esp-idf/components/driver/gdma.c

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/*
* SPDX-FileCopyrightText: 2020-2021 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
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// #define LOG_LOCAL_LEVEL ESP_LOG_DEBUG
#include <stdlib.h>
#include <sys/cdefs.h>
#include "freertos/FreeRTOS.h"
#include "freertos/task.h"
#include "soc/soc_caps.h"
#include "soc/periph_defs.h"
#include "esp_intr_alloc.h"
#include "esp_log.h"
#include "esp_check.h"
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#include "driver/periph_ctrl.h"
#include "esp_private/gdma.h"
#include "hal/gdma_hal.h"
#include "hal/gdma_ll.h"
#include "soc/gdma_periph.h"
static const char *TAG = "gdma";
#define GDMA_INVALID_PERIPH_TRIG (0x3F)
#define SEARCH_REQUEST_RX_CHANNEL (1 << 0)
#define SEARCH_REQUEST_TX_CHANNEL (1 << 1)
typedef struct gdma_platform_t gdma_platform_t;
typedef struct gdma_group_t gdma_group_t;
typedef struct gdma_pair_t gdma_pair_t;
typedef struct gdma_channel_t gdma_channel_t;
typedef struct gdma_tx_channel_t gdma_tx_channel_t;
typedef struct gdma_rx_channel_t gdma_rx_channel_t;
/**
* GDMA driver consists of there object class, namely: Group, Pair and Channel.
* Channel is allocated when user calls `gdma_new_channel`, its lifecycle is maintained by user.
* Pair and Group are all lazy allocated, their life cycles are maintained by this driver.
* We use reference count to track their life cycles, i.e. the driver will free their memory only when their reference count reached to 0.
*
* We don't use an all-in-one spin lock in this driver, instead, we created different spin locks at different level.
* For platform, it has a spinlock, which is used to protect the group handle slots and reference count of each group.
* For group, it has a spinlock, which is used to protect group level stuffs, e.g. hal object, pair handle slots and reference count of each pair.
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* For pair, it has a spinlock, which is used to protect pair level stuffs, e.g. channel handle slots, occupy code.
*/
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struct gdma_platform_t {
portMUX_TYPE spinlock; // platform level spinlock
gdma_group_t *groups[SOC_GDMA_GROUPS]; // array of GDMA group instances
int group_ref_counts[SOC_GDMA_GROUPS]; // reference count used to protect group install/uninstall
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};
struct gdma_group_t {
int group_id; // Group ID, index from 0
gdma_hal_context_t hal; // HAL instance is at group level
portMUX_TYPE spinlock; // group level spinlock
gdma_pair_t *pairs[SOC_GDMA_PAIRS_PER_GROUP]; // handles of GDMA pairs
int pair_ref_counts[SOC_GDMA_PAIRS_PER_GROUP]; // reference count used to protect pair install/uninstall
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};
struct gdma_pair_t {
gdma_group_t *group; // which group the pair belongs to
int pair_id; // Pair ID, index from 0
gdma_tx_channel_t *tx_chan; // pointer of tx channel in the pair
gdma_rx_channel_t *rx_chan; // pointer of rx channel in the pair
int occupy_code; // each bit indicates which channel has been occupied (an occupied channel will be skipped during channel search)
portMUX_TYPE spinlock; // pair level spinlock
};
struct gdma_channel_t {
gdma_pair_t *pair; // which pair the channel belongs to
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intr_handle_t intr; // per-channel interrupt handle
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gdma_channel_direction_t direction; // channel direction
int periph_id; // Peripheral instance ID, indicates which peripheral is connected to this GDMA channel
