/* * Copyright 2020 Broadcom * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #include #include #include #include #include "dma_pl330.h" #define LOG_LEVEL CONFIG_DMA_LOG_LEVEL #include LOG_MODULE_REGISTER(dma_pl330); #define DEV_NAME(dev) ((dev)->name) #define DEV_CFG(dev) \ ((const struct dma_pl330_config *const)(dev)->config) #define DEV_DATA(dev) \ ((struct dma_pl330_dev_data *const)(dev)->data) #define BYTE_WIDTH(burst_size) (1 << (burst_size)) static int dma_pl330_submit(const struct device *dev, uint64_t dst, uint64_t src, uint32_t channel, uint32_t size); static void dma_pl330_get_counter(struct dma_pl330_ch_internal *ch_handle, uint32_t *psrc_byte_width, uint32_t *pdst_byte_width, uint32_t *ploop_counter, uint32_t *presidue) { uint32_t srcbytewidth, dstbytewidth; uint32_t loop_counter, residue; srcbytewidth = BYTE_WIDTH(ch_handle->src_burst_sz); dstbytewidth = BYTE_WIDTH(ch_handle->dst_burst_sz); loop_counter = ch_handle->trans_size / (srcbytewidth * (ch_handle->src_burst_len + 1)); residue = ch_handle->trans_size - loop_counter * (srcbytewidth * (ch_handle->src_burst_len + 1)); *psrc_byte_width = srcbytewidth; *pdst_byte_width = dstbytewidth; *ploop_counter = loop_counter; *presidue = residue; } static uint32_t dma_pl330_ch_ccr(struct dma_pl330_ch_internal *ch_handle) { uint32_t ccr; int secure = ch_handle->nonsec_mode ? SRC_PRI_NONSEC_VALUE : SRC_PRI_SEC_VALUE; ccr = ((ch_handle->dst_cache_ctrl & CC_SRCCCTRL_MASK) << CC_DSTCCTRL_SHIFT) + ((ch_handle->nonsec_mode) << CC_DSTNS_SHIFT) + (ch_handle->dst_burst_len << CC_DSTBRSTLEN_SHIFT) + (ch_handle->dst_burst_sz << CC_DSTBRSTSIZE_SHIFT) + (ch_handle->dst_inc << CC_DSTINC_SHIFT) + ((ch_handle->src_cache_ctrl & CC_SRCCCTRL_MASK) << CC_SRCCCTRL_SHIFT) + (secure << CC_SRCPRI_SHIFT) + (ch_handle->src_burst_len << CC_SRCBRSTLEN_SHIFT) + (ch_handle->src_burst_sz << CC_SRCBRSTSIZE_SHIFT) + (ch_handle->src_inc << CC_SRCINC_SHIFT); return ccr; } static void dma_pl330_calc_burstsz_len(struct dma_pl330_ch_internal *ch_handle, uint64_t dst, uint64_t src, uint32_t size) { uint32_t byte_width, burst_sz, burst_len; burst_sz = MAX_BURST_SIZE_LOG2; /* src, dst and size should be aligned to burst size in bytes */ while ((src | dst | size) & ((BYTE_WIDTH(burst_sz)) - 1)) { burst_sz--; } byte_width = BYTE_WIDTH(burst_sz); burst_len = MAX_BURST_LEN; while (burst_len) { /* Choose burst length so that size is aligned */ if (!(size % ((burst_len + 1) << byte_width))) { break; } burst_len--; } ch_handle->src_burst_len = burst_len; ch_handle->src_burst_sz = burst_sz; ch_handle->dst_burst_len = burst_len; ch_handle->dst_burst_sz = burst_sz; } #ifdef CONFIG_DMA_64BIT static void dma_pl330_cfg_dmac_add_control(uint32_t control_reg_base, uint64_t dst, uint64_t src, int ch) { uint32_t src_h = src >> 32; uint32_t dst_h = dst >> 32; uint32_t dmac_higher_addr; dmac_higher_addr = ((dst_h & HIGHER_32_ADDR_MASK) << DST_ADDR_SHIFT) | (src_h & HIGHER_32_ADDR_MASK); sys_write32(dmac_higher_addr, control_reg_base + (ch * CONTROL_OFFSET) ); } #endif static void dma_pl330_config_channel(struct