blob: d68cdfd4b7f36d129e158c22a19a0fb29fa29db3 [file] [log] [blame]
Varun Wadekaree25e822017-06-28 14:38:19 -07001/*
2 * Copyright (c) 2017, ARM Limited and Contributors. All rights reserved.
3 *
4 * SPDX-License-Identifier: BSD-3-Clause
5 */
6
7#include <arch_helpers.h>
8#include <common/debug.h>
Ambroise Vincentffbf32a2019-03-28 09:01:18 +00009#include <drivers/delay_timer.h>
Varun Wadekaree25e822017-06-28 14:38:19 -070010#include <errno.h>
11#include <gpcdma.h>
Ambroise Vincentffbf32a2019-03-28 09:01:18 +000012#include <lib/mmio.h>
13#include <lib/utils_def.h>
Varun Wadekaree25e822017-06-28 14:38:19 -070014#include <platform_def.h>
15#include <stdbool.h>
16#include <tegra_def.h>
Varun Wadekaree25e822017-06-28 14:38:19 -070017
18/* DMA channel registers */
19#define DMA_CH_CSR U(0x0)
20#define DMA_CH_CSR_WEIGHT_SHIFT U(10)
21#define DMA_CH_CSR_XFER_MODE_SHIFT U(21)
22#define DMA_CH_CSR_DMA_MODE_MEM2MEM U(4)
23#define DMA_CH_CSR_DMA_MODE_FIXEDPATTERN U(6)
24#define DMA_CH_CSR_IRQ_MASK_ENABLE (U(1) << 15)
25#define DMA_CH_CSR_RUN_ONCE (U(1) << 27)
26#define DMA_CH_CSR_ENABLE (U(1) << 31)
27
28#define DMA_CH_STAT U(0x4)
29#define DMA_CH_STAT_BUSY (U(1) << 31)
30
31#define DMA_CH_SRC_PTR U(0xC)
32
33#define DMA_CH_DST_PTR U(0x10)
34
35#define DMA_CH_HI_ADR_PTR U(0x14)
36#define DMA_CH_HI_ADR_PTR_SRC_MASK U(0xFF)
37#define DMA_CH_HI_ADR_PTR_DST_SHIFT U(16)
38#define DMA_CH_HI_ADR_PTR_DST_MASK U(0xFF)
39
40#define DMA_CH_MC_SEQ U(0x18)
41#define DMA_CH_MC_SEQ_REQ_CNT_SHIFT U(25)
42#define DMA_CH_MC_SEQ_REQ_CNT_VAL U(0x10)
43#define DMA_CH_MC_SEQ_BURST_SHIFT U(23)
44#define DMA_CH_MC_SEQ_BURST_16_WORDS U(0x3)
45
46#define DMA_CH_WORD_COUNT U(0x20)
47#define DMA_CH_FIXED_PATTERN U(0x34)
48#define DMA_CH_TZ U(0x38)
49#define DMA_CH_TZ_ACCESS_ENABLE U(0)
50#define DMA_CH_TZ_ACCESS_DISABLE U(3)
51
52#define MAX_TRANSFER_SIZE (1U*1024U*1024U*1024U) /* 1GB */
53#define GPCDMA_TIMEOUT_MS U(100)
54#define GPCDMA_RESET_BIT (U(1) << 1)
55
56static bool init_done;
57
58static void tegra_gpcdma_write32(uint32_t offset, uint32_t val)
59{
60 mmio_write_32(TEGRA_GPCDMA_BASE + offset, val);
61}
62
63static uint32_t tegra_gpcdma_read32(uint32_t offset)
64{
65 return mmio_read_32(TEGRA_GPCDMA_BASE + offset);
66}
67
68static void tegra_gpcdma_init(void)
69{
70 /* assert reset for DMA engine */
71 mmio_write_32(TEGRA_CAR_RESET_BASE + TEGRA_GPCDMA_RST_SET_REG_OFFSET,
72 GPCDMA_RESET_BIT);
73
74 udelay(2);
75
76 /* de-assert reset for DMA engine */
77 mmio_write_32(TEGRA_CAR_RESET_BASE + TEGRA_GPCDMA_RST_CLR_REG_OFFSET,
78 GPCDMA_RESET_BIT);
79}
80
81static void tegra_gpcdma_memcpy_priv(uint64_t dst_addr, uint64_t src_addr,
82 uint32_t num_bytes, uint32_t mode)
83{
84 uint32_t val, timeout = 0;
85 int32_t ret = 0;
86
87 /* sanity check byte count */
88 if ((num_bytes > MAX_TRANSFER_SIZE) || ((num_bytes & 0x3U) != U(0))) {
89 ret = -EINVAL;
90 }
91
92 /* initialise GPCDMA block */
93 if (!init_done) {
94 tegra_gpcdma_init();
95 init_done = true;
