esp-idf/components/esp_wifi/esp32s2/esp_adapter.c

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2021-09-30 03:12:55 -04:00
/*
* SPDX-FileCopyrightText: 2015-2021 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
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#include <stddef.h>
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <assert.h>
#include <pthread.h>
#include "freertos/FreeRTOS.h"
#include "freertos/task.h"
#include "freertos/queue.h"
#include "freertos/semphr.h"
#include "freertos/event_groups.h"
#include "freertos/xtensa_api.h"
#include "freertos/portmacro.h"
#include "freertos/xtensa_api.h"
#include "esp_types.h"
#include "esp_system.h"
#include "esp_task.h"
#include "esp_intr_alloc.h"
#include "esp_attr.h"
#include "esp_log.h"
#include "esp_event.h"
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#include "esp_heap_caps.h"
#include "esp_private/wifi_os_adapter.h"
#include "esp_private/wifi.h"
#include "esp_phy_init.h"
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#include "esp32s2/clk.h"
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#include "soc/dport_reg.h"
#include "soc/rtc.h"
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#include "soc/syscon_reg.h"
#include "hal/interrupt_controller_hal.h"
#include "phy_init_data.h"
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#include "driver/periph_ctrl.h"
#include "nvs.h"
#include "os.h"
#include "esp_smartconfig.h"
#include "esp_coexist_internal.h"
#include "esp_coexist_adapter.h"
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#define TAG "esp_adapter"
#ifdef CONFIG_PM_ENABLE
extern void wifi_apb80m_request(void);
extern void wifi_apb80m_release(void);
#endif
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/*
If CONFIG_SPIRAM_TRY_ALLOCATE_WIFI_LWIP is enabled. Prefer to allocate a chunk of memory in SPIRAM firstly.
If failed, try to allocate it in internal memory then.
*/
IRAM_ATTR void *wifi_malloc( size_t size )
{
#if CONFIG_SPIRAM_TRY_ALLOCATE_WIFI_LWIP
return heap_caps_malloc_prefer(size, 2, MALLOC_CAP_DEFAULT|MALLOC_CAP_SPIRAM, MALLOC_CAP_DEFAULT|MALLOC_CAP_INTERNAL);
#else
return malloc(size);
#endif
}
/*
If CONFIG_SPIRAM_TRY_ALLOCATE_WIFI_LWIP is enabled. Prefer to allocate a chunk of memory in SPIRAM firstly.
If failed, try to allocate it in internal memory then.
*/
IRAM_ATTR void *wifi_realloc( void *ptr, size_t size )
{
#if CONFIG_SPIRAM_TRY_ALLOCATE_WIFI_LWIP
return heap_caps_realloc_prefer(ptr, size, 2, MALLOC_CAP_DEFAULT|MALLOC_CAP_SPIRAM, MALLOC_CAP_DEFAULT|MALLOC_CAP_INTERNAL);
#else
return realloc(ptr, size);
#endif
}
/*
If CONFIG_SPIRAM_TRY_ALLOCATE_WIFI_LWIP is enabled. Prefer to allocate a chunk of memory in SPIRAM firstly.
If failed, try to allocate it in internal memory then.
