esp-idf/components/bt/controller/esp32s3/bt.c

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/*
* SPDX-FileCopyrightText: 2015-2022 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
#include <stddef.h>
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include "sdkconfig.h"
#include "esp_heap_caps.h"
#include "esp_heap_caps_init.h"
#include "freertos/FreeRTOS.h"
#include "freertos/task.h"
#include "freertos/queue.h"
#include "freertos/semphr.h"
#include "freertos/xtensa_api.h"
#include "freertos/portmacro.h"
#include "xtensa/core-macros.h"
#include "esp_types.h"
#include "esp_mac.h"
#include "esp_random.h"
#include "esp_task.h"
#include "esp_attr.h"
#include "esp_phy_init.h"
#include "esp_bt.h"
#include "esp_err.h"
#include "esp_log.h"
#include "esp_pm.h"
#include "esp_ipc.h"
#include "esp_private/periph_ctrl.h"
#include "esp_private/esp_clk.h"
#include "soc/rtc.h"
#include "soc/rtc_cntl_reg.h"
#include "soc/soc_memory_layout.h"
#include "esp_coexist_internal.h"
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#include "esp_timer.h"
#include "esp_sleep.h"
#include "esp_rom_sys.h"
#if CONFIG_BT_ENABLED
/* Macro definition
************************************************************************
*/
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#define BT_LOG_TAG "BT_INIT"
#define BTDM_INIT_PERIOD (5000) /* ms */
/* Low Power Clock Selection */
#define BTDM_LPCLK_SEL_XTAL (0)
#define BTDM_LPCLK_SEL_XTAL32K (1)
#define BTDM_LPCLK_SEL_RTC_SLOW (2)
#define BTDM_LPCLK_SEL_8M (3)
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// wakeup request sources
enum {
BTDM_ASYNC_WAKEUP_SRC_VHCI = 0,
BTDM_ASYNC_WAKEUP_SRC_DISA,
BTDM_ASYNC_WAKEUP_SRC_TMR,
BTDM_ASYNC_WAKEUP_SRC_MAX,
};
// low power control struct
typedef union {
struct {
uint32_t enable : 1; // whether low power mode is required
uint32_t lpclk_sel : 2; // low power clock source
uint32_t mac_bb_pd : 1; // whether hardware(MAC, BB) force-power-down is required during sleep
uint32_t wakeup_timer_required : 1; // whether system timer is needed
uint32_t no_light_sleep : 1; // do not allow system to enter light sleep after bluetooth is enabled
uint32_t main_xtal_pu : 1; // power up main XTAL
uint32_t reserved : 25; // reserved
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};
uint32_t val;
} btdm_lpcntl_t;
// low power control status
typedef union {
struct {
uint32_t pm_lock_released : 1; // whether power management lock is released
uint32_t mac_bb_pd : 1; // whether hardware(MAC, BB) is powered down
uint32_t phy_enabled : 1; // whether phy is switched on
uint32_t wakeup_timer_started : 1; // whether wakeup timer is started
uint32_t reserved : 28; // reserved
};
uint32_t val;
} btdm_lpstat_t;
/* Sleep and wakeup interval control */
#define BTDM_MIN_SLEEP_DURATION (24) // threshold of interval in half slots to allow to fall into modem sleep
#define BTDM_MODEM_WAKE_UP_DELAY (8) // delay in half slots of modem wake up procedure, including re-enable PHY/RF
#define BT_DEBUG(...)
