esp-idf/components/hal/gdma_hal_axi.c

250 lines
10 KiB
C

/*
* SPDX-FileCopyrightText: 2022-2023 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
#include "soc/soc_caps.h"
#include "hal/assert.h"
#include "hal/gdma_hal_axi.h"
#include "hal/axi_dma_ll.h"
static gdma_hal_priv_data_t gdma_axi_hal_priv_data = {
.m2m_free_periph_mask = AXI_DMA_LL_M2M_FREE_PERIPH_ID_MASK,
};
void gdma_axi_hal_start_with_desc(gdma_hal_context_t *hal, int chan_id, gdma_channel_direction_t dir, intptr_t desc_base_addr)
{
if (dir == GDMA_CHANNEL_DIRECTION_RX) {
axi_dma_ll_rx_set_desc_addr(hal->axi_dma_dev, chan_id, desc_base_addr);
axi_dma_ll_rx_start(hal->axi_dma_dev, chan_id);
} else {
axi_dma_ll_tx_set_desc_addr(hal->axi_dma_dev, chan_id, desc_base_addr);
axi_dma_ll_tx_start(hal->axi_dma_dev, chan_id);
}
}
void gdma_axi_hal_stop(gdma_hal_context_t *hal, int chan_id, gdma_channel_direction_t dir)
{
if (dir == GDMA_CHANNEL_DIRECTION_RX) {
axi_dma_ll_rx_stop(hal->axi_dma_dev, chan_id);
} else {
axi_dma_ll_tx_stop(hal->axi_dma_dev, chan_id);
}
}
void gdma_axi_hal_append(gdma_hal_context_t *hal, int chan_id, gdma_channel_direction_t dir)
{
if (dir == GDMA_CHANNEL_DIRECTION_RX) {
axi_dma_ll_rx_restart(hal->axi_dma_dev, chan_id);
} else {
axi_dma_ll_tx_restart(hal->axi_dma_dev, chan_id);
}
}
void gdma_axi_hal_reset(gdma_hal_context_t *hal, int chan_id, gdma_channel_direction_t dir)
{
if (dir == GDMA_CHANNEL_DIRECTION_RX) {
axi_dma_ll_rx_reset_channel(hal->axi_dma_dev, chan_id);
} else {
axi_dma_ll_tx_reset_channel(hal->axi_dma_dev, chan_id);
}
}
void gdma_axi_hal_set_priority(gdma_hal_context_t *hal, int chan_id, gdma_channel_direction_t dir, uint32_t priority)
{
if (dir == GDMA_CHANNEL_DIRECTION_RX) {
axi_dma_ll_rx_set_priority(hal->axi_dma_dev, chan_id, priority);
} else {
axi_dma_ll_tx_set_priority(hal->axi_dma_dev, chan_id, priority);
}
}
void gdma_axi_hal_connect_peri(gdma_hal_context_t *hal, int chan_id, gdma_channel_direction_t dir, gdma_trigger_peripheral_t periph, int periph_sub_id)
{
if (dir == GDMA_CHANNEL_DIRECTION_RX) {
axi_dma_ll_rx_reset_channel(hal->axi_dma_dev, chan_id); // reset channel
axi_dma_ll_rx_connect_to_periph(hal->axi_dma_dev, chan_id, periph, periph_sub_id);
} else {
axi_dma_ll_tx_reset_channel(hal->axi_dma_dev, chan_id); // reset channel
axi_dma_ll_tx_connect_to_periph(hal->axi_dma_dev, chan_id, periph, periph_sub_id);
}
}
void gdma_axi_hal_disconnect_peri(gdma_hal_context_t *hal, int chan_id, gdma_channel_direction_t dir)
{
if (dir == GDMA_CHANNEL_DIRECTION_RX) {
axi_dma_ll_rx_disconnect_from_periph(hal->axi_dma_dev, chan_id);
} else {
axi_dma_ll_tx_disconnect_from_periph(hal->axi_dma_dev, chan_id);
}
}
void gdma_axi_hal_enable_burst(gdma_hal_context_t *hal, int chan_id, gdma_channel_direction_t dir, bool en_data_burst, bool en_desc_burst)
{
if (dir == GDMA_CHANNEL_DIRECTION_RX) {
axi_dma_ll_rx_enable_data_burst(hal->axi_dma_dev, chan_id, en_data_burst);
axi_dma_ll_rx_enable_descriptor_burst(hal->axi_dma_dev, chan_id, en_desc_burst);
} else {
axi_dma_ll_tx_enable_data_burst(hal->axi_dma_dev, chan_id, en_data_burst);
axi_dma_ll_tx_enable_descriptor_burst(hal->axi_dma_dev, chan_id, en_desc_burst);
}
}