*/
IRAM_ATTR void *wifi_calloc( size_t n, size_t size )
{
#if CONFIG_SPIRAM_TRY_ALLOCATE_WIFI_LWIP
return heap_caps_calloc_prefer(n, size, 2, MALLOC_CAP_DEFAULT|MALLOC_CAP_SPIRAM, MALLOC_CAP_DEFAULT|MALLOC_CAP_INTERNAL);
#else
return calloc(n, size);
#endif
}
static void * IRAM_ATTR wifi_zalloc_wrapper(size_t size)
{
void *ptr = wifi_calloc(1, size);
return ptr;
}
wifi_static_queue_t* wifi_create_queue( int queue_len, int item_size)
{
wifi_static_queue_t *queue = NULL;
queue = (wifi_static_queue_t*)heap_caps_malloc(sizeof(wifi_static_queue_t), MALLOC_CAP_INTERNAL|MALLOC_CAP_8BIT);
if (!queue) {
return NULL;
}
#if CONFIG_SPIRAM_USE_MALLOC
queue->storage = heap_caps_calloc(1, sizeof(StaticQueue_t) + (queue_len*item_size), MALLOC_CAP_INTERNAL|MALLOC_CAP_8BIT);
if (!queue->storage) {
goto _error;
}
queue->handle = xQueueCreateStatic( queue_len, item_size, ((uint8_t*)(queue->storage)) + sizeof(StaticQueue_t), (StaticQueue_t*)(queue->storage));
if (!queue->handle) {
goto _error;
}
return queue;
_error:
if (queue) {
if (queue->storage) {
free(queue->storage);
}
free(queue);
}
return NULL;
#else
queue->handle = xQueueCreate( queue_len, item_size);
return queue;
#endif
}
void wifi_delete_queue(wifi_static_queue_t *queue)
{
if (queue) {
vQueueDelete(queue->handle);
#if CONFIG_SPIRAM_USE_MALLOC
if (queue->storage) {
free(queue->storage);
}
#endif
free(queue);
}
}
static void * wifi_create_queue_wrapper(int queue_len, int item_size)
{
return wifi_create_queue(queue_len, item_size);
}
static void wifi_delete_queue_wrapper(void *queue)
{
wifi_delete_queue(queue);
}
static bool IRAM_ATTR env_is_chip_wrapper(void)
{
#ifdef CONFIG_IDF_ENV_FPGA
return false;
#else
return true;
#endif
}
static void set_intr_wrapper(int32_t cpu_no, uint32_t intr_source, uint32_t intr_num, int32_t intr_prio)
{
intr_matrix_set(cpu_no, intr_source, intr_num);
}
static void clear_intr_wrapper(uint32_t intr_source, uint32_t intr_num)
{
}
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static void set_isr_wrapper(int32_t n, void *f, void *arg)
{
xt_set_interrupt_handler(n, (xt_handler)f, arg);
}
static void * spin_lock_create_wrapper(void)
{
portMUX_TYPE tmp = portMUX_INITIALIZER_UNLOCKED;
void *mux = heap_caps_malloc(sizeof(portMUX_TYPE), MALLOC_CAP_8BIT|MALLOC_CAP_INTERNAL);
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if (mux) {
memcpy(mux,&tmp,sizeof(portMUX_TYPE));
return mux;
}
return NULL;
}
static uint32_t IRAM_ATTR wifi_int_disable_wrapper(void *wifi_int_mux)
{
if (xPortInIsrContext()) {
portENTER_CRITICAL_ISR(wifi_int_mux);
} else {
portENTER_CRITICAL(wifi_int_mux);
}
return 0;
}
static void IRAM_ATTR wifi_int_restore_wrapper(void *wifi_int_mux, uint32_t tmp)
{
if (xPortInIsrContext()) {
portEXIT_CRITICAL_ISR(wifi_int_mux);
} else {
portEXIT_CRITICAL(wifi_int_mux);
}
}
static bool IRAM_ATTR is_from_isr_wrapper(void)
{
return !xPortCanYield();
}
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static void IRAM_ATTR task_yield_from_isr_wrapper(void)
{
portYIELD_FROM_ISR();
}
static void * semphr_create_wrapper(uint32_t max, uint32_t init)
{
return (void *)xSemaphoreCreateCounting(max, init);
}
static void semphr_delete_wrapper(void *semphr)
{
vSemaphoreDelete(semphr);
}
static void wifi_thread_semphr_free(void* data)
{
SemaphoreHandle_t *sem = (SemaphoreHandle_t*)(data);
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if (sem) {
vSemaphoreDelete(sem);
}
}
static void * wifi_thread_semphr_get_wrapper(void)
{
static bool s_wifi_thread_sem_key_init = false;
static pthread_key_t s_wifi_thread_sem_key;
SemaphoreHandle_t sem = NULL;
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if (s_wifi_thread_sem_key_init == false) {
if (0 != pthread_key_create(&s_wifi_thread_sem_key, wifi_thread_semphr_free)) {
return NULL;
}
s_wifi_thread_sem_key_init = true;
}
sem = pthread_getspecific(s_wifi_thread_sem_key);