esp_err_t (*del)(gdma_channel_t *channel); // channel deletion function, it's polymorphic, see `gdma_del_tx_channel` or `gdma_del_rx_channel`
};
struct gdma_tx_channel_t {
gdma_channel_t base; // GDMA channel, base class
void *user_data; // user registered DMA event data
gdma_event_callback_t on_trans_eof; // TX EOF callback
};
struct gdma_rx_channel_t {
gdma_channel_t base; // GDMA channel, base class
void *user_data; // user registered DMA event data
gdma_event_callback_t on_recv_eof; // RX EOF callback
};
static gdma_group_t *gdma_acquire_group_handle(int group_id);
static void gdma_release_group_handle(gdma_group_t *group);
static gdma_pair_t *gdma_acquire_pair_handle(gdma_group_t *group, int pair_id);
static void gdma_release_pair_handle(gdma_pair_t *pair);
static void gdma_uninstall_group(gdma_group_t *group);
static void gdma_uninstall_pair(gdma_pair_t *pair);
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static esp_err_t gdma_del_tx_channel(gdma_channel_t *dma_channel);
static esp_err_t gdma_del_rx_channel(gdma_channel_t *dma_channel);
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static esp_err_t gdma_install_rx_interrupt(gdma_rx_channel_t *rx_chan);
static esp_err_t gdma_install_tx_interrupt(gdma_tx_channel_t *tx_chan);
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// gdma driver platform
static gdma_platform_t s_platform = {
.spinlock = (portMUX_TYPE)portMUX_INITIALIZER_UNLOCKED,
.groups = {} // groups will be lazy installed
};
esp_err_t gdma_new_channel(const gdma_channel_alloc_config_t *config, gdma_channel_handle_t *ret_chan)
{
esp_err_t ret = ESP_OK;
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gdma_tx_channel_t *alloc_tx_channel = NULL;
gdma_rx_channel_t *alloc_rx_channel = NULL;
int search_code = 0;
gdma_pair_t *pair = NULL;
gdma_group_t *group = NULL;
ESP_GOTO_ON_FALSE(config && ret_chan, ESP_ERR_INVALID_ARG, err, TAG, "invalid argument");
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if (config->flags.reserve_sibling) {
search_code = SEARCH_REQUEST_RX_CHANNEL | SEARCH_REQUEST_TX_CHANNEL; // search for a pair of channels
}
if (config->direction == GDMA_CHANNEL_DIRECTION_TX) {
search_code |= SEARCH_REQUEST_TX_CHANNEL; // search TX only
alloc_tx_channel = calloc(1, sizeof(gdma_tx_channel_t));
ESP_GOTO_ON_FALSE(alloc_tx_channel, ESP_ERR_NO_MEM, err, TAG, "no mem for gdma tx channel");
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} else if (config->direction == GDMA_CHANNEL_DIRECTION_RX) {
search_code |= SEARCH_REQUEST_RX_CHANNEL; // search RX only
alloc_rx_channel = calloc(1, sizeof(gdma_rx_channel_t));
ESP_GOTO_ON_FALSE(alloc_rx_channel, ESP_ERR_NO_MEM, err, TAG, "no mem for gdma rx channel");
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}
if (config->sibling_chan) {
pair = config->sibling_chan->pair;
ESP_GOTO_ON_FALSE(pair, ESP_ERR_INVALID_ARG, err, TAG, "invalid sibling channel");
ESP_GOTO_ON_FALSE(config->sibling_chan->direction != config->direction, ESP_ERR_INVALID_ARG, err, TAG, "sibling channel should have a different direction");
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group = pair->group;
portENTER_CRITICAL(&group->spinlock);
group->pair_ref_counts[pair->pair_id]++; // channel obtains a reference to pair
portEXIT_CRITICAL(&group->spinlock);
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goto search_done; // skip the search path below if user has specify a sibling channel
}
for (int i = 0; i < SOC_GDMA_GROUPS && search_code; i++) { // loop to search group
group = gdma_acquire_group_handle(i);
for (int j = 0; j < SOC_GDMA_PAIRS_PER_GROUP && search_code && group; j++) { // loop to search pair
pair = gdma_acquire_pair_handle(group, j);
if (pair) {
portENTER_CRITICAL(&pair->spinlock);
if (!(search_code & pair->occupy_code)) { // pair has suitable position for acquired channel(s)