void gdma_axi_hal_set_strategy(gdma_hal_context_t *hal, int chan_id, gdma_channel_direction_t dir, bool en_owner_check, bool en_desc_write_back, bool eof_till_popped)
{
if (dir == GDMA_CHANNEL_DIRECTION_RX) {
axi_dma_ll_rx_enable_owner_check(hal->axi_dma_dev, chan_id, en_owner_check);
// RX direction always has the descriptor write-back feature enabled
// RX direction don't need config eof_mode
} else {
axi_dma_ll_tx_enable_owner_check(hal->axi_dma_dev, chan_id, en_owner_check);
axi_dma_ll_tx_enable_auto_write_back(hal->axi_dma_dev, chan_id, en_desc_write_back);
axi_dma_ll_tx_set_eof_mode(hal->axi_dma_dev, chan_id, eof_till_popped);
}
}
void gdma_axi_hal_enable_intr(gdma_hal_context_t *hal, int chan_id, gdma_channel_direction_t dir, uint32_t intr_event_mask, bool en_or_dis)
{
if (dir == GDMA_CHANNEL_DIRECTION_RX) {
axi_dma_ll_rx_enable_interrupt(hal->axi_dma_dev, chan_id, intr_event_mask, en_or_dis);
} else {
axi_dma_ll_tx_enable_interrupt(hal->axi_dma_dev, chan_id, intr_event_mask, en_or_dis);
}
}
void gdma_axi_hal_clear_intr(gdma_hal_context_t *hal, int chan_id, gdma_channel_direction_t dir, uint32_t intr_event_mask)
{
if (dir == GDMA_CHANNEL_DIRECTION_RX) {
axi_dma_ll_rx_clear_interrupt_status(hal->axi_dma_dev, chan_id, intr_event_mask);
} else {
axi_dma_ll_tx_clear_interrupt_status(hal->axi_dma_dev, chan_id, intr_event_mask);
}
}
uint32_t gdma_axi_hal_read_intr_status(gdma_hal_context_t *hal, int chan_id, gdma_channel_direction_t dir, bool raw)
{
if (dir == GDMA_CHANNEL_DIRECTION_RX) {
return axi_dma_ll_rx_get_interrupt_status(hal->axi_dma_dev, chan_id, raw);
} else {
return axi_dma_ll_tx_get_interrupt_status(hal->axi_dma_dev, chan_id, raw);
}
}
uint32_t gdma_axi_hal_get_intr_status_reg(gdma_hal_context_t *hal, int chan_id, gdma_channel_direction_t dir)
{
if (dir == GDMA_CHANNEL_DIRECTION_RX) {
return (uint32_t)axi_dma_ll_rx_get_interrupt_status_reg(hal->axi_dma_dev, chan_id);
} else {
return (uint32_t)axi_dma_ll_tx_get_interrupt_status_reg(hal->axi_dma_dev, chan_id);
}
}
uint32_t gdma_axi_hal_get_eof_desc_addr(gdma_hal_context_t *hal, int chan_id, gdma_channel_direction_t dir, bool is_success)
{
if (dir == GDMA_CHANNEL_DIRECTION_RX) {
if (is_success) {
return axi_dma_ll_rx_get_success_eof_desc_addr(hal->axi_dma_dev, chan_id);
}
return axi_dma_ll_rx_get_error_eof_desc_addr(hal->axi_dma_dev, chan_id);
} else {
// The TX direction only has success EOF, parameter 'is_success' is ignored
return axi_dma_ll_tx_get_eof_desc_addr(hal->axi_dma_dev, chan_id);
}
}
#if SOC_GDMA_SUPPORT_CRC
void gdma_axi_hal_clear_crc(gdma_hal_context_t *hal, int chan_id, gdma_channel_direction_t dir)
{
if (dir == GDMA_CHANNEL_DIRECTION_RX) {
axi_dma_ll_rx_crc_clear(hal->axi_dma_dev, chan_id);
} else {
axi_dma_ll_tx_crc_clear(hal->axi_dma_dev, chan_id);
}
}
void gdma_axi_hal_set_crc_poly(gdma_hal_context_t *hal, int chan_id, gdma_channel_direction_t dir, const gdma_hal_crc_config_t *config)
{
uint32_t init_value = config->init_value;
uint32_t crc_bit_width = config->crc_bit_width;
uint32_t poly_hex = config->poly_hex;
// bit matrix for parallel CRC
uint32_t lfsr_matrix[crc_bit_width];
uint32_t data_matrix[GDMA_LL_PARALLEL_CRC_DATA_WIDTH];
uint32_t lfsr_mask = 0;
uint32_t data_mask = 0;
// build the parallel CRC matrix first, later we will extract the control mask from it