if (!sem) {
sem = xSemaphoreCreateCounting(1, 0);
if (sem) {
pthread_setspecific(s_wifi_thread_sem_key, sem);
ESP_LOGV(TAG, "thread sem create: sem=%p", sem);
}
}
ESP_LOGV(TAG, "thread sem get: sem=%p", sem);
return (void*)sem;
}
static int32_t semphr_take_wrapper(void *semphr, uint32_t block_time_tick)
{
if (block_time_tick == OSI_FUNCS_TIME_BLOCKING) {
return (int32_t)xSemaphoreTake(semphr, portMAX_DELAY);
} else {
return (int32_t)xSemaphoreTake(semphr, block_time_tick);
}
}
static int32_t semphr_give_wrapper(void *semphr)
{
return (int32_t)xSemaphoreGive(semphr);
}
static void *internal_semphr_create_wrapper(uint32_t max, uint32_t init)
{
wifi_static_queue_t *semphr = heap_caps_calloc(1, sizeof(wifi_static_queue_t), MALLOC_CAP_8BIT|MALLOC_CAP_INTERNAL);
if (!semphr) {
return NULL;
}
#ifdef CONFIG_SPIRAM_USE_MALLOC
semphr->storage = heap_caps_calloc(1, sizeof(StaticSemaphore_t), MALLOC_CAP_8BIT|MALLOC_CAP_INTERNAL);
if (!semphr->storage) {
goto _error;
}
semphr->handle = xSemaphoreCreateCountingStatic(max, init, semphr->storage);
if (!semphr->handle) {
goto _error;
}
return (void *)semphr;
_error:
if (semphr) {
if (semphr->storage) {
free(semphr->storage);
}
free(semphr);
}
return NULL;
#else
semphr->handle = xSemaphoreCreateCounting(max, init);
return (void *)semphr;
#endif
}
void internal_semphr_delete_wrapper(void *semphr)
{
wifi_static_queue_t *semphr_item = (wifi_static_queue_t *)semphr;
if (semphr_item) {
if (semphr_item->handle) {
vSemaphoreDelete(semphr_item->handle);
}
#ifdef CONFIG_SPIRAM_USE_MALLOC
if (semphr_item->storage) {
free(semphr_item->storage);
}
#endif
free(semphr_item);
}
}
static int32_t IRAM_ATTR internal_semphr_take_from_isr_wrapper(void *semphr, void *hptw)
{
return (int32_t)xSemaphoreTakeFromISR(((wifi_static_queue_t *)semphr)->handle, hptw);
}
static int32_t IRAM_ATTR internal_semphr_give_from_isr_wrapper(void *semphr, void *hptw)
{
return (int32_t)xSemaphoreGiveFromISR(((wifi_static_queue_t *)semphr)->handle, hptw);
}
static int32_t internal_semphr_take_wrapper(void *semphr, uint32_t block_time_tick)
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{
if (block_time_tick == OSI_FUNCS_TIME_BLOCKING) {
return (int32_t)xSemaphoreTake(((wifi_static_queue_t *)semphr)->handle, portMAX_DELAY);
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} else {
return (int32_t)xSemaphoreTake(((wifi_static_queue_t *)semphr)->handle, block_time_tick);
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}
}
static int32_t internal_semphr_give_wrapper(void *semphr)
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{
return (int32_t)xSemaphoreGive(((wifi_static_queue_t *)semphr)->handle);
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}
static void * recursive_mutex_create_wrapper(void)
{
return (void *)xSemaphoreCreateRecursiveMutex();
}
static void * mutex_create_wrapper(void)
{
return (void *)xSemaphoreCreateMutex();
}
static void mutex_delete_wrapper(void *mutex)
{
vSemaphoreDelete(mutex);
}
static int32_t IRAM_ATTR mutex_lock_wrapper(void *mutex)
{
return (int32_t)xSemaphoreTakeRecursive(mutex, portMAX_DELAY);
}
static int32_t IRAM_ATTR mutex_unlock_wrapper(void *mutex)
{
return (int32_t)xSemaphoreGiveRecursive(mutex);
}
static void * queue_create_wrapper(uint32_t queue_len, uint32_t item_size)
{
return (void *)xQueueCreate(queue_len, item_size);
}
static int32_t queue_send_wrapper(void *queue, void *item, uint32_t block_time_tick)
{
if (block_time_tick == OSI_FUNCS_TIME_BLOCKING) {
return (int32_t)xQueueSend(queue, item, portMAX_DELAY);
} else {
return (int32_t)xQueueSend(queue, item, block_time_tick);
}
}
static int32_t IRAM_ATTR queue_send_from_isr_wrapper(void *queue, void *item, void *hptw)
{
return (int32_t)xQueueSendFromISR(queue, item, hptw);
}
static int32_t queue_send_to_back_wrapper(void *queue, void *item, uint32_t block_time_tick)
