ADDR (WF_UMIB_TOP_BASE + 0x524) // D524
++#define WF_UMIB_TOP_B1BROCR_ADDR (WF_UMIB_TOP_BASE + 0x5E8) // D5E8
++#define WF_UMIB_TOP_B2BROCR_ADDR (WF_UMIB_TOP_BASE + 0x74C) // D74C
++
++#define BN0_WF_MIB_TOP_M0SCR0_ADDR (BN0_WF_MIB_TOP_BASE + 0x000) // D000
++#define BN0_WF_MIB_TOP_M0SDR6_ADDR (BN0_WF_MIB_TOP_BASE + 0x020) // D020
++#define BN0_WF_MIB_TOP_M0SDR9_ADDR (BN0_WF_MIB_TOP_BASE + 0x024) // D024
++#define BN0_WF_MIB_TOP_M0SDR18_ADDR (BN0_WF_MIB_TOP_BASE + 0x030) // D030
++#define BN0_WF_MIB_TOP_BTOCR_ADDR (BN0_WF_MIB_TOP_BASE + 0x400) // D400
++#define BN0_WF_MIB_TOP_BTBCR_ADDR (BN0_WF_MIB_TOP_BASE + 0x450) // D450
++#define BN0_WF_MIB_TOP_BTDCR_ADDR (BN0_WF_MIB_TOP_BASE + 0x590) // D590
++#define BN0_WF_MIB_TOP_BTCR_ADDR (BN0_WF_MIB_TOP_BASE + 0x5A0) // D5A0
++#define BN0_WF_MIB_TOP_RVSR0_ADDR (BN0_WF_MIB_TOP_BASE + __OFFS(MIB_RVSR0))
++
++#define BN0_WF_MIB_TOP_TSCR0_ADDR (BN0_WF_MIB_TOP_BASE + 0x6B0) // D6B0
++#define BN0_WF_MIB_TOP_TSCR3_ADDR (BN0_WF_MIB_TOP_BASE + 0x6BC) // D6BC
++#define BN0_WF_MIB_TOP_TSCR4_ADDR (BN0_WF_MIB_TOP_BASE + 0x6C0) // D6C0
++#define BN0_WF_MIB_TOP_TSCR5_ADDR (BN0_WF_MIB_TOP_BASE + 0x6C4) // D6C4
++#define BN0_WF_MIB_TOP_TSCR6_ADDR (BN0_WF_MIB_TOP_BASE + 0x6C8) // D6C8
++#define BN0_WF_MIB_TOP_TSCR7_ADDR (BN0_WF_MIB_TOP_BASE + 0x6D0) // D6D0
++#define BN0_WF_MIB_TOP_TSCR8_ADDR (BN0_WF_MIB_TOP_BASE + 0x6CC) // D6CC
++
++#define BN0_WF_MIB_TOP_TBCR0_ADDR (BN0_WF_MIB_TOP_BASE + 0x6EC) // D6EC
++#define BN0_WF_MIB_TOP_TBCR1_ADDR (BN0_WF_MIB_TOP_BASE + 0x6F0) // D6F0
++#define BN0_WF_MIB_TOP_TBCR2_ADDR (BN0_WF_MIB_TOP_BASE + 0x6F4) // D6F4
++#define BN0_WF_MIB_TOP_TBCR3_ADDR (BN0_WF_MIB_TOP_BASE + 0x6F8) // D6F8
++#define BN0_WF_MIB_TOP_TBCR4_ADDR (BN0_WF_MIB_TOP_BASE + 0x6FC) // D6FC
++
++#define BN0_WF_MIB_TOP_TDRCR0_ADDR (BN0_WF_MIB_TOP_BASE + __DBG_OFFS(MIB_TDRCR0))
++#define BN0_WF_MIB_TOP_TDRCR1_ADDR (BN0_WF_MIB_TOP_BASE + __DBG_OFFS(MIB_TDRCR1))
++#define BN0_WF_MIB_TOP_TDRCR2_ADDR (BN0_WF_MIB_TOP_BASE + __DBG_OFFS(MIB_TDRCR2))
++#define BN0_WF_MIB_TOP_TDRCR3_ADDR (BN0_WF_MIB_TOP_BASE + __DBG_OFFS(MIB_TDRCR3))
++#define BN0_WF_MIB_TOP_TDRCR4_ADDR (BN0_WF_MIB_TOP_BASE + __DBG_OFFS(MIB_TDRCR4))
++
++#define BN0_WF_MIB_TOP_BTSCR0_ADDR (BN0_WF_MIB_TOP_BASE + 0x5E0) // D5E0
++#define BN0_WF_MIB_TOP_BTSCR1_ADDR (BN0_WF_MIB_TOP_BASE + 0x5F0) // D5F0
++#define BN0_WF_MIB_TOP_BTSCR2_ADDR (BN0_WF_MIB_TOP_BASE + 0x600) // D600
++#define BN0_WF_MIB_TOP_BTSCR3_ADDR (BN0_WF_MIB_TOP_BASE + 0x610) // D610
++#define BN0_WF_MIB_TOP_BTSCR4_ADDR (BN0_WF_MIB_TOP_BASE + 0x620) // D620
++#define BN0_WF_MIB_TOP_BTSCR5_ADDR (BN0_WF_MIB_TOP_BASE + __OFFS(MIB_BTSCR5))
++#define BN0_WF_MIB_TOP_BTSCR6_ADDR (BN0_WF_MIB_TOP_BASE + __OFFS(MIB_BTSCR6))
++
++#define BN0_WF_MIB_TOP_RSCR1_ADDR (BN0_WF_MIB_TOP_BASE + __OFFS(MIB_RSCR1))
++#define BN0_WF_MIB_TOP_BSCR2_ADDR (BN0_WF_MIB_TOP_BASE + __OFFS(MIB_BSCR2))
++#define BN0_WF_MIB_TOP_TSCR18_ADDR (BN0_WF_MIB_TOP_BASE + __DBG_OFFS(MIB_TSCR18))
++
++#define BN0_WF_MIB_TOP_MSR0_ADDR (BN0_WF_MIB_TOP_BASE + __DBG_OFFS(MIB_MSR0))
++#define BN0_WF_MIB_TOP_MSR1_ADDR (BN0_WF_MIB_TOP_BASE + __DBG_OFFS(MIB_MSR1))
++#define BN0_WF_MIB_TOP_MSR2_ADDR (BN0_WF_MIB_TOP_BASE + __DBG_OFFS(MIB_MSR2))
++#define BN0_WF_MIB_TOP_MCTR5_ADDR (BN0_WF_MIB_TOP_BASE + __DBG_OFFS(MIB_MCTR5))
++#define BN0_WF_MIB_TOP_MCTR6_ADDR (BN0_WF_MIB_TOP_BASE + __DBG_OFFS(MIB_MCTR6))
++
++#define BN0_WF_MIB_TOP_RSCR26_ADDR (BN0_WF_MIB_TOP_BASE + __DBG_OFFS(MIB_RSCR26))
++#define BN0_WF_MIB_TOP_RSCR27_ADDR (BN0_WF_MIB_TOP_BASE + __OFFS(MIB_RSCR27))
++#define BN0_WF_MIB_TOP_RSCR28_ADDR (BN0_WF_MIB_TOP_BASE + __OFFS(MIB_RSCR28))
++#define BN0_WF_MIB_TOP_RSCR31_ADDR (BN0_WF_MIB_TOP_BASE + __OFFS(MIB_RSCR31))
++#define BN0_WF_MIB_TOP_RSCR33_ADDR (BN0_WF_MIB_TOP_BASE + __OFFS(MIB_RSCR33))
++#define BN0_WF_MIB_TOP_RSCR35_ADDR (BN0_WF_MIB_TOP_BASE + __OFFS(MIB_RSCR35))
++#define BN0_WF_MIB_TOP_RSCR36_ADDR (BN0_WF_MIB_TOP_BASE + __OFFS(MIB_RSCR36))
++
++#define BN0_WF_MIB_TOP_TSCR3_AMPDU_MPDU_COUNT_MASK 0xFFFFFFFF // AMPDU_MPDU_COUNT[31..0]
++#define BN0_WF_MIB_TOP_TSCR4_AMPDU_ACKED_COUNT_MASK 0xFFFFFFFF // AMPDU_ACKED_COUNT[31..0]
++#define BN0_WF_MIB_TOP_M0SDR6_CHANNEL_IDLE_COUNT_MASK 0x0000FFFF // CHANNEL_IDLE_COUNT[15..0]
++#define BN0_WF_MIB_TOP_M0SDR9_CCA_NAV_TX_TIME_MASK 0x00FFFFFF // CCA_NAV_TX_TIME[23..0]
++#define BN0_WF_MIB_TOP_RSCR26_RX_MDRDY_COUNT_MASK 0xFFFFFFFF // RX_MDRDY_COUNT[31..0]
++#define BN0_WF_MIB_TOP_MSR0_CCK_MDRDY_TIME_MASK 0xFFFFFFFF // CCK_MDRDY_TIME[31..0]
++#define BN0_WF_MIB_TOP_MSR1_OFDM_LG_MIXED_VHT_MDRDY_TIME_MASK 0xFFFFFFFF // OFDM_LG_MIXED_VHT_MDRDY_TIME[31..0]
++#define BN0_WF_MIB_TOP_MSR2_OFDM_GREEN_MDRDY_TIME_MASK 0xFFFFFFFF // OFDM_GREEN_MDRDY_TIME[31..0]
++#define BN0_WF_MIB_TOP_MCTR5_P_CCA_TIME_MASK 0xFFFFFFFF // P_CCA_TIME[31..0]
++#define BN0_WF_MIB_TOP_MCTR6_S_CCA_TIME_MASK 0xFFFFFFFF // S_CCA_TIME[31..0]
++#define BN0_WF_MIB_TOP_M0SDR18_P_ED_TIME_MASK 0x00FFFFFF // P_ED_TIME[23..0]
++#define BN0_WF_MIB_TOP_TSCR18_BEACONTXCOUNT_MASK 0xFFFFFFFF // BEACONTXCOUNT[31..0]
++#define BN0_WF_MIB_TOP_TBCR0_TX_20MHZ_CNT_MASK 0xFFFFFFFF // TX_20MHZ_CNT[31..0]
++#define BN0_WF_MIB_TOP_TBCR1_TX_40MHZ_CNT_MASK 0xFFFFFFFF // TX_40MHZ_CNT[31..0]
++#define BN0_WF_MIB_TOP_TBCR2_TX_80MHZ_CNT_MASK 0xFFFFFFFF // TX_80MHZ_CNT[31..0]
++#define BN0_WF_MIB_TOP_TBCR3_TX_160MHZ_CNT_MASK 0xFFFFFFFF // TX_160MHZ_CNT[31..0]
++#define BN0_WF_MIB_TOP_TBCR4_TX_320MHZ_CNT_MASK 0xFFFFFFFF // TX_320MHZ_CNT[31..0]
++#define BN0_WF_MIB_TOP_BSCR2_MUBF_TX_COUNT_MASK 0xFFFFFFFF // MUBF_TX_COUNT[31..0]
++#define BN0_WF_MIB_TOP_RVSR0_VEC_MISS_COUNT_MASK 0xFFFFFFFF // VEC_MISS_COUNT[31..0]
++#define BN0_WF_MIB_TOP_RSCR35_DELIMITER_FAIL_COUNT_MASK 0xFFFFFFFF // DELIMITER_FAIL_COUNT[31..0]
++#define BN0_WF_MIB_TOP_RSCR1_RX_FCS_ERROR_COUNT_MASK 0xFFFFFFFF // RX_FCS_ERROR_COUNT[31..0]
++#define BN0_WF_MIB_TOP_RSCR33_RX_FIFO_FULL_COUNT_MASK 0xFFFFFFFF // RX_FIFO_FULL_COUNT[31..0]
++#define BN0_WF_MIB_TOP_RSCR36_RX_LEN_MISMATCH_MASK 0xFFFFFFFF // RX_LEN_MISMATCH[31..0]
++#define BN0_WF_MIB_TOP_RSCR31_RX_MPDU_COUNT_MASK 0xFFFFFFFF // RX_MPDU_COUNT[31..0]
++#define BN0_WF_MIB_TOP_BTSCR5_RTSTXCOUNTn_MASK 0xFFFFFFFF // RTSTXCOUNTn[31..0]
++#define BN0_WF_MIB_TOP_BTSCR6_RTSRETRYCOUNTn_MASK 0xFFFFFFFF // RTSRETRYCOUNTn[31..0]
++#define BN0_WF_MIB_TOP_BTSCR0_BAMISSCOUNTn_MASK 0xFFFFFFFF // BAMISSCOUNTn[31..0]
++#define BN0_WF_MIB_TOP_BTSCR1_ACKFAILCOUNTn_MASK 0xFFFFFFFF // ACKFAILCOUNTn[31..0]
++#define BN0_WF_MIB_TOP_BTSCR2_FRAMERETRYCOUNTn_MASK 0xFFFFFFFF // FRAMERETRYCOUNTn[31..0]
++#define BN0_WF_MIB_TOP_BTSCR3_FRAMERETRY2COUNTn_MASK 0xFFFFFFFF // FRAMERETRY2COUNTn[31..0]
++#define BN0_WF_MIB_TOP_BTSCR4_FRAMERETRY3COUNTn_MASK 0xFFFFFFFF // FRAMERETRY3COUNTn[31..0]
++#define BN0_WF_MIB_TOP_TRARC0_ADDR (BN0_WF_MIB_TOP_BASE + 0x0B0) // D0B0
++#define BN0_WF_MIB_TOP_TRARC1_ADDR (BN0_WF_MIB_TOP_BASE + 0x0B4) // D0B4
++#define BN0_WF_MIB_TOP_TRARC2_ADDR (BN0_WF_MIB_TOP_BASE + 0x0B8) // D0B8
++#define BN0_WF_MIB_TOP_TRARC3_ADDR (BN0_WF_MIB_TOP_BASE + 0x0BC) // D0BC
++#define BN0_WF_MIB_TOP_TRARC4_ADDR (BN0_WF_MIB_TOP_BASE + 0x0C0) // D0C0
++#define BN0_WF_MIB_TOP_TRARC5_ADDR (BN0_WF_MIB_TOP_BASE + 0x0C4) // D0C4
++#define BN0_WF_MIB_TOP_TRARC6_ADDR (BN0_WF_MIB_TOP_BASE + 0x0C8) // D0C8
++#define BN0_WF_MIB_TOP_TRARC7_ADDR (BN0_WF_MIB_TOP_BASE + 0x0CC) // D0CC
++
++#define BN0_WF_MIB_TOP_TRDR0_ADDR (BN0_WF_MIB_TOP_BASE + __DBG_OFFS(MIB_TRDR0))
++#define BN0_WF_MIB_TOP_TRDR1_ADDR (BN0_WF_MIB_TOP_BASE + __OFFS(MIB_TRDR1))
++#define BN0_WF_MIB_TOP_TRDR2_ADDR (BN0_WF_MIB_TOP_BASE + __DBG_OFFS(MIB_TRDR2))
++#define BN0_WF_MIB_TOP_TRDR3_ADDR (BN0_WF_MIB_TOP_BASE + __DBG_OFFS(MIB_TRDR3))
++#define BN0_WF_MIB_TOP_TRDR4_ADDR (BN0_WF_MIB_TOP_BASE + __DBG_OFFS(MIB_TRDR4))
++#define BN0_WF_MIB_TOP_TRDR5_ADDR (BN0_WF_MIB_TOP_BASE + __DBG_OFFS(MIB_TRDR5))
++#define BN0_WF_MIB_TOP_TRDR6_ADDR (BN0_WF_MIB_TOP_BASE + __DBG_OFFS(MIB_TRDR6))
++#define BN0_WF_MIB_TOP_TRDR7_ADDR (BN0_WF_MIB_TOP_BASE + __DBG_OFFS(MIB_TRDR7))
++#define BN0_WF_MIB_TOP_TRDR8_ADDR (BN0_WF_MIB_TOP_BASE + __DBG_OFFS(MIB_TRDR8))
++#define BN0_WF_MIB_TOP_TRDR9_ADDR (BN0_WF_MIB_TOP_BASE + __DBG_OFFS(MIB_TRDR9))
++#define BN0_WF_MIB_TOP_TRDR10_ADDR (BN0_WF_MIB_TOP_BASE + __DBG_OFFS(MIB_TRDR10))
++#define BN0_WF_MIB_TOP_TRDR11_ADDR (BN0_WF_MIB_TOP_BASE + __DBG_OFFS(MIB_TRDR11))
++#define BN0_WF_MIB_TOP_TRDR12_ADDR (BN0_WF_MIB_TOP_BASE + __DBG_OFFS(MIB_TRDR12))
++#define BN0_WF_MIB_TOP_TRDR13_ADDR (BN0_WF_MIB_TOP_BASE + __DBG_OFFS(MIB_TRDR13))
++#define BN0_WF_MIB_TOP_TRDR14_ADDR (BN0_WF_MIB_TOP_BASE + __DBG_OFFS(MIB_TRDR14))
++#define BN0_WF_MIB_TOP_TRDR15_ADDR (BN0_WF_MIB_TOP_BASE + __DBG_OFFS(MIB_TRDR15))
++
++#define BN0_WF_MIB_TOP_TRARC0_AGG_RANG_SEL_1_ADDR BN0_WF_MIB_TOP_TRARC0_ADDR
++#define BN0_WF_MIB_TOP_TRARC0_AGG_RANG_SEL_1_MASK 0x03FF0000 // AGG_RANG_SEL_1[25..16]
++#define BN0_WF_MIB_TOP_TRARC0_AGG_RANG_SEL_1_SHFT 16
++#define BN0_WF_MIB_TOP_TRARC0_AGG_RANG_SEL_0_ADDR BN0_WF_MIB_TOP_TRARC0_ADDR
++#define BN0_WF_MIB_TOP_TRARC0_AGG_RANG_SEL_0_MASK 0x000003FF // AGG_RANG_SEL_0[9..0]
++#define BN0_WF_MIB_TOP_TRARC0_AGG_RANG_SEL_0_SHFT 0
++
++#define BN0_WF_MIB_TOP_TRARC1_AGG_RANG_SEL_3_ADDR BN0_WF_MIB_TOP_TRARC1_ADDR
++#define BN0_WF_MIB_TOP_TRARC1_AGG_RANG_SEL_3_MASK 0x03FF0000 // AGG_RANG_SEL_3[25..16]
++#define BN0_WF_MIB_TOP_TRARC1_AGG_RANG_SEL_3_SHFT 16
++#define BN0_WF_MIB_TOP_TRARC1_AGG_RANG_SEL_2_ADDR BN0_WF_MIB_TOP_TRARC1_ADDR
++#define BN0_WF_MIB_TOP_TRARC1_AGG_RANG_SEL_2_MASK 0x000003FF // AGG_RANG_SEL_2[9..0]
++#define BN0_WF_MIB_TOP_TRARC1_AGG_RANG_SEL_2_SHFT 0
++
++#define BN0_WF_MIB_TOP_TRARC2_AGG_RANG_SEL_5_ADDR BN0_WF_MIB_TOP_TRARC2_ADDR
++#define BN0_WF_MIB_TOP_TRARC2_AGG_RANG_SEL_5_MASK 0x03FF0000 // AGG_RANG_SEL_5[25..16]
++#define BN0_WF_MIB_TOP_TRARC2_AGG_RANG_SEL_5_SHFT 16
++#define BN0_WF_MIB_TOP_TRARC2_AGG_RANG_SEL_4_ADDR BN0_WF_MIB_TOP_TRARC2_ADDR
++#define BN0_WF_MIB_TOP_TRARC2_AGG_RANG_SEL_4_MASK 0x000003FF // AGG_RANG_SEL_4[9..0]
++#define BN0_WF_MIB_TOP_TRARC2_AGG_RANG_SEL_4_SHFT 0
++
++#define BN0_WF_MIB_TOP_TRARC3_AGG_RANG_SEL_7_ADDR BN0_WF_MIB_TOP_TRARC3_ADDR
++#define BN0_WF_MIB_TOP_TRARC3_AGG_RANG_SEL_7_MASK 0x03FF0000 // AGG_RANG_SEL_7[25..16]
++#define BN0_WF_MIB_TOP_TRARC3_AGG_RANG_SEL_7_SHFT 16
++#define BN0_WF_MIB_TOP_TRARC3_AGG_RANG_SEL_6_ADDR BN0_WF_MIB_TOP_TRARC3_ADDR
++#define BN0_WF_MIB_TOP_TRARC3_AGG_RANG_SEL_6_MASK 0x000003FF // AGG_RANG_SEL_6[9..0]
++#define BN0_WF_MIB_TOP_TRARC3_AGG_RANG_SEL_6_SHFT 0
++
++#define BN0_WF_MIB_TOP_TRARC4_AGG_RANG_SEL_9_ADDR BN0_WF_MIB_TOP_TRARC4_ADDR
++#define BN0_WF_MIB_TOP_TRARC4_AGG_RANG_SEL_9_MASK 0x03FF0000 // AGG_RANG_SEL_9[25..16]
++#define BN0_WF_MIB_TOP_TRARC4_AGG_RANG_SEL_9_SHFT 16
++#define BN0_WF_MIB_TOP_TRARC4_AGG_RANG_SEL_8_ADDR BN0_WF_MIB_TOP_TRARC4_ADDR
++#define BN0_WF_MIB_TOP_TRARC4_AGG_RANG_SEL_8_MASK 0x000003FF // AGG_RANG_SEL_8[9..0]
++#define BN0_WF_MIB_TOP_TRARC4_AGG_RANG_SEL_8_SHFT 0
++
++#define BN0_WF_MIB_TOP_TRARC5_AGG_RANG_SEL_11_ADDR BN0_WF_MIB_TOP_TRARC5_ADDR
++#define BN0_WF_MIB_TOP_TRARC5_AGG_RANG_SEL_11_MASK 0x03FF0000 // AGG_RANG_SEL_11[25..16]
++#define BN0_WF_MIB_TOP_TRARC5_AGG_RANG_SEL_11_SHFT 16
++#define BN0_WF_MIB_TOP_TRARC5_AGG_RANG_SEL_10_ADDR BN0_WF_MIB_TOP_TRARC5_ADDR
++#define BN0_WF_MIB_TOP_TRARC5_AGG_RANG_SEL_10_MASK 0x000003FF // AGG_RANG_SEL_10[9..0]
++#define BN0_WF_MIB_TOP_TRARC5_AGG_RANG_SEL_10_SHFT 0
++
++#define BN0_WF_MIB_TOP_TRARC6_AGG_RANG_SEL_13_ADDR BN0_WF_MIB_TOP_TRARC6_ADDR
++#define BN0_WF_MIB_TOP_TRARC6_AGG_RANG_SEL_13_MASK 0x03FF0000 // AGG_RANG_SEL_13[25..16]
++#define BN0_WF_MIB_TOP_TRARC6_AGG_RANG_SEL_13_SHFT 16
++#define BN0_WF_MIB_TOP_TRARC6_AGG_RANG_SEL_12_ADDR BN0_WF_MIB_TOP_TRARC6_ADDR
++#define BN0_WF_MIB_TOP_TRARC6_AGG_RANG_SEL_12_MASK 0x000003FF // AGG_RANG_SEL_12[9..0]
++#define BN0_WF_MIB_TOP_TRARC6_AGG_RANG_SEL_12_SHFT 0
++
++#define BN0_WF_MIB_TOP_TRARC7_AGG_RANG_SEL_14_ADDR BN0_WF_MIB_TOP_TRARC7_ADDR
++#define BN0_WF_MIB_TOP_TRARC7_AGG_RANG_SEL_14_MASK 0x000003FF // AGG_RANG_SEL_14[9..0]
++#define BN0_WF_MIB_TOP_TRARC7_AGG_RANG_SEL_14_SHFT 0
++
++/* RRO TOP */
++#define WF_RRO_TOP_BASE 0xA000 /*0x820C2000 */
++#define WF_RRO_TOP_IND_CMD_0_CTRL0_ADDR (WF_RRO_TOP_BASE + 0x40) // 2040
++ //
++/* WTBL */
++enum mt7996_wtbl_type {
++ WTBL_TYPE_LMAC, /* WTBL in LMAC */
++ WTBL_TYPE_UMAC, /* WTBL in UMAC */
++ WTBL_TYPE_KEY, /* Key Table */
++ MAX_NUM_WTBL_TYPE
++};
++
++struct berse_wtbl_parse {
++ u8 *name;
++ u32 mask;
++ u32 shift;
++ u8 new_line;
++};
++
++enum muar_idx {
++ MUAR_INDEX_OWN_MAC_ADDR_0 = 0,
++ MUAR_INDEX_OWN_MAC_ADDR_1,
++ MUAR_INDEX_OWN_MAC_ADDR_2,
++ MUAR_INDEX_OWN_MAC_ADDR_3,
++ MUAR_INDEX_OWN_MAC_ADDR_4,
++ MUAR_INDEX_OWN_MAC_ADDR_BC_MC = 0xE,
++ MUAR_INDEX_UNMATCHED = 0xF,
++ MUAR_INDEX_OWN_MAC_ADDR_11 = 0x11,
++ MUAR_INDEX_OWN_MAC_ADDR_12,
++ MUAR_INDEX_OWN_MAC_ADDR_13,
++ MUAR_INDEX_OWN_MAC_ADDR_14,
++ MUAR_INDEX_OWN_MAC_ADDR_15,
++ MUAR_INDEX_OWN_MAC_ADDR_16,
++ MUAR_INDEX_OWN_MAC_ADDR_17,
++ MUAR_INDEX_OWN_MAC_ADDR_18,
++ MUAR_INDEX_OWN_MAC_ADDR_19,
++ MUAR_INDEX_OWN_MAC_ADDR_1A,
++ MUAR_INDEX_OWN_MAC_ADDR_1B,
++ MUAR_INDEX_OWN_MAC_ADDR_1C,
++ MUAR_INDEX_OWN_MAC_ADDR_1D,
++ MUAR_INDEX_OWN_MAC_ADDR_1E,
++ MUAR_INDEX_OWN_MAC_ADDR_1F,
++ MUAR_INDEX_OWN_MAC_ADDR_20,
++ MUAR_INDEX_OWN_MAC_ADDR_21,
++ MUAR_INDEX_OWN_MAC_ADDR_22,
++ MUAR_INDEX_OWN_MAC_ADDR_23,
++ MUAR_INDEX_OWN_MAC_ADDR_24,
++ MUAR_INDEX_OWN_MAC_ADDR_25,
++ MUAR_INDEX_OWN_MAC_ADDR_26,
++ MUAR_INDEX_OWN_MAC_ADDR_27,
++ MUAR_INDEX_OWN_MAC_ADDR_28,
++ MUAR_INDEX_OWN_MAC_ADDR_29,
++ MUAR_INDEX_OWN_MAC_ADDR_2A,
++ MUAR_INDEX_OWN_MAC_ADDR_2B,
++ MUAR_INDEX_OWN_MAC_ADDR_2C,
++ MUAR_INDEX_OWN_MAC_ADDR_2D,
++ MUAR_INDEX_OWN_MAC_ADDR_2E,
++ MUAR_INDEX_OWN_MAC_ADDR_2F
++};
++
++enum cipher_suit {
++ IGTK_CIPHER_SUIT_NONE = 0,
++ IGTK_CIPHER_SUIT_BIP,
++ IGTK_CIPHER_SUIT_BIP_256
++};
++
++#define LWTBL_LEN_IN_DW 36
++#define UWTBL_LEN_IN_DW 16
++
++#define MT_DBG_WTBL_BASE 0x820D8000
++
++#define MT_DBG_WTBLON_TOP_BASE 0x820d4000
++#define MT_DBG_WTBLON_TOP_WDUCR_ADDR (MT_DBG_WTBLON_TOP_BASE + 0x0370) // 4370
++#define MT_DBG_WTBLON_TOP_WDUCR_GROUP GENMASK(4, 0)
++
++#define MT_DBG_UWTBL_TOP_BASE 0x820c4000
++#define MT_DBG_UWTBL_TOP_WDUCR_ADDR (MT_DBG_UWTBL_TOP_BASE + 0x0104) // 4104
++#define MT_DBG_UWTBL_TOP_WDUCR_GROUP GENMASK(5, 0)
++#define MT_DBG_UWTBL_TOP_WDUCR_TARGET BIT(31)
++
++#define LWTBL_IDX2BASE_ID GENMASK(14, 8)
++#define LWTBL_IDX2BASE_DW GENMASK(7, 2)
++#define LWTBL_IDX2BASE(_id, _dw) (MT_DBG_WTBL_BASE | \
++ FIELD_PREP(LWTBL_IDX2BASE_ID, _id) | \
++ FIELD_PREP(LWTBL_IDX2BASE_DW, _dw))
++
++#define UWTBL_IDX2BASE_ID GENMASK(12, 6)
++#define UWTBL_IDX2BASE_DW GENMASK(5, 2)
++#define UWTBL_IDX2BASE(_id, _dw) (MT_DBG_UWTBL_TOP_BASE | 0x2000 | \
++ FIELD_PREP(UWTBL_IDX2BASE_ID, _id) | \
++ FIELD_PREP(UWTBL_IDX2BASE_DW, _dw))
++
++#define KEYTBL_IDX2BASE_KEY GENMASK(12, 6)
++#define KEYTBL_IDX2BASE_DW GENMASK(5, 2)
++#define KEYTBL_IDX2BASE(_key, _dw) (MT_DBG_UWTBL_TOP_BASE | 0x2000 | \
++ FIELD_PREP(KEYTBL_IDX2BASE_KEY, _key) | \
++ FIELD_PREP(KEYTBL_IDX2BASE_DW, _dw))
++
++// UMAC WTBL
++// DW0
++#define WF_UWTBL_PEER_MLD_ADDRESS_47_32__DW 0
++#define WF_UWTBL_PEER_MLD_ADDRESS_47_32__ADDR 0
++#define WF_UWTBL_PEER_MLD_ADDRESS_47_32__MASK 0x0000ffff // 15- 0
++#define WF_UWTBL_PEER_MLD_ADDRESS_47_32__SHIFT 0
++#define WF_UWTBL_OWN_MLD_ID_DW 0
++#define WF_UWTBL_OWN_MLD_ID_ADDR 0
++#define WF_UWTBL_OWN_MLD_ID_MASK 0x003f0000 // 21-16
++#define WF_UWTBL_OWN_MLD_ID_SHIFT 16
++// DW1
++#define WF_UWTBL_PEER_MLD_ADDRESS_31_0__DW 1
++#define WF_UWTBL_PEER_MLD_ADDRESS_31_0__ADDR 4
++#define WF_UWTBL_PEER_MLD_ADDRESS_31_0__MASK 0xffffffff // 31- 0
++#define WF_UWTBL_PEER_MLD_ADDRESS_31_0__SHIFT 0
++// DW2
++#define WF_UWTBL_PN_31_0__DW 2
++#define WF_UWTBL_PN_31_0__ADDR 8
++#define WF_UWTBL_PN_31_0__MASK 0xffffffff // 31- 0
++#define WF_UWTBL_PN_31_0__SHIFT 0
++// DW3
++#define WF_UWTBL_PN_47_32__DW 3
++#define WF_UWTBL_PN_47_32__ADDR 12
++#define WF_UWTBL_PN_47_32__MASK 0x0000ffff // 15- 0
++#define WF_UWTBL_PN_47_32__SHIFT 0
++#define WF_UWTBL_COM_SN_DW 3
++#define WF_UWTBL_COM_SN_ADDR 12
++#define WF_UWTBL_COM_SN_MASK 0x0fff0000 // 27-16
++#define WF_UWTBL_COM_SN_SHIFT 16
++// DW4
++#define WF_UWTBL_TID0_SN_DW 4
++#define WF_UWTBL_TID0_SN_ADDR 16
++#define WF_UWTBL_TID0_SN_MASK 0x00000fff // 11- 0
++#define WF_UWTBL_TID0_SN_SHIFT 0
++#define WF_UWTBL_RX_BIPN_31_0__DW 4
++#define WF_UWTBL_RX_BIPN_31_0__ADDR 16
++#define WF_UWTBL_RX_BIPN_31_0__MASK 0xffffffff // 31- 0
++#define WF_UWTBL_RX_BIPN_31_0__SHIFT 0
++#define WF_UWTBL_TID1_SN_DW 4
++#define WF_UWTBL_TID1_SN_ADDR 16
++#define WF_UWTBL_TID1_SN_MASK 0x00fff000 // 23-12
++#define WF_UWTBL_TID1_SN_SHIFT 12
++#define WF_UWTBL_TID2_SN_7_0__DW 4
++#define WF_UWTBL_TID2_SN_7_0__ADDR 16
++#define WF_UWTBL_TID2_SN_7_0__MASK 0xff000000 // 31-24
++#define WF_UWTBL_TID2_SN_7_0__SHIFT 24
++// DW5
++#define WF_UWTBL_TID2_SN_11_8__DW 5
++#define WF_UWTBL_TID2_SN_11_8__ADDR 20
++#define WF_UWTBL_TID2_SN_11_8__MASK 0x0000000f // 3- 0
++#define WF_UWTBL_TID2_SN_11_8__SHIFT 0
++#define WF_UWTBL_RX_BIPN_47_32__DW 5
++#define WF_UWTBL_RX_BIPN_47_32__ADDR 20
++#define WF_UWTBL_RX_BIPN_47_32__MASK 0x0000ffff // 15- 0
++#define WF_UWTBL_RX_BIPN_47_32__SHIFT 0
++#define WF_UWTBL_TID3_SN_DW 5
++#define WF_UWTBL_TID3_SN_ADDR 20
++#define WF_UWTBL_TID3_SN_MASK 0x0000fff0 // 15- 4
++#define WF_UWTBL_TID3_SN_SHIFT 4
++#define WF_UWTBL_TID4_SN_DW 5
++#define WF_UWTBL_TID4_SN_ADDR 20
++#define WF_UWTBL_TID4_SN_MASK 0x0fff0000 // 27-16
++#define WF_UWTBL_TID4_SN_SHIFT 16
++#define WF_UWTBL_TID5_SN_3_0__DW 5
++#define WF_UWTBL_TID5_SN_3_0__ADDR 20
++#define WF_UWTBL_TID5_SN_3_0__MASK 0xf0000000 // 31-28
++#define WF_UWTBL_TID5_SN_3_0__SHIFT 28
++// DW6
++#define WF_UWTBL_TID5_SN_11_4__DW 6
++#define WF_UWTBL_TID5_SN_11_4__ADDR 24
++#define WF_UWTBL_TID5_SN_11_4__MASK 0x000000ff // 7- 0
++#define WF_UWTBL_TID5_SN_11_4__SHIFT 0
++#define WF_UWTBL_KEY_LOC2_DW 6
++#define WF_UWTBL_KEY_LOC2_ADDR 24
++#define WF_UWTBL_KEY_LOC2_MASK 0x00001fff // 12- 0
++#define WF_UWTBL_KEY_LOC2_SHIFT 0
++#define WF_UWTBL_TID6_SN_DW 6
++#define WF_UWTBL_TID6_SN_ADDR 24
++#define WF_UWTBL_TID6_SN_MASK 0x000fff00 // 19- 8
++#define WF_UWTBL_TID6_SN_SHIFT 8
++#define WF_UWTBL_TID7_SN_DW 6
++#define WF_UWTBL_TID7_SN_ADDR 24
++#define WF_UWTBL_TID7_SN_MASK 0xfff00000 // 31-20
++#define WF_UWTBL_TID7_SN_SHIFT 20
++// DW7
++#define WF_UWTBL_KEY_LOC0_DW 7
++#define WF_UWTBL_KEY_LOC0_ADDR 28
++#define WF_UWTBL_KEY_LOC0_MASK 0x00001fff // 12- 0
++#define WF_UWTBL_KEY_LOC0_SHIFT 0
++#define WF_UWTBL_KEY_LOC1_DW 7
++#define WF_UWTBL_KEY_LOC1_ADDR 28
++#define WF_UWTBL_KEY_LOC1_MASK 0x1fff0000 // 28-16
++#define WF_UWTBL_KEY_LOC1_SHIFT 16
++// DW8
++#define WF_UWTBL_AMSDU_CFG_DW 8
++#define WF_UWTBL_AMSDU_CFG_ADDR 32
++#define WF_UWTBL_AMSDU_CFG_MASK 0x00000fff // 11- 0
++#define WF_UWTBL_AMSDU_CFG_SHIFT 0
++#define WF_UWTBL_SEC_ADDR_MODE_DW 8
++#define WF_UWTBL_SEC_ADDR_MODE_ADDR 32
++#define WF_UWTBL_SEC_ADDR_MODE_MASK 0x00300000 // 21-20
++#define WF_UWTBL_SEC_ADDR_MODE_SHIFT 20
++#define WF_UWTBL_WMM_Q_DW 8
++#define WF_UWTBL_WMM_Q_ADDR 32
++#define WF_UWTBL_WMM_Q_MASK 0x06000000 // 26-25
++#define WF_UWTBL_WMM_Q_SHIFT 25
++#define WF_UWTBL_QOS_DW 8
++#define WF_UWTBL_QOS_ADDR 32
++#define WF_UWTBL_QOS_MASK 0x08000000 // 27-27
++#define WF_UWTBL_QOS_SHIFT 27
++#define WF_UWTBL_HT_DW 8
++#define WF_UWTBL_HT_ADDR 32
++#define WF_UWTBL_HT_MASK 0x10000000 // 28-28
++#define WF_UWTBL_HT_SHIFT 28
++#define WF_UWTBL_HDRT_MODE_DW 8
++#define WF_UWTBL_HDRT_MODE_ADDR 32
++#define WF_UWTBL_HDRT_MODE_MASK 0x20000000 // 29-29
++#define WF_UWTBL_HDRT_MODE_SHIFT 29
++// DW9
++#define WF_UWTBL_RELATED_IDX0_DW 9
++#define WF_UWTBL_RELATED_IDX0_ADDR 36