pair->occupy_code |= search_code;
search_code = 0; // exit search loop
}
portEXIT_CRITICAL(&pair->spinlock);
if (!search_code) {
portENTER_CRITICAL(&group->spinlock);
group->pair_ref_counts[j]++; // channel obtains a reference to pair
portEXIT_CRITICAL(&group->spinlock);
}
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}
gdma_release_pair_handle(pair);
} // loop used to search pair
gdma_release_group_handle(group);
} // loop used to search group
ESP_GOTO_ON_FALSE(search_code == 0, ESP_ERR_NOT_FOUND, err, TAG, "no free gdma channel, search code=%d", search_code);
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search_done:
// register TX channel
if (alloc_tx_channel) {
pair->tx_chan = alloc_tx_channel;
alloc_tx_channel->base.pair = pair;
alloc_tx_channel->base.direction = GDMA_CHANNEL_DIRECTION_TX;
alloc_tx_channel->base.periph_id = GDMA_INVALID_PERIPH_TRIG;
alloc_tx_channel->base.del = gdma_del_tx_channel; // set channel deletion function
*ret_chan = &alloc_tx_channel->base; // return the installed channel
}
// register RX channel
if (alloc_rx_channel) {
pair->rx_chan = alloc_rx_channel;
alloc_rx_channel->base.pair = pair;
alloc_rx_channel->base.direction = GDMA_CHANNEL_DIRECTION_RX;
alloc_rx_channel->base.periph_id = GDMA_INVALID_PERIPH_TRIG;
alloc_rx_channel->base.del = gdma_del_rx_channel; // set channel deletion function
*ret_chan = &alloc_rx_channel->base; // return the installed channel
}
ESP_LOGD(TAG, "new %s channel (%d,%d) at %p", (config->direction == GDMA_CHANNEL_DIRECTION_TX) ? "tx" : "rx",
group->group_id, pair->pair_id, *ret_chan);
return ESP_OK;
err:
if (alloc_tx_channel) {
free(alloc_tx_channel);
}
if (alloc_rx_channel) {
free(alloc_rx_channel);
}
return ret;
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}
esp_err_t gdma_del_channel(gdma_channel_handle_t dma_chan)
{
esp_err_t ret = ESP_OK;
ESP_GOTO_ON_FALSE(dma_chan, ESP_ERR_INVALID_ARG, err, TAG, "invalid argument");
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ret = dma_chan->del(dma_chan); // call `gdma_del_tx_channel` or `gdma_del_rx_channel`
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err:
return ret;
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}
esp_err_t gdma_get_channel_id(gdma_channel_handle_t dma_chan, int *channel_id)
{
esp_err_t ret = ESP_OK;
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gdma_pair_t *pair = NULL;
ESP_GOTO_ON_FALSE(dma_chan, ESP_ERR_INVALID_ARG, err, TAG, "invalid argument");
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pair = dma_chan->pair;
*channel_id = pair->pair_id;
err:
return ret;
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}
esp_err_t gdma_connect(gdma_channel_handle_t dma_chan, gdma_trigger_t trig_periph)
{
esp_err_t ret = ESP_OK;
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gdma_pair_t *pair = NULL;
gdma_group_t *group = NULL;
ESP_GOTO_ON_FALSE(dma_chan, ESP_ERR_INVALID_ARG, err, TAG, "invalid argument");
ESP_GOTO_ON_FALSE(dma_chan->periph_id == GDMA_INVALID_PERIPH_TRIG, ESP_ERR_INVALID_STATE, err, TAG, "channel is using by peripheral: %d", dma_chan->periph_id);
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pair = dma_chan->pair;
group = pair->group;
dma_chan->periph_id = trig_periph.instance_id;
// enable/disable m2m mode
gdma_ll_enable_m2m_mode(group->hal.dev, pair->pair_id, trig_periph.periph == GDMA_TRIG_PERIPH_M2M);
if (dma_chan->direction == GDMA_CHANNEL_DIRECTION_TX) {
gdma_ll_tx_reset_channel(group->hal.dev, pair->pair_id); // reset channel
if (trig_periph.periph != GDMA_TRIG_PERIPH_M2M) {
gdma_ll_tx_connect_to_periph(group->hal.dev, pair->pair_id, trig_periph.instance_id);
}
} else {
gdma_ll_rx_reset_channel(group->hal.dev, pair->pair_id); // reset channel