{
return (int32_t)xQueueGenericSend(queue, item, block_time_tick, queueSEND_TO_BACK);
}
static int32_t queue_send_to_front_wrapper(void *queue, void *item, uint32_t block_time_tick)
{
return (int32_t)xQueueGenericSend(queue, item, block_time_tick, queueSEND_TO_FRONT);
}
static int32_t queue_recv_wrapper(void *queue, void *item, uint32_t block_time_tick)
{
if (block_time_tick == OSI_FUNCS_TIME_BLOCKING) {
return (int32_t)xQueueReceive(queue, item, portMAX_DELAY);
} else {
return (int32_t)xQueueReceive(queue, item, block_time_tick);
}
}
static uint32_t event_group_wait_bits_wrapper(void *event, uint32_t bits_to_wait_for, int clear_on_exit, int wait_for_all_bits, uint32_t block_time_tick)
{
if (block_time_tick == OSI_FUNCS_TIME_BLOCKING) {
return (uint32_t)xEventGroupWaitBits(event, bits_to_wait_for, clear_on_exit, wait_for_all_bits, portMAX_DELAY);
} else {
return (uint32_t)xEventGroupWaitBits(event, bits_to_wait_for, clear_on_exit, wait_for_all_bits, block_time_tick);
}
}
static int32_t task_create_pinned_to_core_wrapper(void *task_func, const char *name, uint32_t stack_depth, void *param, uint32_t prio, void *task_handle, uint32_t core_id)
{
return (uint32_t)xTaskCreatePinnedToCore(task_func, name, stack_depth, param, prio, task_handle, (core_id < portNUM_PROCESSORS ? core_id : tskNO_AFFINITY));
}
static int32_t task_create_wrapper(void *task_func, const char *name, uint32_t stack_depth, void *param, uint32_t prio, void *task_handle)
{
return (uint32_t)xTaskCreate(task_func, name, stack_depth, param, prio, task_handle);
}
static int32_t IRAM_ATTR task_ms_to_tick_wrapper(uint32_t ms)
{
return (int32_t)(ms / portTICK_PERIOD_MS);
}
static int32_t task_get_max_priority_wrapper(void)
{
return (int32_t)(configMAX_PRIORITIES);
}
static int32_t esp_event_post_wrapper(const char* event_base, int32_t event_id, void* event_data, size_t event_data_size, uint32_t ticks_to_wait)
{
if (ticks_to_wait == OSI_FUNCS_TIME_BLOCKING) {
return (int32_t)esp_event_post(event_base, event_id, event_data, event_data_size, portMAX_DELAY);
} else {
return (int32_t)esp_event_post(event_base, event_id, event_data, event_data_size, ticks_to_wait);
}
}
static void IRAM_ATTR wifi_apb80m_request_wrapper(void)
{
#ifdef CONFIG_PM_ENABLE
wifi_apb80m_request();
#endif
}
static void IRAM_ATTR wifi_apb80m_release_wrapper(void)
{
#ifdef CONFIG_PM_ENABLE
wifi_apb80m_release();
#endif
}
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static void IRAM_ATTR timer_arm_wrapper(void *timer, uint32_t tmout, bool repeat)
{
ets_timer_arm(timer, tmout, repeat);
}
static void IRAM_ATTR timer_disarm_wrapper(void *timer)
{
ets_timer_disarm(timer);
}
static void timer_done_wrapper(void *ptimer)
{
ets_timer_done(ptimer);
}
static void timer_setfn_wrapper(void *ptimer, void *pfunction, void *parg)
{
ets_timer_setfn(ptimer, pfunction, parg);
}
static void IRAM_ATTR timer_arm_us_wrapper(void *ptimer, uint32_t us, bool repeat)
{
ets_timer_arm_us(ptimer, us, repeat);
}
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static void wifi_reset_mac_wrapper(void)
{
periph_module_reset(PERIPH_WIFI_MODULE);
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}
static void wifi_clock_enable_wrapper(void)
{
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wifi_module_enable();
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}
static void wifi_clock_disable_wrapper(void)
{
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wifi_module_disable();
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}
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static int get_time_wrapper(void *t)
{
return os_get_time(t);
}
static uint32_t esp_clk_slowclk_cal_get_wrapper(void)
{
/* The bit width of WiFi light sleep clock calibration is 12 while the one of
* system is 19. It should shift 19 - 12 = 7.