++#define WF_UWTBL_RELATED_IDX0_MASK 0x00000fff // 11- 0
++#define WF_UWTBL_RELATED_IDX0_SHIFT 0
++#define WF_UWTBL_RELATED_BAND0_DW 9
++#define WF_UWTBL_RELATED_BAND0_ADDR 36
++#define WF_UWTBL_RELATED_BAND0_MASK 0x00003000 // 13-12
++#define WF_UWTBL_RELATED_BAND0_SHIFT 12
++#define WF_UWTBL_PRIMARY_MLD_BAND_DW 9
++#define WF_UWTBL_PRIMARY_MLD_BAND_ADDR 36
++#define WF_UWTBL_PRIMARY_MLD_BAND_MASK 0x0000c000 // 15-14
++#define WF_UWTBL_PRIMARY_MLD_BAND_SHIFT 14
++#define WF_UWTBL_RELATED_IDX1_DW 9
++#define WF_UWTBL_RELATED_IDX1_ADDR 36
++#define WF_UWTBL_RELATED_IDX1_MASK 0x0fff0000 // 27-16
++#define WF_UWTBL_RELATED_IDX1_SHIFT 16
++#define WF_UWTBL_RELATED_BAND1_DW 9
++#define WF_UWTBL_RELATED_BAND1_ADDR 36
++#define WF_UWTBL_RELATED_BAND1_MASK 0x30000000 // 29-28
++#define WF_UWTBL_RELATED_BAND1_SHIFT 28
++#define WF_UWTBL_SECONDARY_MLD_BAND_DW 9
++#define WF_UWTBL_SECONDARY_MLD_BAND_ADDR 36
++#define WF_UWTBL_SECONDARY_MLD_BAND_MASK 0xc0000000 // 31-30
++#define WF_UWTBL_SECONDARY_MLD_BAND_SHIFT 30
++
++/* LMAC WTBL */
++// DW0
++#define WF_LWTBL_PEER_LINK_ADDRESS_47_32__DW 0
++#define WF_LWTBL_PEER_LINK_ADDRESS_47_32__ADDR 0
++#define WF_LWTBL_PEER_LINK_ADDRESS_47_32__MASK \
++ 0x0000ffff // 15- 0
++#define WF_LWTBL_PEER_LINK_ADDRESS_47_32__SHIFT 0
++#define WF_LWTBL_MUAR_DW 0
++#define WF_LWTBL_MUAR_ADDR 0
++#define WF_LWTBL_MUAR_MASK \
++ 0x003f0000 // 21-16
++#define WF_LWTBL_MUAR_SHIFT 16
++#define WF_LWTBL_RCA1_DW 0
++#define WF_LWTBL_RCA1_ADDR 0
++#define WF_LWTBL_RCA1_MASK \
++ 0x00400000 // 22-22
++#define WF_LWTBL_RCA1_SHIFT 22
++#define WF_LWTBL_KID_DW 0
++#define WF_LWTBL_KID_ADDR 0
++#define WF_LWTBL_KID_MASK \
++ 0x01800000 // 24-23
++#define WF_LWTBL_KID_SHIFT 23
++#define WF_LWTBL_RCID_DW 0
++#define WF_LWTBL_RCID_ADDR 0
++#define WF_LWTBL_RCID_MASK \
++ 0x02000000 // 25-25
++#define WF_LWTBL_RCID_SHIFT 25
++#define WF_LWTBL_BAND_DW 0
++#define WF_LWTBL_BAND_ADDR 0
++#define WF_LWTBL_BAND_MASK \
++ 0x0c000000 // 27-26
++#define WF_LWTBL_BAND_SHIFT 26
++#define WF_LWTBL_RV_DW 0
++#define WF_LWTBL_RV_ADDR 0
++#define WF_LWTBL_RV_MASK \
++ 0x10000000 // 28-28
++#define WF_LWTBL_RV_SHIFT 28
++#define WF_LWTBL_RCA2_DW 0
++#define WF_LWTBL_RCA2_ADDR 0
++#define WF_LWTBL_RCA2_MASK \
++ 0x20000000 // 29-29
++#define WF_LWTBL_RCA2_SHIFT 29
++#define WF_LWTBL_WPI_FLAG_DW 0
++#define WF_LWTBL_WPI_FLAG_ADDR 0
++#define WF_LWTBL_WPI_FLAG_MASK \
++ 0x40000000 // 30-30
++#define WF_LWTBL_WPI_FLAG_SHIFT 30
++// DW1
++#define WF_LWTBL_PEER_LINK_ADDRESS_31_0__DW 1
++#define WF_LWTBL_PEER_LINK_ADDRESS_31_0__ADDR 4
++#define WF_LWTBL_PEER_LINK_ADDRESS_31_0__MASK \
++ 0xffffffff // 31- 0
++#define WF_LWTBL_PEER_LINK_ADDRESS_31_0__SHIFT 0
++// DW2
++#define WF_LWTBL_AID_DW 2
++#define WF_LWTBL_AID_ADDR 8
++#define WF_LWTBL_AID_MASK \
++ 0x00000fff // 11- 0
++#define WF_LWTBL_AID_SHIFT 0
++#define WF_LWTBL_GID_SU_DW 2
++#define WF_LWTBL_GID_SU_ADDR 8
++#define WF_LWTBL_GID_SU_MASK \
++ 0x00001000 // 12-12
++#define WF_LWTBL_GID_SU_SHIFT 12
++#define WF_LWTBL_SPP_EN_DW 2
++#define WF_LWTBL_SPP_EN_ADDR 8
++#define WF_LWTBL_SPP_EN_MASK \
++ 0x00002000 // 13-13
++#define WF_LWTBL_SPP_EN_SHIFT 13
++#define WF_LWTBL_WPI_EVEN_DW 2
++#define WF_LWTBL_WPI_EVEN_ADDR 8
++#define WF_LWTBL_WPI_EVEN_MASK \
++ 0x00004000 // 14-14
++#define WF_LWTBL_WPI_EVEN_SHIFT 14
++#define WF_LWTBL_AAD_OM_DW 2
++#define WF_LWTBL_AAD_OM_ADDR 8
++#define WF_LWTBL_AAD_OM_MASK \
++ 0x00008000 // 15-15
++#define WF_LWTBL_AAD_OM_SHIFT 15
++/* kite DW2 field bit 13-14 */
++#define WF_LWTBL_DUAL_PTEC_EN_DW 2
++#define WF_LWTBL_DUAL_PTEC_EN_ADDR 8
++#define WF_LWTBL_DUAL_PTEC_EN_MASK \
++ 0x00002000 // 13-13
++#define WF_LWTBL_DUAL_PTEC_EN_SHIFT 13
++#define WF_LWTBL_DUAL_CTS_CAP_DW 2
++#define WF_LWTBL_DUAL_CTS_CAP_ADDR 8
++#define WF_LWTBL_DUAL_CTS_CAP_MASK \
++ 0x00004000 // 14-14
++#define WF_LWTBL_DUAL_CTS_CAP_SHIFT 14
++#define WF_LWTBL_CIPHER_SUIT_PGTK_DW 2
++#define WF_LWTBL_CIPHER_SUIT_PGTK_ADDR 8
++#define WF_LWTBL_CIPHER_SUIT_PGTK_MASK \
++ 0x001f0000 // 20-16
++#define WF_LWTBL_CIPHER_SUIT_PGTK_SHIFT 16
++#define WF_LWTBL_FD_DW 2
++#define WF_LWTBL_FD_ADDR 8
++#define WF_LWTBL_FD_MASK \
++ 0x00200000 // 21-21
++#define WF_LWTBL_FD_SHIFT 21
++#define WF_LWTBL_TD_DW 2
++#define WF_LWTBL_TD_ADDR 8
++#define WF_LWTBL_TD_MASK \
++ 0x00400000 // 22-22
++#define WF_LWTBL_TD_SHIFT 22
++#define WF_LWTBL_SW_DW 2
++#define WF_LWTBL_SW_ADDR 8
++#define WF_LWTBL_SW_MASK \
++ 0x00800000 // 23-23
++#define WF_LWTBL_SW_SHIFT 23
++#define WF_LWTBL_UL_DW 2
++#define WF_LWTBL_UL_ADDR 8
++#define WF_LWTBL_UL_MASK \
++ 0x01000000 // 24-24
++#define WF_LWTBL_UL_SHIFT 24
++#define WF_LWTBL_TX_PS_DW 2
++#define WF_LWTBL_TX_PS_ADDR 8
++#define WF_LWTBL_TX_PS_MASK \
++ 0x02000000 // 25-25
++#define WF_LWTBL_TX_PS_SHIFT 25
++#define WF_LWTBL_QOS_DW 2
++#define WF_LWTBL_QOS_ADDR 8
++#define WF_LWTBL_QOS_MASK \
++ 0x04000000 // 26-26
++#define WF_LWTBL_QOS_SHIFT 26
++#define WF_LWTBL_HT_DW 2
++#define WF_LWTBL_HT_ADDR 8
++#define WF_LWTBL_HT_MASK \
++ 0x08000000 // 27-27
++#define WF_LWTBL_HT_SHIFT 27
++#define WF_LWTBL_VHT_DW 2
++#define WF_LWTBL_VHT_ADDR 8
++#define WF_LWTBL_VHT_MASK \
++ 0x10000000 // 28-28
++#define WF_LWTBL_VHT_SHIFT 28
++#define WF_LWTBL_HE_DW 2
++#define WF_LWTBL_HE_ADDR 8
++#define WF_LWTBL_HE_MASK \
++ 0x20000000 // 29-29
++#define WF_LWTBL_HE_SHIFT 29
++#define WF_LWTBL_EHT_DW 2
++#define WF_LWTBL_EHT_ADDR 8
++#define WF_LWTBL_EHT_MASK \
++ 0x40000000 // 30-30
++#define WF_LWTBL_EHT_SHIFT 30
++#define WF_LWTBL_MESH_DW 2
++#define WF_LWTBL_MESH_ADDR 8
++#define WF_LWTBL_MESH_MASK \
++ 0x80000000 // 31-31
++#define WF_LWTBL_MESH_SHIFT 31
++// DW3
++#define WF_LWTBL_WMM_Q_DW 3
++#define WF_LWTBL_WMM_Q_ADDR 12
++#define WF_LWTBL_WMM_Q_MASK \
++ 0x00000003 // 1- 0
++#define WF_LWTBL_WMM_Q_SHIFT 0
++#define WF_LWTBL_EHT_SIG_MCS_DW 3
++#define WF_LWTBL_EHT_SIG_MCS_ADDR 12
++#define WF_LWTBL_EHT_SIG_MCS_MASK \
++ 0x0000000c // 3- 2
++#define WF_LWTBL_EHT_SIG_MCS_SHIFT 2
++#define WF_LWTBL_HDRT_MODE_DW 3
++#define WF_LWTBL_HDRT_MODE_ADDR 12
++#define WF_LWTBL_HDRT_MODE_MASK \
++ 0x00000010 // 4- 4
++#define WF_LWTBL_HDRT_MODE_SHIFT 4
++#define WF_LWTBL_BEAM_CHG_DW 3
++#define WF_LWTBL_BEAM_CHG_ADDR 12
++#define WF_LWTBL_BEAM_CHG_MASK \
++ 0x00000020 // 5- 5
++#define WF_LWTBL_BEAM_CHG_SHIFT 5
++#define WF_LWTBL_EHT_LTF_SYM_NUM_OPT_DW 3
++#define WF_LWTBL_EHT_LTF_SYM_NUM_OPT_ADDR 12
++#define WF_LWTBL_EHT_LTF_SYM_NUM_OPT_MASK \
++ 0x000000c0 // 7- 6
++#define WF_LWTBL_EHT_LTF_SYM_NUM_OPT_SHIFT 6
++#define WF_LWTBL_PFMU_IDX_DW 3
++#define WF_LWTBL_PFMU_IDX_ADDR 12
++#define WF_LWTBL_PFMU_IDX_MASK \
++ 0x0000ff00 // 15- 8
++#define WF_LWTBL_PFMU_IDX_SHIFT 8
++#define WF_LWTBL_ULPF_IDX_DW 3
++#define WF_LWTBL_ULPF_IDX_ADDR 12
++#define WF_LWTBL_ULPF_IDX_MASK \
++ 0x00ff0000 // 23-16
++#define WF_LWTBL_ULPF_IDX_SHIFT 16
++#define WF_LWTBL_RIBF_DW 3
++#define WF_LWTBL_RIBF_ADDR 12
++#define WF_LWTBL_RIBF_MASK \
++ 0x01000000 // 24-24
++#define WF_LWTBL_RIBF_SHIFT 24
++#define WF_LWTBL_ULPF_DW 3
++#define WF_LWTBL_ULPF_ADDR 12
++#define WF_LWTBL_ULPF_MASK \
++ 0x02000000 // 25-25
++#define WF_LWTBL_ULPF_SHIFT 25
++#define WF_LWTBL_BYPASS_TXSMM_DW 3
++#define WF_LWTBL_BYPASS_TXSMM_ADDR 12
++#define WF_LWTBL_BYPASS_TXSMM_MASK \
++ 0x04000000 // 26-26
++#define WF_LWTBL_BYPASS_TXSMM_SHIFT 26
++#define WF_LWTBL_TBF_HT_DW 3
++#define WF_LWTBL_TBF_HT_ADDR 12
++#define WF_LWTBL_TBF_HT_MASK \
++ 0x08000000 // 27-27
++#define WF_LWTBL_TBF_HT_SHIFT 27
++#define WF_LWTBL_TBF_VHT_DW 3
++#define WF_LWTBL_TBF_VHT_ADDR 12
++#define WF_LWTBL_TBF_VHT_MASK \
++ 0x10000000 // 28-28
++#define WF_LWTBL_TBF_VHT_SHIFT 28
++#define WF_LWTBL_TBF_HE_DW 3
++#define WF_LWTBL_TBF_HE_ADDR 12
++#define WF_LWTBL_TBF_HE_MASK \
++ 0x20000000 // 29-29
++#define WF_LWTBL_TBF_HE_SHIFT 29
++#define WF_LWTBL_TBF_EHT_DW 3
++#define WF_LWTBL_TBF_EHT_ADDR 12
++#define WF_LWTBL_TBF_EHT_MASK \
++ 0x40000000 // 30-30
++#define WF_LWTBL_TBF_EHT_SHIFT 30
++#define WF_LWTBL_IGN_FBK_DW 3
++#define WF_LWTBL_IGN_FBK_ADDR 12
++#define WF_LWTBL_IGN_FBK_MASK \
++ 0x80000000 // 31-31
++#define WF_LWTBL_IGN_FBK_SHIFT 31
++// DW4
++#define WF_LWTBL_NEGOTIATED_WINSIZE0_DW 4
++#define WF_LWTBL_NEGOTIATED_WINSIZE0_ADDR 16
++#define WF_LWTBL_NEGOTIATED_WINSIZE0_MASK \
++ 0x00000007 // 2- 0
++#define WF_LWTBL_NEGOTIATED_WINSIZE0_SHIFT 0
++#define WF_LWTBL_NEGOTIATED_WINSIZE1_DW 4
++#define WF_LWTBL_NEGOTIATED_WINSIZE1_ADDR 16
++#define WF_LWTBL_NEGOTIATED_WINSIZE1_MASK \
++ 0x00000038 // 5- 3
++#define WF_LWTBL_NEGOTIATED_WINSIZE1_SHIFT 3
++#define WF_LWTBL_NEGOTIATED_WINSIZE2_DW 4
++#define WF_LWTBL_NEGOTIATED_WINSIZE2_ADDR 16
++#define WF_LWTBL_NEGOTIATED_WINSIZE2_MASK \
++ 0x000001c0 // 8- 6
++#define WF_LWTBL_NEGOTIATED_WINSIZE2_SHIFT 6
++#define WF_LWTBL_NEGOTIATED_WINSIZE3_DW 4
++#define WF_LWTBL_NEGOTIATED_WINSIZE3_ADDR 16
++#define WF_LWTBL_NEGOTIATED_WINSIZE3_MASK \
++ 0x00000e00 // 11- 9
++#define WF_LWTBL_NEGOTIATED_WINSIZE3_SHIFT 9
++#define WF_LWTBL_NEGOTIATED_WINSIZE4_DW 4
++#define WF_LWTBL_NEGOTIATED_WINSIZE4_ADDR 16
++#define WF_LWTBL_NEGOTIATED_WINSIZE4_MASK \
++ 0x00007000 // 14-12
++#define WF_LWTBL_NEGOTIATED_WINSIZE4_SHIFT 12
++#define WF_LWTBL_NEGOTIATED_WINSIZE5_DW 4
++#define WF_LWTBL_NEGOTIATED_WINSIZE5_ADDR 16
++#define WF_LWTBL_NEGOTIATED_WINSIZE5_MASK \
++ 0x00038000 // 17-15
++#define WF_LWTBL_NEGOTIATED_WINSIZE5_SHIFT 15
++#define WF_LWTBL_NEGOTIATED_WINSIZE6_DW 4
++#define WF_LWTBL_NEGOTIATED_WINSIZE6_ADDR 16
++#define WF_LWTBL_NEGOTIATED_WINSIZE6_MASK \
++ 0x001c0000 // 20-18
++#define WF_LWTBL_NEGOTIATED_WINSIZE6_SHIFT 18
++#define WF_LWTBL_NEGOTIATED_WINSIZE7_DW 4
++#define WF_LWTBL_NEGOTIATED_WINSIZE7_ADDR 16
++#define WF_LWTBL_NEGOTIATED_WINSIZE7_MASK \
++ 0x00e00000 // 23-21
++#define WF_LWTBL_NEGOTIATED_WINSIZE7_SHIFT 21
++#define WF_LWTBL_PE_DW 4
++#define WF_LWTBL_PE_ADDR 16
++#define WF_LWTBL_PE_MASK \
++ 0x03000000 // 25-24
++#define WF_LWTBL_PE_SHIFT 24
++#define WF_LWTBL_DIS_RHTR_DW 4
++#define WF_LWTBL_DIS_RHTR_ADDR 16
++#define WF_LWTBL_DIS_RHTR_MASK \
++ 0x04000000 // 26-26
++#define WF_LWTBL_DIS_RHTR_SHIFT 26
++#define WF_LWTBL_LDPC_HT_DW 4
++#define WF_LWTBL_LDPC_HT_ADDR 16
++#define WF_LWTBL_LDPC_HT_MASK \
++ 0x08000000 // 27-27
++#define WF_LWTBL_LDPC_HT_SHIFT 27
++#define WF_LWTBL_LDPC_VHT_DW 4
++#define WF_LWTBL_LDPC_VHT_ADDR 16
++#define WF_LWTBL_LDPC_VHT_MASK \
++ 0x10000000 // 28-28
++#define WF_LWTBL_LDPC_VHT_SHIFT 28
++#define WF_LWTBL_LDPC_HE_DW 4
++#define WF_LWTBL_LDPC_HE_ADDR 16
++#define WF_LWTBL_LDPC_HE_MASK \
++ 0x20000000 // 29-29
++#define WF_LWTBL_LDPC_HE_SHIFT 29
++#define WF_LWTBL_LDPC_EHT_DW 4
++#define WF_LWTBL_LDPC_EHT_ADDR 16
++#define WF_LWTBL_LDPC_EHT_MASK \
++ 0x40000000 // 30-30
++#define WF_LWTBL_LDPC_EHT_SHIFT 30
++#define WF_LWTBL_BA_MODE_DW 4
++#define WF_LWTBL_BA_MODE_ADDR 16
++#define WF_LWTBL_BA_MODE_MASK \
++ 0x80000000 // 31-31
++#define WF_LWTBL_BA_MODE_SHIFT 31
++// DW5
++#define WF_LWTBL_AF_DW 5
++#define WF_LWTBL_AF_ADDR 20
++#define WF_LWTBL_AF_MASK \
++ 0x00000007 // 2- 0
++#define WF_LWTBL_AF_MASK_7992 \
++ 0x0000000f // 3- 0
++#define WF_LWTBL_AF_SHIFT 0
++#define WF_LWTBL_AF_HE_DW 5
++#define WF_LWTBL_AF_HE_ADDR 20
++#define WF_LWTBL_AF_HE_MASK \
++ 0x00000018 // 4- 3
++#define WF_LWTBL_AF_HE_SHIFT 3
++#define WF_LWTBL_RTS_DW 5
++#define WF_LWTBL_RTS_ADDR 20
++#define WF_LWTBL_RTS_MASK \
++ 0x00000020 // 5- 5
++#define WF_LWTBL_RTS_SHIFT 5
++#define WF_LWTBL_SMPS_DW 5
++#define WF_LWTBL_SMPS_ADDR 20
++#define WF_LWTBL_SMPS_MASK \
++ 0x00000040 // 6- 6
++#define WF_LWTBL_SMPS_SHIFT 6
++#define WF_LWTBL_DYN_BW_DW 5
++#define WF_LWTBL_DYN_BW_ADDR 20
++#define WF_LWTBL_DYN_BW_MASK \
++ 0x00000080 // 7- 7
++#define WF_LWTBL_DYN_BW_SHIFT 7
++#define WF_LWTBL_MMSS_DW 5
++#define WF_LWTBL_MMSS_ADDR 20
++#define WF_LWTBL_MMSS_MASK \
++ 0x00000700 // 10- 8
++#define WF_LWTBL_MMSS_SHIFT 8
++#define WF_LWTBL_USR_DW 5
++#define WF_LWTBL_USR_ADDR 20
++#define WF_LWTBL_USR_MASK \
++ 0x00000800 // 11-11
++#define WF_LWTBL_USR_SHIFT 11
++#define WF_LWTBL_SR_R_DW 5
++#define WF_LWTBL_SR_R_ADDR 20
++#define WF_LWTBL_SR_R_MASK \
++ 0x00007000 // 14-12
++#define WF_LWTBL_SR_R_SHIFT 12
++#define WF_LWTBL_SR_ABORT_DW 5
++#define WF_LWTBL_SR_ABORT_ADDR 20
++#define WF_LWTBL_SR_ABORT_MASK \
++ 0x00008000 // 15-15
++#define WF_LWTBL_SR_ABORT_SHIFT 15
++#define WF_LWTBL_TX_POWER_OFFSET_DW 5
++#define WF_LWTBL_TX_POWER_OFFSET_ADDR 20
++#define WF_LWTBL_TX_POWER_OFFSET_MASK \
++ 0x003f0000 // 21-16
++#define WF_LWTBL_TX_POWER_OFFSET_SHIFT 16
++#define WF_LWTBL_LTF_EHT_DW 5
++#define WF_LWTBL_LTF_EHT_ADDR 20
++#define WF_LWTBL_LTF_EHT_MASK \
++ 0x00c00000 // 23-22
++#define WF_LWTBL_LTF_EHT_SHIFT 22
++#define WF_LWTBL_GI_EHT_DW 5
++#define WF_LWTBL_GI_EHT_ADDR 20
++#define WF_LWTBL_GI_EHT_MASK \
++ 0x03000000 // 25-24
++#define WF_LWTBL_GI_EHT_SHIFT 24
++#define WF_LWTBL_DOPPL_DW 5
++#define WF_LWTBL_DOPPL_ADDR 20
++#define WF_LWTBL_DOPPL_MASK \
++ 0x04000000 // 26-26
++#define WF_LWTBL_DOPPL_SHIFT 26
++#define WF_LWTBL_TXOP_PS_CAP_DW 5
++#define WF_LWTBL_TXOP_PS_CAP_ADDR 20
++#define WF_LWTBL_TXOP_PS_CAP_MASK \
++ 0x08000000 // 27-27
++#define WF_LWTBL_TXOP_PS_CAP_SHIFT 27
++#define WF_LWTBL_DU_I_PSM_DW 5
++#define WF_LWTBL_DU_I_PSM_ADDR 20
++#define WF_LWTBL_DU_I_PSM_MASK \
++ 0x10000000 // 28-28
++#define WF_LWTBL_DU_I_PSM_SHIFT 28
++#define WF_LWTBL_I_PSM_DW 5
++#define WF_LWTBL_I_PSM_ADDR 20
++#define WF_LWTBL_I_PSM_MASK \
++ 0x20000000 // 29-29
++#define WF_LWTBL_I_PSM_SHIFT 29
++#define WF_LWTBL_PSM_DW 5
++#define WF_LWTBL_PSM_ADDR 20
++#define WF_LWTBL_PSM_MASK \
++ 0x40000000 // 30-30
++#define WF_LWTBL_PSM_SHIFT 30
++#define WF_LWTBL_SKIP_TX_DW 5
++#define WF_LWTBL_SKIP_TX_ADDR 20
++#define WF_LWTBL_SKIP_TX_MASK \
++ 0x80000000 // 31-31
++#define WF_LWTBL_SKIP_TX_SHIFT 31
++// DW6
++#define WF_LWTBL_CBRN_DW 6
++#define WF_LWTBL_CBRN_ADDR 24
++#define WF_LWTBL_CBRN_MASK \
++ 0x00000007 // 2- 0
++#define WF_LWTBL_CBRN_SHIFT 0
++#define WF_LWTBL_DBNSS_EN_DW 6
++#define WF_LWTBL_DBNSS_EN_ADDR 24
++#define WF_LWTBL_DBNSS_EN_MASK \
++ 0x00000008 // 3- 3
++#define WF_LWTBL_DBNSS_EN_SHIFT 3
++#define WF_LWTBL_BAF_EN_DW 6
++#define WF_LWTBL_BAF_EN_ADDR 24
++#define WF_LWTBL_BAF_EN_MASK \
++ 0x00000010 // 4- 4
++#define WF_LWTBL_BAF_EN_SHIFT 4
++#define WF_LWTBL_RDGBA_DW 6
++#define WF_LWTBL_RDGBA_ADDR 24
++#define WF_LWTBL_RDGBA_MASK \
++ 0x00000020 // 5- 5
++#define WF_LWTBL_RDGBA_SHIFT 5
++#define WF_LWTBL_R_DW 6
++#define WF_LWTBL_R_ADDR 24
++#define WF_LWTBL_R_MASK \
++ 0x00000040 // 6- 6
++#define WF_LWTBL_R_SHIFT 6
++#define WF_LWTBL_SPE_IDX_DW 6
++#define WF_LWTBL_SPE_IDX_ADDR 24
++#define WF_LWTBL_SPE_IDX_MASK \
++ 0x00000f80 // 11- 7
++#define WF_LWTBL_SPE_IDX_SHIFT 7
++#define WF_LWTBL_G2_DW 6
++#define WF_LWTBL_G2_ADDR 24
++#define WF_LWTBL_G2_MASK \
++ 0x00001000 // 12-12
++#define WF_LWTBL_G2_SHIFT 12
++#define WF_LWTBL_G4_DW 6
++#define WF_LWTBL_G4_ADDR 24
++#define WF_LWTBL_G4_MASK \
++ 0x00002000 // 13-13
++#define WF_LWTBL_G4_SHIFT 13
++#define WF_LWTBL_G8_DW 6
++#define WF_LWTBL_G8_ADDR 24
++#define WF_LWTBL_G8_MASK \
++ 0x00004000 // 14-14
++#define WF_LWTBL_G8_SHIFT 14
++#define WF_LWTBL_G16_DW 6
++#define WF_LWTBL_G16_ADDR 24
++#define WF_LWTBL_G16_MASK \
++ 0x00008000 // 15-15
++#define WF_LWTBL_G16_SHIFT 15
++#define WF_LWTBL_G2_LTF_DW 6
++#define WF_LWTBL_G2_LTF_ADDR 24
++#define WF_LWTBL_G2_LTF_MASK \
++ 0x00030000 // 17-16
++#define WF_LWTBL_G2_LTF_SHIFT 16
++#define WF_LWTBL_G4_LTF_DW 6
++#define WF_LWTBL_G4_LTF_ADDR 24
++#define WF_LWTBL_G4_LTF_MASK \
++ 0x000c0000 // 19-18
++#define WF_LWTBL_G4_LTF_SHIFT 18
++#define WF_LWTBL_G8_LTF_DW 6
++#define WF_LWTBL_G8_LTF_ADDR 24
++#define WF_LWTBL_G8_LTF_MASK \
++ 0x00300000 // 21-20
++#define WF_LWTBL_G8_LTF_SHIFT 20
++#define WF_LWTBL_G16_LTF_DW 6
++#define WF_LWTBL_G16_LTF_ADDR 24
++#define WF_LWTBL_G16_LTF_MASK \
++ 0x00c00000 // 23-22
++#define WF_LWTBL_G16_LTF_SHIFT 22
++#define WF_LWTBL_G2_HE_DW 6
++#define WF_LWTBL_G2_HE_ADDR 24
++#define WF_LWTBL_G2_HE_MASK \
++ 0x03000000 // 25-24
++#define WF_LWTBL_G2_HE_SHIFT 24
++#define WF_LWTBL_G4_HE_DW 6
++#define WF_LWTBL_G4_HE_ADDR 24
++#define WF_LWTBL_G4_HE_MASK \
++ 0x0c000000 // 27-26
++#define WF_LWTBL_G4_HE_SHIFT 26
++#define WF_LWTBL_G8_HE_DW 6
++#define WF_LWTBL_G8_HE_ADDR 24
++#define WF_LWTBL_G8_HE_MASK \
++ 0x30000000 // 29-28
++#define WF_LWTBL_G8_HE_SHIFT 28
++#define WF_LWTBL_G16_HE_DW 6
++#define WF_LWTBL_G16_HE_ADDR 24
++#define WF_LWTBL_G16_HE_MASK \
++ 0xc0000000 // 31-30
++#define WF_LWTBL_G16_HE_SHIFT 30
++// DW7
++#define WF_LWTBL_BA_WIN_SIZE0_DW 7
++#define WF_LWTBL_BA_WIN_SIZE0_ADDR 28
++#define WF_LWTBL_BA_WIN_SIZE0_MASK \
++ 0x0000000f // 3- 0
++#define WF_LWTBL_BA_WIN_SIZE0_SHIFT 0
++#define WF_LWTBL_BA_WIN_SIZE1_DW 7
++#define WF_LWTBL_BA_WIN_SIZE1_ADDR 28
++#define WF_LWTBL_BA_WIN_SIZE1_MASK \
++ 0x000000f0 // 7- 4
++#define WF_LWTBL_BA_WIN_SIZE1_SHIFT 4
++#define WF_LWTBL_BA_WIN_SIZE2_DW 7
++#define WF_LWTBL_BA_WIN_SIZE2_ADDR 28
++#define WF_LWTBL_BA_WIN_SIZE2_MASK \
++ 0x00000f00 // 11- 8
++#define WF_LWTBL_BA_WIN_SIZE2_SHIFT 8
++#define WF_LWTBL_BA_WIN_SIZE3_DW 7
++#define WF_LWTBL_BA_WIN_SIZE3_ADDR 28
++#define WF_LWTBL_BA_WIN_SIZE3_MASK \
++ 0x0000f000 // 15-12
++#define WF_LWTBL_BA_WIN_SIZE3_SHIFT 12
++#define WF_LWTBL_BA_WIN_SIZE4_DW 7
++#define WF_LWTBL_BA_WIN_SIZE4_ADDR 28
++#define WF_LWTBL_BA_WIN_SIZE4_MASK \
++ 0x000f0000 // 19-16
++#define WF_LWTBL_BA_WIN_SIZE4_SHIFT 16
++#define WF_LWTBL_BA_WIN_SIZE5_DW 7
++#define WF_LWTBL_BA_WIN_SIZE5_ADDR 28
++#define WF_LWTBL_BA_WIN_SIZE5_MASK \
++ 0x00f00000 // 23-20
++#define WF_LWTBL_BA_WIN_SIZE5_SHIFT 20
++#define WF_LWTBL_BA_WIN_SIZE6_DW 7
++#define WF_LWTBL_BA_WIN_SIZE6_ADDR 28
++#define WF_LWTBL_BA_WIN_SIZE6_MASK \
++ 0x0f000000 // 27-24
++#define WF_LWTBL_BA_WIN_SIZE6_SHIFT 24
++#define WF_LWTBL_BA_WIN_SIZE7_DW 7
++#define WF_LWTBL_BA_WIN_SIZE7_ADDR 28
++#define WF_LWTBL_BA_WIN_SIZE7_MASK \
++ 0xf0000000 // 31-28
++#define WF_LWTBL_BA_WIN_SIZE7_SHIFT 28
++// DW8
++#define WF_LWTBL_AC0_RTS_FAIL_CNT_DW 8
++#define WF_LWTBL_AC0_RTS_FAIL_CNT_ADDR 32
++#define WF_LWTBL_AC0_RTS_FAIL_CNT_MASK \
++ 0x0000001f // 4- 0
++#define WF_LWTBL_AC0_RTS_FAIL_CNT_SHIFT 0
++#define WF_LWTBL_AC1_RTS_FAIL_CNT_DW 8
++#define WF_LWTBL_AC1_RTS_FAIL_CNT_ADDR 32
++#define WF_LWTBL_AC1_RTS_FAIL_CNT_MASK \
++ 0x000003e0 // 9- 5
++#define WF_LWTBL_AC1_RTS_FAIL_CNT_SHIFT 5
++#define WF_LWTBL_AC2_RTS_FAIL_CNT_DW 8
++#define WF_LWTBL_AC2_RTS_FAIL_CNT_ADDR 32
++#define WF_LWTBL_AC2_RTS_FAIL_CNT_MASK \
++ 0x00007c00 // 14-10
++#define WF_LWTBL_AC2_RTS_FAIL_CNT_SHIFT 10
++#define WF_LWTBL_AC3_RTS_FAIL_CNT_DW 8
++#define WF_LWTBL_AC3_RTS_FAIL_CNT_ADDR 32
++#define WF_LWTBL_AC3_RTS_FAIL_CNT_MASK \
++ 0x000f8000 // 19-15
++#define WF_LWTBL_AC3_RTS_FAIL_CNT_SHIFT 15
++#define WF_LWTBL_PARTIAL_AID_DW 8
++#define WF_LWTBL_PARTIAL_AID_ADDR 32
++#define WF_LWTBL_PARTIAL_AID_MASK \
++ 0x1ff00000 // 28-20
++#define WF_LWTBL_PARTIAL_AID_SHIFT 20
++#define WF_LWTBL_CHK_PER_DW 8
++#define WF_LWTBL_CHK_PER_ADDR 32
++#define WF_LWTBL_CHK_PER_MASK \
++ 0x80000000 // 31-31
++#define WF_LWTBL_CHK_PER_SHIFT 31
++// DW9
++#define WF_LWTBL_RX_AVG_MPDU_SIZE_DW 9
++#define WF_LWTBL_RX_AVG_MPDU_SIZE_ADDR 36
++#define WF_LWTBL_RX_AVG_MPDU_SIZE_MASK \
++ 0x00003fff // 13- 0
++#define WF_LWTBL_RX_AVG_MPDU_SIZE_SHIFT 0
++#define WF_LWTBL_PRITX_SW_MODE_DW 9
++#define WF_LWTBL_PRITX_SW_MODE_ADDR 36
++#define WF_LWTBL_PRITX_SW_MODE_MASK \
++ 0x00008000 // 15-15
++#define WF_LWTBL_PRITX_SW_MODE_SHIFT 15
++#define WF_LWTBL_PRITX_SW_MODE_MASK_7992 \
++ 0x00004000 // 14-14
++#define WF_LWTBL_PRITX_SW_MODE_SHIFT_7992 14
++#define WF_LWTBL_PRITX_ERSU_DW 9
++#define WF_LWTBL_PRITX_ERSU_ADDR 36