if (trig_periph.periph != GDMA_TRIG_PERIPH_M2M) {
gdma_ll_rx_connect_to_periph(group->hal.dev, pair->pair_id, trig_periph.instance_id);
}
}
err:
return ret;
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}
esp_err_t gdma_disconnect(gdma_channel_handle_t dma_chan)
{
esp_err_t ret = ESP_OK;
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gdma_pair_t *pair = NULL;
gdma_group_t *group = NULL;
ESP_GOTO_ON_FALSE(dma_chan, ESP_ERR_INVALID_ARG, err, TAG, "invalid argument");
ESP_GOTO_ON_FALSE(dma_chan->periph_id != GDMA_INVALID_PERIPH_TRIG, ESP_ERR_INVALID_STATE, err, TAG, "no peripheral is connected to the channel");
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pair = dma_chan->pair;
group = pair->group;
dma_chan->periph_id = GDMA_INVALID_PERIPH_TRIG;
if (dma_chan->direction == GDMA_CHANNEL_DIRECTION_TX) {
gdma_ll_tx_connect_to_periph(group->hal.dev, pair->pair_id, GDMA_INVALID_PERIPH_TRIG);
} else {
gdma_ll_rx_connect_to_periph(group->hal.dev, pair->pair_id, GDMA_INVALID_PERIPH_TRIG);
}
err:
return ret;
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}
esp_err_t gdma_apply_strategy(gdma_channel_handle_t dma_chan, const gdma_strategy_config_t *config)
{
esp_err_t ret = ESP_OK;
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gdma_pair_t *pair = NULL;
gdma_group_t *group = NULL;
ESP_GOTO_ON_FALSE(dma_chan, ESP_ERR_INVALID_ARG, err, TAG, "invalid argument");
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pair = dma_chan->pair;
group = pair->group;
if (dma_chan->direction == GDMA_CHANNEL_DIRECTION_TX) {
gdma_ll_tx_enable_owner_check(group->hal.dev, pair->pair_id, config->owner_check);
gdma_ll_tx_enable_auto_write_back(group->hal.dev, pair->pair_id, config->auto_update_desc);
} else {
gdma_ll_rx_enable_owner_check(group->hal.dev, pair->pair_id, config->owner_check);
}
err:
return ret;
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}
esp_err_t gdma_register_tx_event_callbacks(gdma_channel_handle_t dma_chan, gdma_tx_event_callbacks_t *cbs, void *user_data)
{
esp_err_t ret = ESP_OK;
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gdma_pair_t *pair = NULL;
gdma_group_t *group = NULL;
ESP_GOTO_ON_FALSE(dma_chan && dma_chan->direction == GDMA_CHANNEL_DIRECTION_TX, ESP_ERR_INVALID_ARG, err, TAG, "invalid argument");
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pair = dma_chan->pair;
group = pair->group;
gdma_tx_channel_t *tx_chan = __containerof(dma_chan, gdma_tx_channel_t, base);
// lazy install interrupt service
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ESP_GOTO_ON_ERROR(gdma_install_tx_interrupt(tx_chan), err, TAG, "install interrupt service failed");
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// enable/disable GDMA interrupt events for TX channel
portENTER_CRITICAL(&pair->spinlock);
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gdma_ll_tx_enable_interrupt(group->hal.dev, pair->pair_id, GDMA_LL_EVENT_TX_EOF, cbs->on_trans_eof != NULL);
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portEXIT_CRITICAL(&pair->spinlock);
tx_chan->on_trans_eof = cbs->on_trans_eof;
tx_chan->user_data = user_data;
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ESP_GOTO_ON_ERROR(esp_intr_enable(dma_chan->intr), err, TAG, "enable interrupt failed");
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err:
return ret;
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}
esp_err_t gdma_register_rx_event_callbacks(gdma_channel_handle_t dma_chan, gdma_rx_event_callbacks_t *cbs, void *user_data)
{
esp_err_t ret = ESP_OK;
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gdma_pair_t *pair = NULL;
gdma_group_t *group = NULL;
ESP_GOTO_ON_FALSE(dma_chan && dma_chan->direction == GDMA_CHANNEL_DIRECTION_RX, ESP_ERR_INVALID_ARG, err, TAG, "invalid argument");