*/
return (esp_clk_slowclk_cal_get() >> (RTC_CLK_CAL_FRACT - SOC_WIFI_LIGHT_SLEEP_CLK_WIDTH));
}
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static void * IRAM_ATTR malloc_internal_wrapper(size_t size)
{
return heap_caps_malloc(size, MALLOC_CAP_8BIT|MALLOC_CAP_DMA|MALLOC_CAP_INTERNAL);
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}
static void * IRAM_ATTR realloc_internal_wrapper(void *ptr, size_t size)
{
return heap_caps_realloc(ptr, size, MALLOC_CAP_8BIT|MALLOC_CAP_DMA|MALLOC_CAP_INTERNAL);
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}
static void * IRAM_ATTR calloc_internal_wrapper(size_t n, size_t size)
{
return heap_caps_calloc(n, size, MALLOC_CAP_8BIT|MALLOC_CAP_DMA|MALLOC_CAP_INTERNAL);
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}
static void * IRAM_ATTR zalloc_internal_wrapper(size_t size)
{
void *ptr = heap_caps_calloc(1, size, MALLOC_CAP_8BIT|MALLOC_CAP_DMA|MALLOC_CAP_INTERNAL);
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return ptr;
}
static int coex_init_wrapper(void)
{
#if CONFIG_EXTERNAL_COEX_ENABLE
return coex_init();
#else
return 0;
#endif
}
static void coex_deinit_wrapper(void)
{
#if CONFIG_EXTERNAL_COEX_ENABLE
coex_deinit();
#endif
}
static int coex_enable_wrapper(void)
{
#if CONFIG_EXTERNAL_COEX_ENABLE
return coex_enable();
#else
return 0;
#endif
}
static void coex_disable_wrapper(void)
{
#if CONFIG_EXTERNAL_COEX_ENABLE
coex_disable();
#endif
}
static IRAM_ATTR uint32_t coex_status_get_wrapper(void)
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{
#if CONFIG_EXTERNAL_COEX_ENABLE
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return coex_status_get();
#else
return 0;
#endif
}
static void coex_condition_set_wrapper(uint32_t type, bool dissatisfy)
{
#if CONFIG_EXTERNAL_COEX_ENABLE
coex_condition_set(type, dissatisfy);
#endif
}
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static int coex_wifi_request_wrapper(uint32_t event, uint32_t latency, uint32_t duration)
{
#if CONFIG_EXTERNAL_COEX_ENABLE
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return coex_wifi_request(event, latency, duration);
#else
return 0;
#endif
}
static IRAM_ATTR int coex_wifi_release_wrapper(uint32_t event)
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{
#if CONFIG_EXTERNAL_COEX_ENABLE
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return coex_wifi_release(event);
#else
return 0;
#endif
}
static int coex_wifi_channel_set_wrapper(uint8_t primary, uint8_t secondary)
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{
#if CONFIG_EXTERNAL_COEX_ENABLE
return coex_wifi_channel_set(primary, secondary);
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#else
return 0;
#endif
}
static IRAM_ATTR int coex_event_duration_get_wrapper(uint32_t event, uint32_t *duration)
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{
#if CONFIG_EXTERNAL_COEX_ENABLE
return coex_event_duration_get(event, duration);
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#else
return 0;
#endif
}
static int coex_pti_get_wrapper(uint32_t event, uint8_t *pti)
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{
#if CONFIG_EXTERNAL_COEX_ENABLE
return coex_pti_get(event, pti);
#else
return 0;
#endif
}
static void coex_schm_status_bit_clear_wrapper(uint32_t type, uint32_t status)
{
#if CONFIG_EXTERNAL_COEX_ENABLE
coex_schm_status_bit_clear(type, status);
#endif
}
static void coex_schm_status_bit_set_wrapper(uint32_t type, uint32_t status)
{
#if CONFIG_EXTERNAL_COEX_ENABLE
coex_schm_status_bit_set(type, status);
#endif
}
static IRAM_ATTR int coex_schm_interval_set_wrapper(uint32_t interval)
{
#if CONFIG_EXTERNAL_COEX_ENABLE
return coex_schm_interval_set(interval);
#else
return 0;
#endif
}
static uint32_t coex_schm_interval_get_wrapper(void)
{
#if CONFIG_EXTERNAL_COEX_ENABLE
return coex_schm_interval_get();