++#define WF_LWTBL_PRITX_ERSU_MASK \
++ 0x00010000 // 16-16
++#define WF_LWTBL_PRITX_ERSU_SHIFT 16
++#define WF_LWTBL_PRITX_ERSU_MASK_7992 \
++ 0x00008000 // 15-15
++#define WF_LWTBL_PRITX_ERSU_SHIFT_7992 15
++#define WF_LWTBL_PRITX_PLR_DW 9
++#define WF_LWTBL_PRITX_PLR_ADDR 36
++#define WF_LWTBL_PRITX_PLR_MASK \
++ 0x00020000 // 17-17
++#define WF_LWTBL_PRITX_PLR_SHIFT 17
++#define WF_LWTBL_PRITX_PLR_MASK_7992 \
++ 0x00030000 // 17-16
++#define WF_LWTBL_PRITX_PLR_SHIFT_7992 16
++#define WF_LWTBL_PRITX_DCM_DW 9
++#define WF_LWTBL_PRITX_DCM_ADDR 36
++#define WF_LWTBL_PRITX_DCM_MASK \
++ 0x00040000 // 18-18
++#define WF_LWTBL_PRITX_DCM_SHIFT 18
++#define WF_LWTBL_PRITX_ER106T_DW 9
++#define WF_LWTBL_PRITX_ER106T_ADDR 36
++#define WF_LWTBL_PRITX_ER106T_MASK \
++ 0x00080000 // 19-19
++#define WF_LWTBL_PRITX_ER106T_SHIFT 19
++#define WF_LWTBL_FCAP_DW 9
++#define WF_LWTBL_FCAP_ADDR 36
++#define WF_LWTBL_FCAP_MASK \
++ 0x00700000 // 22-20
++#define WF_LWTBL_FCAP_SHIFT 20
++#define WF_LWTBL_MPDU_FAIL_CNT_DW 9
++#define WF_LWTBL_MPDU_FAIL_CNT_ADDR 36
++#define WF_LWTBL_MPDU_FAIL_CNT_MASK \
++ 0x03800000 // 25-23
++#define WF_LWTBL_MPDU_FAIL_CNT_SHIFT 23
++#define WF_LWTBL_MPDU_OK_CNT_DW 9
++#define WF_LWTBL_MPDU_OK_CNT_ADDR 36
++#define WF_LWTBL_MPDU_OK_CNT_MASK \
++ 0x1c000000 // 28-26
++#define WF_LWTBL_MPDU_OK_CNT_SHIFT 26
++#define WF_LWTBL_RATE_IDX_DW 9
++#define WF_LWTBL_RATE_IDX_ADDR 36
++#define WF_LWTBL_RATE_IDX_MASK \
++ 0xe0000000 // 31-29
++#define WF_LWTBL_RATE_IDX_SHIFT 29
++// DW10
++#define WF_LWTBL_RATE1_DW 10
++#define WF_LWTBL_RATE1_ADDR 40
++#define WF_LWTBL_RATE1_MASK \
++ 0x00007fff // 14- 0
++#define WF_LWTBL_RATE1_SHIFT 0
++#define WF_LWTBL_RATE2_DW 10
++#define WF_LWTBL_RATE2_ADDR 40
++#define WF_LWTBL_RATE2_MASK \
++ 0x7fff0000 // 30-16
++#define WF_LWTBL_RATE2_SHIFT 16
++// DW11
++#define WF_LWTBL_RATE3_DW 11
++#define WF_LWTBL_RATE3_ADDR 44
++#define WF_LWTBL_RATE3_MASK \
++ 0x00007fff // 14- 0
++#define WF_LWTBL_RATE3_SHIFT 0
++#define WF_LWTBL_RATE4_DW 11
++#define WF_LWTBL_RATE4_ADDR 44
++#define WF_LWTBL_RATE4_MASK \
++ 0x7fff0000 // 30-16
++#define WF_LWTBL_RATE4_SHIFT 16
++// DW12
++#define WF_LWTBL_RATE5_DW 12
++#define WF_LWTBL_RATE5_ADDR 48
++#define WF_LWTBL_RATE5_MASK \
++ 0x00007fff // 14- 0
++#define WF_LWTBL_RATE5_SHIFT 0
++#define WF_LWTBL_RATE6_DW 12
++#define WF_LWTBL_RATE6_ADDR 48
++#define WF_LWTBL_RATE6_MASK \
++ 0x7fff0000 // 30-16
++#define WF_LWTBL_RATE6_SHIFT 16
++// DW13
++#define WF_LWTBL_RATE7_DW 13
++#define WF_LWTBL_RATE7_ADDR 52
++#define WF_LWTBL_RATE7_MASK \
++ 0x00007fff // 14- 0
++#define WF_LWTBL_RATE7_SHIFT 0
++#define WF_LWTBL_RATE8_DW 13
++#define WF_LWTBL_RATE8_ADDR 52
++#define WF_LWTBL_RATE8_MASK \
++ 0x7fff0000 // 30-16
++#define WF_LWTBL_RATE8_SHIFT 16
++// DW14
++#define WF_LWTBL_RATE1_TX_CNT_DW 14
++#define WF_LWTBL_RATE1_TX_CNT_ADDR 56
++#define WF_LWTBL_RATE1_TX_CNT_MASK \
++ 0x0000ffff // 15- 0
++#define WF_LWTBL_RATE1_TX_CNT_SHIFT 0
++#define WF_LWTBL_CIPHER_SUIT_IGTK_DW 14
++#define WF_LWTBL_CIPHER_SUIT_IGTK_ADDR 56
++#define WF_LWTBL_CIPHER_SUIT_IGTK_MASK \
++ 0x00003000 // 13-12
++#define WF_LWTBL_CIPHER_SUIT_IGTK_SHIFT 12
++#define WF_LWTBL_CIPHER_SUIT_BIGTK_DW 14
++#define WF_LWTBL_CIPHER_SUIT_BIGTK_ADDR 56
++#define WF_LWTBL_CIPHER_SUIT_BIGTK_MASK \
++ 0x0000c000 // 15-14
++#define WF_LWTBL_CIPHER_SUIT_BIGTK_SHIFT 14
++#define WF_LWTBL_RATE1_FAIL_CNT_DW 14
++#define WF_LWTBL_RATE1_FAIL_CNT_ADDR 56
++#define WF_LWTBL_RATE1_FAIL_CNT_MASK \
++ 0xffff0000 // 31-16
++#define WF_LWTBL_RATE1_FAIL_CNT_SHIFT 16
++// DW15
++#define WF_LWTBL_RATE2_OK_CNT_DW 15
++#define WF_LWTBL_RATE2_OK_CNT_ADDR 60
++#define WF_LWTBL_RATE2_OK_CNT_MASK \
++ 0x0000ffff // 15- 0
++#define WF_LWTBL_RATE2_OK_CNT_SHIFT 0
++#define WF_LWTBL_RATE3_OK_CNT_DW 15
++#define WF_LWTBL_RATE3_OK_CNT_ADDR 60
++#define WF_LWTBL_RATE3_OK_CNT_MASK \
++ 0xffff0000 // 31-16
++#define WF_LWTBL_RATE3_OK_CNT_SHIFT 16
++// DW16
++#define WF_LWTBL_CURRENT_BW_TX_CNT_DW 16
++#define WF_LWTBL_CURRENT_BW_TX_CNT_ADDR 64
++#define WF_LWTBL_CURRENT_BW_TX_CNT_MASK \
++ 0x0000ffff // 15- 0
++#define WF_LWTBL_CURRENT_BW_TX_CNT_SHIFT 0
++#define WF_LWTBL_CURRENT_BW_FAIL_CNT_DW 16
++#define WF_LWTBL_CURRENT_BW_FAIL_CNT_ADDR 64
++#define WF_LWTBL_CURRENT_BW_FAIL_CNT_MASK \
++ 0xffff0000 // 31-16
++#define WF_LWTBL_CURRENT_BW_FAIL_CNT_SHIFT 16
++// DW17
++#define WF_LWTBL_OTHER_BW_TX_CNT_DW 17
++#define WF_LWTBL_OTHER_BW_TX_CNT_ADDR 68
++#define WF_LWTBL_OTHER_BW_TX_CNT_MASK \
++ 0x0000ffff // 15- 0
++#define WF_LWTBL_OTHER_BW_TX_CNT_SHIFT 0
++#define WF_LWTBL_OTHER_BW_FAIL_CNT_DW 17
++#define WF_LWTBL_OTHER_BW_FAIL_CNT_ADDR 68
++#define WF_LWTBL_OTHER_BW_FAIL_CNT_MASK \
++ 0xffff0000 // 31-16
++#define WF_LWTBL_OTHER_BW_FAIL_CNT_SHIFT 16
++// DW18
++#define WF_LWTBL_RTS_OK_CNT_DW 18
++#define WF_LWTBL_RTS_OK_CNT_ADDR 72
++#define WF_LWTBL_RTS_OK_CNT_MASK \
++ 0x0000ffff // 15- 0
++#define WF_LWTBL_RTS_OK_CNT_SHIFT 0
++#define WF_LWTBL_RTS_FAIL_CNT_DW 18
++#define WF_LWTBL_RTS_FAIL_CNT_ADDR 72
++#define WF_LWTBL_RTS_FAIL_CNT_MASK \
++ 0xffff0000 // 31-16
++#define WF_LWTBL_RTS_FAIL_CNT_SHIFT 16
++// DW19
++#define WF_LWTBL_DATA_RETRY_CNT_DW 19
++#define WF_LWTBL_DATA_RETRY_CNT_ADDR 76
++#define WF_LWTBL_DATA_RETRY_CNT_MASK \
++ 0x0000ffff // 15- 0
++#define WF_LWTBL_DATA_RETRY_CNT_SHIFT 0
++#define WF_LWTBL_MGNT_RETRY_CNT_DW 19
++#define WF_LWTBL_MGNT_RETRY_CNT_ADDR 76
++#define WF_LWTBL_MGNT_RETRY_CNT_MASK \
++ 0xffff0000 // 31-16
++#define WF_LWTBL_MGNT_RETRY_CNT_SHIFT 16
++// DW20
++#define WF_LWTBL_AC0_CTT_CDT_CRB_DW 20
++#define WF_LWTBL_AC0_CTT_CDT_CRB_ADDR 80
++#define WF_LWTBL_AC0_CTT_CDT_CRB_MASK \
++ 0xffffffff // 31- 0
++#define WF_LWTBL_AC0_CTT_CDT_CRB_SHIFT 0
++// DW21
++// DO NOT process repeat field(adm[0])
++// DW22
++#define WF_LWTBL_AC1_CTT_CDT_CRB_DW 22
++#define WF_LWTBL_AC1_CTT_CDT_CRB_ADDR 88
++#define WF_LWTBL_AC1_CTT_CDT_CRB_MASK \
++ 0xffffffff // 31- 0
++#define WF_LWTBL_AC1_CTT_CDT_CRB_SHIFT 0
++// DW23
++// DO NOT process repeat field(adm[1])
++// DW24
++#define WF_LWTBL_AC2_CTT_CDT_CRB_DW 24
++#define WF_LWTBL_AC2_CTT_CDT_CRB_ADDR 96
++#define WF_LWTBL_AC2_CTT_CDT_CRB_MASK \
++ 0xffffffff // 31- 0
++#define WF_LWTBL_AC2_CTT_CDT_CRB_SHIFT 0
++// DW25
++// DO NOT process repeat field(adm[2])
++// DW26
++#define WF_LWTBL_AC3_CTT_CDT_CRB_DW 26
++#define WF_LWTBL_AC3_CTT_CDT_CRB_ADDR 104
++#define WF_LWTBL_AC3_CTT_CDT_CRB_MASK \
++ 0xffffffff // 31- 0
++#define WF_LWTBL_AC3_CTT_CDT_CRB_SHIFT 0
++// DW27
++// DO NOT process repeat field(adm[3])
++// DW28
++#define WF_LWTBL_RELATED_IDX0_DW 28
++#define WF_LWTBL_RELATED_IDX0_ADDR 112
++#define WF_LWTBL_RELATED_IDX0_MASK \
++ 0x00000fff // 11- 0
++#define WF_LWTBL_RELATED_IDX0_SHIFT 0
++#define WF_LWTBL_RELATED_BAND0_DW 28
++#define WF_LWTBL_RELATED_BAND0_ADDR 112
++#define WF_LWTBL_RELATED_BAND0_MASK \
++ 0x00003000 // 13-12
++#define WF_LWTBL_RELATED_BAND0_SHIFT 12
++#define WF_LWTBL_PRIMARY_MLD_BAND_DW 28
++#define WF_LWTBL_PRIMARY_MLD_BAND_ADDR 112
++#define WF_LWTBL_PRIMARY_MLD_BAND_MASK \
++ 0x0000c000 // 15-14
++#define WF_LWTBL_PRIMARY_MLD_BAND_SHIFT 14
++#define WF_LWTBL_RELATED_IDX1_DW 28
++#define WF_LWTBL_RELATED_IDX1_ADDR 112
++#define WF_LWTBL_RELATED_IDX1_MASK \
++ 0x0fff0000 // 27-16
++#define WF_LWTBL_RELATED_IDX1_SHIFT 16
++#define WF_LWTBL_RELATED_BAND1_DW 28
++#define WF_LWTBL_RELATED_BAND1_ADDR 112
++#define WF_LWTBL_RELATED_BAND1_MASK \
++ 0x30000000 // 29-28
++#define WF_LWTBL_RELATED_BAND1_SHIFT 28
++#define WF_LWTBL_SECONDARY_MLD_BAND_DW 28
++#define WF_LWTBL_SECONDARY_MLD_BAND_ADDR 112
++#define WF_LWTBL_SECONDARY_MLD_BAND_MASK \
++ 0xc0000000 // 31-30
++#define WF_LWTBL_SECONDARY_MLD_BAND_SHIFT 30
++// DW29
++#define WF_LWTBL_DISPATCH_POLICY0_DW 29
++#define WF_LWTBL_DISPATCH_POLICY0_ADDR 116
++#define WF_LWTBL_DISPATCH_POLICY0_MASK \
++ 0x00000003 // 1- 0
++#define WF_LWTBL_DISPATCH_POLICY0_SHIFT 0
++#define WF_LWTBL_DISPATCH_POLICY1_DW 29
++#define WF_LWTBL_DISPATCH_POLICY1_ADDR 116
++#define WF_LWTBL_DISPATCH_POLICY1_MASK \
++ 0x0000000c // 3- 2
++#define WF_LWTBL_DISPATCH_POLICY1_SHIFT 2
++#define WF_LWTBL_DISPATCH_POLICY2_DW 29
++#define WF_LWTBL_DISPATCH_POLICY2_ADDR 116
++#define WF_LWTBL_DISPATCH_POLICY2_MASK \
++ 0x00000030 // 5- 4
++#define WF_LWTBL_DISPATCH_POLICY2_SHIFT 4
++#define WF_LWTBL_DISPATCH_POLICY3_DW 29
++#define WF_LWTBL_DISPATCH_POLICY3_ADDR 116
++#define WF_LWTBL_DISPATCH_POLICY3_MASK \
++ 0x000000c0 // 7- 6
++#define WF_LWTBL_DISPATCH_POLICY3_SHIFT 6
++#define WF_LWTBL_DISPATCH_POLICY4_DW 29
++#define WF_LWTBL_DISPATCH_POLICY4_ADDR 116
++#define WF_LWTBL_DISPATCH_POLICY4_MASK \
++ 0x00000300 // 9- 8
++#define WF_LWTBL_DISPATCH_POLICY4_SHIFT 8
++#define WF_LWTBL_DISPATCH_POLICY5_DW 29
++#define WF_LWTBL_DISPATCH_POLICY5_ADDR 116
++#define WF_LWTBL_DISPATCH_POLICY5_MASK \
++ 0x00000c00 // 11-10
++#define WF_LWTBL_DISPATCH_POLICY5_SHIFT 10
++#define WF_LWTBL_DISPATCH_POLICY6_DW 29
++#define WF_LWTBL_DISPATCH_POLICY6_ADDR 116
++#define WF_LWTBL_DISPATCH_POLICY6_MASK \
++ 0x00003000 // 13-12
++#define WF_LWTBL_DISPATCH_POLICY6_SHIFT 12
++#define WF_LWTBL_DISPATCH_POLICY7_DW 29
++#define WF_LWTBL_DISPATCH_POLICY7_ADDR 116
++#define WF_LWTBL_DISPATCH_POLICY7_MASK \
++ 0x0000c000 // 15-14
++#define WF_LWTBL_DISPATCH_POLICY7_SHIFT 14
++#define WF_LWTBL_OWN_MLD_ID_DW 29
++#define WF_LWTBL_OWN_MLD_ID_ADDR 116
++#define WF_LWTBL_OWN_MLD_ID_MASK \
++ 0x003f0000 // 21-16
++#define WF_LWTBL_OWN_MLD_ID_SHIFT 16
++#define WF_LWTBL_EMLSR0_DW 29
++#define WF_LWTBL_EMLSR0_ADDR 116
++#define WF_LWTBL_EMLSR0_MASK \
++ 0x00400000 // 22-22
++#define WF_LWTBL_EMLSR0_SHIFT 22
++#define WF_LWTBL_EMLMR0_DW 29
++#define WF_LWTBL_EMLMR0_ADDR 116
++#define WF_LWTBL_EMLMR0_MASK \
++ 0x00800000 // 23-23
++#define WF_LWTBL_EMLMR0_SHIFT 23
++#define WF_LWTBL_EMLSR1_DW 29
++#define WF_LWTBL_EMLSR1_ADDR 116
++#define WF_LWTBL_EMLSR1_MASK \
++ 0x01000000 // 24-24
++#define WF_LWTBL_EMLSR1_SHIFT 24
++#define WF_LWTBL_EMLMR1_DW 29
++#define WF_LWTBL_EMLMR1_ADDR 116
++#define WF_LWTBL_EMLMR1_MASK \
++ 0x02000000 // 25-25
++#define WF_LWTBL_EMLMR1_SHIFT 25
++#define WF_LWTBL_EMLSR2_DW 29
++#define WF_LWTBL_EMLSR2_ADDR 116
++#define WF_LWTBL_EMLSR2_MASK \
++ 0x04000000 // 26-26
++#define WF_LWTBL_EMLSR2_SHIFT 26
++#define WF_LWTBL_EMLMR2_DW 29
++#define WF_LWTBL_EMLMR2_ADDR 116
++#define WF_LWTBL_EMLMR2_MASK \
++ 0x08000000 // 27-27
++#define WF_LWTBL_EMLMR2_SHIFT 27
++#define WF_LWTBL_STR_BITMAP_DW 29
++#define WF_LWTBL_STR_BITMAP_ADDR 116
++#define WF_LWTBL_STR_BITMAP_MASK \
++ 0xe0000000 // 31-29
++#define WF_LWTBL_STR_BITMAP_SHIFT 29
++// DW30
++#define WF_LWTBL_DISPATCH_ORDER_DW 30
++#define WF_LWTBL_DISPATCH_ORDER_ADDR 120
++#define WF_LWTBL_DISPATCH_ORDER_MASK \
++ 0x0000007f // 6- 0
++#define WF_LWTBL_DISPATCH_ORDER_SHIFT 0
++#define WF_LWTBL_DISPATCH_RATIO_DW 30
++#define WF_LWTBL_DISPATCH_RATIO_ADDR 120
++#define WF_LWTBL_DISPATCH_RATIO_MASK \
++ 0x00003f80 // 13- 7
++#define WF_LWTBL_DISPATCH_RATIO_SHIFT 7
++#define WF_LWTBL_LINK_MGF_DW 30
++#define WF_LWTBL_LINK_MGF_ADDR 120
++#define WF_LWTBL_LINK_MGF_MASK \
++ 0xffff0000 // 31-16
++#define WF_LWTBL_LINK_MGF_SHIFT 16
++// DW31
++#define WF_LWTBL_BFTX_TB_DW 31
++#define WF_LWTBL_BFTX_TB_ADDR 124
++#define WF_LWTBL_BFTX_TB_MASK \
++ 0x00800000 // 23-23
++#define WF_LWTBL_DROP_DW 31
++#define WF_LWTBL_DROP_ADDR 124
++#define WF_LWTBL_DROP_MASK \
++ 0x01000000 // 24-24
++#define WF_LWTBL_DROP_SHIFT 24
++#define WF_LWTBL_CASCAD_DW 31
++#define WF_LWTBL_CASCAD_ADDR 124
++#define WF_LWTBL_CASCAD_MASK \
++ 0x02000000 // 25-25
++#define WF_LWTBL_CASCAD_SHIFT 25
++#define WF_LWTBL_ALL_ACK_DW 31
++#define WF_LWTBL_ALL_ACK_ADDR 124
++#define WF_LWTBL_ALL_ACK_MASK \
++ 0x04000000 // 26-26
++#define WF_LWTBL_ALL_ACK_SHIFT 26
++#define WF_LWTBL_MPDU_SIZE_DW 31
++#define WF_LWTBL_MPDU_SIZE_ADDR 124
++#define WF_LWTBL_MPDU_SIZE_MASK \
++ 0x18000000 // 28-27
++#define WF_LWTBL_MPDU_SIZE_SHIFT 27
++#define WF_LWTBL_RXD_DUP_MODE_DW 31
++#define WF_LWTBL_RXD_DUP_MODE_ADDR 124
++#define WF_LWTBL_RXD_DUP_MODE_MASK \
++ 0x60000000 // 30-29
++#define WF_LWTBL_RXD_DUP_MODE_SHIFT 29
++#define WF_LWTBL_ACK_EN_DW 31
++#define WF_LWTBL_ACK_EN_ADDR 128
++#define WF_LWTBL_ACK_EN_MASK \
++ 0x80000000 // 31-31
++#define WF_LWTBL_ACK_EN_SHIFT 31
++// DW32
++#define WF_LWTBL_OM_INFO_DW 32
++#define WF_LWTBL_OM_INFO_ADDR 128
++#define WF_LWTBL_OM_INFO_MASK \
++ 0x00000fff // 11- 0
++#define WF_LWTBL_OM_INFO_SHIFT 0
++#define WF_LWTBL_OM_INFO_EHT_DW 32
++#define WF_LWTBL_OM_INFO_EHT_ADDR 128
++#define WF_LWTBL_OM_INFO_EHT_MASK \
++ 0x0000f000 // 15-12
++#define WF_LWTBL_OM_INFO_EHT_SHIFT 12
++#define WF_LWTBL_RXD_DUP_FOR_OM_CHG_DW 32
++#define WF_LWTBL_RXD_DUP_FOR_OM_CHG_ADDR 128
++#define WF_LWTBL_RXD_DUP_FOR_OM_CHG_MASK \
++ 0x00010000 // 16-16
++#define WF_LWTBL_RXD_DUP_FOR_OM_CHG_SHIFT 16
++#define WF_LWTBL_RXD_DUP_WHITE_LIST_DW 32
++#define WF_LWTBL_RXD_DUP_WHITE_LIST_ADDR 128
++#define WF_LWTBL_RXD_DUP_WHITE_LIST_MASK \
++ 0x1ffe0000 // 28-17
++#define WF_LWTBL_RXD_DUP_WHITE_LIST_SHIFT 17
++// DW33
++#define WF_LWTBL_USER_RSSI_DW 33
++#define WF_LWTBL_USER_RSSI_ADDR 132
++#define WF_LWTBL_USER_RSSI_MASK \
++ 0x000001ff // 8- 0
++#define WF_LWTBL_USER_RSSI_SHIFT 0
++#define WF_LWTBL_USER_SNR_DW 33
++#define WF_LWTBL_USER_SNR_ADDR 132
++#define WF_LWTBL_USER_SNR_MASK \
++ 0x00007e00 // 14- 9
++#define WF_LWTBL_USER_SNR_SHIFT 9
++#define WF_LWTBL_RAPID_REACTION_RATE_DW 33
++#define WF_LWTBL_RAPID_REACTION_RATE_ADDR 132
++#define WF_LWTBL_RAPID_REACTION_RATE_MASK \
++ 0x0fff0000 // 27-16
++#define WF_LWTBL_RAPID_REACTION_RATE_SHIFT 16
++#define WF_LWTBL_HT_AMSDU_DW 33
++#define WF_LWTBL_HT_AMSDU_ADDR 132
++#define WF_LWTBL_HT_AMSDU_MASK \
++ 0x40000000 // 30-30
++#define WF_LWTBL_HT_AMSDU_SHIFT 30
++#define WF_LWTBL_AMSDU_CROSS_LG_DW 33
++#define WF_LWTBL_AMSDU_CROSS_LG_ADDR 132
++#define WF_LWTBL_AMSDU_CROSS_LG_MASK \
++ 0x80000000 // 31-31
++#define WF_LWTBL_AMSDU_CROSS_LG_SHIFT 31
++// DW34
++#define WF_LWTBL_RESP_RCPI0_DW 34
++#define WF_LWTBL_RESP_RCPI0_ADDR 136
++#define WF_LWTBL_RESP_RCPI0_MASK \
++ 0x000000ff // 7- 0
++#define WF_LWTBL_RESP_RCPI0_SHIFT 0
++#define WF_LWTBL_RESP_RCPI1_DW 34
++#define WF_LWTBL_RESP_RCPI1_ADDR 136
++#define WF_LWTBL_RESP_RCPI1_MASK \
++ 0x0000ff00 // 15- 8
++#define WF_LWTBL_RESP_RCPI1_SHIFT 8
++#define WF_LWTBL_RESP_RCPI2_DW 34
++#define WF_LWTBL_RESP_RCPI2_ADDR 136
++#define WF_LWTBL_RESP_RCPI2_MASK \
++ 0x00ff0000 // 23-16
++#define WF_LWTBL_RESP_RCPI2_SHIFT 16
++#define WF_LWTBL_RESP_RCPI3_DW 34
++#define WF_LWTBL_RESP_RCPI3_ADDR 136
++#define WF_LWTBL_RESP_RCPI3_MASK \
++ 0xff000000 // 31-24
++#define WF_LWTBL_RESP_RCPI3_SHIFT 24
++// DW35
++#define WF_LWTBL_SNR_RX0_DW 35
++#define WF_LWTBL_SNR_RX0_ADDR 140
++#define WF_LWTBL_SNR_RX0_MASK \
++ 0x0000003f // 5- 0
++#define WF_LWTBL_SNR_RX0_SHIFT 0
++#define WF_LWTBL_SNR_RX1_DW 35
++#define WF_LWTBL_SNR_RX1_ADDR 140
++#define WF_LWTBL_SNR_RX1_MASK \
++ 0x00000fc0 // 11- 6
++#define WF_LWTBL_SNR_RX1_SHIFT 6
++#define WF_LWTBL_SNR_RX2_DW 35
++#define WF_LWTBL_SNR_RX2_ADDR 140
++#define WF_LWTBL_SNR_RX2_MASK \
++ 0x0003f000 // 17-12
++#define WF_LWTBL_SNR_RX2_SHIFT 12
++#define WF_LWTBL_SNR_RX3_DW 35
++#define WF_LWTBL_SNR_RX3_ADDR 140
++#define WF_LWTBL_SNR_RX3_MASK \
++ 0x00fc0000 // 23-18
++#define WF_LWTBL_SNR_RX3_SHIFT 18
++
++/* WTBL Group - Packet Number */
++/* DW 2 */
++#define WTBL_PN0_MASK BITS(0, 7)
++#define WTBL_PN0_OFFSET 0
++#define WTBL_PN1_MASK BITS(8, 15)
++#define WTBL_PN1_OFFSET 8
++#define WTBL_PN2_MASK BITS(16, 23)
++#define WTBL_PN2_OFFSET 16
++#define WTBL_PN3_MASK BITS(24, 31)
++#define WTBL_PN3_OFFSET 24
++
++/* DW 3 */
++#define WTBL_PN4_MASK BITS(0, 7)
++#define WTBL_PN4_OFFSET 0
++#define WTBL_PN5_MASK BITS(8, 15)
++#define WTBL_PN5_OFFSET 8
++
++/* DW 4 */
++#define WTBL_BIPN0_MASK BITS(0, 7)
++#define WTBL_BIPN0_OFFSET 0
++#define WTBL_BIPN1_MASK BITS(8, 15)
++#define WTBL_BIPN1_OFFSET 8
++#define WTBL_BIPN2_MASK BITS(16, 23)
++#define WTBL_BIPN2_OFFSET 16
++#define WTBL_BIPN3_MASK BITS(24, 31)
++#define WTBL_BIPN3_OFFSET 24
++
++/* DW 5 */
++#define WTBL_BIPN4_MASK BITS(0, 7)
++#define WTBL_BIPN4_OFFSET 0
++#define WTBL_BIPN5_MASK BITS(8, 15)
++#define WTBL_BIPN5_OFFSET 8
++
++/* UWTBL DW 6 */
++#define WTBL_AMSDU_LEN_MASK BITS(0, 5)
++#define WTBL_AMSDU_LEN_OFFSET 0
++#define WTBL_AMSDU_NUM_MASK BITS(6, 10)
++#define WTBL_AMSDU_NUM_OFFSET 6
++#define WTBL_AMSDU_EN_MASK BIT(11)
++#define WTBL_AMSDU_EN_OFFSET 11
++
++/* UWTBL DW 8 */
++#define WTBL_SEC_ADDR_MODE_MASK BITS(20, 21)
++#define WTBL_SEC_ADDR_MODE_OFFSET 20
++
++/* LWTBL Rate field */
++#define WTBL_RATE_TX_RATE_MASK BITS(0, 5)
++#define WTBL_RATE_TX_RATE_OFFSET 0
++#define WTBL_RATE_TX_MODE_MASK BITS(6, 9)
++#define WTBL_RATE_TX_MODE_OFFSET 6
++#define WTBL_RATE_NSTS_MASK BITS(10, 13)
++#define WTBL_RATE_NSTS_OFFSET 10
++#define WTBL_RATE_STBC_MASK BIT(14)
++#define WTBL_RATE_STBC_OFFSET 14
++
++/***** WTBL(LMAC) DW Offset *****/
++/* LMAC WTBL Group - Peer Unique Information */
++#define WTBL_GROUP_PEER_INFO_DW_0 0
++#define WTBL_GROUP_PEER_INFO_DW_1 1
++
++/* WTBL Group - TxRx Capability/Information */
++#define WTBL_GROUP_TRX_CAP_DW_2 2
++#define WTBL_GROUP_TRX_CAP_DW_3 3
++#define WTBL_GROUP_TRX_CAP_DW_4 4
++#define WTBL_GROUP_TRX_CAP_DW_5 5
++#define WTBL_GROUP_TRX_CAP_DW_6 6
++#define WTBL_GROUP_TRX_CAP_DW_7 7
++#define WTBL_GROUP_TRX_CAP_DW_8 8
++#define WTBL_GROUP_TRX_CAP_DW_9 9
++
++/* WTBL Group - Auto Rate Table*/
++#define WTBL_GROUP_AUTO_RATE_1_2 10
++#define WTBL_GROUP_AUTO_RATE_3_4 11
++#define WTBL_GROUP_AUTO_RATE_5_6 12
++#define WTBL_GROUP_AUTO_RATE_7_8 13
++
++/* WTBL Group - Tx Counter */
++#define WTBL_GROUP_TX_CNT_LINE_1 14
++#define WTBL_GROUP_TX_CNT_LINE_2 15
++#define WTBL_GROUP_TX_CNT_LINE_3 16
++#define WTBL_GROUP_TX_CNT_LINE_4 17
++#define WTBL_GROUP_TX_CNT_LINE_5 18
++#define WTBL_GROUP_TX_CNT_LINE_6 19
++
++/* WTBL Group - Admission Control Counter */
++#define WTBL_GROUP_ADM_CNT_LINE_1 20
++#define WTBL_GROUP_ADM_CNT_LINE_2 21
++#define WTBL_GROUP_ADM_CNT_LINE_3 22
++#define WTBL_GROUP_ADM_CNT_LINE_4 23
++#define WTBL_GROUP_ADM_CNT_LINE_5 24
++#define WTBL_GROUP_ADM_CNT_LINE_6 25
++#define WTBL_GROUP_ADM_CNT_LINE_7 26
++#define WTBL_GROUP_ADM_CNT_LINE_8 27
++
++/* WTBL Group -MLO Info */
++#define WTBL_GROUP_MLO_INFO_LINE_1 28
++#define WTBL_GROUP_MLO_INFO_LINE_2 29
++#define WTBL_GROUP_MLO_INFO_LINE_3 30
++
++/* WTBL Group -RESP Info */
++#define WTBL_GROUP_RESP_INFO_DW_31 31
++
++/* WTBL Group -RX DUP Info */
++#define WTBL_GROUP_RX_DUP_INFO_DW_32 32
++
++/* WTBL Group - Rx Statistics Counter */
++#define WTBL_GROUP_RX_STAT_CNT_LINE_1 33
++#define WTBL_GROUP_RX_STAT_CNT_LINE_2 34
++#define WTBL_GROUP_RX_STAT_CNT_LINE_3 35
++
++/* UWTBL Group - HW AMSDU */
++#define UWTBL_HW_AMSDU_DW WF_UWTBL_AMSDU_CFG_DW
++
++/* LWTBL DW 4 */
++#define WTBL_DIS_RHTR WF_LWTBL_DIS_RHTR_MASK
++
++/* UWTBL DW 5 */
++#define WTBL_KEY_LINK_DW_KEY_LOC0_MASK BITS(0, 10)
++#define WTBL_PSM WF_LWTBL_PSM_MASK
++
++/* Need to sync with FW define */
++#define INVALID_KEY_ENTRY WTBL_KEY_LINK_DW_KEY_LOC0_MASK
++
++// RATE
++#define WTBL_RATE_TX_RATE_MASK BITS(0, 5)
++#define WTBL_RATE_TX_RATE_OFFSET 0
++#define WTBL_RATE_TX_MODE_MASK BITS(6, 9)
++#define WTBL_RATE_TX_MODE_OFFSET 6
++#define WTBL_RATE_NSTS_MASK BITS(10, 13)
++#define WTBL_RATE_NSTS_OFFSET 10
++#define WTBL_RATE_STBC_MASK BIT(14)
++#define WTBL_RATE_STBC_OFFSET 14
++#endif
++
++#endif
+diff --git a/mt7996/mtk_debugfs.c b/mt7996/mtk_debugfs.c
+new file mode 100644
+index 0000000..d79e00c
+--- /dev/null
++++ b/mt7996/mtk_debugfs.c
+@@ -0,0 +1,2507 @@
++// SPDX-License-Identifier: ISC
++/*
++ * Copyright (C) 2023 MediaTek Inc.