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pair = dma_chan->pair;
group = pair->group;
gdma_rx_channel_t *rx_chan = __containerof(dma_chan, gdma_rx_channel_t, base);
// lazy install interrupt service
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ESP_GOTO_ON_ERROR(gdma_install_rx_interrupt(rx_chan), err, TAG, "install interrupt service failed");
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// enable/disable GDMA interrupt events for RX channel
portENTER_CRITICAL(&pair->spinlock);
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gdma_ll_rx_enable_interrupt(group->hal.dev, pair->pair_id, GDMA_LL_EVENT_RX_SUC_EOF, cbs->on_recv_eof != NULL);
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portEXIT_CRITICAL(&pair->spinlock);
rx_chan->on_recv_eof = cbs->on_recv_eof;
rx_chan->user_data = user_data;
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ESP_GOTO_ON_ERROR(esp_intr_enable(dma_chan->intr), err, TAG, "enable interrupt failed");
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err:
return ret;
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}
esp_err_t gdma_start(gdma_channel_handle_t dma_chan, intptr_t desc_base_addr)
{
esp_err_t ret = ESP_OK;
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gdma_pair_t *pair = NULL;
gdma_group_t *group = NULL;
ESP_GOTO_ON_FALSE(dma_chan, ESP_ERR_INVALID_ARG, err, TAG, "invalid argument");
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pair = dma_chan->pair;
group = pair->group;
if (dma_chan->direction == GDMA_CHANNEL_DIRECTION_RX) {
gdma_ll_rx_set_desc_addr(group->hal.dev, pair->pair_id, desc_base_addr);
gdma_ll_rx_start(group->hal.dev, pair->pair_id);
} else {
gdma_ll_tx_set_desc_addr(group->hal.dev, pair->pair_id, desc_base_addr);
gdma_ll_tx_start(group->hal.dev, pair->pair_id);
}
err:
return ret;
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}
esp_err_t gdma_stop(gdma_channel_handle_t dma_chan)
{
esp_err_t ret = ESP_OK;
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gdma_pair_t *pair = NULL;
gdma_group_t *group = NULL;
ESP_GOTO_ON_FALSE(dma_chan, ESP_ERR_INVALID_ARG, err, TAG, "invalid argument");
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pair = dma_chan->pair;
group = pair->group;
if (dma_chan->direction == GDMA_CHANNEL_DIRECTION_RX) {
gdma_ll_rx_stop(group->hal.dev, pair->pair_id);
} else {
gdma_ll_tx_stop(group->hal.dev, pair->pair_id);
}
err:
return ret;
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}
esp_err_t gdma_append(gdma_channel_handle_t dma_chan)
{
esp_err_t ret = ESP_OK;
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gdma_pair_t *pair = NULL;
gdma_group_t *group = NULL;
ESP_GOTO_ON_FALSE(dma_chan, ESP_ERR_INVALID_ARG, err, TAG, "invalid argument");
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pair = dma_chan->pair;
group = pair->group;
if (dma_chan->direction == GDMA_CHANNEL_DIRECTION_RX) {
gdma_ll_rx_restart(group->hal.dev, pair->pair_id);
} else {
gdma_ll_tx_restart(group->hal.dev, pair->pair_id);
}
err:
return ret;
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}
esp_err_t gdma_reset(gdma_channel_handle_t dma_chan)
{
esp_err_t ret = ESP_OK;
gdma_pair_t *pair = NULL;
gdma_group_t *group = NULL;
ESP_GOTO_ON_FALSE(dma_chan, ESP_ERR_INVALID_ARG, err, TAG, "invalid argument");
pair = dma_chan->pair;
group = pair->group;
if (dma_chan->direction == GDMA_CHANNEL_DIRECTION_RX) {
gdma_ll_rx_reset_channel(group->hal.dev, pair->pair_id);
} else {
gdma_ll_tx_reset_channel(group->hal.dev, pair->pair_id);
}
err:
return ret;
}
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static void gdma_uninstall_group(gdma_group_t *group)
{
int group_id = group->group_id;