gdma_hal_build_parallel_crc_matrix(crc_bit_width, poly_hex, GDMA_LL_PARALLEL_CRC_DATA_WIDTH,
lfsr_matrix, data_matrix);
if (dir == GDMA_CHANNEL_DIRECTION_RX) {
axi_dma_ll_rx_crc_set_init_value(hal->axi_dma_dev, chan_id, init_value);
axi_dma_ll_rx_crc_set_width(hal->axi_dma_dev, chan_id, crc_bit_width);
for (uint32_t i = 0; i < crc_bit_width; i++) {
// extract the control mask from the matrix, for each CRC bit
data_mask = gdma_hal_get_data_mask_from_matrix(data_matrix, GDMA_LL_PARALLEL_CRC_DATA_WIDTH, i);
lfsr_mask = gdma_hal_get_lfsr_mask_from_matrix(lfsr_matrix, crc_bit_width, i);
axi_dma_ll_rx_crc_set_lfsr_data_mask(hal->axi_dma_dev, chan_id, i, lfsr_mask, data_mask, config->reverse_data_mask);
axi_dma_ll_rx_crc_latch_config(hal->axi_dma_dev, chan_id);
}
} else {
axi_dma_ll_tx_crc_set_init_value(hal->axi_dma_dev, chan_id, init_value);
axi_dma_ll_tx_crc_set_width(hal->axi_dma_dev, chan_id, crc_bit_width);
for (uint32_t i = 0; i < crc_bit_width; i++) {
// extract the control mask from the matrix, for each CRC bit
data_mask = gdma_hal_get_data_mask_from_matrix(data_matrix, GDMA_LL_PARALLEL_CRC_DATA_WIDTH, i);
lfsr_mask = gdma_hal_get_lfsr_mask_from_matrix(lfsr_matrix, crc_bit_width, i);
axi_dma_ll_tx_crc_set_lfsr_data_mask(hal->axi_dma_dev, chan_id, i, lfsr_mask, data_mask, config->reverse_data_mask);
axi_dma_ll_tx_crc_latch_config(hal->axi_dma_dev, chan_id);
}
}
}
uint32_t gdma_axi_hal_get_crc_result(gdma_hal_context_t *hal, int chan_id, gdma_channel_direction_t dir)
{
if (dir == GDMA_CHANNEL_DIRECTION_RX) {
return axi_dma_ll_rx_crc_get_result(hal->axi_dma_dev, chan_id);
} else {
return axi_dma_ll_tx_crc_get_result(hal->axi_dma_dev, chan_id);
}
}
#endif // SOC_GDMA_SUPPORT_CRC
#if SOC_GDMA_SUPPORT_ETM
void gdma_axi_hal_enable_etm_task(gdma_hal_context_t *hal, int chan_id, gdma_channel_direction_t dir, bool en_or_dis)
{
if (dir == GDMA_CHANNEL_DIRECTION_RX) {
axi_dma_ll_rx_enable_etm_task(hal->axi_dma_dev, chan_id, en_or_dis);
} else {
axi_dma_ll_tx_enable_etm_task(hal->axi_dma_dev, chan_id, en_or_dis);
}
}
#endif // SOC_GDMA_SUPPORT_ETM
void gdma_axi_hal_init(gdma_hal_context_t *hal, const gdma_hal_config_t *config)
{
hal->axi_dma_dev = AXI_DMA_LL_GET_HW(config->group_id - GDMA_LL_AXI_GROUP_START_ID);
hal->priv_data = &gdma_axi_hal_priv_data;
hal->start_with_desc = gdma_axi_hal_start_with_desc;
hal->stop = gdma_axi_hal_stop;
hal->append = gdma_axi_hal_append;
hal->reset = gdma_axi_hal_reset;
hal->set_priority = gdma_axi_hal_set_priority;
hal->connect_peri = gdma_axi_hal_connect_peri;
hal->disconnect_peri = gdma_axi_hal_disconnect_peri;
hal->enable_burst = gdma_axi_hal_enable_burst;
hal->set_strategy = gdma_axi_hal_set_strategy;
hal->enable_intr = gdma_axi_hal_enable_intr;
hal->clear_intr = gdma_axi_hal_clear_intr;
hal->read_intr_status = gdma_axi_hal_read_intr_status;
hal->get_intr_status_reg = gdma_axi_hal_get_intr_status_reg;
hal->get_eof_desc_addr = gdma_axi_hal_get_eof_desc_addr;
#if SOC_GDMA_SUPPORT_CRC
hal->clear_crc = gdma_axi_hal_clear_crc;
hal->set_crc_poly = gdma_axi_hal_set_crc_poly;
hal->get_crc_result = gdma_axi_hal_get_crc_result;
#endif // SOC_GDMA_SUPPORT_CRC
#if SOC_GDMA_SUPPORT_ETM
hal->enable_etm_task = gdma_axi_hal_enable_etm_task;
#endif // SOC_GDMA_SUPPORT_ETM
}