++ */
++#include "mt7996.h"
++#include "../mt76.h"
++#include "mcu.h"
++#include "mac.h"
++#include "eeprom.h"
++#include "mtk_debug.h"
++#include "mtk_mcu.h"
++#include "coredump.h"
++
++#ifdef CONFIG_MTK_DEBUG
++
++/* AGG INFO */
++static int
++mt7996_agginfo_read_per_band(struct seq_file *s, int band_idx)
++{
++ struct mt7996_dev *dev = dev_get_drvdata(s->private);
++ u64 total_burst, total_ampdu, ampdu_cnt[16];
++ u32 value, idx, row_idx, col_idx, start_range, agg_rang_sel[16], burst_cnt[16], band_offset = 0;
++ u8 partial_str[16] = {}, full_str[64] = {};
++
++ switch (band_idx) {
++ case 0:
++ band_offset = 0;
++ break;
++ case 1:
++ band_offset = BN1_WF_AGG_TOP_BASE - BN0_WF_AGG_TOP_BASE;
++ break;
++ case 2:
++ band_offset = IP1_BN0_WF_AGG_TOP_BASE - BN0_WF_AGG_TOP_BASE;
++ break;
++ default:
++ return 0;
++ }
++
++ seq_printf(s, "Band %d AGG Status\n", band_idx);
++ seq_printf(s, "===============================\n");
++ value = mt76_rr(dev, BN0_WF_AGG_TOP_AALCR0_ADDR + band_offset);
++ seq_printf(s, "AC00 Agg limit = %d\t", (value & BN0_WF_AGG_TOP_AALCR0_AC00_AGG_LIMIT_MASK) >> BN0_WF_AGG_TOP_AALCR0_AC00_AGG_LIMIT_SHFT);
++ seq_printf(s, "AC01 Agg limit = %d\t", (value & BN0_WF_AGG_TOP_AALCR0_AC01_AGG_LIMIT_MASK) >> BN0_WF_AGG_TOP_AALCR0_AC01_AGG_LIMIT_SHFT);
++ value = mt76_rr(dev, BN0_WF_AGG_TOP_AALCR1_ADDR + band_offset);
++ seq_printf(s, "AC02 Agg limit = %d\t", (value & BN0_WF_AGG_TOP_AALCR1_AC02_AGG_LIMIT_MASK) >> BN0_WF_AGG_TOP_AALCR1_AC02_AGG_LIMIT_SHFT);
++ seq_printf(s, "AC03 Agg limit = %d\t", (value & BN0_WF_AGG_TOP_AALCR1_AC03_AGG_LIMIT_MASK) >> BN0_WF_AGG_TOP_AALCR1_AC03_AGG_LIMIT_SHFT);
++ value = mt76_rr(dev, BN0_WF_AGG_TOP_AALCR2_ADDR + band_offset);
++ seq_printf(s, "AC10 Agg limit = %d\t", (value & BN0_WF_AGG_TOP_AALCR2_AC10_AGG_LIMIT_MASK) >> BN0_WF_AGG_TOP_AALCR2_AC10_AGG_LIMIT_SHFT);
++ seq_printf(s, "AC11 Agg limit = %d\t", (value & BN0_WF_AGG_TOP_AALCR2_AC11_AGG_LIMIT_MASK) >> BN0_WF_AGG_TOP_AALCR2_AC11_AGG_LIMIT_SHFT);
++ value = mt76_rr(dev, BN0_WF_AGG_TOP_AALCR3_ADDR + band_offset);
++ seq_printf(s, "AC12 Agg limit = %d\t", (value & BN0_WF_AGG_TOP_AALCR3_AC12_AGG_LIMIT_MASK) >> BN0_WF_AGG_TOP_AALCR3_AC12_AGG_LIMIT_SHFT);
++ seq_printf(s, "AC13 Agg limit = %d\t", (value & BN0_WF_AGG_TOP_AALCR3_AC13_AGG_LIMIT_MASK) >> BN0_WF_AGG_TOP_AALCR3_AC13_AGG_LIMIT_SHFT);
++ value = mt76_rr(dev, BN0_WF_AGG_TOP_AALCR4_ADDR + band_offset);
++ seq_printf(s, "AC20 Agg limit = %d\t", (value & BN0_WF_AGG_TOP_AALCR4_AC20_AGG_LIMIT_MASK) >> BN0_WF_AGG_TOP_AALCR4_AC20_AGG_LIMIT_SHFT);
++ seq_printf(s, "AC21 Agg limit = %d\t", (value & BN0_WF_AGG_TOP_AALCR4_AC21_AGG_LIMIT_MASK) >> BN0_WF_AGG_TOP_AALCR4_AC21_AGG_LIMIT_SHFT);
++ value = mt76_rr(dev, BN0_WF_AGG_TOP_AALCR5_ADDR + band_offset);
++ seq_printf(s, "AC22 Agg limit = %d\t", (value & BN0_WF_AGG_TOP_AALCR5_AC22_AGG_LIMIT_MASK) >> BN0_WF_AGG_TOP_AALCR5_AC22_AGG_LIMIT_SHFT);
++ seq_printf(s, "AC23 Agg limit = %d\t", (value & BN0_WF_AGG_TOP_AALCR5_AC23_AGG_LIMIT_MASK) >> BN0_WF_AGG_TOP_AALCR5_AC23_AGG_LIMIT_SHFT);
++ value = mt76_rr(dev, BN0_WF_AGG_TOP_AALCR6_ADDR + band_offset);
++ seq_printf(s, "AC30 Agg limit = %d\t", (value & BN0_WF_AGG_TOP_AALCR6_AC30_AGG_LIMIT_MASK) >> BN0_WF_AGG_TOP_AALCR6_AC30_AGG_LIMIT_SHFT);
++ seq_printf(s, "AC31 Agg limit = %d\t", (value & BN0_WF_AGG_TOP_AALCR6_AC31_AGG_LIMIT_MASK) >> BN0_WF_AGG_TOP_AALCR6_AC31_AGG_LIMIT_SHFT);
++ value = mt76_rr(dev, BN0_WF_AGG_TOP_AALCR7_ADDR + band_offset);
++ seq_printf(s, "AC32 Agg limit = %d\t", (value & BN0_WF_AGG_TOP_AALCR7_AC32_AGG_LIMIT_MASK) >> BN0_WF_AGG_TOP_AALCR7_AC32_AGG_LIMIT_SHFT);
++ seq_printf(s, "AC33 Agg limit = %d\t", (value & BN0_WF_AGG_TOP_AALCR7_AC33_AGG_LIMIT_MASK) >> BN0_WF_AGG_TOP_AALCR7_AC33_AGG_LIMIT_SHFT);
++
++ switch (band_idx) {
++ case 0:
++ band_offset = 0;
++ break;
++ case 1:
++ band_offset = BN1_WF_MIB_TOP_BASE - BN0_WF_MIB_TOP_BASE;
++ break;
++ case 2:
++ band_offset = IP1_BN0_WF_MIB_TOP_BASE - BN0_WF_MIB_TOP_BASE;
++ break;
++ default:
++ return 0;
++ }
++
++ seq_printf(s, "===AMPDU Related Counters===\n");
++
++ value = mt76_rr(dev, BN0_WF_MIB_TOP_TRARC0_ADDR + band_offset);
++ agg_rang_sel[0] = (value & BN0_WF_MIB_TOP_TRARC0_AGG_RANG_SEL_0_MASK) >> BN0_WF_MIB_TOP_TRARC0_AGG_RANG_SEL_0_SHFT;
++ agg_rang_sel[1] = (value & BN0_WF_MIB_TOP_TRARC0_AGG_RANG_SEL_1_MASK) >> BN0_WF_MIB_TOP_TRARC0_AGG_RANG_SEL_1_SHFT;
++ value = mt76_rr(dev, BN0_WF_MIB_TOP_TRARC1_ADDR + band_offset);
++ agg_rang_sel[2] = (value & BN0_WF_MIB_TOP_TRARC1_AGG_RANG_SEL_2_MASK) >> BN0_WF_MIB_TOP_TRARC1_AGG_RANG_SEL_2_SHFT;
++ agg_rang_sel[3] = (value & BN0_WF_MIB_TOP_TRARC1_AGG_RANG_SEL_3_MASK) >> BN0_WF_MIB_TOP_TRARC1_AGG_RANG_SEL_3_SHFT;
++ value = mt76_rr(dev, BN0_WF_MIB_TOP_TRARC2_ADDR + band_offset);
++ agg_rang_sel[4] = (value & BN0_WF_MIB_TOP_TRARC2_AGG_RANG_SEL_4_MASK) >> BN0_WF_MIB_TOP_TRARC2_AGG_RANG_SEL_4_SHFT;
++ agg_rang_sel[5] = (value & BN0_WF_MIB_TOP_TRARC2_AGG_RANG_SEL_5_MASK) >> BN0_WF_MIB_TOP_TRARC2_AGG_RANG_SEL_5_SHFT;
++ value = mt76_rr(dev, BN0_WF_MIB_TOP_TRARC3_ADDR + band_offset);
++ agg_rang_sel[6] = (value & BN0_WF_MIB_TOP_TRARC3_AGG_RANG_SEL_6_MASK) >> BN0_WF_MIB_TOP_TRARC3_AGG_RANG_SEL_6_SHFT;
++ agg_rang_sel[7] = (value & BN0_WF_MIB_TOP_TRARC3_AGG_RANG_SEL_7_MASK) >> BN0_WF_MIB_TOP_TRARC3_AGG_RANG_SEL_7_SHFT;
++ value = mt76_rr(dev, BN0_WF_MIB_TOP_TRARC4_ADDR + band_offset);
++ agg_rang_sel[8] = (value & BN0_WF_MIB_TOP_TRARC4_AGG_RANG_SEL_8_MASK) >> BN0_WF_MIB_TOP_TRARC4_AGG_RANG_SEL_8_SHFT;
++ agg_rang_sel[9] = (value & BN0_WF_MIB_TOP_TRARC4_AGG_RANG_SEL_9_MASK) >> BN0_WF_MIB_TOP_TRARC4_AGG_RANG_SEL_9_SHFT;
++ value = mt76_rr(dev, BN0_WF_MIB_TOP_TRARC5_ADDR + band_offset);
++ agg_rang_sel[10] = (value & BN0_WF_MIB_TOP_TRARC5_AGG_RANG_SEL_10_MASK) >> BN0_WF_MIB_TOP_TRARC5_AGG_RANG_SEL_10_SHFT;
++ agg_rang_sel[11] = (value & BN0_WF_MIB_TOP_TRARC5_AGG_RANG_SEL_11_MASK) >> BN0_WF_MIB_TOP_TRARC5_AGG_RANG_SEL_11_SHFT;
++ value = mt76_rr(dev, BN0_WF_MIB_TOP_TRARC6_ADDR + band_offset);
++ agg_rang_sel[12] = (value & BN0_WF_MIB_TOP_TRARC6_AGG_RANG_SEL_12_MASK) >> BN0_WF_MIB_TOP_TRARC6_AGG_RANG_SEL_12_SHFT;
++ agg_rang_sel[13] = (value & BN0_WF_MIB_TOP_TRARC6_AGG_RANG_SEL_13_MASK) >> BN0_WF_MIB_TOP_TRARC6_AGG_RANG_SEL_13_SHFT;
++ value = mt76_rr(dev, BN0_WF_MIB_TOP_TRARC7_ADDR + band_offset);
++ agg_rang_sel[14] = (value & BN0_WF_MIB_TOP_TRARC7_AGG_RANG_SEL_14_MASK) >> BN0_WF_MIB_TOP_TRARC7_AGG_RANG_SEL_14_SHFT;
++
++ burst_cnt[0] = mt76_rr(dev, BN0_WF_MIB_TOP_TRDR0_ADDR + band_offset);
++ burst_cnt[1] = mt76_rr(dev, BN0_WF_MIB_TOP_TRDR1_ADDR + band_offset);
++ burst_cnt[2] = mt76_rr(dev, BN0_WF_MIB_TOP_TRDR2_ADDR + band_offset);
++ burst_cnt[3] = mt76_rr(dev, BN0_WF_MIB_TOP_TRDR3_ADDR + band_offset);
++ burst_cnt[4] = mt76_rr(dev, BN0_WF_MIB_TOP_TRDR4_ADDR + band_offset);
++ burst_cnt[5] = mt76_rr(dev, BN0_WF_MIB_TOP_TRDR5_ADDR + band_offset);
++ burst_cnt[6] = mt76_rr(dev, BN0_WF_MIB_TOP_TRDR6_ADDR + band_offset);
++ burst_cnt[7] = mt76_rr(dev, BN0_WF_MIB_TOP_TRDR7_ADDR + band_offset);
++ burst_cnt[8] = mt76_rr(dev, BN0_WF_MIB_TOP_TRDR8_ADDR + band_offset);
++ burst_cnt[9] = mt76_rr(dev, BN0_WF_MIB_TOP_TRDR9_ADDR + band_offset);
++ burst_cnt[10] = mt76_rr(dev, BN0_WF_MIB_TOP_TRDR10_ADDR + band_offset);
++ burst_cnt[11] = mt76_rr(dev, BN0_WF_MIB_TOP_TRDR11_ADDR + band_offset);
++ burst_cnt[12] = mt76_rr(dev, BN0_WF_MIB_TOP_TRDR12_ADDR + band_offset);
++ burst_cnt[13] = mt76_rr(dev, BN0_WF_MIB_TOP_TRDR13_ADDR + band_offset);
++ burst_cnt[14] = mt76_rr(dev, BN0_WF_MIB_TOP_TRDR14_ADDR + band_offset);
++ burst_cnt[15] = mt76_rr(dev, BN0_WF_MIB_TOP_TRDR15_ADDR + band_offset);
++
++ start_range = 1;
++ total_burst = 0;
++ total_ampdu = 0;
++ agg_rang_sel[15] = 1023;
++
++ /* Need to add 1 after read from AGG_RANG_SEL CR */
++ for (idx = 0; idx < 16; idx++) {
++ agg_rang_sel[idx]++;
++ total_burst += burst_cnt[idx];
++
++ if (start_range == agg_rang_sel[idx])
++ ampdu_cnt[idx] = (u64) start_range * burst_cnt[idx];
++ else
++ ampdu_cnt[idx] = (u64) ((start_range + agg_rang_sel[idx]) >> 1) * burst_cnt[idx];
++
++ start_range = agg_rang_sel[idx] + 1;
++ total_ampdu += ampdu_cnt[idx];
++ }
++
++ start_range = 1;
++ sprintf(full_str, "%13s ", "Tx Agg Range:");
++
++ for (row_idx = 0; row_idx < 4; row_idx++) {
++ for (col_idx = 0; col_idx < 4; col_idx++, idx++) {
++ idx = 4 * row_idx + col_idx;
++
++ if (start_range == agg_rang_sel[idx])
++ sprintf(partial_str, "%d", agg_rang_sel[idx]);
++ else
++ sprintf(partial_str, "%d~%d", start_range, agg_rang_sel[idx]);
++
++ start_range = agg_rang_sel[idx] + 1;
++ sprintf(full_str + strlen(full_str), "%-11s ", partial_str);
++ }
++
++ idx = 4 * row_idx;
++
++ seq_printf(s, "%s\n", full_str);
++ seq_printf(s, "%13s 0x%-9x 0x%-9x 0x%-9x 0x%-9x\n",
++ row_idx ? "" : "Burst count:",
++ burst_cnt[idx], burst_cnt[idx + 1],
++ burst_cnt[idx + 2], burst_cnt[idx + 3]);
++
++ if (total_burst != 0) {
++ if (row_idx == 0)
++ sprintf(full_str, "%13s ",
++ "Burst ratio:");
++ else
++ sprintf(full_str, "%13s ", "");
++
++ for (col_idx = 0; col_idx < 4; col_idx++) {
++ u64 count = (u64) burst_cnt[idx + col_idx] * 100;
++
++ sprintf(partial_str, "(%llu%%)",
++ div64_u64(count, total_burst));
++ sprintf(full_str + strlen(full_str),
++ "%-11s ", partial_str);
++ }
++
++ seq_printf(s, "%s\n", full_str);
++
++ if (row_idx == 0)
++ sprintf(full_str, "%13s ",
++ "MDPU ratio:");
++ else
++ sprintf(full_str, "%13s ", "");
++
++ for (col_idx = 0; col_idx < 4; col_idx++) {
++ u64 count = ampdu_cnt[idx + col_idx] * 100;
++
++ sprintf(partial_str, "(%llu%%)",
++ div64_u64(count, total_ampdu));
++ sprintf(full_str + strlen(full_str),
++ "%-11s ", partial_str);
++ }
++
++ seq_printf(s, "%s\n", full_str);
++ }
++
++ sprintf(full_str, "%13s ", "");
++ }
++
++ return 0;
++}
++
++static int mt7996_agginfo_read_band0(struct seq_file *s, void *data)
++{
++ mt7996_agginfo_read_per_band(s, MT_BAND0);
++ return 0;
++}
++
++static int mt7996_agginfo_read_band1(struct seq_file *s, void *data)
++{
++ mt7996_agginfo_read_per_band(s, MT_BAND1);
++ return 0;
++}
++
++static int mt7996_agginfo_read_band2(struct seq_file *s, void *data)
++{
++ mt7996_agginfo_read_per_band(s, MT_BAND2);
++ return 0;
++}
++
++/* AMSDU INFO */
++static int mt7996_amsdu_result_read(struct seq_file *s, void *data)
++{
++#define HW_MSDU_CNT_ADDR 0xf400
++#define HW_MSDU_NUM_MAX 33
++ struct mt7996_dev *dev = dev_get_drvdata(s->private);
++ u32 ple_stat[HW_MSDU_NUM_MAX] = {0}, total_amsdu = 0;
++ u8 i;
++
++ for (i = 0; i < HW_MSDU_NUM_MAX; i++)
++ ple_stat[i] = mt76_rr(dev, HW_MSDU_CNT_ADDR + i * 0x04);
++
++ seq_printf(s, "TXD counter status of MSDU:\n");
++
++ for (i = 0; i < HW_MSDU_NUM_MAX; i++)
++ total_amsdu += ple_stat[i];
++
++ for (i = 0; i < HW_MSDU_NUM_MAX; i++) {
++ seq_printf(s, "AMSDU pack count of %d MSDU in TXD: 0x%x ", i, ple_stat[i]);
++ if (total_amsdu != 0)
++ seq_printf(s, "(%d%%)\n", ple_stat[i] * 100 / total_amsdu);
++ else
++ seq_printf(s, "\n");
++ }
++
++ return 0;
++}
++
++/* DBG MODLE */
++static int
++mt7996_fw_debug_module_set(void *data, u64 module)
++{
++ struct mt7996_dev *dev = data;
++
++ dev->dbg.fw_dbg_module = module;
++ return 0;
++}
++
++static int
++mt7996_fw_debug_module_get(void *data, u64 *module)
++{
++ struct mt7996_dev *dev = data;
++
++ *module = dev->dbg.fw_dbg_module;
++ return 0;
++}
++
++DEFINE_DEBUGFS_ATTRIBUTE(fops_fw_debug_module, mt7996_fw_debug_module_get,
++ mt7996_fw_debug_module_set, "%lld\n");
++
++static int
++mt7996_fw_debug_level_set(void *data, u64 level)
++{
++ struct mt7996_dev *dev = data;
++
++ dev->dbg.fw_dbg_lv = level;
++ mt7996_mcu_fw_dbg_ctrl(dev, dev->dbg.fw_dbg_module, dev->dbg.fw_dbg_lv);
++ return 0;
++}
++
++static int
++mt7996_fw_debug_level_get(void *data, u64 *level)
++{
++ struct mt7996_dev *dev = data;
++
++ *level = dev->dbg.fw_dbg_lv;
++ return 0;
++}
++
++DEFINE_DEBUGFS_ATTRIBUTE(fops_fw_debug_level, mt7996_fw_debug_level_get,
++ mt7996_fw_debug_level_set, "%lld\n");
++
++/* usage: echo 0x[arg3][arg2][arg1] > fw_wa_set */
++static int
++mt7996_wa_set(void *data, u64 val)
++{
++ struct mt7996_dev *dev = data;
++ u32 arg1, arg2, arg3;
++
++ arg1 = FIELD_GET(GENMASK_ULL(7, 0), val);
++ arg2 = FIELD_GET(GENMASK_ULL(15, 8), val);
++ arg3 = FIELD_GET(GENMASK_ULL(23, 16), val);
++
++ return mt7996_mcu_wa_cmd(dev, MCU_WA_PARAM_CMD(SET),
++ arg1, arg2, arg3);
++}
++
++DEFINE_DEBUGFS_ATTRIBUTE(fops_wa_set, NULL, mt7996_wa_set,
++ "0x%llx\n");
++
++/* usage: echo 0x[arg3][arg2][arg1] > fw_wa_query */
++static int
++mt7996_wa_query(void *data, u64 val)
++{
++ struct mt7996_dev *dev = data;
++ u32 arg1, arg2, arg3;
++
++ arg1 = FIELD_GET(GENMASK_ULL(7, 0), val);
++ arg2 = FIELD_GET(GENMASK_ULL(15, 8), val);
++ arg3 = FIELD_GET(GENMASK_ULL(23, 16), val);
++
++ return mt7996_mcu_wa_cmd(dev, MCU_WA_PARAM_CMD(QUERY),
++ arg1, arg2, arg3);
++ return 0;
++}
++
++DEFINE_DEBUGFS_ATTRIBUTE(fops_wa_query, NULL, mt7996_wa_query,
++ "0x%llx\n");
++
++static int mt7996_dump_version(struct seq_file *s, void *data)
++{
++#define MAX_ADIE_NUM 3
++ struct mt7996_dev *dev = dev_get_drvdata(s->private);
++ u32 regval;
++ u16 adie_chip_id, adie_chip_ver;
++ int adie_idx;
++ static const char * const fem_type[] = {
++ [MT7996_FEM_UNSET] = "N/A",
++ [MT7996_FEM_EXT] = "eFEM",
++ [MT7996_FEM_INT] = "iFEM",
++ [MT7996_FEM_MIX] = "mixed FEM",
++ };
++
++ seq_printf(s, "Version: 4.3.24.5\n");
++
++ if (!test_bit(MT76_STATE_MCU_RUNNING, &dev->mphy.state))
++ return 0;
++
++ seq_printf(s, "Rom Patch Build Time: %.16s\n", dev->patch_build_date);
++ seq_printf(s, "WM Patch Build Time: %.15s, Mode: %s\n",
++ dev->ram_build_date[MT7996_RAM_TYPE_WM],
++ dev->testmode_enable ? "Testmode" : "Normal mode");
++ seq_printf(s, "WA Patch Build Time: %.15s\n",
++ dev->ram_build_date[MT7996_RAM_TYPE_WA]);
++ seq_printf(s, "DSP Patch Build Time: %.15s\n",
++ dev->ram_build_date[MT7996_RAM_TYPE_DSP]);
++ for (adie_idx = 0; adie_idx < MAX_ADIE_NUM; adie_idx++) {
++ mt7996_mcu_rf_regval(dev, MT_ADIE_CHIP_ID(adie_idx), ®val, false);
++ adie_chip_id = FIELD_GET(MT_ADIE_CHIP_ID_MASK, regval);
++ adie_chip_ver = FIELD_GET(MT_ADIE_VERSION_MASK, regval);
++ if (adie_chip_id)
++ seq_printf(s, "Adie %d: ID = 0x%04x, Ver = 0x%04x\n",
++ adie_idx, adie_chip_id, adie_chip_ver);
++ else
++ seq_printf(s, "Adie %d: ID = N/A, Ver = N/A\n", adie_idx);
++ }
++ seq_printf(s, "FEM type: %s\n", fem_type[dev->fem_type]);
++
++ return 0;
++}
++
++/* fw wm call trace info dump */
++void mt7996_show_lp_history(struct seq_file *s, u32 type)
++{
++ struct mt7996_dev *dev = dev_get_drvdata(s->private);
++ struct mt7996_crash_data *crash_data;
++ struct mt7996_coredump *dump;
++ u64 now = 0;
++ int i = 0;
++ u8 fw_type = !!type;
++
++ mutex_lock(&dev->dump_mutex);
++
++ crash_data = mt7996_coredump_new(dev, fw_type);
++ if (!crash_data) {
++ mutex_unlock(&dev->dump_mutex);
++ seq_printf(s, "the coredump is disable!\n");
++ return;
++ }
++ mutex_unlock(&dev->dump_mutex);
++
++ dump = mt7996_coredump_build(dev, fw_type, false);
++ if (!dump) {
++ seq_printf(s, "no call stack data found!\n");
++ return;
++ }
++
++ seq_printf(s, "\x1b[32m%s log output\x1b[0m\n", dump->fw_type);
++ seq_printf(s, "\x1b[32mfw status: %s\n", dump->fw_state);
++ mt7996_dump_version(s, NULL);
++ /* PC log */
++ now = jiffies;
++ for (i = 0; i < 10; i++)
++ seq_printf(s, "\tCurrent PC=%x\n", dump->pc_cur[i]);
++
++ seq_printf(s, "PC log contorl=0x%x(T=%llu)(latest PC index = 0x%x)\n",
++ dump->pc_dbg_ctrl, now, dump->pc_cur_idx);
++ for (i = 0; i < 32; i++)
++ seq_printf(s, "\tPC log(%d)=0x%08x\n", i, dump->pc_stack[i]);
++
++ /* LR log */
++ now = jiffies;
++ seq_printf(s, "\nLR log contorl=0x%x(T=%llu)(latest LR index = 0x%x)\n",
++ dump->lr_dbg_ctrl, now, dump->lr_cur_idx);
++ for (i = 0; i < 32; i++)
++ seq_printf(s, "\tLR log(%d)=0x%08x\n", i, dump->lr_stack[i]);
++
++ vfree(dump);
++}
++
++static int mt7996_fw_wa_info_read(struct seq_file *s, void *data)
++{
++ seq_printf(s, "======[ShowPcLpHistory]======\n");
++ mt7996_show_lp_history(s, MT7996_RAM_TYPE_WA);
++ seq_printf(s, "======[End ShowPcLpHistory]==\n");
++
++ return 0;
++}
++
++static int mt7996_fw_wm_info_read(struct seq_file *s, void *data)
++{
++ seq_printf(s, "======[ShowPcLpHistory]======\n");
++ mt7996_show_lp_history(s, MT7996_RAM_TYPE_WM);
++ seq_printf(s, "======[End ShowPcLpHistory]==\n");
++
++ return 0;
++}
++
++/* dma info dump */
++static void
++dump_dma_tx_ring_info(struct seq_file *s, struct mt7996_dev *dev, char *str1, char *str2, u32 ring_base)
++{
++ u32 base, cnt, cidx, didx, queue_cnt;
++
++ base= mt76_rr(dev, ring_base);
++ cnt = mt76_rr(dev, ring_base + 4);
++ cidx = mt76_rr(dev, ring_base + 8);
++ didx = mt76_rr(dev, ring_base + 12);
++ queue_cnt = (cidx >= didx) ? (cidx - didx) : (cidx - didx + cnt);