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#else
return 0;
#endif
}
static uint8_t coex_schm_curr_period_get_wrapper(void)
{
#if CONFIG_EXTERNAL_COEX_ENABLE
return coex_schm_curr_period_get();
#else
return 0;
#endif
}
static void * coex_schm_curr_phase_get_wrapper(void)
{
#if CONFIG_EXTERNAL_COEX_ENABLE
return coex_schm_curr_phase_get();
#else
return NULL;
#endif
}
static int coex_schm_curr_phase_idx_set_wrapper(int idx)
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{
#if CONFIG_EXTERNAL_COEX_ENABLE
return coex_schm_curr_phase_idx_set(idx);
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#else
return 0;
#endif
}
static int coex_schm_curr_phase_idx_get_wrapper(void)
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{
#if CONFIG_EXTERNAL_COEX_ENABLE
return coex_schm_curr_phase_idx_get();
#else
return 0;
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#endif
}
static void IRAM_ATTR esp_empty_wrapper(void)
{
}
int32_t IRAM_ATTR coex_is_in_isr_wrapper(void)
{
return !xPortCanYield();
}
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wifi_osi_funcs_t g_wifi_osi_funcs = {
._version = ESP_WIFI_OS_ADAPTER_VERSION,
._env_is_chip = env_is_chip_wrapper,
._set_intr = set_intr_wrapper,
._clear_intr = clear_intr_wrapper,
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._set_isr = set_isr_wrapper,
._ints_on = interrupt_controller_hal_enable_interrupts,
._ints_off = interrupt_controller_hal_disable_interrupts,
._is_from_isr = is_from_isr_wrapper,
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._spin_lock_create = spin_lock_create_wrapper,
._spin_lock_delete = free,
._wifi_int_disable = wifi_int_disable_wrapper,
._wifi_int_restore = wifi_int_restore_wrapper,
._task_yield_from_isr = task_yield_from_isr_wrapper,
._semphr_create = semphr_create_wrapper,
._semphr_delete = semphr_delete_wrapper,
._semphr_take = semphr_take_wrapper,
._semphr_give = semphr_give_wrapper,
._wifi_thread_semphr_get = wifi_thread_semphr_get_wrapper,
._mutex_create = mutex_create_wrapper,
._recursive_mutex_create = recursive_mutex_create_wrapper,
._mutex_delete = mutex_delete_wrapper,
._mutex_lock = mutex_lock_wrapper,
._mutex_unlock = mutex_unlock_wrapper,
._queue_create = queue_create_wrapper,
._queue_delete = (void(*)(void *))vQueueDelete,
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._queue_send = queue_send_wrapper,
._queue_send_from_isr = queue_send_from_isr_wrapper,
._queue_send_to_back = queue_send_to_back_wrapper,
._queue_send_to_front = queue_send_to_front_wrapper,
._queue_recv = queue_recv_wrapper,
._queue_msg_waiting = (uint32_t(*)(void *))uxQueueMessagesWaiting,
._event_group_create = (void *(*)(void))xEventGroupCreate,
._event_group_delete = (void(*)(void *))vEventGroupDelete,
._event_group_set_bits = (uint32_t(*)(void *,uint32_t))xEventGroupSetBits,
._event_group_clear_bits = (uint32_t(*)(void *,uint32_t))xEventGroupClearBits,
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._event_group_wait_bits = event_group_wait_bits_wrapper,
._task_create_pinned_to_core = task_create_pinned_to_core_wrapper,
._task_create = task_create_wrapper,
._task_delete = (void(*)(void *))vTaskDelete,
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._task_delay = vTaskDelay,
._task_ms_to_tick = task_ms_to_tick_wrapper,
._task_get_current_task = (void *(*)(void))xTaskGetCurrentTaskHandle,
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._task_get_max_priority = task_get_max_priority_wrapper,
._malloc = malloc,
._free = free,
._event_post = esp_event_post_wrapper,
._get_free_heap_size = esp_get_free_internal_heap_size,
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._rand = esp_random,
._dport_access_stall_other_cpu_start_wrap = esp_empty_wrapper,
._dport_access_stall_other_cpu_end_wrap = esp_empty_wrapper,
._wifi_apb80m_request = wifi_apb80m_request_wrapper,