dma_pl330_ch_config *ch_cfg, uint64_t dst, uint64_t src, uint32_t size) { struct dma_pl330_ch_internal *ch_handle = &ch_cfg->internal; memset(ch_handle, 0, sizeof(*ch_handle)); ch_handle->src_addr = src; ch_handle->dst_addr = dst; ch_handle->trans_size = size; if (ch_cfg->src_addr_adj == DMA_ADDR_ADJ_INCREMENT) { ch_handle->src_inc = 1; } if (ch_cfg->dst_addr_adj == DMA_ADDR_ADJ_INCREMENT) { ch_handle->dst_inc = 1; } } static inline uint32_t dma_pl330_gen_mov(uint8_t *buf, enum dmamov_type type, uint32_t val) { sys_write8(OP_DMA_MOV, (uint32_t)buf + 0); sys_write8(type, (uint32_t)buf + 1); sys_write8(val, (uint32_t)buf + 2); sys_write8(val >> 8, (uint32_t)buf + 3); sys_write8(val >> 16, (uint32_t)buf + 4); sys_write8(val >> 24, (uint32_t)buf + 5); return SZ_CMD_DMAMOV; } static inline void dma_pl330_gen_op(uint8_t opcode, uint32_t addr, uint32_t val) { sys_write8(opcode, addr); sys_write8(val, addr + 1); } static int dma_pl330_setup_ch(const struct device *dev, struct dma_pl330_ch_internal *ch_dat, int ch) { uint32_t dma_exe_addr, offset = 0, ccr; uint32_t lp0_start, lp1_start; uint32_t loop_counter0 = 0, loop_counter1 = 0; uint32_t srcbytewidth, dstbytewidth; uint32_t loop_counter, residue; struct dma_pl330_dev_data *const dev_data = DEV_DATA(dev); struct dma_pl330_ch_config *channel_cfg; uint8_t *dma_exec_addr8; int secure = ch_dat->nonsec_mode ? SRC_PRI_NONSEC_VALUE : SRC_PRI_SEC_VALUE; channel_cfg = &dev_data->channels[ch]; dma_exe_addr = channel_cfg->dma_exe_addr; dma_exec_addr8 = (uint8_t *)dma_exe_addr; offset += dma_pl330_gen_mov(dma_exec_addr8, SAR, ch_dat->src_addr); offset += dma_pl330_gen_mov(dma_exec_addr8 + offset, DAR, ch_dat->dst_addr); ccr = dma_pl330_ch_ccr(ch_dat); offset += dma_pl330_gen_mov(dma_exec_addr8 + offset, CCR, ccr); dma_pl330_get_counter(ch_dat, &srcbytewidth, &dstbytewidth, &loop_counter, &residue); if (loop_counter >= PL330_LOOP_COUNTER0_MAX) { loop_counter0 = PL330_LOOP_COUNTER0_MAX - 1; loop_counter1 = loop_counter / PL330_LOOP_COUNTER0_MAX - 1; dma_pl330_gen_op(OP_DMA_LOOP_COUNT1, dma_exe_addr + offset, (loop_counter1 & 0xff)); offset = offset + 2; dma_pl330_gen_op(OP_DMA_LOOP, dma_exe_addr + offset, (loop_counter0 & 0xff)); offset = offset + 2; lp1_start = offset; lp0_start = offset; sys_write8(OP_DMA_LD, (dma_exe_addr + offset)); sys_write8(OP_DMA_ST, (dma_exe_addr + offset + 1)); offset = offset + 2; dma_pl330_gen_op(OP_DMA_LP_BK_JMP1, (dma_exe_addr + offset), ((offset - lp0_start) & 0xff)); offset = offset + 2; dma_pl330_gen_op(OP_DMA_LOOP, (dma_exe_addr + offset), (loop_counter0 & 0xff)); offset = offset + 2; loop_counter1--; dma_pl330_gen_op(OP_DMA_LP_BK_JMP2, (dma_exe_addr + offset), ((offset - lp1_start) & 0xff)); offset = offset + 2; } if ((loop_counter % PL330_LOOP_COUNTER0_MAX) != 0) { loop_counter0 = (loop_counter % PL330_LOOP_COUNTER0_MAX) - 1; dma_pl330_gen_op(OP_DMA_LOOP, (dma_exe_addr + offset), (loop_counter0 & 0xff)); offset = offset + 2; loop_counter1--; lp0_start = offset; sys_write8(OP_DMA_LD, (dma_exe_addr + offset)); sys_write8(OP_DMA_ST, (dma_exe_addr + offset + 1)); offset = offset + 2; dma_pl330_gen_op(OP_DMA_LP_BK_JMP1, (dma_exe_addr + offset), ((offset - lp0_start) & 0xff)); offset = offset + 2; } if (residue != 0) { ccr = ((ch_dat->nonsec_mode) << CC_DSTNS_SHIFT) + (0x0 << CC_DSTBRSTLEN_SHIFT) + (0x0 << CC_DSTBRSTSIZE_SHIFT) + (ch_dat->dst_inc << CC_DSTINC_SHIFT) + (secure << CC_SRCPRI_SHIFT) + (0x0 << CC_SRCBRSTLEN_SHIFT) + (0x0 << CC_SRCBRSTSIZE_SHIFT) + ch_dat->src_inc; offset += dma_pl330_gen_mov(dma_exec_addr8 + offset, CCR, ccr); dma_pl330_gen_op(OP_DMA_LOOP, (dma_exe_addr + offset), ((residue - 1) & 0xff)); offset = offset + 2; lp0_start = offset; sys_write8(OP_DMA_LD, (dma_exe_addr + offset)); sys_write8(OP_DMA_ST, (dma_exe_addr + offset + 1)); offset = offset + 2; dma_pl330_gen_op(OP_DMA_LP_BK_JMP1, (dma_exe_addr + offset), ((offset - lp0_start) & 0xff)); offset = offset + 2; } sys_write8(OP_DMA_END, (dma_exe_addr + offset)); sys_write8(OP_DMA_END, (dma_exe_addr + offset + 1)); sys_write8(OP_DMA_END, (dma_exe_addr + offset + 2)); sys_write8(OP_DMA_END, (dma_exe_addr + offset + 3)); return 0; } static int dma_pl330_start_dma_ch(const struct device *dev, uint32_t reg_base, int ch, int secure) { struct dma_pl330_dev_data *const dev_data = DEV_DATA(dev); struct dma_pl330_ch_config *channel_cfg; uint32_t count = 0U; uint32_t data; channel_cfg = &dev_data->channels[ch]; do { data = sys_read32(reg_base + DMAC_PL330_DBGSTATUS); if (++count > DMA_TIMEOUT_US) { return -ETIMEDOUT; } k_busy_wait(1); } while ((data & DATA_MASK) != 0); sys_write32(((ch << DMA_INTSR1_SHIFT) + (DMA_INTSR0 << DMA_INTSR0_SHIFT) + (secure << DMA_SECURE_SHIFT) + (ch << DMA_CH_SHIFT)), reg_base + DMAC_PL330_DBGINST0); sys_write32(channel_cfg->dma_exe_addr, reg_base + DMAC_PL330_DBGINST1); sys_write32(0x0, reg_base + DMAC_PL330_DBGCMD); count = 0U; do { data = sys_read32(reg_base + DMAC_PL330_DBGCMD); if (++count > DMA_TIMEOUT_US) { return -ETIMEDOUT; } k_busy_wait(1); } while ((data & DATA_MASK) != 0); return 0; } static int dma_pl330_wait(uint32_t reg_base, int ch) { int count = 0U; uint32_t cs0_reg = reg_base + DMAC_PL330_CS0; do { if (++count > DMA_TIMEOUT_US) { return -ETIMEDOUT; } k_busy_wait(1); } while (((sys_read32(cs0_reg + ch * 8)) & CH_STATUS_MASK) != 0); return 0; } static int dma_pl330_xfer(const struct device *dev, uint64_t dst, uint64_t src, uint32_t size, uint32_t channel, uint32_t *xfer_size) { struct dma_pl330_dev_data *const dev_data = DEV_DATA(dev); const struct dma_pl330_config *const dev_cfg = DEV_CFG(dev); struct dma_pl330_ch_config *channel_cfg; struct dma_pl330_ch_internal *ch_handle; int ret; uint32_t max_size; channel_cfg = &dev_data->channels[channel]; ch_handle = &channel_cfg->internal; dma_pl330_calc_burstsz_len(ch_handle, dst, src, size); max_size = GET_MAX_DMA_SIZE((1 << ch_handle->src_burst_sz), ch_handle->src_burst_len); if (size > max_size) { size = max_size; } dma_pl330_config_channel(channel_cfg, dst, src, size); #ifdef CONFIG_DMA_64BIT /* * Pl330 supports only 4GB boundary, but boundary region can be * configured. * Support added for 36bit address, lower 32bit address are configured * in pl330 registers and higher 4bit address are configured in * LS_ICFG_DMAC_AXI_ADD_CONTROL registers. * Each channel has 1 control register to configure higher 4bit address. */ dma_pl330_cfg_dmac_add_control(dev_cfg->control_reg_base, dst, src, channel); #endif ret = dma_pl330_setup_ch(dev, ch_handle, channel); if (ret) { LOG_ERR("Failed to setup channel for DMA PL330"); goto err; } ret = dma_pl330_start_dma_ch(dev, dev_cfg->reg_base, channel, ch_handle->nonsec_mode); if (ret) { LOG_ERR("Failed to start DMA PL330"); goto err; } ret = dma_pl330_wait(dev_cfg->reg_base, channel); if (ret) { LOG_ERR("Failed waiting to finish DMA PL330"); goto err; } *xfer_size = size; err: return ret; } #if CONFIG_DMA_64BIT static int dma_pl330_handle_boundary(const struct device *dev, uint64_t dst, uint64_t src, uint32_t channel, uint32_t size) { uint32_t dst_low = (uint32_t)dst; uint32_t src_low = (uint32_t)src; uint32_t transfer_size; int ret; /* * Pl330 has only 32bit registers and supports 4GB memory. * 4GB memory window can be configured using DMAC_AXI_ADD_CONTROL * registers. * Divide the DMA operation in 2 parts, 1st DMA from given address * to boundary (0xffffffff) and 2nd DMA on remaining size. */ if (size > (PL330_MAX_OFFSET - dst_low)) { transfer_size = PL330_MAX_OFFSET - dst_low; ret = dma_pl330_submit(dev, dst, src, channel, transfer_size); if (ret < 0) { return ret; } dst += transfer_size; src += transfer_size; size -= transfer_size; return dma_pl330_submit(dev, dst, src, channel, size); } if (size > (PL330_MAX_OFFSET - src_low)) { transfer_size = PL330_MAX_OFFSET - src_low; ret = dma_pl330_submit(dev, dst, src, channel, transfer_size); if (ret < 0) { return ret; } src += transfer_size; dst += transfer_size; size -= transfer_size; return dma_pl330_submit(dev, dst, src, channel, size); } return 0; } #endif static int dma_pl330_submit(const struct device *dev, uint64_t dst, uint64_t src, uint32_t channel, uint32_t size) { int ret; uint32_t xfer_size; #if CONFIG_DMA_64BIT /* * Pl330 has only 32bit registers and supports 4GB memory. * 4GB memory window can be configured using DMAC_AXI_ADD_CONTROL * registers. 32bit boundary (0xffffffff) should be check. * DMA on boundary condition is taken care in below function. */ if ((size > (PL330_MAX_OFFSET - (uint32_t)dst)) || (size > (PL330_MAX_OFFSET - (uint32_t)src))) { return dma_pl330_handle_boundary(dev, dst, src, channel, size); } #endif while (size) { xfer_size = 0; ret = dma_pl330_xfer(dev, dst, src, size, channel, &xfer_size); if (ret) { return ret; } if (xfer_size > size) { return -EFAULT; } size -= xfer_size; dst += xfer_size; src += xfer_size; } return 0; } static int dma_pl330_configure(const struct device *dev, uint32_t channel, struct dma_config *cfg) { struct dma_pl330_dev_data *const dev_data = DEV_DATA(dev); struct dma_pl330_ch_config *channel_cfg; if (channel >= MAX_DMA_CHANNELS) { return -EINVAL; } channel_cfg = &dev_data->channels[channel]; k_mutex_lock(&channel_cfg->ch_mutex, K_FOREVER); if (channel_cfg->channel_active) { k_mutex_unlock(&channel_cfg->ch_mutex); return -EBUSY; } channel_cfg->channel_active = 1; k_mutex_unlock(&channel_cfg->ch_mutex); if (cfg->channel_direction != MEMORY_TO_MEMORY) { return -ENOTSUP; } channel_cfg->direction = cfg->channel_direction; channel_cfg->dst_addr_adj = cfg->head_block->dest_addr_adj; channel_cfg->src_addr = cfg->head_block->source_address; channel_cfg->dst_addr = cfg->head_block->dest_address; channel_cfg->trans_size = cfg->head_block->block_size; channel_cfg->dma_callback = cfg->dma_callback; channel_cfg->user_data = cfg->user_data; if (cfg->head_block->source_addr_adj == DMA_ADDR_ADJ_INCREMENT || cfg->head_block->source_addr_adj == DMA_ADDR_ADJ_NO_CHANGE) { channel_cfg->src_addr_adj = cfg->head_block->source_addr_adj; } else { return -ENOTSUP; } if (cfg->head_block->dest_addr_adj == DMA_ADDR_ADJ_INCREMENT || cfg->head_block->dest_addr_adj == DMA_ADDR_ADJ_NO_CHANGE) { channel_cfg->dst_addr_adj = cfg->head_block->dest_addr_adj; } else { return -ENOTSUP; } return 0; } static int dma_pl330_transfer_start(const struct device *dev, uint32_t channel) { struct dma_pl330_dev_data *const dev_data = DEV_DATA(dev); struct dma_pl330_ch_config *channel_cfg; int ret; if (channel >= MAX_DMA_CHANNELS) { return -EINVAL; } channel_cfg = &dev_data->channels[channel]; ret = dma_pl330_submit(dev, channel_cfg->dst_addr, channel_cfg->src_addr, channel, channel_cfg->trans_size); /* Execute callback */ if (channel_cfg->dma_callback) { channel_cfg->dma_callback(dev, channel_cfg->user_data, channel, ret); } k_mutex_lock(&channel_cfg->ch_mutex, K_FOREVER); channel_cfg->channel_active = 0; k_mutex_unlock(&channel_cfg->ch_mutex); return 0; } static int dma_pl330_transfer_stop(const struct device *dev, uint32_t channel) { if (channel >= MAX_DMA_CHANNELS) { return -EINVAL; } /* Nothing as of now */ return 0; } static int dma_pl330_initialize(const struct device *dev) { const struct dma_pl330_config *const dev_cfg = DEV_CFG(dev); struct dma_pl330_dev_data *const dev_data = DEV_DATA(dev); struct dma_pl330_ch_config *channel_cfg; for (int channel = 0; channel < MAX_DMA_CHANNELS; channel++) { channel_cfg = &dev_data->channels[channel]; channel_cfg->dma_exe_addr = dev_cfg->mcode_base + (channel * MICROCODE_SIZE_MAX); k_mutex_init(&channel_cfg->ch_mutex); } LOG_INF("Device %s initialized", DEV_NAME(dev)); return 0; } static const struct dma_driver_api pl330_driver_api = { .config = dma_pl330_configure, .start = dma_pl330_transfer_start, .stop = dma_pl330_transfer_stop, }; static struct device DEVICE_NAME_GET(dma_pl330); static const struct dma_pl330_config pl330_config = { .reg_base = DT_INST_REG_ADDR(0), #ifdef CONFIG_DMA_64BIT .control_reg_base = DT_INST_REG_ADDR_BY_NAME(0, control_regs), #endif .mcode_base = DT_INST_PROP_BY_IDX(0, microcode, 0), }; static struct dma_pl330_dev_data pl330_data; DEVICE_AND_API_INIT(dma_pl330, CONFIG_DMA_0_NAME, &dma_pl330_initialize, &pl330_data, &pl330_config, POST_KERNEL, CONFIG_KERNEL_INIT_PRIORITY_DEVICE, &pl330_driver_api);