++
++ seq_printf(s, "%20s %6s %10x %15x %10x %10x %10x\n", str1, str2, base, cnt, cidx, didx, queue_cnt);
++}
++
++static void
++dump_dma_rx_ring_info(struct seq_file *s, struct mt7996_dev *dev, char *str1, char *str2, u32 ring_base)
++{
++ u32 base, ctrl1, cnt, cidx, didx, queue_cnt;
++
++ base= mt76_rr(dev, ring_base);
++ ctrl1 = mt76_rr(dev, ring_base + 4);
++ cidx = mt76_rr(dev, ring_base + 8) & 0xfff;
++ didx = mt76_rr(dev, ring_base + 12) & 0xfff;
++ cnt = ctrl1 & 0xfff;
++ queue_cnt = (didx > cidx) ? (didx - cidx - 1) : (didx - cidx + cnt - 1);
++
++ seq_printf(s, "%20s %6s %10x %10x(%3x) %10x %10x %10x\n",
++ str1, str2, base, ctrl1, cnt, cidx, didx, queue_cnt);
++}
++
++static void
++mt7996_show_dma_info(struct seq_file *s, struct mt7996_dev *dev)
++{
++ u32 sys_ctrl[10];
++
++ /* HOST DMA0 information */
++ sys_ctrl[0] = mt76_rr(dev, WF_WFDMA_HOST_DMA0_HOST_INT_STA_ADDR);
++ sys_ctrl[1] = mt76_rr(dev, WF_WFDMA_HOST_DMA0_HOST_INT_ENA_ADDR);
++ sys_ctrl[2] = mt76_rr(dev, WF_WFDMA_HOST_DMA0_WPDMA_GLO_CFG_ADDR);
++
++ seq_printf(s, "HOST_DMA Configuration\n");
++ seq_printf(s, "%10s %10s %10s %10s %10s %10s\n",
++ "DMA", "IntCSR", "IntMask", "Glocfg", "Tx/RxEn", "Tx/RxBusy");
++ seq_printf(s, "%10s %10x %10x %10x %4x/%5x %4x/%5x\n",
++ "DMA0", sys_ctrl[0], sys_ctrl[1], sys_ctrl[2],
++ (sys_ctrl[2] & WF_WFDMA_HOST_DMA0_WPDMA_GLO_CFG_TX_DMA_EN_MASK)
++ >> WF_WFDMA_HOST_DMA0_WPDMA_GLO_CFG_TX_DMA_EN_SHFT,
++ (sys_ctrl[2] & WF_WFDMA_HOST_DMA0_WPDMA_GLO_CFG_RX_DMA_EN_MASK)
++ >> WF_WFDMA_HOST_DMA0_WPDMA_GLO_CFG_RX_DMA_EN_SHFT,
++ (sys_ctrl[2] & WF_WFDMA_HOST_DMA0_WPDMA_GLO_CFG_TX_DMA_BUSY_MASK)
++ >> WF_WFDMA_HOST_DMA0_WPDMA_GLO_CFG_TX_DMA_BUSY_SHFT,
++ (sys_ctrl[2] & WF_WFDMA_HOST_DMA0_WPDMA_GLO_CFG_RX_DMA_BUSY_MASK)
++ >> WF_WFDMA_HOST_DMA0_WPDMA_GLO_CFG_RX_DMA_BUSY_SHFT);
++
++ if (dev->hif2) {
++ /* HOST DMA1 information */
++ sys_ctrl[0] = mt76_rr(dev, WF_WFDMA_HOST_DMA0_PCIE1_HOST_INT_STA_ADDR);
++ sys_ctrl[1] = mt76_rr(dev, WF_WFDMA_HOST_DMA0_PCIE1_HOST_INT_ENA_ADDR);
++ sys_ctrl[2] = mt76_rr(dev, WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_GLO_CFG_ADDR);
++
++ seq_printf(s, "%10s %10x %10x %10x %4x/%5x %4x/%5x\n",
++ "DMA0P1", sys_ctrl[0], sys_ctrl[1], sys_ctrl[2],
++ (sys_ctrl[2] & WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_GLO_CFG_TX_DMA_EN_MASK)
++ >> WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_GLO_CFG_TX_DMA_EN_SHFT,
++ (sys_ctrl[2] & WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_GLO_CFG_RX_DMA_EN_MASK)
++ >> WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_GLO_CFG_RX_DMA_EN_SHFT,
++ (sys_ctrl[2] & WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_GLO_CFG_TX_DMA_BUSY_MASK)
++ >> WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_GLO_CFG_TX_DMA_BUSY_SHFT,
++ (sys_ctrl[2] & WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_GLO_CFG_RX_DMA_BUSY_MASK)
++ >> WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_GLO_CFG_RX_DMA_BUSY_SHFT);
++ }
++
++ seq_printf(s, "HOST_DMA0 Ring Configuration\n");
++ seq_printf(s, "%20s %6s %10s %15s %10s %10s %10s\n",
++ "Name", "Used", "Base", "Ctrl1(Cnt)", "CIDX", "DIDX", "QCnt");
++ dump_dma_tx_ring_info(s, dev, "T0:TXD0(H2MAC)", "STA",
++ WF_WFDMA_HOST_DMA0_WPDMA_TX_RING0_CTRL0_ADDR);
++ dump_dma_tx_ring_info(s, dev, "T1:TXD1(H2MAC)", "STA",
++ WF_WFDMA_HOST_DMA0_WPDMA_TX_RING1_CTRL0_ADDR);
++ dump_dma_tx_ring_info(s, dev, "T2:TXD2(H2MAC)", "STA",
++ WF_WFDMA_HOST_DMA0_WPDMA_TX_RING2_CTRL0_ADDR);
++ dump_dma_tx_ring_info(s, dev, "T3:", "STA",
++ WF_WFDMA_HOST_DMA0_WPDMA_TX_RING3_CTRL0_ADDR);
++ dump_dma_tx_ring_info(s, dev, "T4:", "STA",
++ WF_WFDMA_HOST_DMA0_WPDMA_TX_RING4_CTRL0_ADDR);
++ dump_dma_tx_ring_info(s, dev, "T5:", "STA",
++ WF_WFDMA_HOST_DMA0_WPDMA_TX_RING5_CTRL0_ADDR);
++ dump_dma_tx_ring_info(s, dev, "T6:", "STA",
++ WF_WFDMA_HOST_DMA0_WPDMA_TX_RING6_CTRL0_ADDR);
++ dump_dma_tx_ring_info(s, dev, "T16:FWDL", "Both",
++ WF_WFDMA_HOST_DMA0_WPDMA_TX_RING16_CTRL0_ADDR);
++ dump_dma_tx_ring_info(s, dev, "T17:Cmd(H2WM)", "Both",
++ WF_WFDMA_HOST_DMA0_WPDMA_TX_RING17_CTRL0_ADDR);
++ dump_dma_tx_ring_info(s, dev, "T18:TXD0(H2WA)", "AP",
++ WF_WFDMA_HOST_DMA0_WPDMA_TX_RING18_CTRL0_ADDR);
++ dump_dma_tx_ring_info(s, dev, "T19:TXD1(H2WA)", "AP",
++ WF_WFDMA_HOST_DMA0_WPDMA_TX_RING19_CTRL0_ADDR);
++ dump_dma_tx_ring_info(s, dev, "T20:Cmd(H2WA)", "AP",
++ WF_WFDMA_HOST_DMA0_WPDMA_TX_RING20_CTRL0_ADDR);
++ dump_dma_tx_ring_info(s, dev, "T21:TXD2(H2WA)", "AP",
++ WF_WFDMA_HOST_DMA0_WPDMA_TX_RING21_CTRL0_ADDR);
++ dump_dma_tx_ring_info(s, dev, "T22:TXD3(H2WA)", "AP",
++ WF_WFDMA_HOST_DMA0_WPDMA_TX_RING22_CTRL0_ADDR);
++
++
++ dump_dma_rx_ring_info(s, dev, "R0:Event(WM2H)", "Both",
++ WF_WFDMA_HOST_DMA0_WPDMA_RX_RING0_CTRL0_ADDR);
++ dump_dma_rx_ring_info(s, dev, "R1:Event(WA2H)", "AP",
++ WF_WFDMA_HOST_DMA0_WPDMA_RX_RING1_CTRL0_ADDR);
++ dump_dma_rx_ring_info(s, dev, "R2:TxDone0(WA2H)", "AP",
++ WF_WFDMA_HOST_DMA0_WPDMA_RX_RING2_CTRL0_ADDR);
++ dump_dma_rx_ring_info(s, dev, "R3:TxDone1(WA2H)", "AP",
++ WF_WFDMA_HOST_DMA0_WPDMA_RX_RING3_CTRL0_ADDR);
++ dump_dma_rx_ring_info(s, dev, "R4:Data0(MAC2H)", "Both",
++ WF_WFDMA_HOST_DMA0_WPDMA_RX_RING4_CTRL0_ADDR);
++ dump_dma_rx_ring_info(s, dev, "R5:Data1(MAC2H)", "Both",
++ WF_WFDMA_HOST_DMA0_WPDMA_RX_RING5_CTRL0_ADDR);
++ dump_dma_rx_ring_info(s, dev, "R6:BUF1(MAC2H)", "Both",
++ WF_WFDMA_HOST_DMA0_WPDMA_RX_RING6_CTRL0_ADDR);
++ dump_dma_rx_ring_info(s, dev, "R7:TxDone1(MAC2H)", "Both",
++ WF_WFDMA_HOST_DMA0_WPDMA_RX_RING7_CTRL0_ADDR);
++ dump_dma_rx_ring_info(s, dev, "R8:BUF0(MAC2H)", "Both",
++ WF_WFDMA_HOST_DMA0_WPDMA_RX_RING8_CTRL0_ADDR);
++ dump_dma_rx_ring_info(s, dev, "R9:TxDone0(MAC2H)", "Both",
++ WF_WFDMA_HOST_DMA0_WPDMA_RX_RING9_CTRL0_ADDR);
++ dump_dma_rx_ring_info(s, dev, "R10:MSDU_PG0(MAC2H)", "Both",
++ WF_WFDMA_HOST_DMA0_WPDMA_RX_RING10_CTRL0_ADDR);
++ dump_dma_rx_ring_info(s, dev, "R11:MSDU_PG1(MAC2H)", "Both",
++ WF_WFDMA_HOST_DMA0_WPDMA_RX_RING11_CTRL0_ADDR);
++ dump_dma_rx_ring_info(s, dev, "R12:MSDU_PG2(MAC2H)", "Both",
++ WF_WFDMA_HOST_DMA0_WPDMA_RX_RING12_CTRL0_ADDR);
++ dump_dma_rx_ring_info(s, dev, "IND:IND_CMD(MAC2H)", "Both",
++ WF_RRO_TOP_IND_CMD_0_CTRL0_ADDR);
++
++ if (dev->hif2) {
++ seq_printf(s, "HOST_DMA0 PCIe1 Ring Configuration\n");
++ seq_printf(s, "%20s %6s %10s %15s %10s %10s %10s\n",
++ "Name", "Used", "Base", "Ctrl1(Cnt)", "CIDX", "DIDX", "QCnt");
++ dump_dma_tx_ring_info(s, dev, "T21:TXD2(H2WA)", "AP",
++ WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_TX_RING21_CTRL0_ADDR);
++ dump_dma_tx_ring_info(s, dev, "T22:TXD?(H2WA)", "AP",
++ WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_TX_RING22_CTRL0_ADDR);
++
++ dump_dma_rx_ring_info(s, dev, "R3:TxDone1(WA2H)", "AP",
++ WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_RX_RING3_CTRL0_ADDR);
++ dump_dma_rx_ring_info(s, dev, "R5:Data1(MAC2H)", "Both",
++ WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_RX_RING5_CTRL0_ADDR);
++ dump_dma_rx_ring_info(s, dev, "R6:BUF1(MAC2H)", "Both",
++ WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_RX_RING6_CTRL0_ADDR);
++ dump_dma_rx_ring_info(s, dev, "R7:TxDone1(MAC2H)", "Both",
++ WF_WFDMA_HOST_DMA0_PCIE1_WPDMA_RX_RING7_CTRL0_ADDR);
++ }
++
++ /* MCU DMA information */
++ sys_ctrl[0] = mt76_rr(dev, WF_WFDMA_MCU_DMA0_WPDMA_GLO_CFG_ADDR);
++ sys_ctrl[1] = mt76_rr(dev, WF_WFDMA_MCU_DMA0_HOST_INT_STA_ADDR);
++ sys_ctrl[2] = mt76_rr(dev, WF_WFDMA_MCU_DMA0_HOST_INT_ENA_ADDR);
++
++ seq_printf(s, "MCU_DMA Configuration\n");
++ seq_printf(s, "%10s %10s %10s %10s %10s %10s\n",
++ "DMA", "IntCSR", "IntMask", "Glocfg", "Tx/RxEn", "Tx/RxBusy");
++ seq_printf(s, "%10s %10x %10x %10x %4x/%5x %4x/%5x\n",
++ "DMA0", sys_ctrl[1], sys_ctrl[2], sys_ctrl[0],
++ (sys_ctrl[0] & WF_WFDMA_MCU_DMA0_WPDMA_GLO_CFG_TX_DMA_EN_MASK)
++ >> WF_WFDMA_MCU_DMA0_WPDMA_GLO_CFG_TX_DMA_EN_SHFT,
++ (sys_ctrl[0] & WF_WFDMA_MCU_DMA0_WPDMA_GLO_CFG_RX_DMA_EN_MASK)
++ >> WF_WFDMA_MCU_DMA0_WPDMA_GLO_CFG_RX_DMA_EN_SHFT,
++ (sys_ctrl[0] & WF_WFDMA_MCU_DMA0_WPDMA_GLO_CFG_TX_DMA_BUSY_MASK)
++ >> WF_WFDMA_MCU_DMA0_WPDMA_GLO_CFG_TX_DMA_BUSY_SHFT,
++ (sys_ctrl[0] & WF_WFDMA_MCU_DMA0_WPDMA_GLO_CFG_RX_DMA_BUSY_MASK)
++ >> WF_WFDMA_MCU_DMA0_WPDMA_GLO_CFG_RX_DMA_BUSY_SHFT);
++
++ seq_printf(s, "MCU_DMA0 Ring Configuration\n");
++ seq_printf(s, "%20s %6s %10s %15s %10s %10s %10s\n",
++ "Name", "Used", "Base", "Cnt", "CIDX", "DIDX", "QCnt");
++ dump_dma_tx_ring_info(s, dev, "T0:Event(WM2H)", "Both",
++ WF_WFDMA_MCU_DMA0_WPDMA_TX_RING0_CTRL0_ADDR);
++ dump_dma_tx_ring_info(s, dev, "T1:Event(WA2H)", "AP",
++ WF_WFDMA_MCU_DMA0_WPDMA_TX_RING1_CTRL0_ADDR);
++ dump_dma_tx_ring_info(s, dev, "T2:TxDone0(WA2H)", "AP",
++ WF_WFDMA_MCU_DMA0_WPDMA_TX_RING2_CTRL0_ADDR);
++ dump_dma_tx_ring_info(s, dev, "T3:TxDone1(WA2H)", "AP",
++ WF_WFDMA_MCU_DMA0_WPDMA_TX_RING3_CTRL0_ADDR);
++ dump_dma_tx_ring_info(s, dev, "T4:TXD(WM2MAC)", "Both",
++ WF_WFDMA_MCU_DMA0_WPDMA_TX_RING4_CTRL0_ADDR);
++ dump_dma_tx_ring_info(s, dev, "T5:TXCMD(WM2MAC)", "Both",
++ WF_WFDMA_MCU_DMA0_WPDMA_TX_RING5_CTRL0_ADDR);
++ dump_dma_tx_ring_info(s, dev, "T6:TXD(WA2MAC)", "AP",
++ WF_WFDMA_MCU_DMA0_WPDMA_TX_RING6_CTRL0_ADDR);
++ dump_dma_rx_ring_info(s, dev, "R0:FWDL", "Both",
++ WF_WFDMA_MCU_DMA0_WPDMA_RX_RING0_CTRL0_ADDR);
++ dump_dma_rx_ring_info(s, dev, "R1:Cmd(H2WM)", "Both",
++ WF_WFDMA_MCU_DMA0_WPDMA_RX_RING1_CTRL0_ADDR);
++ dump_dma_rx_ring_info(s, dev, "R2:TXD0(H2WA)", "AP",
++ WF_WFDMA_MCU_DMA0_WPDMA_RX_RING2_CTRL0_ADDR);
++ dump_dma_rx_ring_info(s, dev, "R3:TXD1(H2WA)", "AP",
++ WF_WFDMA_MCU_DMA0_WPDMA_RX_RING3_CTRL0_ADDR);
++ dump_dma_rx_ring_info(s, dev, "R4:Cmd(H2WA)", "AP",
++ WF_WFDMA_MCU_DMA0_WPDMA_RX_RING4_CTRL0_ADDR);
++ dump_dma_rx_ring_info(s, dev, "R5:Data0(MAC2WM)", "Both",
++ WF_WFDMA_MCU_DMA0_WPDMA_RX_RING5_CTRL0_ADDR);
++ dump_dma_rx_ring_info(s, dev, "R6:TxDone(MAC2WM)", "Both",
++ WF_WFDMA_MCU_DMA0_WPDMA_RX_RING6_CTRL0_ADDR);
++ dump_dma_rx_ring_info(s, dev, "R7:SPL/RPT(MAC2WM)", "Both",
++ WF_WFDMA_MCU_DMA0_WPDMA_RX_RING7_CTRL0_ADDR);
++ dump_dma_rx_ring_info(s, dev, "R8:TxDone(MAC2WA)", "AP",
++ WF_WFDMA_MCU_DMA0_WPDMA_RX_RING8_CTRL0_ADDR);
++ dump_dma_rx_ring_info(s, dev, "R9:Data1(MAC2WM)", "Both",
++ WF_WFDMA_MCU_DMA0_WPDMA_RX_RING9_CTRL0_ADDR);
++ dump_dma_rx_ring_info(s, dev, "R10:TXD2(H2WA)", "AP",
++ WF_WFDMA_MCU_DMA0_WPDMA_RX_RING10_CTRL0_ADDR);
++
++ /* MEM DMA information */
++ sys_ctrl[0] = mt76_rr(dev, WF_WFDMA_MEM_DMA_WPDMA_GLO_CFG_ADDR);
++ sys_ctrl[1] = mt76_rr(dev, WF_WFDMA_MEM_DMA_HOST_INT_STA_ADDR);
++ sys_ctrl[2] = mt76_rr(dev, WF_WFDMA_MEM_DMA_HOST_INT_ENA_ADDR);
++
++ seq_printf(s, "MEM_DMA Configuration\n");
++ seq_printf(s, "%10s %10s %10s %10s %10s %10s\n",
++ "DMA", "IntCSR", "IntMask", "Glocfg", "Tx/RxEn", "Tx/RxBusy");
++ seq_printf(s, "%10s %10x %10x %10x %4x/%5x %4x/%5x\n",
++ "MEM", sys_ctrl[1], sys_ctrl[2], sys_ctrl[0],
++ (sys_ctrl[0] & WF_WFDMA_MEM_DMA_WPDMA_GLO_CFG_TX_DMA_EN_MASK)
++ >> WF_WFDMA_MEM_DMA_WPDMA_GLO_CFG_TX_DMA_EN_SHFT,
++ (sys_ctrl[0] & WF_WFDMA_MEM_DMA_WPDMA_GLO_CFG_RX_DMA_EN_MASK)
++ >> WF_WFDMA_MEM_DMA_WPDMA_GLO_CFG_RX_DMA_EN_SHFT,
++ (sys_ctrl[0] & WF_WFDMA_MEM_DMA_WPDMA_GLO_CFG_TX_DMA_BUSY_MASK)
++ >> WF_WFDMA_MEM_DMA_WPDMA_GLO_CFG_TX_DMA_BUSY_SHFT,
++ (sys_ctrl[0] & WF_WFDMA_MEM_DMA_WPDMA_GLO_CFG_RX_DMA_BUSY_MASK)
++ >> WF_WFDMA_MEM_DMA_WPDMA_GLO_CFG_RX_DMA_BUSY_SHFT);
++
++ seq_printf(s, "MEM_DMA Ring Configuration\n");
++ seq_printf(s, "%20s %6s %10s %10s %10s %10s %10s\n",
++ "Name", "Used", "Base", "Cnt", "CIDX", "DIDX", "QCnt");
++ dump_dma_tx_ring_info(s, dev, "T0:CmdEvent(WM2WA)", "AP",
++ WF_WFDMA_MEM_DMA_WPDMA_TX_RING0_CTRL0_ADDR);
++ dump_dma_tx_ring_info(s, dev, "T1:CmdEvent(WA2WM)", "AP",
++ WF_WFDMA_MEM_DMA_WPDMA_TX_RING1_CTRL0_ADDR);
++ dump_dma_rx_ring_info(s, dev, "R0:CmdEvent(WM2WA)", "AP",
++ WF_WFDMA_MEM_DMA_WPDMA_RX_RING0_CTRL0_ADDR);
++ dump_dma_rx_ring_info(s, dev, "R1:CmdEvent(WA2WM)", "AP",
++ WF_WFDMA_MEM_DMA_WPDMA_RX_RING1_CTRL0_ADDR);
++}
++
++static int mt7996_trinfo_read(struct seq_file *s, void *data)
++{
++ struct mt7996_dev *dev = dev_get_drvdata(s->private);
++ mt7996_show_dma_info(s, dev);
++ return 0;
++}
++
++/* MIB INFO */
++static int mt7996_mibinfo_read_per_band(struct seq_file *s, int band_idx)
++{
++#define BSS_NUM 4
++ struct mt7996_dev *dev = dev_get_drvdata(s->private);
++ u8 bss_nums = BSS_NUM;
++ u32 idx;
++ u32 mac_val, band_offset = 0, band_offset_umib = 0;
++ u32 msdr6, msdr9, msdr18;
++ u32 rvsr0, rscr26, rscr35, mctr5, mctr6, msr0, msr1, msr2;
++ u32 tbcr0, tbcr1, tbcr2, tbcr3, tbcr4;
++ u32 btscr[7];
++ u32 tdrcr[5];
++ u32 mbtocr[16], mbtbcr[16], mbrocr[16], mbrbcr[16];
++ u32 btcr, btbcr, brocr, brbcr, btdcr, brdcr;
++ u32 mu_cnt[5];
++ u32 ampdu_cnt[3];
++ u64 per;
++
++ switch (band_idx) {
++ case 0:
++ band_offset = 0;
++ band_offset_umib = 0;
++ break;
++ case 1:
++ band_offset = BN1_WF_MIB_TOP_BASE - BN0_WF_MIB_TOP_BASE;
++ band_offset_umib = WF_UMIB_TOP_B1BROCR_ADDR - WF_UMIB_TOP_B0BROCR_ADDR;
++ break;
++ case 2:
++ band_offset = IP1_BN0_WF_MIB_TOP_BASE - BN0_WF_MIB_TOP_BASE;
++ band_offset_umib = WF_UMIB_TOP_B2BROCR_ADDR - WF_UMIB_TOP_B0BROCR_ADDR;
++ break;
++ default:
++ return true;
++ }
++
++ seq_printf(s, "Band %d MIB Status\n", band_idx);
++ seq_printf(s, "===============================\n");
++ mac_val = mt76_rr(dev, BN0_WF_MIB_TOP_M0SCR0_ADDR + band_offset);
++ seq_printf(s, "MIB Status Control=0x%x\n", mac_val);
++
++ msdr6 = mt76_rr(dev, BN0_WF_MIB_TOP_M0SDR6_ADDR + band_offset);
++ rvsr0 = mt76_rr(dev, BN0_WF_MIB_TOP_RVSR0_ADDR + band_offset);
++ rscr35 = mt76_rr(dev, BN0_WF_MIB_TOP_RSCR35_ADDR + band_offset);
++ msdr9 = mt76_rr(dev, BN0_WF_MIB_TOP_M0SDR9_ADDR + band_offset);
++ rscr26 = mt76_rr(dev, BN0_WF_MIB_TOP_RSCR26_ADDR + band_offset);
++ mctr5 = mt76_rr(dev, BN0_WF_MIB_TOP_MCTR5_ADDR + band_offset);
++ mctr6 = mt76_rr(dev, BN0_WF_MIB_TOP_MCTR6_ADDR + band_offset);
++ msdr18 = mt76_rr(dev, BN0_WF_MIB_TOP_M0SDR18_ADDR + band_offset);
++ msr0 = mt76_rr(dev, BN0_WF_MIB_TOP_MSR0_ADDR + band_offset);
++ msr1 = mt76_rr(dev, BN0_WF_MIB_TOP_MSR1_ADDR + band_offset);
++ msr2 = mt76_rr(dev, BN0_WF_MIB_TOP_MSR2_ADDR + band_offset);
++ ampdu_cnt[0] = mt76_rr(dev, BN0_WF_MIB_TOP_TSCR0_ADDR + band_offset);
++ ampdu_cnt[1] = mt76_rr(dev, BN0_WF_MIB_TOP_TSCR3_ADDR + band_offset);
++ ampdu_cnt[2] = mt76_rr(dev, BN0_WF_MIB_TOP_TSCR4_ADDR + band_offset);
++ ampdu_cnt[1] &= BN0_WF_MIB_TOP_TSCR3_AMPDU_MPDU_COUNT_MASK;
++ ampdu_cnt[2] &= BN0_WF_MIB_TOP_TSCR4_AMPDU_ACKED_COUNT_MASK;
++
++ seq_printf(s, "===Phy/Timing Related Counters===\n");
++ seq_printf(s, "\tChannelIdleCnt=0x%x\n",
++ msdr6 & BN0_WF_MIB_TOP_M0SDR6_CHANNEL_IDLE_COUNT_MASK);
++ seq_printf(s, "\tCCA_NAV_Tx_Time=0x%x\n",
++ msdr9 & BN0_WF_MIB_TOP_M0SDR9_CCA_NAV_TX_TIME_MASK);
++ seq_printf(s, "\tRx_MDRDY_CNT=0x%x\n",
++ rscr26 & BN0_WF_MIB_TOP_RSCR26_RX_MDRDY_COUNT_MASK);
++ seq_printf(s, "\tCCK_MDRDY_TIME=0x%x, OFDM_MDRDY_TIME=0x%x",
++ msr0 & BN0_WF_MIB_TOP_MSR0_CCK_MDRDY_TIME_MASK,
++ msr1 & BN0_WF_MIB_TOP_MSR1_OFDM_LG_MIXED_VHT_MDRDY_TIME_MASK);
++ seq_printf(s, ", OFDM_GREEN_MDRDY_TIME=0x%x\n",
++ msr2 & BN0_WF_MIB_TOP_MSR2_OFDM_GREEN_MDRDY_TIME_MASK);
++ seq_printf(s, "\tPrim CCA Time=0x%x\n",
++ mctr5 & BN0_WF_MIB_TOP_MCTR5_P_CCA_TIME_MASK);
++ seq_printf(s, "\tSec CCA Time=0x%x\n",
++ mctr6 & BN0_WF_MIB_TOP_MCTR6_S_CCA_TIME_MASK);
++ seq_printf(s, "\tPrim ED Time=0x%x\n",
++ msdr18 & BN0_WF_MIB_TOP_M0SDR18_P_ED_TIME_MASK);
++
++ seq_printf(s, "===Tx Related Counters(Generic)===\n");
++ mac_val = mt76_rr(dev, BN0_WF_MIB_TOP_TSCR18_ADDR + band_offset);
++ dev->dbg.bcn_total_cnt[band_idx] +=
++ (mac_val & BN0_WF_MIB_TOP_TSCR18_BEACONTXCOUNT_MASK);
++ seq_printf(s, "\tBeaconTxCnt=0x%x\n", dev->dbg.bcn_total_cnt[band_idx]);
++ dev->dbg.bcn_total_cnt[band_idx] = 0;
++
++ tbcr0 = mt76_rr(dev, BN0_WF_MIB_TOP_TBCR0_ADDR + band_offset);
++ seq_printf(s, "\tTx 20MHz Cnt=0x%x\n",
++ tbcr0 & BN0_WF_MIB_TOP_TBCR0_TX_20MHZ_CNT_MASK);
++ tbcr1 = mt76_rr(dev, BN0_WF_MIB_TOP_TBCR1_ADDR + band_offset);
++ seq_printf(s, "\tTx 40MHz Cnt=0x%x\n",
++ tbcr1 & BN0_WF_MIB_TOP_TBCR1_TX_40MHZ_CNT_MASK);
++ tbcr2 = mt76_rr(dev, BN0_WF_MIB_TOP_TBCR2_ADDR + band_offset);
++ seq_printf(s, "\tTx 80MHz Cnt=0x%x\n",
++ tbcr2 & BN0_WF_MIB_TOP_TBCR2_TX_80MHZ_CNT_MASK);
++ tbcr3 = mt76_rr(dev, BN0_WF_MIB_TOP_TBCR3_ADDR + band_offset);
++ seq_printf(s, "\tTx 160MHz Cnt=0x%x\n",
++ tbcr3 & BN0_WF_MIB_TOP_TBCR3_TX_160MHZ_CNT_MASK);
++ tbcr4 = mt76_rr(dev, BN0_WF_MIB_TOP_TBCR4_ADDR + band_offset);
++ seq_printf(s, "\tTx 320MHz Cnt=0x%x\n",
++ tbcr4 & BN0_WF_MIB_TOP_TBCR4_TX_320MHZ_CNT_MASK);
++ seq_printf(s, "\tAMPDU Cnt=0x%x\n", ampdu_cnt[0]);
++ seq_printf(s, "\tAMPDU MPDU Cnt=0x%x\n", ampdu_cnt[1]);
++ seq_printf(s, "\tAMPDU MPDU Ack Cnt=0x%x\n", ampdu_cnt[2]);
++ per = (ampdu_cnt[2] == 0 ?