96 }
97
98 /* make sure channel isn't busy */
99 val = tegra_gpcdma_read32(DMA_CH_STAT);
100 if ((val & DMA_CH_STAT_BUSY) == DMA_CH_STAT_BUSY) {
101 ERROR("DMA channel is busy\n");
102 ret = -EBUSY;
103 }
104
105 if (ret == 0) {
106
107 /* disable any DMA transfers */
108 tegra_gpcdma_write32(DMA_CH_CSR, 0);
109
110 /* enable DMA access to TZDRAM */
111 tegra_gpcdma_write32(DMA_CH_TZ, DMA_CH_TZ_ACCESS_ENABLE);
112
113 /* configure MC sequencer */
114 val = (DMA_CH_MC_SEQ_REQ_CNT_VAL << DMA_CH_MC_SEQ_REQ_CNT_SHIFT) |
115 (DMA_CH_MC_SEQ_BURST_16_WORDS << DMA_CH_MC_SEQ_BURST_SHIFT);
116 tegra_gpcdma_write32(DMA_CH_MC_SEQ, val);
117
118 /* reset fixed pattern */
119 tegra_gpcdma_write32(DMA_CH_FIXED_PATTERN, 0);
120
121 /* populate src and dst address registers */
122 tegra_gpcdma_write32(DMA_CH_SRC_PTR, (uint32_t)src_addr);
123 tegra_gpcdma_write32(DMA_CH_DST_PTR, (uint32_t)dst_addr);
124
125 val = (uint32_t)((src_addr >> 32) & DMA_CH_HI_ADR_PTR_SRC_MASK);
126 val |= (uint32_t)(((dst_addr >> 32) & DMA_CH_HI_ADR_PTR_DST_MASK) <<
127 DMA_CH_HI_ADR_PTR_DST_SHIFT);
128 tegra_gpcdma_write32(DMA_CH_HI_ADR_PTR, val);
129
130 /* transfer size (in words) */
131 tegra_gpcdma_write32(DMA_CH_WORD_COUNT, ((num_bytes >> 2) - 1U));
132
133 /* populate value for CSR */
134 val = (mode << DMA_CH_CSR_XFER_MODE_SHIFT) |
135 DMA_CH_CSR_RUN_ONCE | (U(1) << DMA_CH_CSR_WEIGHT_SHIFT) |
136 DMA_CH_CSR_IRQ_MASK_ENABLE;
137 tegra_gpcdma_write32(DMA_CH_CSR, val);
138
139 /* enable transfer */
140 val = tegra_gpcdma_read32(DMA_CH_CSR);
141 val |= DMA_CH_CSR_ENABLE;
142 tegra_gpcdma_write32(DMA_CH_CSR, val);
143
144 /* wait till transfer completes */
145 do {
146
147 /* read the status */
148 val = tegra_gpcdma_read32(DMA_CH_STAT);
149 if ((val & DMA_CH_STAT_BUSY) != DMA_CH_STAT_BUSY) {
150 break;
151 }
152
153 mdelay(1);
154 timeout++;
155
156 } while (timeout < GPCDMA_TIMEOUT_MS);
157
158 /* flag timeout error */
159 if (timeout == GPCDMA_TIMEOUT_MS) {
160 ERROR("DMA transfer timed out\n");
161 }
162
163 dsbsy();
164
165 /* disable DMA access to TZDRAM */
166 tegra_gpcdma_write32(DMA_CH_TZ, DMA_CH_TZ_ACCESS_DISABLE);
167 isb();
168 }
169}
170
171/*******************************************************************************
172 * Memcpy using GPCDMA block (Mem2Mem copy)
173 ******************************************************************************/
174void tegra_gpcdma_memcpy(uint64_t dst_addr, uint64_t src_addr,
175 uint32_t num_bytes)
176{
177 tegra_gpcdma_memcpy_priv(dst_addr, src_addr, num_bytes,
178 DMA_CH_CSR_DMA_MODE_MEM2MEM);
179}
180
181/*******************************************************************************
182 * Memset using GPCDMA block (Fixed pattern write)
183 ******************************************************************************/
184void tegra_gpcdma_zeromem(uint64_t dst_addr, uint32_t num_bytes)
185{
186 tegra_gpcdma_memcpy_priv(dst_addr, 0, num_bytes,
187 DMA_CH_CSR_DMA_MODE_FIXEDPATTERN);
188}