bool do_deinitialize = false;
portENTER_CRITICAL(&s_platform.spinlock);
s_platform.group_ref_counts[group_id]--;
if (s_platform.group_ref_counts[group_id] == 0) {
assert(s_platform.groups[group_id]);
do_deinitialize = true;
s_platform.groups[group_id] = NULL; // deregister from platfrom
gdma_ll_enable_clock(group->hal.dev, false);
periph_module_disable(gdma_periph_signals.groups[group_id].module);
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}
portEXIT_CRITICAL(&s_platform.spinlock);
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if (do_deinitialize) {
free(group);
ESP_LOGD(TAG, "del group %d", group_id);
}
}
static gdma_group_t *gdma_acquire_group_handle(int group_id)
{
bool new_group = false;
gdma_group_t *group = NULL;
gdma_group_t *pre_alloc_group = calloc(1, sizeof(gdma_group_t));
if (!pre_alloc_group) {
goto out;
}
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portENTER_CRITICAL(&s_platform.spinlock);
if (!s_platform.groups[group_id]) {
new_group = true;
group = pre_alloc_group;
s_platform.groups[group_id] = group; // register to platform
group->group_id = group_id;
group->spinlock = (portMUX_TYPE)portMUX_INITIALIZER_UNLOCKED;
periph_module_enable(gdma_periph_signals.groups[group_id].module); // enable APB to access GDMA registers
gdma_hal_init(&group->hal, group_id); // initialize HAL context
gdma_ll_enable_clock(group->hal.dev, true); // enable gdma clock
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} else {
group = s_platform.groups[group_id];
}
// someone acquired the group handle means we have a new object that refer to this group
s_platform.group_ref_counts[group_id]++;
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portEXIT_CRITICAL(&s_platform.spinlock);
if (new_group) {
ESP_LOGD(TAG, "new group (%d) at %p", group->group_id, group);
} else {
free(pre_alloc_group);
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}
out:
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return group;
}
static void gdma_release_group_handle(gdma_group_t *group)
{
if (group) {
gdma_uninstall_group(group);
}
}
static void gdma_uninstall_pair(gdma_pair_t *pair)
{
gdma_group_t *group = pair->group;
int pair_id = pair->pair_id;
bool do_deinitialize = false;
portENTER_CRITICAL(&group->spinlock);
group->pair_ref_counts[pair_id]--;
if (group->pair_ref_counts[pair_id] == 0) {
assert(group->pairs[pair_id]);
do_deinitialize = true;
group->pairs[pair_id] = NULL; // deregister from pair
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}
portEXIT_CRITICAL(&group->spinlock);
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if (do_deinitialize) {
free(pair);
ESP_LOGD(TAG, "del pair (%d,%d)", group->group_id, pair_id);
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gdma_uninstall_group(group);
}
}
static gdma_pair_t *gdma_acquire_pair_handle(gdma_group_t *group, int pair_id)
{
bool new_pair = false;
gdma_pair_t *pair = NULL;
gdma_pair_t *pre_alloc_pair = calloc(1, sizeof(gdma_pair_t));
if (!pre_alloc_pair) {
goto out;
}
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portENTER_CRITICAL(&group->spinlock);
if (!group->pairs[pair_id]) {
new_pair = true;
pair = pre_alloc_pair;
group->pairs[pair_id] = pair; // register to group
pair->group = group;
pair->pair_id = pair_id;
pair->spinlock = (portMUX_TYPE)portMUX_INITIALIZER_UNLOCKED;
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} else {
pair = group->pairs[pair_id];
}
// someone acquired the pair handle means we have a new object that refer to this pair
group->pair_ref_counts[pair_id]++;
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portEXIT_CRITICAL(&group->spinlock);
if (new_pair) {
portENTER_CRITICAL(&s_platform.spinlock);