++ 0 : 1000 * (ampdu_cnt[1] - ampdu_cnt[2]) / ampdu_cnt[1]);
++ seq_printf(s, "\tAMPDU MPDU PER=%llu.%1llu%%\n", per / 10, per % 10);
++
++ seq_printf(s, "===MU Related Counters===\n");
++ mu_cnt[0] = mt76_rr(dev, BN0_WF_MIB_TOP_BSCR2_ADDR + band_offset);
++ mu_cnt[1] = mt76_rr(dev, BN0_WF_MIB_TOP_TSCR5_ADDR + band_offset);
++ mu_cnt[2] = mt76_rr(dev, BN0_WF_MIB_TOP_TSCR6_ADDR + band_offset);
++ mu_cnt[3] = mt76_rr(dev, BN0_WF_MIB_TOP_TSCR8_ADDR + band_offset);
++ mu_cnt[4] = mt76_rr(dev, BN0_WF_MIB_TOP_TSCR7_ADDR + band_offset);
++
++ seq_printf(s, "\tMUBF_TX_COUNT=0x%x\n",
++ mu_cnt[0] & BN0_WF_MIB_TOP_BSCR2_MUBF_TX_COUNT_MASK);
++ seq_printf(s, "\tMU_TX_MPDU_COUNT(Ok+Fail)=0x%x\n", mu_cnt[1]);
++ seq_printf(s, "\tMU_TX_OK_MPDU_COUNT=0x%x\n", mu_cnt[2]);
++ seq_printf(s, "\tMU_TO_MU_FAIL_PPDU_COUNT=0x%x\n", mu_cnt[3]);
++ seq_printf(s, "\tSU_TX_OK_MPDU_COUNT=0x%x\n", mu_cnt[4]);
++
++ seq_printf(s, "===Rx Related Counters(Generic)===\n");
++ seq_printf(s, "\tVector Mismacth Cnt=0x%x\n",
++ rvsr0 & BN0_WF_MIB_TOP_RVSR0_VEC_MISS_COUNT_MASK);
++ seq_printf(s, "\tDelimiter Fail Cnt=0x%x\n",
++ rscr35 & BN0_WF_MIB_TOP_RSCR35_DELIMITER_FAIL_COUNT_MASK);
++
++ mac_val = mt76_rr(dev, BN0_WF_MIB_TOP_RSCR1_ADDR + band_offset);
++ seq_printf(s, "\tRxFCSErrCnt=0x%x\n",
++ (mac_val & BN0_WF_MIB_TOP_RSCR1_RX_FCS_ERROR_COUNT_MASK));
++ mac_val = mt76_rr(dev, BN0_WF_MIB_TOP_RSCR33_ADDR + band_offset);
++ seq_printf(s, "\tRxFifoFullCnt=0x%x\n",
++ (mac_val & BN0_WF_MIB_TOP_RSCR33_RX_FIFO_FULL_COUNT_MASK));
++ mac_val = mt76_rr(dev, BN0_WF_MIB_TOP_RSCR36_ADDR + band_offset);
++ seq_printf(s, "\tRxLenMismatch=0x%x\n",
++ (mac_val & BN0_WF_MIB_TOP_RSCR36_RX_LEN_MISMATCH_MASK));
++ mac_val = mt76_rr(dev, BN0_WF_MIB_TOP_RSCR31_ADDR + band_offset);
++ seq_printf(s, "\tRxMPDUCnt=0x%x\n",
++ (mac_val & BN0_WF_MIB_TOP_RSCR31_RX_MPDU_COUNT_MASK));
++ mac_val = mt76_rr(dev, BN0_WF_MIB_TOP_RSCR27_ADDR + band_offset);
++ seq_printf(s, "\tRx AMPDU Cnt=0x%x\n", mac_val);
++ mac_val = mt76_rr(dev, BN0_WF_MIB_TOP_RSCR28_ADDR + band_offset);
++ seq_printf(s, "\tRx Total ByteCnt=0x%x\n", mac_val);
++
++
++ /* Per-BSS T/RX Counters */
++ seq_printf(s, "===Per-BSS Related Tx/Rx Counters===\n");
++ seq_printf(s, "BSS Idx TxCnt/DataCnt TxByteCnt RxOkCnt/DataCnt RxByteCnt\n");
++ for (idx = 0; idx < bss_nums; idx++) {
++ btcr = mt76_rr(dev, BN0_WF_MIB_TOP_BTCR_ADDR + band_offset + idx * 4);
++ btdcr = mt76_rr(dev, BN0_WF_MIB_TOP_BTDCR_ADDR + band_offset + idx * 4);
++ btbcr = mt76_rr(dev, BN0_WF_MIB_TOP_BTBCR_ADDR + band_offset + idx * 4);
++
++ brocr = mt76_rr(dev, WF_UMIB_TOP_B0BROCR_ADDR + band_offset_umib + idx * 4);
++ brdcr = mt76_rr(dev, WF_UMIB_TOP_B0BRDCR_ADDR + band_offset_umib + idx * 4);
++ brbcr = mt76_rr(dev, WF_UMIB_TOP_B0BRBCR_ADDR + band_offset_umib + idx * 4);
++
++ seq_printf(s, "%d\t 0x%x/0x%x\t 0x%x \t 0x%x/0x%x \t 0x%x\n",
++ idx, btcr, btdcr, btbcr, brocr, brdcr, brbcr);
++ }
++
++ seq_printf(s, "===Per-BSS Related MIB Counters===\n");
++ seq_printf(s, "BSS Idx RTSTx/RetryCnt BAMissCnt AckFailCnt FrmRetry1/2/3Cnt\n");
++
++ /* Per-BSS TX Status */
++ for (idx = 0; idx < bss_nums; idx++) {
++ btscr[0] = mt76_rr(dev, BN0_WF_MIB_TOP_BTSCR5_ADDR + band_offset + idx * 4);
++ btscr[1] = mt76_rr(dev, BN0_WF_MIB_TOP_BTSCR6_ADDR + band_offset + idx * 4);
++ btscr[2] = mt76_rr(dev, BN0_WF_MIB_TOP_BTSCR0_ADDR + band_offset + idx * 4);
++ btscr[3] = mt76_rr(dev, BN0_WF_MIB_TOP_BTSCR1_ADDR + band_offset + idx * 4);
++ btscr[4] = mt76_rr(dev, BN0_WF_MIB_TOP_BTSCR2_ADDR + band_offset + idx * 4);
++ btscr[5] = mt76_rr(dev, BN0_WF_MIB_TOP_BTSCR3_ADDR + band_offset + idx * 4);
++ btscr[6] = mt76_rr(dev, BN0_WF_MIB_TOP_BTSCR4_ADDR + band_offset + idx * 4);
++
++ seq_printf(s, "%d:\t0x%x/0x%x 0x%x \t 0x%x \t 0x%x/0x%x/0x%x\n",
++ idx, (btscr[0] & BN0_WF_MIB_TOP_BTSCR5_RTSTXCOUNTn_MASK),
++ (btscr[1] & BN0_WF_MIB_TOP_BTSCR6_RTSRETRYCOUNTn_MASK),
++ (btscr[2] & BN0_WF_MIB_TOP_BTSCR0_BAMISSCOUNTn_MASK),
++ (btscr[3] & BN0_WF_MIB_TOP_BTSCR1_ACKFAILCOUNTn_MASK),
++ (btscr[4] & BN0_WF_MIB_TOP_BTSCR2_FRAMERETRYCOUNTn_MASK),
++ (btscr[5] & BN0_WF_MIB_TOP_BTSCR3_FRAMERETRY2COUNTn_MASK),
++ (btscr[6] & BN0_WF_MIB_TOP_BTSCR4_FRAMERETRY3COUNTn_MASK));
++ }
++
++ /* Dummy delimiter insertion result */
++ seq_printf(s, "===Dummy delimiter insertion result===\n");
++ tdrcr[0] = mt76_rr(dev, BN0_WF_MIB_TOP_TDRCR0_ADDR + band_offset);
++ tdrcr[1] = mt76_rr(dev, BN0_WF_MIB_TOP_TDRCR1_ADDR + band_offset);
++ tdrcr[2] = mt76_rr(dev, BN0_WF_MIB_TOP_TDRCR2_ADDR + band_offset);
++ tdrcr[3] = mt76_rr(dev, BN0_WF_MIB_TOP_TDRCR3_ADDR + band_offset);
++ tdrcr[4] = mt76_rr(dev, BN0_WF_MIB_TOP_TDRCR4_ADDR + band_offset);
++
++ seq_printf(s, "Range0 = %d\t Range1 = %d\t Range2 = %d\t Range3 = %d\t Range4 = %d\n",
++ tdrcr[0],
++ tdrcr[1],
++ tdrcr[2],
++ tdrcr[3],
++ tdrcr[4]);
++
++ /* Per-MBSS T/RX Counters */
++ seq_printf(s, "===Per-MBSS Related Tx/Rx Counters===\n");
++ seq_printf(s, "MBSSIdx TxOkCnt TxByteCnt RxOkCnt RxByteCnt\n");
++
++ for (idx = 0; idx < 16; idx++) {
++ mbtocr[idx] = mt76_rr(dev, BN0_WF_MIB_TOP_BTOCR_ADDR + band_offset + (bss_nums + idx) * 4);
++ mbtbcr[idx] = mt76_rr(dev, BN0_WF_MIB_TOP_BTBCR_ADDR + band_offset + (bss_nums + idx) * 4);
++
++ mbrocr[idx] = mt76_rr(dev, WF_UMIB_TOP_B0BROCR_ADDR + band_offset_umib + (bss_nums + idx) * 4);
++ mbrbcr[idx] = mt76_rr(dev, WF_UMIB_TOP_B0BRBCR_ADDR + band_offset_umib + (bss_nums + idx) * 4);
++ }
++
++ for (idx = 0; idx < 16; idx++) {
++ seq_printf(s, "%d\t 0x%x\t 0x%x \t 0x%x \t 0x%x\n",
++ idx, mbtocr[idx], mbtbcr[idx], mbrocr[idx], mbrbcr[idx]);
++ }
++
++ return 0;
++}
++
++static int mt7996_mibinfo_band0(struct seq_file *s, void *data)
++{
++ mt7996_mibinfo_read_per_band(s, MT_BAND0);
++ return 0;
++}
++
++static int mt7996_mibinfo_band1(struct seq_file *s, void *data)
++{
++ mt7996_mibinfo_read_per_band(s, MT_BAND1);
++ return 0;
++}
++
++static int mt7996_mibinfo_band2(struct seq_file *s, void *data)
++{
++ mt7996_mibinfo_read_per_band(s, MT_BAND2);
++ return 0;
++}
++
++/* WTBL INFO */
++static int
++mt7996_wtbl_read_raw(struct mt7996_dev *dev, u16 idx,
++ enum mt7996_wtbl_type type, u16 start_dw,
++ u16 len, void *buf)
++{
++ u32 *dest_cpy = (u32 *)buf;
++ u32 size_dw = len;
++ u32 src = 0;
++
++ if (!buf)
++ return 0xFF;
++
++ if (type == WTBL_TYPE_LMAC) {
++ mt76_wr(dev, MT_DBG_WTBLON_TOP_WDUCR_ADDR,
++ FIELD_PREP(MT_DBG_WTBLON_TOP_WDUCR_GROUP, (idx >> 7)));
++ src = LWTBL_IDX2BASE(idx, start_dw);
++ } else if (type == WTBL_TYPE_UMAC) {
++ mt76_wr(dev, MT_DBG_UWTBL_TOP_WDUCR_ADDR,
++ FIELD_PREP(MT_DBG_UWTBL_TOP_WDUCR_GROUP, (idx >> 7)));
++ src = UWTBL_IDX2BASE(idx, start_dw);
++ } else if (type == WTBL_TYPE_KEY) {
++ mt76_wr(dev, MT_DBG_UWTBL_TOP_WDUCR_ADDR,
++ MT_DBG_UWTBL_TOP_WDUCR_TARGET |
++ FIELD_PREP(MT_DBG_UWTBL_TOP_WDUCR_GROUP, (idx >> 7)));
++ src = KEYTBL_IDX2BASE(idx, start_dw);
++ }
++
++ while (size_dw--) {
++ *dest_cpy++ = mt76_rr(dev, src);
++ src += 4;
++ };
++
++ return 0;
++}
++
++#if 0
++static int
++mt7996_wtbl_write_raw(struct mt7996_dev *dev, u16 idx,
++ enum mt7996_wtbl_type type, u16 start_dw,
++ u32 val)
++{
++ u32 addr = 0;
++
++ if (type == WTBL_TYPE_LMAC) {
++ mt76_wr(dev, MT_DBG_WTBLON_TOP_WDUCR_ADDR,
++ FIELD_PREP(MT_DBG_WTBLON_TOP_WDUCR_GROUP, (idx >> 7)));
++ addr = LWTBL_IDX2BASE(idx, start_dw);
++ } else if (type == WTBL_TYPE_UMAC) {
++ mt76_wr(dev, MT_DBG_UWTBL_TOP_WDUCR_ADDR,
++ FIELD_PREP(MT_DBG_UWTBL_TOP_WDUCR_GROUP, (idx >> 7)));
++ addr = UWTBL_IDX2BASE(idx, start_dw);
++ } else if (type == WTBL_TYPE_KEY) {
++ mt76_wr(dev, MT_DBG_UWTBL_TOP_WDUCR_ADDR,
++ MT_DBG_UWTBL_TOP_WDUCR_TARGET |
++ FIELD_PREP(MT_DBG_UWTBL_TOP_WDUCR_GROUP, (idx >> 7)));
++ addr = KEYTBL_IDX2BASE(idx, start_dw);
++ }
++
++ mt76_wr(dev, addr, val);
++
++ return 0;
++}
++#endif
++
++static const struct berse_wtbl_parse WTBL_LMAC_DW0[] = {
++ {"MUAR_IDX", WF_LWTBL_MUAR_MASK, WF_LWTBL_MUAR_SHIFT,false},
++ {"RCA1", WF_LWTBL_RCA1_MASK, NO_SHIFT_DEFINE, false},
++ {"KID", WF_LWTBL_KID_MASK, WF_LWTBL_KID_SHIFT, false},
++ {"RCID", WF_LWTBL_RCID_MASK, NO_SHIFT_DEFINE, false},
++ {"BAND", WF_LWTBL_BAND_MASK, WF_LWTBL_BAND_SHIFT,false},
++ {"RV", WF_LWTBL_RV_MASK, NO_SHIFT_DEFINE, false},
++ {"RCA2", WF_LWTBL_RCA2_MASK, NO_SHIFT_DEFINE, false},
++ {"WPI_FLAG", WF_LWTBL_WPI_FLAG_MASK, NO_SHIFT_DEFINE,true},
++ {NULL,}
++};
++
++static void parse_fmac_lwtbl_dw0_1(struct seq_file *s, u8 *lwtbl)
++{
++ u32 *addr = 0;
++ u32 dw_value = 0;
++ u16 i = 0;
++
++ seq_printf(s, "\t\n");
++ seq_printf(s, "LinkAddr: %02x:%02x:%02x:%02x:%02x:%02x(D0[B0~15], D1[B0~31])\n",
++ lwtbl[4], lwtbl[5], lwtbl[6], lwtbl[7], lwtbl[0], lwtbl[1]);
++
++ /* LMAC WTBL DW 0 */
++ seq_printf(s, "\t\n");
++ seq_printf(s, "LWTBL DW 0/1\n");
++ addr = (u32 *)&(lwtbl[WTBL_GROUP_PEER_INFO_DW_0*4]);
++ dw_value = *addr;
++
++ while (WTBL_LMAC_DW0[i].name) {
++
++ if (WTBL_LMAC_DW0[i].shift == NO_SHIFT_DEFINE)
++ seq_printf(s, "\t%s:%d\n", WTBL_LMAC_DW0[i].name,
++ (dw_value & WTBL_LMAC_DW0[i].mask) ? 1 : 0);
++ else
++ seq_printf(s, "\t%s:%u\n", WTBL_LMAC_DW0[i].name,
++ (dw_value & WTBL_LMAC_DW0[i].mask) >> WTBL_LMAC_DW0[i].shift);
++ i++;
++ }
++}
++
++static const struct berse_wtbl_parse *WTBL_LMAC_DW2;
++static const struct berse_wtbl_parse WTBL_LMAC_DW2_7996[] = {
++ {"AID", WF_LWTBL_AID_MASK, WF_LWTBL_AID_SHIFT, false},
++ {"GID_SU", WF_LWTBL_GID_SU_MASK, NO_SHIFT_DEFINE, false},
++ {"SPP_EN", WF_LWTBL_SPP_EN_MASK, NO_SHIFT_DEFINE, false},
++ {"WPI_EVEN", WF_LWTBL_WPI_EVEN_MASK, NO_SHIFT_DEFINE, false},
++ {"AAD_OM", WF_LWTBL_AAD_OM_MASK, NO_SHIFT_DEFINE, false},
++ {"CIPHER_PGTK",WF_LWTBL_CIPHER_SUIT_PGTK_MASK, WF_LWTBL_CIPHER_SUIT_PGTK_SHIFT, true},
++ {"FROM_DS", WF_LWTBL_FD_MASK, NO_SHIFT_DEFINE, false},
++ {"TO_DS", WF_LWTBL_TD_MASK, NO_SHIFT_DEFINE, false},
++ {"SW", WF_LWTBL_SW_MASK, NO_SHIFT_DEFINE, false},
++ {"UL", WF_LWTBL_UL_MASK, NO_SHIFT_DEFINE, false},
++ {"TX_POWER_SAVE", WF_LWTBL_TX_PS_MASK, NO_SHIFT_DEFINE, true},
++ {"QOS", WF_LWTBL_QOS_MASK, NO_SHIFT_DEFINE, false},
++ {"HT", WF_LWTBL_HT_MASK, NO_SHIFT_DEFINE, false},
++ {"VHT", WF_LWTBL_VHT_MASK, NO_SHIFT_DEFINE, false},
++ {"HE", WF_LWTBL_HE_MASK, NO_SHIFT_DEFINE, false},
++ {"EHT", WF_LWTBL_EHT_MASK, NO_SHIFT_DEFINE, false},
++ {"MESH", WF_LWTBL_MESH_MASK, NO_SHIFT_DEFINE, true},
++ {NULL,}
++};
++
++static const struct berse_wtbl_parse WTBL_LMAC_DW2_7992[] = {
++ {"AID", WF_LWTBL_AID_MASK, WF_LWTBL_AID_SHIFT, false},
++ {"GID_SU", WF_LWTBL_GID_SU_MASK, NO_SHIFT_DEFINE, false},
++ {"DUAL_PTEC_EN", WF_LWTBL_DUAL_PTEC_EN_MASK, NO_SHIFT_DEFINE, false},
++ {"DUAL_CTS_CAP", WF_LWTBL_DUAL_CTS_CAP_MASK, NO_SHIFT_DEFINE, false},
++ {"CIPHER_PGTK",WF_LWTBL_CIPHER_SUIT_PGTK_MASK, WF_LWTBL_CIPHER_SUIT_PGTK_SHIFT, true},
++ {"FROM_DS", WF_LWTBL_FD_MASK, NO_SHIFT_DEFINE, false},
++ {"TO_DS", WF_LWTBL_TD_MASK, NO_SHIFT_DEFINE, false},
++ {"SW", WF_LWTBL_SW_MASK, NO_SHIFT_DEFINE, false},
++ {"UL", WF_LWTBL_UL_MASK, NO_SHIFT_DEFINE, false},
++ {"TX_POWER_SAVE", WF_LWTBL_TX_PS_MASK, NO_SHIFT_DEFINE, true},
++ {"QOS", WF_LWTBL_QOS_MASK, NO_SHIFT_DEFINE, false},
++ {"HT", WF_LWTBL_HT_MASK, NO_SHIFT_DEFINE, false},
++ {"VHT", WF_LWTBL_VHT_MASK, NO_SHIFT_DEFINE, false},
++ {"HE", WF_LWTBL_HE_MASK, NO_SHIFT_DEFINE, false},
++ {"EHT", WF_LWTBL_EHT_MASK, NO_SHIFT_DEFINE, false},
++ {"MESH", WF_LWTBL_MESH_MASK, NO_SHIFT_DEFINE, true},
++ {NULL,}
++};
++
++static void parse_fmac_lwtbl_dw2(struct seq_file *s, u8 *lwtbl)
++{
++ u32 *addr = 0;
++ u32 dw_value = 0;
++ u16 i = 0;
++
++ /* LMAC WTBL DW 2 */
++ seq_printf(s, "\t\n");
++ seq_printf(s, "LWTBL DW 2\n");
++ addr = (u32 *)&(lwtbl[WTBL_GROUP_TRX_CAP_DW_2*4]);
++ dw_value = *addr;
++
++ while (WTBL_LMAC_DW2[i].name) {
++
++ if (WTBL_LMAC_DW2[i].shift == NO_SHIFT_DEFINE)
++ seq_printf(s, "\t%s:%d\n", WTBL_LMAC_DW2[i].name,
++ (dw_value & WTBL_LMAC_DW2[i].mask) ? 1 : 0);
++ else
++ seq_printf(s, "\t%s:%u\n", WTBL_LMAC_DW2[i].name,
++ (dw_value & WTBL_LMAC_DW2[i].mask) >> WTBL_LMAC_DW2[i].shift);
++ i++;
++ }
++}
++
++static const struct berse_wtbl_parse WTBL_LMAC_DW3[] = {
++ {"WMM_Q", WF_LWTBL_WMM_Q_MASK, WF_LWTBL_WMM_Q_SHIFT, false},
++ {"EHT_SIG_MCS", WF_LWTBL_EHT_SIG_MCS_MASK, WF_LWTBL_EHT_SIG_MCS_SHIFT, false},
++ {"HDRT_MODE", WF_LWTBL_HDRT_MODE_MASK, NO_SHIFT_DEFINE, false},
++ {"BEAM_CHG", WF_LWTBL_BEAM_CHG_MASK, NO_SHIFT_DEFINE, false},
++ {"EHT_LTF_SYM_NUM", WF_LWTBL_EHT_LTF_SYM_NUM_OPT_MASK, WF_LWTBL_EHT_LTF_SYM_NUM_OPT_SHIFT, true},
++ {"PFMU_IDX", WF_LWTBL_PFMU_IDX_MASK, WF_LWTBL_PFMU_IDX_SHIFT, false},
++ {"ULPF_IDX", WF_LWTBL_ULPF_IDX_MASK, WF_LWTBL_ULPF_IDX_SHIFT, false},
++ {"RIBF", WF_LWTBL_RIBF_MASK, NO_SHIFT_DEFINE, false},
++ {"ULPF", WF_LWTBL_ULPF_MASK, NO_SHIFT_DEFINE, false},
++ {"BYPASS_TXSMM", WF_LWTBL_BYPASS_TXSMM_MASK, NO_SHIFT_DEFINE, true},
++ {"TBF_HT", WF_LWTBL_TBF_HT_MASK, NO_SHIFT_DEFINE, false},
++ {"TBF_VHT", WF_LWTBL_TBF_VHT_MASK, NO_SHIFT_DEFINE, false},
++ {"TBF_HE", WF_LWTBL_TBF_HE_MASK, NO_SHIFT_DEFINE, false},
++ {"TBF_EHT", WF_LWTBL_TBF_EHT_MASK, NO_SHIFT_DEFINE, false},
++ {"IGN_FBK", WF_LWTBL_IGN_FBK_MASK, NO_SHIFT_DEFINE, true},
++ {NULL,}
++};
++
++static void parse_fmac_lwtbl_dw3(struct seq_file *s, u8 *lwtbl)
++{
++ u32 *addr = 0;
++ u32 dw_value = 0;
++ u16 i = 0;
++
++ /* LMAC WTBL DW 3 */
++ seq_printf(s, "\t\n");
++ seq_printf(s, "LWTBL DW 3\n");
++ addr = (u32 *)&(lwtbl[WTBL_GROUP_TRX_CAP_DW_3*4]);
++ dw_value = *addr;
++
++ while (WTBL_LMAC_DW3[i].name) {
++
++ if (WTBL_LMAC_DW3[i].shift == NO_SHIFT_DEFINE)
++ seq_printf(s, "\t%s:%d\n", WTBL_LMAC_DW3[i].name,
++ (dw_value & WTBL_LMAC_DW3[i].mask) ? 1 : 0);
++ else
++ seq_printf(s, "\t%s:%u\n", WTBL_LMAC_DW3[i].name,
++ (dw_value & WTBL_LMAC_DW3[i].mask) >> WTBL_LMAC_DW3[i].shift);
++ i++;
++ }
++}
++
++static const struct berse_wtbl_parse WTBL_LMAC_DW4[] = {
++ {"NEGOTIATED_WINSIZE0", WF_LWTBL_NEGOTIATED_WINSIZE0_MASK, WF_LWTBL_NEGOTIATED_WINSIZE0_SHIFT, false},
++ {"WINSIZE1", WF_LWTBL_NEGOTIATED_WINSIZE1_MASK, WF_LWTBL_NEGOTIATED_WINSIZE1_SHIFT, false},
++ {"WINSIZE2", WF_LWTBL_NEGOTIATED_WINSIZE2_MASK, WF_LWTBL_NEGOTIATED_WINSIZE2_SHIFT, false},
++ {"WINSIZE3", WF_LWTBL_NEGOTIATED_WINSIZE3_MASK, WF_LWTBL_NEGOTIATED_WINSIZE3_SHIFT, true},
++ {"WINSIZE4", WF_LWTBL_NEGOTIATED_WINSIZE4_MASK, WF_LWTBL_NEGOTIATED_WINSIZE4_SHIFT, false},
++ {"WINSIZE5", WF_LWTBL_NEGOTIATED_WINSIZE5_MASK, WF_LWTBL_NEGOTIATED_WINSIZE5_SHIFT, false},
++ {"WINSIZE6", WF_LWTBL_NEGOTIATED_WINSIZE6_MASK, WF_LWTBL_NEGOTIATED_WINSIZE6_SHIFT, false},
++ {"WINSIZE7", WF_LWTBL_NEGOTIATED_WINSIZE7_MASK, WF_LWTBL_NEGOTIATED_WINSIZE7_SHIFT, true},
++ {"PE", WF_LWTBL_PE_MASK, WF_LWTBL_PE_SHIFT, false},
++ {"DIS_RHTR", WF_LWTBL_DIS_RHTR_MASK, NO_SHIFT_DEFINE, false},
++ {"LDPC_HT", WF_LWTBL_LDPC_HT_MASK, NO_SHIFT_DEFINE, false},
++ {"LDPC_VHT", WF_LWTBL_LDPC_VHT_MASK, NO_SHIFT_DEFINE, false},
++ {"LDPC_HE", WF_LWTBL_LDPC_HE_MASK, NO_SHIFT_DEFINE, false},
++ {"LDPC_EHT", WF_LWTBL_LDPC_EHT_MASK, NO_SHIFT_DEFINE, true},
++ {"BA_MODE", WF_LWTBL_BA_MODE_MASK, NO_SHIFT_DEFINE, true},
++ {NULL,}
++};
++
++static void parse_fmac_lwtbl_dw4(struct seq_file *s, u8 *lwtbl)
++{
++ u32 *addr = 0;
++ u32 dw_value = 0;
++ u16 i = 0;
++
++ /* LMAC WTBL DW 4 */
++ seq_printf(s, "\t\n");
++ seq_printf(s, "LWTBL DW 4\n");
++ addr = (u32 *)&(lwtbl[WTBL_GROUP_TRX_CAP_DW_4*4]);
++ dw_value = *addr;
++
++ while (WTBL_LMAC_DW4[i].name) {
++ if (WTBL_LMAC_DW4[i].shift == NO_SHIFT_DEFINE)
++ seq_printf(s, "\t%s:%d\n", WTBL_LMAC_DW4[i].name,
++ (dw_value & WTBL_LMAC_DW4[i].mask) ? 1 : 0);
++ else
++ seq_printf(s, "\t%s:%u\n", WTBL_LMAC_DW4[i].name,
++ (dw_value & WTBL_LMAC_DW4[i].mask) >> WTBL_LMAC_DW4[i].shift);
++ i++;
++ }
++}
++
++static const struct berse_wtbl_parse *WTBL_LMAC_DW5;
++static const struct berse_wtbl_parse WTBL_LMAC_DW5_7996[] = {
++ {"AF", WF_LWTBL_AF_MASK, WF_LWTBL_AF_SHIFT, false},
++ {"AF_HE", WF_LWTBL_AF_HE_MASK, WF_LWTBL_AF_HE_SHIFT,false},
++ {"RTS", WF_LWTBL_RTS_MASK, NO_SHIFT_DEFINE, false},
++ {"SMPS", WF_LWTBL_SMPS_MASK, NO_SHIFT_DEFINE, false},
++ {"DYN_BW", WF_LWTBL_DYN_BW_MASK, NO_SHIFT_DEFINE, true},
++ {"MMSS", WF_LWTBL_MMSS_MASK, WF_LWTBL_MMSS_SHIFT,false},
++ {"USR", WF_LWTBL_USR_MASK, NO_SHIFT_DEFINE, false},
++ {"SR_RATE", WF_LWTBL_SR_R_MASK, WF_LWTBL_SR_R_SHIFT,false},
++ {"SR_ABORT", WF_LWTBL_SR_ABORT_MASK, NO_SHIFT_DEFINE, true},
++ {"TX_POWER_OFFSET", WF_LWTBL_TX_POWER_OFFSET_MASK, WF_LWTBL_TX_POWER_OFFSET_SHIFT, false},
++ {"LTF_EHT", WF_LWTBL_LTF_EHT_MASK, WF_LWTBL_LTF_EHT_SHIFT, false},
++ {"GI_EHT", WF_LWTBL_GI_EHT_MASK, WF_LWTBL_GI_EHT_SHIFT, false},
++ {"DOPPL", WF_LWTBL_DOPPL_MASK, NO_SHIFT_DEFINE, false},
++ {"TXOP_PS_CAP", WF_LWTBL_TXOP_PS_CAP_MASK, NO_SHIFT_DEFINE, false},
++ {"DONOT_UPDATE_I_PSM", WF_LWTBL_DU_I_PSM_MASK, NO_SHIFT_DEFINE, true},
++ {"I_PSM", WF_LWTBL_I_PSM_MASK, NO_SHIFT_DEFINE, false},
++ {"PSM", WF_LWTBL_PSM_MASK, NO_SHIFT_DEFINE, false},
++ {"SKIP_TX", WF_LWTBL_SKIP_TX_MASK, NO_SHIFT_DEFINE, true},
++ {NULL,}
++};
++
++static const struct berse_wtbl_parse WTBL_LMAC_DW5_7992[] = {
++ {"AF", WF_LWTBL_AF_MASK_7992, WF_LWTBL_AF_SHIFT, false},
++ {"RTS", WF_LWTBL_RTS_MASK, NO_SHIFT_DEFINE, false},
++ {"SMPS", WF_LWTBL_SMPS_MASK, NO_SHIFT_DEFINE, false},
++ {"DYN_BW", WF_LWTBL_DYN_BW_MASK, NO_SHIFT_DEFINE, true},
++ {"MMSS", WF_LWTBL_MMSS_MASK, WF_LWTBL_MMSS_SHIFT,false},
++ {"USR", WF_LWTBL_USR_MASK, NO_SHIFT_DEFINE, false},
++ {"SR_RATE", WF_LWTBL_SR_R_MASK, WF_LWTBL_SR_R_SHIFT,false},
++ {"SR_ABORT", WF_LWTBL_SR_ABORT_MASK, NO_SHIFT_DEFINE, true},
++ {"TX_POWER_OFFSET", WF_LWTBL_TX_POWER_OFFSET_MASK, WF_LWTBL_TX_POWER_OFFSET_SHIFT, false},
++ {"LTF_EHT", WF_LWTBL_LTF_EHT_MASK, WF_LWTBL_LTF_EHT_SHIFT, false},
++ {"GI_EHT", WF_LWTBL_GI_EHT_MASK, WF_LWTBL_GI_EHT_SHIFT, false},
++ {"DOPPL", WF_LWTBL_DOPPL_MASK, NO_SHIFT_DEFINE, false},
++ {"TXOP_PS_CAP", WF_LWTBL_TXOP_PS_CAP_MASK, NO_SHIFT_DEFINE, false},
++ {"DONOT_UPDATE_I_PSM", WF_LWTBL_DU_I_PSM_MASK, NO_SHIFT_DEFINE, true},
++ {"I_PSM", WF_LWTBL_I_PSM_MASK, NO_SHIFT_DEFINE, false},
++ {"PSM", WF_LWTBL_PSM_MASK, NO_SHIFT_DEFINE, false},
++ {"SKIP_TX", WF_LWTBL_SKIP_TX_MASK, NO_SHIFT_DEFINE, true},
++ {NULL,}
++};
++
++static void parse_fmac_lwtbl_dw5(struct seq_file *s, u8 *lwtbl)
++{
++ u32 *addr = 0;
++ u32 dw_value = 0;
++ u16 i = 0;
++
++ /* LMAC WTBL DW 5 */
++ seq_printf(s, "\t\n");
++ seq_printf(s, "LWTBL DW 5\n");
++ addr = (u32 *)&(lwtbl[WTBL_GROUP_TRX_CAP_DW_5*4]);
++ dw_value = *addr;
++
++ while (WTBL_LMAC_DW5[i].name) {
++ if (WTBL_LMAC_DW5[i].shift == NO_SHIFT_DEFINE)
++ seq_printf(s, "\t%s:%d\n", WTBL_LMAC_DW5[i].name,
++ (dw_value & WTBL_LMAC_DW5[i].mask) ? 1 : 0);
++ else
++ seq_printf(s, "\t%s:%u\n", WTBL_LMAC_DW5[i].name,
++ (dw_value & WTBL_LMAC_DW5[i].mask) >> WTBL_LMAC_DW5[i].shift);
++ i++;
++ }
++}
++
++static const struct berse_wtbl_parse WTBL_LMAC_DW6[] = {
++ {"CBRN", WF_LWTBL_CBRN_MASK, WF_LWTBL_CBRN_SHIFT, false},
++ {"DBNSS_EN", WF_LWTBL_DBNSS_EN_MASK, NO_SHIFT_DEFINE, false},
++ {"BAF_EN", WF_LWTBL_BAF_EN_MASK, NO_SHIFT_DEFINE, false},
++ {"RDGBA", WF_LWTBL_RDGBA_MASK, NO_SHIFT_DEFINE, false},
++ {"RDG", WF_LWTBL_R_MASK, NO_SHIFT_DEFINE, false},
++ {"SPE_IDX", WF_LWTBL_SPE_IDX_MASK, WF_LWTBL_SPE_IDX_SHIFT, true},
++ {"G2", WF_LWTBL_G2_MASK, NO_SHIFT_DEFINE, false},
++ {"G4", WF_LWTBL_G4_MASK, NO_SHIFT_DEFINE, false},
++ {"G8", WF_LWTBL_G8_MASK, NO_SHIFT_DEFINE, false},
++ {"G16", WF_LWTBL_G16_MASK, NO_SHIFT_DEFINE, true},
++ {"G2_LTF", WF_LWTBL_G2_LTF_MASK, WF_LWTBL_G2_LTF_SHIFT, false},
++ {"G4_LTF", WF_LWTBL_G4_LTF_MASK, WF_LWTBL_G4_LTF_SHIFT, false},
++ {"G8_LTF", WF_LWTBL_G8_LTF_MASK, WF_LWTBL_G8_LTF_SHIFT, false},
++ {"G16_LTF", WF_LWTBL_G16_LTF_MASK, WF_LWTBL_G16_LTF_SHIFT, true},
++ {"G2_HE", WF_LWTBL_G2_HE_MASK, WF_LWTBL_G2_HE_SHIFT, false},
++ {"G4_HE", WF_LWTBL_G4_HE_MASK, WF_LWTBL_G4_HE_SHIFT, false},
++ {"G8_HE", WF_LWTBL_G8_HE_MASK, WF_LWTBL_G8_HE_SHIFT, false},
++ {"G16_HE", WF_LWTBL_G16_HE_MASK, WF_LWTBL_G16_HE_SHIFT, true},
++ {NULL,}
++};
++
++static void parse_fmac_lwtbl_dw6(struct seq_file *s, u8 *lwtbl)
++{
++ u32 *addr = 0;
++ u32 dw_value = 0;
++ u16 i = 0;
++
++ /* LMAC WTBL DW 6 */
++ seq_printf(s, "\t\n");
++ seq_printf(s, "LWTBL DW 6\n");
++ addr = (u32 *)&(lwtbl[WTBL_GROUP_TRX_CAP_DW_6*4]);
++ dw_value = *addr;
++
++ while (WTBL_LMAC_DW6[i].name) {
++ if (WTBL_LMAC_DW6[i].shift == NO_SHIFT_DEFINE)
++ seq_printf(s, "\t%s:%d\n", WTBL_LMAC_DW6[i].name,
++ (dw_value & WTBL_LMAC_DW6[i].mask) ? 1 : 0);
++ else
++ seq_printf(s, "\t%s:%u\n", WTBL_LMAC_DW6[i].name,
++ (dw_value & WTBL_LMAC_DW6[i].mask) >> WTBL_LMAC_DW6[i].shift);
++ i++;
++ }
++}
++
++static void parse_fmac_lwtbl_dw7(struct seq_file *s, u8 *lwtbl)
++{
++ u32 *addr = 0;
++ u32 dw_value = 0;
++ int i = 0;
++
++ /* LMAC WTBL DW 7 */
++ seq_printf(s, "\t\n");
++ seq_printf(s, "LWTBL DW 7\n");
++ addr = (u32 *)&(lwtbl[WTBL_GROUP_TRX_CAP_DW_7*4]);
++ dw_value = *addr;
++
++ for (i = 0; i < 8; i++) {
++ seq_printf(s, "\tBA_WIN_SIZE%u:%lu\n", i, ((dw_value & BITS(i*4, i*4+3)) >> i*4));
++ }
++}
++
++static const struct berse_wtbl_parse WTBL_LMAC_DW8[] = {
++ {"RTS_FAIL_CNT_AC0", WF_LWTBL_AC0_RTS_FAIL_CNT_MASK, WF_LWTBL_AC0_RTS_FAIL_CNT_SHIFT, false},
++ {"AC1", WF_LWTBL_AC1_RTS_FAIL_CNT_MASK, WF_LWTBL_AC1_RTS_FAIL_CNT_SHIFT, false},