._wifi_apb80m_release = wifi_apb80m_release_wrapper,
._phy_disable = esp_phy_disable,
._phy_enable = esp_phy_enable,
._phy_common_clock_enable = esp_phy_common_clock_enable,
._phy_common_clock_disable = esp_phy_common_clock_disable,
._phy_update_country_info = esp_phy_update_country_info,
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._read_mac = esp_read_mac,
._timer_arm = timer_arm_wrapper,
._timer_disarm = timer_disarm_wrapper,
._timer_done = timer_done_wrapper,
._timer_setfn = timer_setfn_wrapper,
._timer_arm_us = timer_arm_us_wrapper,
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._wifi_reset_mac = wifi_reset_mac_wrapper,
._wifi_clock_enable = wifi_clock_enable_wrapper,
._wifi_clock_disable = wifi_clock_disable_wrapper,
._wifi_rtc_enable_iso = esp_empty_wrapper,
._wifi_rtc_disable_iso = esp_empty_wrapper,
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._esp_timer_get_time = esp_timer_get_time,
._nvs_set_i8 = nvs_set_i8,
._nvs_get_i8 = nvs_get_i8,
._nvs_set_u8 = nvs_set_u8,
._nvs_get_u8 = nvs_get_u8,
._nvs_set_u16 = nvs_set_u16,
._nvs_get_u16 = nvs_get_u16,
._nvs_open = nvs_open,
._nvs_close = nvs_close,
._nvs_commit = nvs_commit,
._nvs_set_blob = nvs_set_blob,
._nvs_get_blob = nvs_get_blob,
._nvs_erase_key = nvs_erase_key,
._get_random = os_get_random,
._get_time = get_time_wrapper,
._random = os_random,
._slowclk_cal_get = esp_clk_slowclk_cal_get_wrapper,
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._log_write = esp_log_write,
._log_writev = esp_log_writev,
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._log_timestamp = esp_log_timestamp,
._malloc_internal = malloc_internal_wrapper,
._realloc_internal = realloc_internal_wrapper,
._calloc_internal = calloc_internal_wrapper,
._zalloc_internal = zalloc_internal_wrapper,
._wifi_malloc = wifi_malloc,
._wifi_realloc = wifi_realloc,
._wifi_calloc = wifi_calloc,
._wifi_zalloc = wifi_zalloc_wrapper,
._wifi_create_queue = wifi_create_queue_wrapper,
._wifi_delete_queue = wifi_delete_queue_wrapper,
._coex_init = coex_init_wrapper,
._coex_deinit = coex_deinit_wrapper,
._coex_enable = coex_enable_wrapper,
._coex_disable = coex_disable_wrapper,
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._coex_status_get = coex_status_get_wrapper,
._coex_condition_set = coex_condition_set_wrapper,
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._coex_wifi_request = coex_wifi_request_wrapper,
._coex_wifi_release = coex_wifi_release_wrapper,
._coex_wifi_channel_set = coex_wifi_channel_set_wrapper,
._coex_event_duration_get = coex_event_duration_get_wrapper,
._coex_pti_get = coex_pti_get_wrapper,
._coex_schm_status_bit_clear = coex_schm_status_bit_clear_wrapper,
._coex_schm_status_bit_set = coex_schm_status_bit_set_wrapper,
._coex_schm_interval_set = coex_schm_interval_set_wrapper,
._coex_schm_interval_get = coex_schm_interval_get_wrapper,
._coex_schm_curr_period_get = coex_schm_curr_period_get_wrapper,
._coex_schm_curr_phase_get = coex_schm_curr_phase_get_wrapper,
._coex_schm_curr_phase_idx_set = coex_schm_curr_phase_idx_set_wrapper,
._coex_schm_curr_phase_idx_get = coex_schm_curr_phase_idx_get_wrapper,
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._magic = ESP_WIFI_OS_ADAPTER_MAGIC,
};
coex_adapter_funcs_t g_coex_adapter_funcs = {
._version = COEX_ADAPTER_VERSION,
._task_yield_from_isr = task_yield_from_isr_wrapper,
._semphr_create = internal_semphr_create_wrapper,
._semphr_delete = internal_semphr_delete_wrapper,
._semphr_take_from_isr = internal_semphr_take_from_isr_wrapper,
._semphr_give_from_isr = internal_semphr_give_from_isr_wrapper,
._semphr_take = internal_semphr_take_wrapper,
._semphr_give = internal_semphr_give_wrapper,
._is_in_isr = coex_is_in_isr_wrapper,
._malloc_internal = malloc_internal_wrapper,
._free = free,
._esp_timer_get_time = esp_timer_get_time,
._magic = COEX_ADAPTER_MAGIC,
};