s_platform.group_ref_counts[group->group_id]++; // pair obtains a reference to group
portEXIT_CRITICAL(&s_platform.spinlock);
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ESP_LOGD(TAG, "new pair (%d,%d) at %p", group->group_id, pair->pair_id, pair);
} else {
free(pre_alloc_pair);
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}
out:
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return pair;
}
static void gdma_release_pair_handle(gdma_pair_t *pair)
{
if (pair) {
gdma_uninstall_pair(pair);
}
}
static esp_err_t gdma_del_tx_channel(gdma_channel_t *dma_channel)
{
gdma_pair_t *pair = dma_channel->pair;
gdma_group_t *group = pair->group;
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gdma_tx_channel_t *tx_chan = __containerof(dma_channel, gdma_tx_channel_t, base);
portENTER_CRITICAL(&pair->spinlock);
pair->tx_chan = NULL;
pair->occupy_code &= ~SEARCH_REQUEST_TX_CHANNEL;
portEXIT_CRITICAL(&pair->spinlock);
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if (dma_channel->intr) {
esp_intr_free(dma_channel->intr);
portENTER_CRITICAL(&pair->spinlock);
gdma_ll_tx_enable_interrupt(group->hal.dev, pair->pair_id, UINT32_MAX, false); // disable all interupt events
gdma_ll_tx_clear_interrupt_status(group->hal.dev, pair->pair_id, UINT32_MAX); // clear all pending events
portEXIT_CRITICAL(&pair->spinlock);
ESP_LOGD(TAG, "uninstall interrupt service for tx channel (%d,%d)", group->group_id, pair->pair_id);
}
ESP_LOGD(TAG, "del tx channel (%d,%d)", group->group_id, pair->pair_id);
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free(tx_chan);
gdma_uninstall_pair(pair);
return ESP_OK;
}
static esp_err_t gdma_del_rx_channel(gdma_channel_t *dma_channel)
{
gdma_pair_t *pair = dma_channel->pair;
gdma_group_t *group = pair->group;
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gdma_rx_channel_t *rx_chan = __containerof(dma_channel, gdma_rx_channel_t, base);
portENTER_CRITICAL(&pair->spinlock);
pair->rx_chan = NULL;
pair->occupy_code &= ~SEARCH_REQUEST_RX_CHANNEL;
portEXIT_CRITICAL(&pair->spinlock);
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if (dma_channel->intr) {
esp_intr_free(dma_channel->intr);
portENTER_CRITICAL(&pair->spinlock);
gdma_ll_rx_enable_interrupt(group->hal.dev, pair->pair_id, UINT32_MAX, false); // disable all interupt events
gdma_ll_rx_clear_interrupt_status(group->hal.dev, pair->pair_id, UINT32_MAX); // clear all pending events
portEXIT_CRITICAL(&pair->spinlock);
ESP_LOGD(TAG, "uninstall interrupt service for rx channel (%d,%d)", group->group_id, pair->pair_id);
}
ESP_LOGD(TAG, "del rx channel (%d,%d)", group->group_id, pair->pair_id);
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free(rx_chan);
gdma_uninstall_pair(pair);
return ESP_OK;
}
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static void IRAM_ATTR gdma_default_rx_isr(void *args)
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{
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gdma_rx_channel_t *rx_chan = (gdma_rx_channel_t *)args;
gdma_pair_t *pair = rx_chan->base.pair;
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gdma_group_t *group = pair->group;
bool need_yield = false;
// clear pending interrupt event
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uint32_t intr_status = gdma_ll_rx_get_interrupt_status(group->hal.dev, pair->pair_id);
gdma_ll_rx_clear_interrupt_status(group->hal.dev, pair->pair_id, intr_status);
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if (intr_status & GDMA_LL_EVENT_RX_SUC_EOF) {
if (rx_chan && rx_chan->on_recv_eof) {
uint32_t eof_addr = gdma_ll_rx_get_success_eof_desc_addr(group->hal.dev, pair->pair_id);
gdma_event_data_t edata = {
.rx_eof_desc_addr = eof_addr
};
if (rx_chan->on_recv_eof(&rx_chan->base, &edata, rx_chan->user_data)) {