++ {"AC2", WF_LWTBL_AC2_RTS_FAIL_CNT_MASK, WF_LWTBL_AC2_RTS_FAIL_CNT_SHIFT, false},
++ {"AC3", WF_LWTBL_AC3_RTS_FAIL_CNT_MASK, WF_LWTBL_AC3_RTS_FAIL_CNT_SHIFT, true},
++ {"PARTIAL_AID", WF_LWTBL_PARTIAL_AID_MASK, WF_LWTBL_PARTIAL_AID_SHIFT, false},
++ {"CHK_PER", WF_LWTBL_CHK_PER_MASK, NO_SHIFT_DEFINE, true},
++ {NULL,}
++};
++
++static void parse_fmac_lwtbl_dw8(struct seq_file *s, u8 *lwtbl)
++{
++ u32 *addr = 0;
++ u32 dw_value = 0;
++ u16 i = 0;
++
++ /* LMAC WTBL DW 8 */
++ seq_printf(s, "\t\n");
++ seq_printf(s, "LWTBL DW 8\n");
++ addr = (u32 *)&(lwtbl[WTBL_GROUP_TRX_CAP_DW_8*4]);
++ dw_value = *addr;
++
++ while (WTBL_LMAC_DW8[i].name) {
++ if (WTBL_LMAC_DW8[i].shift == NO_SHIFT_DEFINE)
++ seq_printf(s, "\t%s:%d\n", WTBL_LMAC_DW8[i].name,
++ (dw_value & WTBL_LMAC_DW8[i].mask) ? 1 : 0);
++ else
++ seq_printf(s, "\t%s:%u\n", WTBL_LMAC_DW8[i].name,
++ (dw_value & WTBL_LMAC_DW8[i].mask) >> WTBL_LMAC_DW8[i].shift);
++ i++;
++ }
++}
++
++static const struct berse_wtbl_parse *WTBL_LMAC_DW9;
++static const struct berse_wtbl_parse WTBL_LMAC_DW9_7996[] = {
++ {"RX_AVG_MPDU_SIZE", WF_LWTBL_RX_AVG_MPDU_SIZE_MASK, WF_LWTBL_RX_AVG_MPDU_SIZE_SHIFT, false},
++ {"PRITX_SW_MODE", WF_LWTBL_PRITX_SW_MODE_MASK, NO_SHIFT_DEFINE, false},
++ {"PRITX_ERSU", WF_LWTBL_PRITX_ERSU_MASK, NO_SHIFT_DEFINE, false},
++ {"PRITX_PLR", WF_LWTBL_PRITX_PLR_MASK, NO_SHIFT_DEFINE, true},
++ {"PRITX_DCM", WF_LWTBL_PRITX_DCM_MASK, NO_SHIFT_DEFINE, false},
++ {"PRITX_ER106T", WF_LWTBL_PRITX_ER106T_MASK, NO_SHIFT_DEFINE, true},
++ /* {"FCAP(0:20 1:~40)", WTBL_FCAP_20_TO_160_MHZ, WTBL_FCAP_20_TO_160_MHZ_OFFSET}, */
++ {"MPDU_FAIL_CNT", WF_LWTBL_MPDU_FAIL_CNT_MASK, WF_LWTBL_MPDU_FAIL_CNT_SHIFT, false},
++ {"MPDU_OK_CNT", WF_LWTBL_MPDU_OK_CNT_MASK, WF_LWTBL_MPDU_OK_CNT_SHIFT, false},
++ {"RATE_IDX", WF_LWTBL_RATE_IDX_MASK, WF_LWTBL_RATE_IDX_SHIFT, true},
++ {NULL,}
++};
++
++static const struct berse_wtbl_parse WTBL_LMAC_DW9_7992[] = {
++ {"RX_AVG_MPDU_SIZE", WF_LWTBL_RX_AVG_MPDU_SIZE_MASK, WF_LWTBL_RX_AVG_MPDU_SIZE_SHIFT, false},
++ {"PRITX_SW_MODE", WF_LWTBL_PRITX_SW_MODE_MASK_7992, NO_SHIFT_DEFINE, false},
++ {"PRITX_ERSU", WF_LWTBL_PRITX_ERSU_MASK_7992, NO_SHIFT_DEFINE, false},
++ {"PRITX_PLR", WF_LWTBL_PRITX_PLR_MASK_7992, NO_SHIFT_DEFINE, true},
++ {"PRITX_DCM", WF_LWTBL_PRITX_DCM_MASK, NO_SHIFT_DEFINE, false},
++ {"PRITX_ER106T", WF_LWTBL_PRITX_ER106T_MASK, NO_SHIFT_DEFINE, true},
++ /* {"FCAP(0:20 1:~40)", WTBL_FCAP_20_TO_160_MHZ, WTBL_FCAP_20_TO_160_MHZ_OFFSET}, */
++ {"MPDU_FAIL_CNT", WF_LWTBL_MPDU_FAIL_CNT_MASK, WF_LWTBL_MPDU_FAIL_CNT_SHIFT, false},
++ {"MPDU_OK_CNT", WF_LWTBL_MPDU_OK_CNT_MASK, WF_LWTBL_MPDU_OK_CNT_SHIFT, false},
++ {"RATE_IDX", WF_LWTBL_RATE_IDX_MASK, WF_LWTBL_RATE_IDX_SHIFT, true},
++ {NULL,}
++};
++
++char *fcap_name[] = {"20MHz", "20/40MHz", "20/40/80MHz", "20/40/80/160/80+80MHz", "20/40/80/160/80+80/320MHz"};
++
++static void parse_fmac_lwtbl_dw9(struct seq_file *s, u8 *lwtbl)
++{
++ u32 *addr = 0;
++ u32 dw_value = 0;
++ u16 i = 0;
++
++ /* LMAC WTBL DW 9 */
++ seq_printf(s, "\t\n");
++ seq_printf(s, "LWTBL DW 9\n");
++ addr = (u32 *)&(lwtbl[WTBL_GROUP_TRX_CAP_DW_9*4]);
++ dw_value = *addr;
++
++ while (WTBL_LMAC_DW9[i].name) {
++ if (WTBL_LMAC_DW9[i].shift == NO_SHIFT_DEFINE)
++ seq_printf(s, "\t%s:%d\n", WTBL_LMAC_DW9[i].name,
++ (dw_value & WTBL_LMAC_DW9[i].mask) ? 1 : 0);
++ else
++ seq_printf(s, "\t%s:%u\n", WTBL_LMAC_DW9[i].name,
++ (dw_value & WTBL_LMAC_DW9[i].mask) >> WTBL_LMAC_DW9[i].shift);
++ i++;
++ }
++
++ /* FCAP parser */
++ seq_printf(s, "\t\n");
++ seq_printf(s, "FCAP:%s\n", fcap_name[(dw_value & WF_LWTBL_FCAP_MASK) >> WF_LWTBL_FCAP_SHIFT]);
++}
++
++#define HW_TX_RATE_TO_MODE(_x) (((_x) & WTBL_RATE_TX_MODE_MASK) >> WTBL_RATE_TX_MODE_OFFSET)
++#define HW_TX_RATE_TO_MCS(_x, _mode) ((_x) & WTBL_RATE_TX_RATE_MASK >> WTBL_RATE_TX_RATE_OFFSET)
++#define HW_TX_RATE_TO_NSS(_x) (((_x) & WTBL_RATE_NSTS_MASK) >> WTBL_RATE_NSTS_OFFSET)
++#define HW_TX_RATE_TO_STBC(_x) (((_x) & WTBL_RATE_STBC_MASK) >> WTBL_RATE_STBC_OFFSET)
++
++#define MAX_TX_MODE 16
++static char *HW_TX_MODE_STR[] = {"CCK", "OFDM", "HT-Mix", "HT-GF", "VHT",
++ "N/A", "N/A", "N/A",
++ "HE_SU", "HE_EXT_SU", "HE_TRIG", "HE_MU",
++ "N/A",
++ "EHT_EXT_SU", "EHT_TRIG", "EHT_MU",
++ "N/A"};
++static char *HW_TX_RATE_CCK_STR[] = {"1M", "2Mlong", "5.5Mlong", "11Mlong", "N/A", "2Mshort", "5.5Mshort", "11Mshort", "N/A"};
++static char *HW_TX_RATE_OFDM_STR[] = {"6M", "9M", "12M", "18M", "24M", "36M", "48M", "54M", "N/A"};
++
++static char *hw_rate_ofdm_str(uint16_t ofdm_idx)
++{
++ switch (ofdm_idx) {
++ case 11: /* 6M */
++ return HW_TX_RATE_OFDM_STR[0];
++
++ case 15: /* 9M */
++ return HW_TX_RATE_OFDM_STR[1];
++
++ case 10: /* 12M */
++ return HW_TX_RATE_OFDM_STR[2];
++
++ case 14: /* 18M */
++ return HW_TX_RATE_OFDM_STR[3];
++
++ case 9: /* 24M */
++ return HW_TX_RATE_OFDM_STR[4];
++
++ case 13: /* 36M */
++ return HW_TX_RATE_OFDM_STR[5];
++
++ case 8: /* 48M */
++ return HW_TX_RATE_OFDM_STR[6];
++
++ case 12: /* 54M */
++ return HW_TX_RATE_OFDM_STR[7];
++
++ default:
++ return HW_TX_RATE_OFDM_STR[8];
++ }
++}
++
++static char *hw_rate_str(u8 mode, uint16_t rate_idx)
++{
++ if (mode == 0)
++ return rate_idx < 8 ? HW_TX_RATE_CCK_STR[rate_idx] : HW_TX_RATE_CCK_STR[8];
++ else if (mode == 1)
++ return hw_rate_ofdm_str(rate_idx);
++ else
++ return "MCS";
++}
++
++static void
++parse_rate(struct seq_file *s, uint16_t rate_idx, uint16_t txrate)
++{
++ uint16_t txmode, mcs, nss, stbc;
++
++ txmode = HW_TX_RATE_TO_MODE(txrate);
++ mcs = HW_TX_RATE_TO_MCS(txrate, txmode);
++ nss = HW_TX_RATE_TO_NSS(txrate);
++ stbc = HW_TX_RATE_TO_STBC(txrate);
++
++ seq_printf(s, "\tRate%d(0x%x):TxMode=%d(%s), TxRate=%d(%s), Nsts=%d, STBC=%d\n",
++ rate_idx + 1, txrate,
++ txmode, (txmode < MAX_TX_MODE ? HW_TX_MODE_STR[txmode] : HW_TX_MODE_STR[MAX_TX_MODE]),
++ mcs, hw_rate_str(txmode, mcs), nss, stbc);
++}
++
++
++static const struct berse_wtbl_parse WTBL_LMAC_DW10[] = {
++ {"RATE1", WF_LWTBL_RATE1_MASK, WF_LWTBL_RATE1_SHIFT},
++ {"RATE2", WF_LWTBL_RATE2_MASK, WF_LWTBL_RATE2_SHIFT},
++ {NULL,}
++};
++
++static void parse_fmac_lwtbl_dw10(struct seq_file *s, u8 *lwtbl)
++{
++ u32 *addr = 0;
++ u32 dw_value = 0;
++ u16 i = 0;
++
++ /* LMAC WTBL DW 10 */
++ seq_printf(s, "\t\n");
++ seq_printf(s, "LWTBL DW 10\n");
++ addr = (u32 *)&(lwtbl[WTBL_GROUP_AUTO_RATE_1_2*4]);
++ dw_value = *addr;
++
++ while (WTBL_LMAC_DW10[i].name) {
++ parse_rate(s, i, (dw_value & WTBL_LMAC_DW10[i].mask) >> WTBL_LMAC_DW10[i].shift);
++ i++;
++ }
++}
++
++static const struct berse_wtbl_parse WTBL_LMAC_DW11[] = {
++ {"RATE3", WF_LWTBL_RATE3_MASK, WF_LWTBL_RATE3_SHIFT},
++ {"RATE4", WF_LWTBL_RATE4_MASK, WF_LWTBL_RATE4_SHIFT},
++ {NULL,}
++};
++
++static void parse_fmac_lwtbl_dw11(struct seq_file *s, u8 *lwtbl)
++{
++ u32 *addr = 0;
++ u32 dw_value = 0;
++ u16 i = 0;
++
++ /* LMAC WTBL DW 11 */
++ seq_printf(s, "\t\n");
++ seq_printf(s, "LWTBL DW 11\n");
++ addr = (u32 *)&(lwtbl[WTBL_GROUP_AUTO_RATE_3_4*4]);
++ dw_value = *addr;
++
++ while (WTBL_LMAC_DW11[i].name) {
++ parse_rate(s, i+2, (dw_value & WTBL_LMAC_DW11[i].mask) >> WTBL_LMAC_DW11[i].shift);
++ i++;
++ }
++}
++
++static const struct berse_wtbl_parse WTBL_LMAC_DW12[] = {
++ {"RATE5", WF_LWTBL_RATE5_MASK, WF_LWTBL_RATE5_SHIFT},
++ {"RATE6", WF_LWTBL_RATE6_MASK, WF_LWTBL_RATE6_SHIFT},
++ {NULL,}
++};
++
++static void parse_fmac_lwtbl_dw12(struct seq_file *s, u8 *lwtbl)
++{
++ u32 *addr = 0;
++ u32 dw_value = 0;
++ u16 i = 0;
++
++ /* LMAC WTBL DW 12 */
++ seq_printf(s, "\t\n");
++ seq_printf(s, "LWTBL DW 12\n");
++ addr = (u32 *)&(lwtbl[WTBL_GROUP_AUTO_RATE_5_6*4]);
++ dw_value = *addr;
++
++ while (WTBL_LMAC_DW12[i].name) {
++ parse_rate(s, i+4, (dw_value & WTBL_LMAC_DW12[i].mask) >> WTBL_LMAC_DW12[i].shift);
++ i++;
++ }
++}
++
++static const struct berse_wtbl_parse WTBL_LMAC_DW13[] = {
++ {"RATE7", WF_LWTBL_RATE7_MASK, WF_LWTBL_RATE7_SHIFT},
++ {"RATE8", WF_LWTBL_RATE8_MASK, WF_LWTBL_RATE8_SHIFT},
++ {NULL,}
++};
++
++static void parse_fmac_lwtbl_dw13(struct seq_file *s, u8 *lwtbl)
++{
++ u32 *addr = 0;
++ u32 dw_value = 0;
++ u16 i = 0;
++
++ /* LMAC WTBL DW 13 */
++ seq_printf(s, "\t\n");
++ seq_printf(s, "LWTBL DW 13\n");
++ addr = (u32 *)&(lwtbl[WTBL_GROUP_AUTO_RATE_7_8*4]);
++ dw_value = *addr;
++
++ while (WTBL_LMAC_DW13[i].name) {
++ parse_rate(s, i+6, (dw_value & WTBL_LMAC_DW13[i].mask) >> WTBL_LMAC_DW13[i].shift);
++ i++;
++ }
++}
++
++static const struct berse_wtbl_parse WTBL_LMAC_DW14_BMC[] = {
++ {"CIPHER_IGTK", WF_LWTBL_CIPHER_SUIT_IGTK_MASK, WF_LWTBL_CIPHER_SUIT_IGTK_SHIFT, false},
++ {"CIPHER_BIGTK", WF_LWTBL_CIPHER_SUIT_BIGTK_MASK, WF_LWTBL_CIPHER_SUIT_BIGTK_SHIFT, true},
++ {NULL,}
++};
++
++static const struct berse_wtbl_parse WTBL_LMAC_DW14[] = {
++ {"RATE1_TX_CNT", WF_LWTBL_RATE1_TX_CNT_MASK, WF_LWTBL_RATE1_TX_CNT_SHIFT, false},
++ {"RATE1_FAIL_CNT", WF_LWTBL_RATE1_FAIL_CNT_MASK, WF_LWTBL_RATE1_FAIL_CNT_SHIFT, true},
++ {NULL,}
++};
++
++static void parse_fmac_lwtbl_dw14(struct seq_file *s, u8 *lwtbl)
++{
++ u32 *addr, *muar_addr = 0;
++ u32 dw_value, muar_dw_value = 0;
++ u16 i = 0;
++
++ /* DUMP DW14 for BMC entry only */
++ muar_addr = (u32 *)&(lwtbl[WF_LWTBL_MUAR_DW*4]);
++ muar_dw_value = *muar_addr;
++ if (((muar_dw_value & WF_LWTBL_MUAR_MASK) >> WF_LWTBL_MUAR_SHIFT)
++ == MUAR_INDEX_OWN_MAC_ADDR_BC_MC) {
++ /* LMAC WTBL DW 14 */
++ seq_printf(s, "\t\n");
++ seq_printf(s, "LWTBL DW 14\n");
++ addr = (u32 *)&(lwtbl[WF_LWTBL_CIPHER_SUIT_IGTK_DW*4]);
++ dw_value = *addr;
++
++ while (WTBL_LMAC_DW14_BMC[i].name) {
++ if (WTBL_LMAC_DW14_BMC[i].shift == NO_SHIFT_DEFINE)
++ seq_printf(s, "\t%s:%d\n", WTBL_LMAC_DW14_BMC[i].name,
++ (dw_value & WTBL_LMAC_DW14_BMC[i].mask) ? 1 : 0);
++ else
++ seq_printf(s, "\t%s:%u\n", WTBL_LMAC_DW14_BMC[i].name,
++ (dw_value & WTBL_LMAC_DW14_BMC[i].mask) >> WTBL_LMAC_DW14_BMC[i].shift);
++ i++;
++ }
++ } else {
++ seq_printf(s, "\t\n");
++ seq_printf(s, "LWTBL DW 14\n");
++ addr = (u32 *)&(lwtbl[WF_LWTBL_CIPHER_SUIT_IGTK_DW*4]);
++ dw_value = *addr;
++
++ while (WTBL_LMAC_DW14[i].name) {
++ if (WTBL_LMAC_DW14[i].shift == NO_SHIFT_DEFINE)
++ seq_printf(s, "\t%s:%d\n", WTBL_LMAC_DW14[i].name,
++ (dw_value & WTBL_LMAC_DW14[i].mask) ? 1 : 0);
++ else
++ seq_printf(s, "\t%s:%u\n", WTBL_LMAC_DW14[i].name,
++ (dw_value & WTBL_LMAC_DW14[i].mask) >> WTBL_LMAC_DW14[i].shift);
++ i++;
++ }
++ }
++}
++
++static const struct berse_wtbl_parse WTBL_LMAC_DW28[] = {
++ {"RELATED_IDX0", WF_LWTBL_RELATED_IDX0_MASK, WF_LWTBL_RELATED_IDX0_SHIFT, false},
++ {"RELATED_BAND0", WF_LWTBL_RELATED_BAND0_MASK, WF_LWTBL_RELATED_BAND0_SHIFT, false},
++ {"PRI_MLD_BAND", WF_LWTBL_PRIMARY_MLD_BAND_MASK, WF_LWTBL_PRIMARY_MLD_BAND_SHIFT, true},
++ {"RELATED_IDX1", WF_LWTBL_RELATED_IDX1_MASK, WF_LWTBL_RELATED_IDX1_SHIFT, false},
++ {"RELATED_BAND1", WF_LWTBL_RELATED_BAND1_MASK, WF_LWTBL_RELATED_BAND1_SHIFT, false},
++ {"SEC_MLD_BAND", WF_LWTBL_SECONDARY_MLD_BAND_MASK, WF_LWTBL_SECONDARY_MLD_BAND_SHIFT, true},
++ {NULL,}
++};
++
++static void parse_fmac_lwtbl_dw28(struct seq_file *s, u8 *lwtbl)
++{
++ u32 *addr = 0;
++ u32 dw_value = 0;
++ u16 i = 0;
++
++ /* LMAC WTBL DW 28 */
++ seq_printf(s, "\t\n");
++ seq_printf(s, "LWTBL DW 28\n");
++ addr = (u32 *)&(lwtbl[WTBL_GROUP_MLO_INFO_LINE_1*4]);
++ dw_value = *addr;
++
++ while (WTBL_LMAC_DW28[i].name) {
++ if (WTBL_LMAC_DW28[i].shift == NO_SHIFT_DEFINE)
++ seq_printf(s, "\t%s:%d\n", WTBL_LMAC_DW28[i].name,
++ (dw_value & WTBL_LMAC_DW28[i].mask) ? 1 : 0);
++ else
++ seq_printf(s, "\t%s:%u\n", WTBL_LMAC_DW28[i].name,
++ (dw_value & WTBL_LMAC_DW28[i].mask) >>
++ WTBL_LMAC_DW28[i].shift);
++ i++;
++ }
++}
++
++static const struct berse_wtbl_parse WTBL_LMAC_DW29[] = {
++ {"DISPATCH_POLICY_MLD_TID0", WF_LWTBL_DISPATCH_POLICY0_MASK, WF_LWTBL_DISPATCH_POLICY0_SHIFT, false},
++ {"MLD_TID1", WF_LWTBL_DISPATCH_POLICY1_MASK, WF_LWTBL_DISPATCH_POLICY1_SHIFT, false},
++ {"MLD_TID2", WF_LWTBL_DISPATCH_POLICY2_MASK, WF_LWTBL_DISPATCH_POLICY2_SHIFT, false},
++ {"MLD_TID3", WF_LWTBL_DISPATCH_POLICY3_MASK, WF_LWTBL_DISPATCH_POLICY3_SHIFT, true},
++ {"MLD_TID4", WF_LWTBL_DISPATCH_POLICY4_MASK, WF_LWTBL_DISPATCH_POLICY4_SHIFT, false},
++ {"MLD_TID5", WF_LWTBL_DISPATCH_POLICY5_MASK, WF_LWTBL_DISPATCH_POLICY5_SHIFT, false},
++ {"MLD_TID6", WF_LWTBL_DISPATCH_POLICY6_MASK, WF_LWTBL_DISPATCH_POLICY6_SHIFT, false},
++ {"MLD_TID7", WF_LWTBL_DISPATCH_POLICY7_MASK, WF_LWTBL_DISPATCH_POLICY7_SHIFT, true},
++ {"OMLD_ID", WF_LWTBL_OWN_MLD_ID_MASK, WF_LWTBL_OWN_MLD_ID_SHIFT, false},
++ {"EMLSR0", WF_LWTBL_EMLSR0_MASK, NO_SHIFT_DEFINE, false},
++ {"EMLMR0", WF_LWTBL_EMLMR0_MASK, NO_SHIFT_DEFINE, false},
++ {"EMLSR1", WF_LWTBL_EMLSR1_MASK, NO_SHIFT_DEFINE, false},
++ {"EMLMR1", WF_LWTBL_EMLMR1_MASK, NO_SHIFT_DEFINE, true},
++ {"EMLSR2", WF_LWTBL_EMLSR2_MASK, NO_SHIFT_DEFINE, false},
++ {"EMLMR2", WF_LWTBL_EMLMR2_MASK, NO_SHIFT_DEFINE, false},
++ {"STR_BITMAP", WF_LWTBL_STR_BITMAP_MASK, WF_LWTBL_STR_BITMAP_SHIFT, true},
++ {NULL,}
++};
++
++static void parse_fmac_lwtbl_dw29(struct seq_file *s, u8 *lwtbl)
++{
++ u32 *addr = 0;
++ u32 dw_value = 0;
++ u16 i = 0;
++
++ /* LMAC WTBL DW 29 */
++ seq_printf(s, "\t\n");
++ seq_printf(s, "LWTBL DW 29\n");
++ addr = (u32 *)&(lwtbl[WTBL_GROUP_MLO_INFO_LINE_2*4]);
++ dw_value = *addr;
++
++ while (WTBL_LMAC_DW29[i].name) {
++ if (WTBL_LMAC_DW29[i].shift == NO_SHIFT_DEFINE)
++ seq_printf(s, "\t%s:%d\n", WTBL_LMAC_DW29[i].name,
++ (dw_value & WTBL_LMAC_DW29[i].mask) ? 1 : 0);
++ else
++ seq_printf(s, "\t%s:%u\n", WTBL_LMAC_DW29[i].name,
++ (dw_value & WTBL_LMAC_DW29[i].mask) >>
++ WTBL_LMAC_DW29[i].shift);
++ i++;
++ }
++}
++
++static const struct berse_wtbl_parse WTBL_LMAC_DW30[] = {
++ {"DISPATCH_ORDER", WF_LWTBL_DISPATCH_ORDER_MASK, WF_LWTBL_DISPATCH_ORDER_SHIFT, false},
++ {"DISPATCH_RATIO", WF_LWTBL_DISPATCH_RATIO_MASK, WF_LWTBL_DISPATCH_RATIO_SHIFT, false},
++ {"LINK_MGF", WF_LWTBL_LINK_MGF_MASK, WF_LWTBL_LINK_MGF_SHIFT, true},
++ {NULL,}
++};
++
++static void parse_fmac_lwtbl_dw30(struct seq_file *s, u8 *lwtbl)
++{
++ u32 *addr = 0;
++ u32 dw_value = 0;
++ u16 i = 0;
++
++ /* LMAC WTBL DW 30 */
++ seq_printf(s, "\t\n");
++ seq_printf(s, "LWTBL DW 30\n");
++ addr = (u32 *)&(lwtbl[WTBL_GROUP_MLO_INFO_LINE_3*4]);
++ dw_value = *addr;
++
++
++ while (WTBL_LMAC_DW30[i].name) {
++ if (WTBL_LMAC_DW30[i].shift == NO_SHIFT_DEFINE)
++ seq_printf(s, "\t%s:%d\n", WTBL_LMAC_DW30[i].name,
++ (dw_value & WTBL_LMAC_DW30[i].mask) ? 1 : 0);
++ else
++ seq_printf(s, "\t%s:%u\n", WTBL_LMAC_DW30[i].name,
++ (dw_value & WTBL_LMAC_DW30[i].mask) >> WTBL_LMAC_DW30[i].shift);
++ i++;
++ }
++}
++
++static const struct berse_wtbl_parse WTBL_LMAC_DW31[] = {
++ {"BFTX_TB", WF_LWTBL_BFTX_TB_MASK, NO_SHIFT_DEFINE, false},
++ {"DROP", WF_LWTBL_DROP_MASK, NO_SHIFT_DEFINE, false},
++ {"CASCAD", WF_LWTBL_CASCAD_MASK, NO_SHIFT_DEFINE, false},
++ {"ALL_ACK", WF_LWTBL_ALL_ACK_MASK, NO_SHIFT_DEFINE, false},
++ {"MPDU_SIZE", WF_LWTBL_MPDU_SIZE_MASK, WF_LWTBL_MPDU_SIZE_SHIFT, false},
++ {"RXD_DUP_MODE", WF_LWTBL_RXD_DUP_MODE_MASK, WF_LWTBL_RXD_DUP_MODE_SHIFT, true},
++ {"ACK_EN", WF_LWTBL_ACK_EN_MASK, NO_SHIFT_DEFINE, true},
++ {NULL,}
++};
++
++static void parse_fmac_lwtbl_dw31(struct seq_file *s, u8 *lwtbl)
++{
++ u32 *addr = 0;
++ u32 dw_value = 0;
++ u16 i = 0;
++
++ /* LMAC WTBL DW 31 */
++ seq_printf(s, "\t\n");
++ seq_printf(s, "LWTBL DW 31\n");
++ addr = (u32 *)&(lwtbl[WTBL_GROUP_RESP_INFO_DW_31*4]);
++ dw_value = *addr;
++
++ while (WTBL_LMAC_DW31[i].name) {
++ if (WTBL_LMAC_DW31[i].shift == NO_SHIFT_DEFINE)
++ seq_printf(s, "\t%s:%d\n", WTBL_LMAC_DW31[i].name,
++ (dw_value & WTBL_LMAC_DW31[i].mask) ? 1 : 0);
++ else
++ seq_printf(s, "\t%s:%u\n", WTBL_LMAC_DW31[i].name,
++ (dw_value & WTBL_LMAC_DW31[i].mask) >>
++ WTBL_LMAC_DW31[i].shift);
++ i++;
++ }
++}
++
++static const struct berse_wtbl_parse WTBL_LMAC_DW32[] = {
++ {"OM_INFO", WF_LWTBL_OM_INFO_MASK, WF_LWTBL_OM_INFO_SHIFT, false},
++ {"OM_INFO_EHT", WF_LWTBL_OM_INFO_EHT_MASK, WF_LWTBL_OM_INFO_EHT_SHIFT, false},
++ {"RXD_DUP_FOR_OM_CHG", WF_LWTBL_RXD_DUP_FOR_OM_CHG_MASK, NO_SHIFT_DEFINE, false},
++ {"RXD_DUP_WHITE_LIST", WF_LWTBL_RXD_DUP_WHITE_LIST_MASK, WF_LWTBL_RXD_DUP_WHITE_LIST_SHIFT, false},
++ {NULL,}
++};
++
++static void parse_fmac_lwtbl_dw32(struct seq_file *s, u8 *lwtbl)
++{
++ u32 *addr = 0;
++ u32 dw_value = 0;
++ u16 i = 0;
++
++ /* LMAC WTBL DW 32 */
++ seq_printf(s, "\t\n");
++ seq_printf(s, "LWTBL DW 32\n");
++ addr = (u32 *)&(lwtbl[WTBL_GROUP_RX_DUP_INFO_DW_32*4]);
++ dw_value = *addr;
++
++ while (WTBL_LMAC_DW32[i].name) {
++ if (WTBL_LMAC_DW32[i].shift == NO_SHIFT_DEFINE)
++ seq_printf(s, "\t%s:%d\n", WTBL_LMAC_DW32[i].name,
++ (dw_value & WTBL_LMAC_DW32[i].mask) ? 1 : 0);
++ else
++ seq_printf(s, "\t%s:%u\n", WTBL_LMAC_DW32[i].name,
++ (dw_value & WTBL_LMAC_DW32[i].mask) >>
++ WTBL_LMAC_DW32[i].shift);
++ i++;
++ }
++}
++
++static const struct berse_wtbl_parse WTBL_LMAC_DW33[] = {
++ {"USER_RSSI", WF_LWTBL_USER_RSSI_MASK, WF_LWTBL_USER_RSSI_SHIFT, false},
++ {"USER_SNR", WF_LWTBL_USER_SNR_MASK, WF_LWTBL_USER_SNR_SHIFT, false},
++ {"RAPID_REACTION_RATE", WF_LWTBL_RAPID_REACTION_RATE_MASK, WF_LWTBL_RAPID_REACTION_RATE_SHIFT, true},
++ {"HT_AMSDU(Read Only)", WF_LWTBL_HT_AMSDU_MASK, NO_SHIFT_DEFINE, false},
++ {"AMSDU_CROSS_LG(Read Only)", WF_LWTBL_AMSDU_CROSS_LG_MASK, NO_SHIFT_DEFINE, true},
++ {NULL,}
++};
++
++static void parse_fmac_lwtbl_dw33(struct seq_file *s, u8 *lwtbl)
++{
++ u32 *addr = 0;
++ u32 dw_value = 0;
++ u16 i = 0;
++
++ /* LMAC WTBL DW 33 */
++ seq_printf(s, "\t\n");
++ seq_printf(s, "LWTBL DW 33\n");
++ addr = (u32 *)&(lwtbl[WTBL_GROUP_RX_STAT_CNT_LINE_1*4]);
++ dw_value = *addr;
++
++ while (WTBL_LMAC_DW33[i].name) {
++ if (WTBL_LMAC_DW33[i].shift == NO_SHIFT_DEFINE)
++ seq_printf(s, "\t%s:%d\n", WTBL_LMAC_DW33[i].name,
++ (dw_value & WTBL_LMAC_DW33[i].mask) ? 1 : 0);
++ else
++ seq_printf(s, "\t%s:%u\n", WTBL_LMAC_DW33[i].name,
++ (dw_value & WTBL_LMAC_DW33[i].mask) >>
++ WTBL_LMAC_DW33[i].shift);
++ i++;
++ }
++}
++
++static const struct berse_wtbl_parse WTBL_LMAC_DW34[] = {
++ {"RESP_RCPI0", WF_LWTBL_RESP_RCPI0_MASK, WF_LWTBL_RESP_RCPI0_SHIFT, false},
++ {"RCPI1", WF_LWTBL_RESP_RCPI1_MASK, WF_LWTBL_RESP_RCPI1_SHIFT, false},
++ {"RCPI2", WF_LWTBL_RESP_RCPI2_MASK, WF_LWTBL_RESP_RCPI2_SHIFT, false},
++ {"RCPI3", WF_LWTBL_RESP_RCPI3_MASK, WF_LWTBL_RESP_RCPI3_SHIFT, true},
++ {NULL,}
++};
++
++static void parse_fmac_lwtbl_dw34(struct seq_file *s, u8 *lwtbl)
++{
++ u32 *addr = 0;
++ u32 dw_value = 0;
++ u16 i = 0;
++
++ /* LMAC WTBL DW 34 */
++ seq_printf(s, "\t\n");
++ seq_printf(s, "LWTBL DW 34\n");
++ addr = (u32 *)&(lwtbl[WTBL_GROUP_RX_STAT_CNT_LINE_2*4]);
++ dw_value = *addr;
++
++
++ while (WTBL_LMAC_DW34[i].name) {
++ if (WTBL_LMAC_DW34[i].shift == NO_SHIFT_DEFINE)
++ seq_printf(s, "\t%s:%d\n", WTBL_LMAC_DW34[i].name,
++ (dw_value & WTBL_LMAC_DW34[i].mask) ? 1 : 0);
++ else
++ seq_printf(s, "\t%s:%u\n", WTBL_LMAC_DW34[i].name,
++ (dw_value & WTBL_LMAC_DW34[i].mask) >>
++ WTBL_LMAC_DW34[i].shift);
++ i++;
++ }
++}
++
++static const struct berse_wtbl_parse WTBL_LMAC_DW35[] = {
++ {"SNR 0", WF_LWTBL_SNR_RX0_MASK, WF_LWTBL_SNR_RX0_SHIFT, false},
++ {"SNR 1", WF_LWTBL_SNR_RX1_MASK, WF_LWTBL_SNR_RX1_SHIFT, false},
++ {"SNR 2", WF_LWTBL_SNR_RX2_MASK, WF_LWTBL_SNR_RX2_SHIFT, false},
++ {"SNR 3", WF_LWTBL_SNR_RX3_MASK, WF_LWTBL_SNR_RX3_SHIFT, true},
++ {NULL,}
++};
++
++static void parse_fmac_lwtbl_dw35(struct seq_file *s, u8 *lwtbl)
++{
++ u32 *addr = 0;
++ u32 dw_value = 0;
++ u16 i = 0;
++
++ /* LMAC WTBL DW 35 */
++ seq_printf(s, "\t\n");
++ seq_printf(s, "LWTBL DW 35\n");
++ addr = (u32 *)&(lwtbl[WTBL_GROUP_RX_STAT_CNT_LINE_3*4]);
++ dw_value = *addr;
++
++
++ while (WTBL_LMAC_DW35[i].name) {
++ if (WTBL_LMAC_DW35[i].shift == NO_SHIFT_DEFINE)
++ seq_printf(s, "\t%s:%d\n", WTBL_LMAC_DW35[i].name,
++ (dw_value & WTBL_LMAC_DW35[i].mask) ? 1 : 0);
++ else
++ seq_printf(s, "\t%s:%u\n", WTBL_LMAC_DW35[i].name,
++ (dw_value & WTBL_LMAC_DW35[i].mask) >>
++ WTBL_LMAC_DW35[i].shift);
++ i++;
++ }
++}
++
++static void parse_fmac_lwtbl_rx_stats(struct seq_file *s, u8 *lwtbl)
++{
++ parse_fmac_lwtbl_dw33(s, lwtbl);
++ parse_fmac_lwtbl_dw34(s, lwtbl);
++ parse_fmac_lwtbl_dw35(s, lwtbl);
++}
++
++static void parse_fmac_lwtbl_mlo_info(struct seq_file *s, u8 *lwtbl)
++{
++ parse_fmac_lwtbl_dw28(s, lwtbl);
++ parse_fmac_lwtbl_dw29(s, lwtbl);
++ parse_fmac_lwtbl_dw30(s, lwtbl);
++}
++
++static const struct berse_wtbl_parse WTBL_UMAC_DW9[] = {
++ {"RELATED_IDX0", WF_UWTBL_RELATED_IDX0_MASK, WF_UWTBL_RELATED_IDX0_SHIFT, false},
++ {"RELATED_BAND0", WF_UWTBL_RELATED_BAND0_MASK, WF_UWTBL_RELATED_BAND0_SHIFT, false},
++ {"PRI_MLD_BAND", WF_UWTBL_PRIMARY_MLD_BAND_MASK, WF_UWTBL_PRIMARY_MLD_BAND_SHIFT, true},
++ {"RELATED_IDX1", WF_UWTBL_RELATED_IDX1_MASK, WF_UWTBL_RELATED_IDX1_SHIFT, false},
++ {"RELATED_BAND1", WF_UWTBL_RELATED_BAND1_MASK, WF_UWTBL_RELATED_BAND1_SHIFT, false},
++ {"SEC_MLD_BAND", WF_UWTBL_SECONDARY_MLD_BAND_MASK, WF_UWTBL_SECONDARY_MLD_BAND_SHIFT, true},
++ {NULL,}
++};
++
++static void parse_fmac_uwtbl_mlo_info(struct seq_file *s, u8 *uwtbl)
++{
++ u32 *addr = 0;
++ u32 dw_value = 0;
++ u16 i = 0;
++
++ seq_printf(s, "\t\n");
++ seq_printf(s, "MldAddr: %02x:%02x:%02x:%02x:%02x:%02x(D0[B0~15], D1[B0~31])\n",
++ uwtbl[4], uwtbl[5], uwtbl[6], uwtbl[7], uwtbl[0], uwtbl[1]);
++
++ /* UMAC WTBL DW 0 */
++ seq_printf(s, "\t\n");
++ seq_printf(s, "UWTBL DW 0\n");
++ addr = (u32 *)&(uwtbl[WF_UWTBL_OWN_MLD_ID_DW*4]);
++ dw_value = *addr;
++
++ seq_printf(s, "\t%s:%u\n", "OMLD_ID",
++ (dw_value & WF_UWTBL_OWN_MLD_ID_MASK) >> WF_UWTBL_OWN_MLD_ID_SHIFT);
++
++ /* UMAC WTBL DW 9 */
++ seq_printf(s, "\t\n");
++ seq_printf(s, "UWTBL DW 9\n");
++ addr = (u32 *)&(uwtbl[WF_UWTBL_RELATED_IDX0_DW*4]);
++ dw_value = *addr;
++
++ while (WTBL_UMAC_DW9[i].name) {
++
++ if (WTBL_UMAC_DW9[i].shift == NO_SHIFT_DEFINE)
++ seq_printf(s, "\t%s:%d\n", WTBL_UMAC_DW9[i].name,
++ (dw_value & WTBL_UMAC_DW9[i].mask) ? 1 : 0);
++ else
++ seq_printf(s, "\t%s:%u\n", WTBL_UMAC_DW9[i].name,
++ (dw_value & WTBL_UMAC_DW9[i].mask) >>
++ WTBL_UMAC_DW9[i].shift);
++ i++;
++ }
++}
++
++static bool
++is_wtbl_bigtk_exist(u8 *lwtbl)
++{
++ u32 *addr = 0;
++ u32 dw_value = 0;
++
++ addr = (u32 *)&(lwtbl[WF_LWTBL_MUAR_DW*4]);
++ dw_value = *addr;
++ if (((dw_value & WF_LWTBL_MUAR_MASK) >> WF_LWTBL_MUAR_SHIFT) ==
++ MUAR_INDEX_OWN_MAC_ADDR_BC_MC) {
++ addr = (u32 *)&(lwtbl[WF_LWTBL_CIPHER_SUIT_BIGTK_DW*4]);
++ dw_value = *addr;
++ if (((dw_value & WF_LWTBL_CIPHER_SUIT_BIGTK_MASK) >>
++ WF_LWTBL_CIPHER_SUIT_BIGTK_SHIFT) != IGTK_CIPHER_SUIT_NONE)
++ return true;
++ }
++
++ return false;
++}
++
++static const struct berse_wtbl_parse WTBL_UMAC_DW2[] = {
++ {"PN0", WTBL_PN0_MASK, WTBL_PN0_OFFSET, false},
++ {"PN1", WTBL_PN1_MASK, WTBL_PN1_OFFSET, false},
++ {"PN2", WTBL_PN2_MASK, WTBL_PN2_OFFSET, true},
++ {"PN3", WTBL_PN3_MASK, WTBL_PN3_OFFSET, false},
++ {NULL,}
++};
++
++static const struct berse_wtbl_parse WTBL_UMAC_DW3[] = {
++ {"PN4", WTBL_PN4_MASK, WTBL_PN4_OFFSET, false},
++ {"PN5", WTBL_PN5_MASK, WTBL_PN5_OFFSET, true},
++ {"COM_SN", WF_UWTBL_COM_SN_MASK, WF_UWTBL_COM_SN_SHIFT, true},
++ {NULL,}
++};
++
++static const struct berse_wtbl_parse WTBL_UMAC_DW4_BIPN[] = {
++ {"BIPN0", WTBL_BIPN0_MASK, WTBL_BIPN0_OFFSET, false},
++ {"BIPN1", WTBL_BIPN1_MASK, WTBL_BIPN1_OFFSET, false},
++ {"BIPN2", WTBL_BIPN2_MASK, WTBL_BIPN2_OFFSET, true},
++ {"BIPN3", WTBL_BIPN3_MASK, WTBL_BIPN3_OFFSET, false},
++ {NULL,}
++};
++
++static const struct berse_wtbl_parse WTBL_UMAC_DW5_BIPN[] = {
++ {"BIPN4", WTBL_BIPN4_MASK, WTBL_BIPN4_OFFSET, false},
++ {"BIPN5", WTBL_BIPN5_MASK, WTBL_BIPN5_OFFSET, true},
++ {NULL,}
++};
++
++static void parse_fmac_uwtbl_pn(struct seq_file *s, u8 *uwtbl, u8 *lwtbl)
++{
++ u32 *addr = 0;
++ u32 dw_value = 0;
++ u16 i = 0;
++
++ seq_printf(s, "\t\n");
++ seq_printf(s, "UWTBL PN\n");
++
++ /* UMAC WTBL DW 2/3 */
++ addr = (u32 *)&(uwtbl[WF_UWTBL_PN_31_0__DW*4]);
++ dw_value = *addr;
++
++ while (WTBL_UMAC_DW2[i].name) {
++ seq_printf(s, "\t%s:%u\n", WTBL_UMAC_DW2[i].name,
++ (dw_value & WTBL_UMAC_DW2[i].mask) >>
++ WTBL_UMAC_DW2[i].shift);
++ i++;
++ }
++
++ i = 0;
++ addr = (u32 *)&(uwtbl[WF_UWTBL_PN_47_32__DW*4]);
++ dw_value = *addr;
++
++ while (WTBL_UMAC_DW3[i].name) {
++ seq_printf(s, "\t%s:%u\n", WTBL_UMAC_DW3[i].name,
++ (dw_value & WTBL_UMAC_DW3[i].mask) >>
++ WTBL_UMAC_DW3[i].shift);
++ i++;
++ }
++
++
++ /* UMAC WTBL DW 4/5 for BIGTK */
++ if (is_wtbl_bigtk_exist(lwtbl) == true) {
++ i = 0;
++ addr = (u32 *)&(uwtbl[WF_UWTBL_RX_BIPN_31_0__DW*4]);
++ dw_value = *addr;
++
++ while (WTBL_UMAC_DW4_BIPN[i].name) {
++ seq_printf(s, "\t%s:%u\n", WTBL_UMAC_DW4_BIPN[i].name,
++ (dw_value & WTBL_UMAC_DW4_BIPN[i].mask) >>
++ WTBL_UMAC_DW4_BIPN[i].shift);
++ i++;
++ }
++
++ i = 0;
++ addr = (u32 *)&(uwtbl[WF_UWTBL_RX_BIPN_47_32__DW*4]);
++ dw_value = *addr;
++
++ while (WTBL_UMAC_DW5_BIPN[i].name) {
++ seq_printf(s, "\t%s:%u\n", WTBL_UMAC_DW5_BIPN[i].name,
++ (dw_value & WTBL_UMAC_DW5_BIPN[i].mask) >>
++ WTBL_UMAC_DW5_BIPN[i].shift);
++ i++;
++ }
++ }
++}
++
++static void parse_fmac_uwtbl_sn(struct seq_file *s, u8 *uwtbl)
++{
++ u32 *addr = 0;
++ u32 u2SN = 0;
++
++ /* UMAC WTBL DW SN part */
++ seq_printf(s, "\t\n");
++ seq_printf(s, "UWTBL SN\n");
++
++ addr = (u32 *)&(uwtbl[WF_UWTBL_TID0_SN_DW*4]);
++ u2SN = ((*addr) & WF_UWTBL_TID0_SN_MASK) >> WF_UWTBL_TID0_SN_SHIFT;
++ seq_printf(s, "\t%s:%u\n", "TID0_AC0_SN", u2SN);
++
++ addr = (u32 *)&(uwtbl[WF_UWTBL_TID1_SN_DW*4]);
++ u2SN = ((*addr) & WF_UWTBL_TID1_SN_MASK) >> WF_UWTBL_TID1_SN_SHIFT;
++ seq_printf(s, "\t%s:%u\n", "TID1_AC1_SN", u2SN);
++
++ addr = (u32 *)&(uwtbl[WF_UWTBL_TID2_SN_7_0__DW*4]);
++ u2SN = ((*addr) & WF_UWTBL_TID2_SN_7_0__MASK) >>
++ WF_UWTBL_TID2_SN_7_0__SHIFT;
++ addr = (u32 *)&(uwtbl[WF_UWTBL_TID2_SN_11_8__DW*4]);
++ u2SN |= (((*addr) & WF_UWTBL_TID2_SN_11_8__MASK) >>
++ WF_UWTBL_TID2_SN_11_8__SHIFT) << 8;
++ seq_printf(s, "\t%s:%u\n", "TID2_AC2_SN", u2SN);
++
++ addr = (u32 *)&(uwtbl[WF_UWTBL_TID3_SN_DW*4]);
++ u2SN = ((*addr) & WF_UWTBL_TID3_SN_MASK) >> WF_UWTBL_TID3_SN_SHIFT;
++ seq_printf(s, "\t%s:%u\n", "TID3_AC3_SN", u2SN);
++
++ addr = (u32 *)&(uwtbl[WF_UWTBL_TID4_SN_DW*4]);
++ u2SN = ((*addr) & WF_UWTBL_TID4_SN_MASK) >> WF_UWTBL_TID4_SN_SHIFT;
++ seq_printf(s, "\t%s:%u\n", "TID4_SN", u2SN);
++
++ addr = (u32 *)&(uwtbl[WF_UWTBL_TID5_SN_3_0__DW*4]);
++ u2SN = ((*addr) & WF_UWTBL_TID5_SN_3_0__MASK) >>
++ WF_UWTBL_TID5_SN_3_0__SHIFT;
++ addr = (u32 *)&(uwtbl[WF_UWTBL_TID5_SN_11_4__DW*4]);
++ u2SN |= (((*addr) & WF_UWTBL_TID5_SN_11_4__MASK) >>
++ WF_UWTBL_TID5_SN_11_4__SHIFT) << 4;
++ seq_printf(s, "\t%s:%u\n", "TID5_SN", u2SN);
++
++ addr = (u32 *)&(uwtbl[WF_UWTBL_TID6_SN_DW*4]);
++ u2SN = ((*addr) & WF_UWTBL_TID6_SN_MASK) >> WF_UWTBL_TID6_SN_SHIFT;
++ seq_printf(s, "\t%s:%u\n", "TID6_SN", u2SN);
++
++ addr = (u32 *)&(uwtbl[WF_UWTBL_TID7_SN_DW*4]);
++ u2SN = ((*addr) & WF_UWTBL_TID7_SN_MASK) >> WF_UWTBL_TID7_SN_SHIFT;
++ seq_printf(s, "\t%s:%u\n", "TID7_SN", u2SN);
++
++ addr = (u32 *)&(uwtbl[WF_UWTBL_COM_SN_DW*4]);
++ u2SN = ((*addr) & WF_UWTBL_COM_SN_MASK) >> WF_UWTBL_COM_SN_SHIFT;
++ seq_printf(s, "\t%s:%u\n", "COM_SN", u2SN);
++}
++
++static void dump_key_table(
++ struct seq_file *s,
++ uint16_t keyloc0,
++ uint16_t keyloc1,
++ uint16_t keyloc2
++)
++{
++#define ONE_KEY_ENTRY_LEN_IN_DW 8
++ struct mt7996_dev *dev = dev_get_drvdata(s->private);
++ u8 keytbl[ONE_KEY_ENTRY_LEN_IN_DW*4] = {0};
++ uint16_t x;
++
++ seq_printf(s, "\t\n");
++ seq_printf(s, "\t%s:%d\n", "keyloc0", keyloc0);
++ if (keyloc0 != INVALID_KEY_ENTRY) {
++
++ /* Don't swap below two lines, halWtblReadRaw will
++ * write new value WF_WTBLON_TOP_WDUCR_ADDR
++ */
++ mt7996_wtbl_read_raw(dev, keyloc0,
++ WTBL_TYPE_KEY, 0, ONE_KEY_ENTRY_LEN_IN_DW, keytbl);
++ seq_printf(s, "\t\tKEY WTBL Addr: group:0x%x=0x%x addr: 0x%lx\n",
++ MT_DBG_UWTBL_TOP_WDUCR_ADDR,
++ mt76_rr(dev, MT_DBG_UWTBL_TOP_WDUCR_ADDR),
++ KEYTBL_IDX2BASE(keyloc0, 0));
++ for (x = 0; x < ONE_KEY_ENTRY_LEN_IN_DW; x++) {
++ seq_printf(s, "\t\tDW%02d: %02x %02x %02x %02x\n",
++ x,
++ keytbl[x * 4 + 3],
++ keytbl[x * 4 + 2],
++ keytbl[x * 4 + 1],
++ keytbl[x * 4]);
++ }
++ }
++
++ seq_printf(s, "\t%s:%d\n", "keyloc1", keyloc1);
++ if (keyloc1 != INVALID_KEY_ENTRY) {
++ /* Don't swap below two lines, halWtblReadRaw will
++ * write new value WF_WTBLON_TOP_WDUCR_ADDR
++ */
++ mt7996_wtbl_read_raw(dev, keyloc1,
++ WTBL_TYPE_KEY, 0, ONE_KEY_ENTRY_LEN_IN_DW, keytbl);
++ seq_printf(s, "\t\tKEY WTBL Addr: group:0x%x=0x%x addr: 0x%lx\n",
++ MT_DBG_UWTBL_TOP_WDUCR_ADDR,
++ mt76_rr(dev, MT_DBG_UWTBL_TOP_WDUCR_ADDR),
++ KEYTBL_IDX2BASE(keyloc1, 0));
++ for (x = 0; x < ONE_KEY_ENTRY_LEN_IN_DW; x++) {
++ seq_printf(s, "\t\tDW%02d: %02x %02x %02x %02x\n",
++ x,
++ keytbl[x * 4 + 3],
++ keytbl[x * 4 + 2],
++ keytbl[x * 4 + 1],
++ keytbl[x * 4]);
++ }
++ }
++
++ seq_printf(s, "\t%s:%d\n", "keyloc2", keyloc2);
++ if (keyloc2 != INVALID_KEY_ENTRY) {
++ /* Don't swap below two lines, halWtblReadRaw will
++ * write new value WF_WTBLON_TOP_WDUCR_ADDR
++ */
++ mt7996_wtbl_read_raw(dev, keyloc2,
++ WTBL_TYPE_KEY, 0, ONE_KEY_ENTRY_LEN_IN_DW, keytbl);
++ seq_printf(s, "\t\tKEY WTBL Addr: group:0x%x=0x%x addr: 0x%lx\n",
++ MT_DBG_UWTBL_TOP_WDUCR_ADDR,
++ mt76_rr(dev, MT_DBG_UWTBL_TOP_WDUCR_ADDR),
++ KEYTBL_IDX2BASE(keyloc2, 0));
++ for (x = 0; x < ONE_KEY_ENTRY_LEN_IN_DW; x++) {
++ seq_printf(s, "\t\tDW%02d: %02x %02x %02x %02x\n",
++ x,
++ keytbl[x * 4 + 3],
++ keytbl[x * 4 + 2],
++ keytbl[x * 4 + 1],
++ keytbl[x * 4]);
++ }
++ }
++}
++
++static void parse_fmac_uwtbl_key_info(struct seq_file *s, u8 *uwtbl, u8 *lwtbl)
++{
++ u32 *addr = 0;
++ u32 dw_value = 0;
++ uint16_t keyloc0 = INVALID_KEY_ENTRY;
++ uint16_t keyloc1 = INVALID_KEY_ENTRY;
++ uint16_t keyloc2 = INVALID_KEY_ENTRY;
++
++ /* UMAC WTBL DW 7 */
++ seq_printf(s, "\t\n");
++ seq_printf(s, "UWTBL key info\n");
++
++ addr = (u32 *)&(uwtbl[WF_UWTBL_KEY_LOC0_DW*4]);
++ dw_value = *addr;
++ keyloc0 = (dw_value & WF_UWTBL_KEY_LOC0_MASK) >> WF_UWTBL_KEY_LOC0_SHIFT;
++ keyloc1 = (dw_value & WF_UWTBL_KEY_LOC1_MASK) >> WF_UWTBL_KEY_LOC1_SHIFT;
++
++ seq_printf(s, "\t%s:%u/%u\n", "Key Loc 0/1", keyloc0, keyloc1);
++
++ /* UMAC WTBL DW 6 for BIGTK */
++ if (is_wtbl_bigtk_exist(lwtbl) == true) {
++ addr = (u32 *)&(uwtbl[WF_UWTBL_KEY_LOC2_DW*4]);
++ dw_value = *addr;
++ keyloc2 = (dw_value & WF_UWTBL_KEY_LOC2_MASK) >>
++ WF_UWTBL_KEY_LOC2_SHIFT;
++ seq_printf(s, "\t%s:%u\n", "Key Loc 2", keyloc2);
++ }
++
++ /* Parse KEY link */
++ dump_key_table(s, keyloc0, keyloc1, keyloc2);
++}
++
++static const struct berse_wtbl_parse WTBL_UMAC_DW8[] = {
++ {"UWTBL_WMM_Q", WF_UWTBL_WMM_Q_MASK, WF_UWTBL_WMM_Q_SHIFT, false},
++ {"UWTBL_QOS", WF_UWTBL_QOS_MASK, NO_SHIFT_DEFINE, false},
++ {"UWTBL_HT_VHT_HE", WF_UWTBL_HT_MASK, NO_SHIFT_DEFINE, false},
++ {"UWTBL_HDRT_MODE", WF_UWTBL_HDRT_MODE_MASK, NO_SHIFT_DEFINE, true},
++ {NULL,}
++};
++
++static void parse_fmac_uwtbl_msdu_info(struct seq_file *s, u8 *uwtbl)
++{
++ u32 *addr = 0;
++ u32 dw_value = 0;
++ u32 amsdu_len = 0;
++ u16 i = 0;
++
++ /* UMAC WTBL DW 8 */
++ seq_printf(s, "\t\n");
++ seq_printf(s, "UWTBL DW8\n");
++
++ addr = (u32 *)&(uwtbl[WF_UWTBL_AMSDU_CFG_DW*4]);
++ dw_value = *addr;
++
++ while (WTBL_UMAC_DW8[i].name) {
++
++ if (WTBL_UMAC_DW8[i].shift == NO_SHIFT_DEFINE)
++ seq_printf(s, "\t%s:%d\n", WTBL_UMAC_DW8[i].name,
++ (dw_value & WTBL_UMAC_DW8[i].mask) ? 1 : 0);
++ else
++ seq_printf(s, "\t%s:%u\n", WTBL_UMAC_DW8[i].name,
++ (dw_value & WTBL_UMAC_DW8[i].mask) >>
++ WTBL_UMAC_DW8[i].shift);
++ i++;
++ }
++
++ /* UMAC WTBL DW 8 - SEC_ADDR_MODE */
++ addr = (u32 *)&(uwtbl[WF_UWTBL_SEC_ADDR_MODE_DW*4]);
++ dw_value = *addr;
++ seq_printf(s, "\t%s:%lu\n", "SEC_ADDR_MODE",
++ (dw_value & WTBL_SEC_ADDR_MODE_MASK) >> WTBL_SEC_ADDR_MODE_OFFSET);
++
++ /* UMAC WTBL DW 8 - AMSDU_CFG */
++ seq_printf(s, "\t%s:%d\n", "HW AMSDU Enable",
++ (dw_value & WTBL_AMSDU_EN_MASK) ? 1 : 0);
++
++ amsdu_len = (dw_value & WTBL_AMSDU_LEN_MASK) >> WTBL_AMSDU_LEN_OFFSET;
++ if (amsdu_len == 0)
++ seq_printf(s, "\t%s:invalid (WTBL value=0x%x)\n", "HW AMSDU Len",
++ amsdu_len);
++ else if (amsdu_len == 1)
++ seq_printf(s, "\t%s:%d~%d (WTBL value=0x%x)\n", "HW AMSDU Len",
++ 1,
++ 255,
++ amsdu_len);
++ else if (amsdu_len == 2)
++ seq_printf(s, "\t%s:%d~%d (WTBL value=0x%x)\n", "HW AMSDU Len",
++ 256,
++ 511,
++ amsdu_len);
++ else if (amsdu_len == 3)
++ seq_printf(s, "\t%s:%d~%d (WTBL value=0x%x)\n", "HW AMSDU Len",
++ 512,
++ 767,
++ amsdu_len);
++ else
++ seq_printf(s, "\t%s:%d~%d (WTBL value=0x%x)\n", "HW AMSDU Len",
++ 256 * (amsdu_len - 1),
++ 256 * (amsdu_len - 1) + 255,
++ amsdu_len);
++
++ seq_printf(s, "\t%s:%lu (WTBL value=0x%lx)\n", "HW AMSDU Num",
++ ((dw_value & WTBL_AMSDU_NUM_MASK) >> WTBL_AMSDU_NUM_OFFSET) + 1,
++ (dw_value & WTBL_AMSDU_NUM_MASK) >> WTBL_AMSDU_NUM_OFFSET);
++}
++
++static int mt7996_wtbl_read(struct seq_file *s, void *data)
++{
++ struct mt7996_dev *dev = dev_get_drvdata(s->private);
++ u8 lwtbl[LWTBL_LEN_IN_DW * 4] = {0};
++ u8 uwtbl[UWTBL_LEN_IN_DW * 4] = {0};
++ int x;
++
++ mt7996_wtbl_read_raw(dev, dev->wlan_idx, WTBL_TYPE_LMAC, 0,
++ LWTBL_LEN_IN_DW, lwtbl);
++ seq_printf(s, "Dump WTBL info of WLAN_IDX:%d\n", dev->wlan_idx);
++ seq_printf(s, "LMAC WTBL Addr: group:0x%x=0x%x addr: 0x%lx\n",
++ MT_DBG_WTBLON_TOP_WDUCR_ADDR,
++ mt76_rr(dev, MT_DBG_WTBLON_TOP_WDUCR_ADDR),
++ LWTBL_IDX2BASE(dev->wlan_idx, 0));
++ for (x = 0; x < LWTBL_LEN_IN_DW; x++) {
++ seq_printf(s, "DW%02d: %02x %02x %02x %02x\n",
++ x,
++ lwtbl[x * 4 + 3],
++ lwtbl[x * 4 + 2],
++ lwtbl[x * 4 + 1],
++ lwtbl[x * 4]);
++ }
++
++ /* Parse LWTBL */
++ parse_fmac_lwtbl_dw0_1(s, lwtbl);
++ parse_fmac_lwtbl_dw2(s, lwtbl);
++ parse_fmac_lwtbl_dw3(s, lwtbl);
++ parse_fmac_lwtbl_dw4(s, lwtbl);
++ parse_fmac_lwtbl_dw5(s, lwtbl);
++ parse_fmac_lwtbl_dw6(s, lwtbl);
++ parse_fmac_lwtbl_dw7(s, lwtbl);
++ parse_fmac_lwtbl_dw8(s, lwtbl);
++ parse_fmac_lwtbl_dw9(s, lwtbl);
++ parse_fmac_lwtbl_dw10(s, lwtbl);
++ parse_fmac_lwtbl_dw11(s, lwtbl);
++ parse_fmac_lwtbl_dw12(s, lwtbl);
++ parse_fmac_lwtbl_dw13(s, lwtbl);
++ parse_fmac_lwtbl_dw14(s, lwtbl);
++ parse_fmac_lwtbl_mlo_info(s, lwtbl);
++ parse_fmac_lwtbl_dw31(s, lwtbl);
++ parse_fmac_lwtbl_dw32(s, lwtbl);
++ parse_fmac_lwtbl_rx_stats(s, lwtbl);
++
++ mt7996_wtbl_read_raw(dev, dev->wlan_idx, WTBL_TYPE_UMAC, 0,
++ UWTBL_LEN_IN_DW, uwtbl);
++ seq_printf(s, "Dump WTBL info of WLAN_IDX:%d\n", dev->wlan_idx);
++ seq_printf(s, "UMAC WTBL Addr: group:0x%x=0x%x addr: 0x%lx\n",
++ MT_DBG_UWTBL_TOP_WDUCR_ADDR,
++ mt76_rr(dev, MT_DBG_UWTBL_TOP_WDUCR_ADDR),
++ UWTBL_IDX2BASE(dev->wlan_idx, 0));
++ for (x = 0; x < UWTBL_LEN_IN_DW; x++) {
++ seq_printf(s, "DW%02d: %02x %02x %02x %02x\n",
++ x,
++ uwtbl[x * 4 + 3],
++ uwtbl[x * 4 + 2],
++ uwtbl[x * 4 + 1],
++ uwtbl[x * 4]);
++ }
++
++ /* Parse UWTBL */
++ parse_fmac_uwtbl_mlo_info(s, uwtbl);
++ parse_fmac_uwtbl_pn(s, uwtbl, lwtbl);
++ parse_fmac_uwtbl_sn(s, uwtbl);
++ parse_fmac_uwtbl_key_info(s, uwtbl, lwtbl);
++ parse_fmac_uwtbl_msdu_info(s, uwtbl);
++
++ return 0;
++}
++
++static int mt7996_sta_info(struct seq_file *s, void *data)
++{
++ struct mt7996_dev *dev = dev_get_drvdata(s->private);
++ u8 lwtbl[LWTBL_LEN_IN_DW*4] = {0};
++ u16 i = 0;
++
++ for (i=0; i < mt7996_wtbl_size(dev); i++) {
++ mt7996_wtbl_read_raw(dev, i, WTBL_TYPE_LMAC, 0,
++ LWTBL_LEN_IN_DW, lwtbl);
++
++ if (lwtbl[4] || lwtbl[5] || lwtbl[6] || lwtbl[7] || lwtbl[0] || lwtbl[1]) {
++ u32 *addr, dw_value;
++
++ seq_printf(s, "wcid:%d\tAddr: %02x:%02x:%02x:%02x:%02x:%02x",
++ i, lwtbl[4], lwtbl[5], lwtbl[6], lwtbl[7], lwtbl[0], lwtbl[1]);
++
++ addr = (u32 *)&(lwtbl[WTBL_GROUP_TRX_CAP_DW_2*4]);
++ dw_value = *addr;
++ seq_printf(s, "\t%s:%u", WTBL_LMAC_DW2[0].name,
++ (dw_value & WTBL_LMAC_DW2[0].mask) >> WTBL_LMAC_DW2[0].shift);
++
++ addr = (u32 *)&(lwtbl[WTBL_GROUP_TRX_CAP_DW_5*4]);
++ dw_value = *addr;
++ seq_printf(s, "\tPSM:%u\n", !!(dw_value & WF_LWTBL_PSM_MASK));
++ }
++ }
++
++ return 0;
++}
++
++static int mt7996_token_read(struct seq_file *s, void *data)
++{
++ struct mt7996_dev *dev = dev_get_drvdata(s->private);
++ int msdu_id;
++ struct mt76_txwi_cache *txwi;
++
++ seq_printf(s, "Token from host:\n");
++ spin_lock_bh(&dev->mt76.token_lock);
++ idr_for_each_entry(&dev->mt76.token, txwi, msdu_id) {
++ seq_printf(s, "%4d (pending time %u ms)\n", msdu_id,
++ jiffies_to_msecs(jiffies - txwi->jiffies));
++ }
++ spin_unlock_bh(&dev->mt76.token_lock);
++ seq_printf(s, "\n");
++
++ return 0;
++}
++
++int mt7996_mtk_init_debugfs(struct mt7996_phy *phy, struct dentry *dir)
++{
++ struct mt7996_dev *dev = phy->dev;
++ u32 device_id = (dev->mt76.rev) >> 16;
++ int i = 0;
++ static const struct mt7996_dbg_reg_desc dbg_reg_s[] = {
++ { 0x7990, mt7996_dbg_offs },
++ { 0x7992, mt7992_dbg_offs },
++ };
++
++ for (i = 0; i < ARRAY_SIZE(dbg_reg_s); i++) {
++ if (device_id == dbg_reg_s[i].id) {
++ dev->dbg_reg = &dbg_reg_s[i];
++ break;
++ }
++ }
++
++ if (is_mt7996(&dev->mt76)) {
++ WTBL_LMAC_DW2 = WTBL_LMAC_DW2_7996;
++ WTBL_LMAC_DW5 = WTBL_LMAC_DW5_7996;
++ WTBL_LMAC_DW9 = WTBL_LMAC_DW9_7996;
++ } else {
++ WTBL_LMAC_DW2 = WTBL_LMAC_DW2_7992;
++ WTBL_LMAC_DW5 = WTBL_LMAC_DW5_7992;
++ WTBL_LMAC_DW9 = WTBL_LMAC_DW9_7992;
++ }
++
++ /* agg */
++ debugfs_create_devm_seqfile(dev->mt76.dev, "agg_info0", dir,
++ mt7996_agginfo_read_band0);
++ debugfs_create_devm_seqfile(dev->mt76.dev, "agg_info1", dir,
++ mt7996_agginfo_read_band1);
++ debugfs_create_devm_seqfile(dev->mt76.dev, "agg_info2", dir,
++ mt7996_agginfo_read_band2);
++ /* amsdu */
++ debugfs_create_devm_seqfile(dev->mt76.dev, "amsdu_info", dir,
++ mt7996_amsdu_result_read);
++
++ debugfs_create_file("fw_debug_module", 0600, dir, dev,
++ &fops_fw_debug_module);
++ debugfs_create_file("fw_debug_level", 0600, dir, dev,
++ &fops_fw_debug_level);
++ debugfs_create_file("fw_wa_query", 0600, dir, dev, &fops_wa_query);
++ debugfs_create_file("fw_wa_set", 0600, dir, dev, &fops_wa_set);
++ debugfs_create_devm_seqfile(dev->mt76.dev, "fw_version", dir,
++ mt7996_dump_version);
++ debugfs_create_devm_seqfile(dev->mt76.dev, "fw_wa_info", dir,
++ mt7996_fw_wa_info_read);
++ debugfs_create_devm_seqfile(dev->mt76.dev, "fw_wm_info", dir,
++ mt7996_fw_wm_info_read);
++
++ debugfs_create_devm_seqfile(dev->mt76.dev, "mib_info0", dir,
++ mt7996_mibinfo_band0);
++ debugfs_create_devm_seqfile(dev->mt76.dev, "mib_info1", dir,
++ mt7996_mibinfo_band1);
++ debugfs_create_devm_seqfile(dev->mt76.dev, "mib_info2", dir,
++ mt7996_mibinfo_band2);
++
++ debugfs_create_devm_seqfile(dev->mt76.dev, "sta_info", dir,
++ mt7996_sta_info);
++
++ debugfs_create_devm_seqfile(dev->mt76.dev, "tr_info", dir,
++ mt7996_trinfo_read);
++
++ debugfs_create_devm_seqfile(dev->mt76.dev, "wtbl_info", dir,
++ mt7996_wtbl_read);
++
++ debugfs_create_devm_seqfile(dev->mt76.dev, "token", dir, mt7996_token_read);
++
++ debugfs_create_u8("sku_disable", 0600, dir, &dev->dbg.sku_disable);
++
++ return 0;
++}
++
++#endif
+diff --git a/mt7996/mtk_mcu.c b/mt7996/mtk_mcu.c
+new file mode 100644
+index 0000000..c16b25a
+--- /dev/null
++++ b/mt7996/mtk_mcu.c
+@@ -0,0 +1,39 @@
++// SPDX-License-Identifier: ISC
++/*
++ * Copyright (C) 2023 MediaTek Inc.
++ */
++
++#include <linux/firmware.h>
++#include <linux/fs.h>
++#include "mt7996.h"
++#include "mcu.h"
++#include "mac.h"
++#include "mtk_mcu.h"
++
++#ifdef CONFIG_MTK_DEBUG
++
++
++
++
++int mt7996_mcu_muru_dbg_info(struct mt7996_dev *dev, u16 item, u8 val)
++{
++ struct {
++ u8 __rsv1[4];
++
++ __le16 tag;
++ __le16 len;
++
++ __le16 item;
++ u8 __rsv2[2];
++ __le32 value;
++ } __packed req = {
++ .tag = cpu_to_le16(UNI_CMD_MURU_DBG_INFO),
++ .len = cpu_to_le16(sizeof(req) - 4),
++ .item = cpu_to_le16(item),
++ .value = cpu_to_le32(val),
++ };
++
++ return mt76_mcu_send_msg(&dev->mt76, MCU_WM_UNI_CMD(MURU), &req,
++ sizeof(req), true);
++}
++#endif
+diff --git a/mt7996/mtk_mcu.h b/mt7996/mtk_mcu.h
+new file mode 100644
+index 0000000..7f4d4e0
+--- /dev/null
++++ b/mt7996/mtk_mcu.h
+@@ -0,0 +1,19 @@
++/* SPDX-License-Identifier: ISC */
++/*
++ * Copyright (C) 2023 MediaTek Inc.
++ */
++
++#ifndef __MT7996_MTK_MCU_H
++#define __MT7996_MTK_MCU_H
++
++#include "../mt76_connac_mcu.h"
++
++#ifdef CONFIG_MTK_DEBUG
++
++enum {
++ UNI_CMD_MURU_DBG_INFO = 0x18,
++};
++
++#endif
++
++#endif
+diff --git a/tools/fwlog.c b/tools/fwlog.c
+index e5d4a10..3c6a61d 100644
+--- a/tools/fwlog.c
++++ b/tools/fwlog.c
+@@ -26,7 +26,7 @@ static const char *debugfs_path(const char *phyname, const char *file)
+ return path;
+ }
+
+-static int mt76_set_fwlog_en(const char *phyname, bool en)
++static int mt76_set_fwlog_en(const char *phyname, bool en, char *val)
+ {
+ FILE *f = fopen(debugfs_path(phyname, "fw_debug_bin"), "w");
+
+@@ -35,7 +35,13 @@ static int mt76_set_fwlog_en(const char *phyname, bool en)
+ return 1;
+ }
+
+- fprintf(f, "7");
++ if (en && val)
++ fprintf(f, "%s", val);
++ else if (en)
++ fprintf(f, "7");
++ else
++ fprintf(f, "0");
++
+ fclose(f);
+
+ return 0;
+@@ -76,6 +82,7 @@ static void handle_signal(int sig)
+
+ int mt76_fwlog(const char *phyname, int argc, char **argv)
+ {
++#define BUF_SIZE 1504
+ struct sockaddr_in local = {
+ .sin_family = AF_INET,
+ .sin_addr.s_addr = INADDR_ANY,
+@@ -84,9 +91,9 @@ int mt76_fwlog(const char *phyname, int argc, char **argv)
+ .sin_family = AF_INET,
+ .sin_port = htons(55688),
+ };
+- char buf[1504];
++ char *buf = calloc(BUF_SIZE, sizeof(char));
+ int ret = 0;
+- int yes = 1;
++ /* int yes = 1; */
+ int s, fd;
+
+ if (argc < 1) {
+@@ -105,13 +112,13 @@ int mt76_fwlog(const char *phyname, int argc, char **argv)
+ return 1;
+ }
+
+- setsockopt(s, SOL_SOCKET, SO_BROADCAST, &yes, sizeof(yes));
++ /* setsockopt(s, SOL_SOCKET, SO_BROADCAST, &yes, sizeof(yes)); */
+ if (bind(s, (struct sockaddr *)&local, sizeof(local)) < 0) {
+ perror("bind");
+ return 1;
+ }
+
+- if (mt76_set_fwlog_en(phyname, true))
++ if (mt76_set_fwlog_en(phyname, true, argv[1]))
+ return 1;
+
+ fd = open(debugfs_path(phyname, "fwlog_data"), O_RDONLY);
+@@ -145,8 +152,8 @@ int mt76_fwlog(const char *phyname, int argc, char **argv)
+ if (!r)
+ continue;
+
+- if (len > sizeof(buf)) {
+- fprintf(stderr, "Length error: %d > %d\n", len, (int)sizeof(buf));
++ if (len > BUF_SIZE) {
++ fprintf(stderr, "Length error: %d > %d\n", len, BUF_SIZE);
+ ret = 1;
+ break;
+ }
+@@ -171,7 +178,7 @@ int mt76_fwlog(const char *phyname, int argc, char **argv)
+ close(fd);
+
+ out:
+- mt76_set_fwlog_en(phyname, false);
++ mt76_set_fwlog_en(phyname, false, NULL);
+
+ return ret;
+ }
+--
+2.18.0
+