need_yield = true;
}
}
}
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if (need_yield) {
portYIELD_FROM_ISR();
}
}
static void IRAM_ATTR gdma_default_tx_isr(void *args)
{
gdma_tx_channel_t *tx_chan = (gdma_tx_channel_t *)args;
gdma_pair_t *pair = tx_chan->base.pair;
gdma_group_t *group = pair->group;
bool need_yield = false;
// clear pending interrupt event
uint32_t intr_status = gdma_ll_tx_get_interrupt_status(group->hal.dev, pair->pair_id);
gdma_ll_tx_clear_interrupt_status(group->hal.dev, pair->pair_id, intr_status);
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if (intr_status & GDMA_LL_EVENT_TX_EOF) {
if (tx_chan && tx_chan->on_trans_eof) {
uint32_t eof_addr = gdma_ll_tx_get_eof_desc_addr(group->hal.dev, pair->pair_id);
gdma_event_data_t edata = {
.tx_eof_desc_addr = eof_addr
};
if (tx_chan->on_trans_eof(&tx_chan->base, &edata, tx_chan->user_data)) {
need_yield = true;
}
}
}
if (need_yield) {
portYIELD_FROM_ISR();
}
}
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static esp_err_t gdma_install_rx_interrupt(gdma_rx_channel_t *rx_chan)
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{
esp_err_t ret = ESP_OK;
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gdma_pair_t *pair = rx_chan->base.pair;
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gdma_group_t *group = pair->group;
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// pre-alloc a interrupt handle, with handler disabled
int isr_flags = ESP_INTR_FLAG_INTRDISABLED;
#if SOC_GDMA_TX_RX_SHARE_INTERRUPT
isr_flags |= ESP_INTR_FLAG_SHARED;
#endif
intr_handle_t intr = NULL;
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ret = esp_intr_alloc_intrstatus(gdma_periph_signals.groups[group->group_id].pairs[pair->pair_id].rx_irq_id, isr_flags,
(uint32_t)gdma_ll_rx_get_interrupt_status_reg(group->hal.dev, pair->pair_id), GDMA_LL_RX_EVENT_MASK,
gdma_default_rx_isr, rx_chan, &intr);
ESP_GOTO_ON_ERROR(ret, err, TAG, "alloc interrupt failed");
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rx_chan->base.intr = intr;
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portENTER_CRITICAL(&pair->spinlock);
gdma_ll_rx_enable_interrupt(group->hal.dev, pair->pair_id, UINT32_MAX, false); // disable all interupt events
gdma_ll_rx_clear_interrupt_status(group->hal.dev, pair->pair_id, UINT32_MAX); // clear all pending events
portEXIT_CRITICAL(&pair->spinlock);
ESP_LOGD(TAG, "install interrupt service for rx channel (%d,%d)", group->group_id, pair->pair_id);
err:
return ret;
}
static esp_err_t gdma_install_tx_interrupt(gdma_tx_channel_t *tx_chan)
{
esp_err_t ret = ESP_OK;
gdma_pair_t *pair = tx_chan->base.pair;
gdma_group_t *group = pair->group;
// pre-alloc a interrupt handle, with handler disabled
int isr_flags = ESP_INTR_FLAG_INTRDISABLED;
#if SOC_GDMA_TX_RX_SHARE_INTERRUPT
isr_flags |= ESP_INTR_FLAG_SHARED;
#endif
intr_handle_t intr = NULL;
ret = esp_intr_alloc_intrstatus(gdma_periph_signals.groups[group->group_id].pairs[pair->pair_id].tx_irq_id, isr_flags,
(uint32_t)gdma_ll_tx_get_interrupt_status_reg(group->hal.dev, pair->pair_id), GDMA_LL_TX_EVENT_MASK,
gdma_default_tx_isr, tx_chan, &intr);
ESP_GOTO_ON_ERROR(ret, err, TAG, "alloc interrupt failed");
tx_chan->base.intr = intr;
portENTER_CRITICAL(&pair->spinlock);
gdma_ll_tx_enable_interrupt(group->hal.dev, pair->pair_id, UINT32_MAX, false); // disable all interupt events
gdma_ll_tx_clear_interrupt_status(group->hal.dev, pair->pair_id, UINT32_MAX); // clear all pending events
portEXIT_CRITICAL(&pair->spinlock);
ESP_LOGD(TAG, "install interrupt service for tx channel (%d,%d)", group->group_id, pair->pair_id);
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err:
return ret;
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}