#define BT_API_CALL_CHECK(info, api_call, ret) \
do{\
esp_err_t __err = (api_call);\
if ((ret) != __err) {\
BT_DEBUG("%s %d %s ret=0x%X\n", __FUNCTION__, __LINE__, (info), __err);\
return __err;\
}\
} while(0)
#define OSI_FUNCS_TIME_BLOCKING 0xffffffff
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#define OSI_VERSION 0x00010006
#define OSI_MAGIC_VALUE 0xFADEBEAD
/* Types definition
************************************************************************
*/
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/* vendor dependent signals to be posted to controller task */
typedef enum {
BTDM_VND_OL_SIG_WAKEUP_TMR = 0,
BTDM_VND_OL_SIG_NUM,
} btdm_vnd_ol_sig_t;
/* prototype of function to handle vendor dependent signals */
typedef void (* btdm_vnd_ol_task_func_t)(void *param);
/* VHCI function interface */
typedef struct vhci_host_callback {
void (*notify_host_send_available)(void); /*!< callback used to notify that the host can send packet to controller */
int (*notify_host_recv)(uint8_t *data, uint16_t len); /*!< callback used to notify that the controller has a packet to send to the host*/
} vhci_host_callback_t;
/* Dram region */
typedef struct {
esp_bt_mode_t mode;
intptr_t start;
intptr_t end;
} btdm_dram_available_region_t;
typedef struct {
void *handle;
void *storage;
} btdm_queue_item_t;
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typedef void (* osi_intr_handler)(void);
/* OSI function */
struct osi_funcs_t {
uint32_t _magic;
uint32_t _version;
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void (*_interrupt_set)(int cpu_no, int intr_source, int interrupt_no, int interrpt_prio);
void (*_interrupt_clear)(int interrupt_source, int interrupt_no);
void (*_interrupt_handler_set)(int interrupt_no, void *fn, void *arg);
void (*_interrupt_disable)(void);
void (*_interrupt_restore)(void);
void (*_task_yield)(void);
void (*_task_yield_from_isr)(void);
void *(*_semphr_create)(uint32_t max, uint32_t init);
void (*_semphr_delete)(void *semphr);
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int (*_semphr_take_from_isr)(void *semphr, void *hptw);
int (*_semphr_give_from_isr)(void *semphr, void *hptw);
int (*_semphr_take)(void *semphr, uint32_t block_time_ms);
int (*_semphr_give)(void *semphr);
void *(*_mutex_create)(void);
void (*_mutex_delete)(void *mutex);
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int (*_mutex_lock)(void *mutex);
int (*_mutex_unlock)(void *mutex);
void *(* _queue_create)(uint32_t queue_len, uint32_t item_size);
void (* _queue_delete)(void *queue);
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int (* _queue_send)(void *queue, void *item, uint32_t block_time_ms);
int (* _queue_send_from_isr)(void *queue, void *item, void *hptw);
int (* _queue_recv)(void *queue, void *item, uint32_t block_time_ms);
int (* _queue_recv_from_isr)(void *queue, void *item, void *hptw);
int (* _task_create)(void *task_func, const char *name, uint32_t stack_depth, void *param, uint32_t prio, void *task_handle, uint32_t core_id);
void (* _task_delete)(void *task_handle);
bool (* _is_in_isr)(void);
int (* _cause_sw_intr_to_core)(int core_id, int intr_no);
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void *(* _malloc)(size_t size);
void *(* _malloc_internal)(size_t size);
void (* _free)(void *p);
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int (* _read_efuse_mac)(uint8_t mac[6]);
void (* _srand)(unsigned int seed);
int (* _rand)(void);
uint32_t (* _btdm_lpcycles_2_hus)(uint32_t cycles, uint32_t *error_corr);
uint32_t (* _btdm_hus_2_lpcycles)(uint32_t hus);
bool (* _btdm_sleep_check_duration)(int32_t *slot_cnt);
void (* _btdm_sleep_enter_phase1)(uint32_t lpcycles); /* called when interrupt is disabled */
void (* _btdm_sleep_enter_phase2)(void);
void (* _btdm_sleep_exit_phase1)(void); /* called from ISR */
void (* _btdm_sleep_exit_phase2)(void); /* called from ISR */
void (* _btdm_sleep_exit_phase3)(void); /* called from task */
void (* _coex_wifi_sleep_set)(bool sleep);
int (* _coex_core_ble_conn_dyn_prio_get)(bool *low, bool *high);
void (* _coex_schm_status_bit_set)(uint32_t type, uint32_t status);
void (* _coex_schm_status_bit_clear)(uint32_t type, uint32_t status);
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void (* _interrupt_on)(int intr_num);
void (* _interrupt_off)(int intr_num);
void (* _esp_hw_power_down)(void);
void (* _esp_hw_power_up)(void);
void (* _ets_backup_dma_copy)(uint32_t reg, uint32_t mem_addr, uint32_t num, bool to_rem);
};
/* External functions or values
************************************************************************
*/
/* not for user call, so don't put to include file */
/* OSI */
extern int btdm_osi_funcs_register(void *osi_funcs);
/* Initialise and De-initialise */
extern int btdm_controller_init(esp_bt_controller_config_t *config_opts);
extern void btdm_controller_deinit(void);
extern int btdm_controller_enable(esp_bt_mode_t mode);
extern void btdm_controller_disable(void);
extern uint8_t btdm_controller_get_mode(void);
extern const char *btdm_controller_get_compile_version(void);
extern void btdm_rf_bb_init_phase2(void); // shall be called after PHY/RF is enabled
/* Sleep */
extern void btdm_controller_enable_sleep(bool enable);
extern uint8_t btdm_controller_get_sleep_mode(void);
extern bool btdm_power_state_active(void);
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extern void btdm_wakeup_request(void);
extern void btdm_in_wakeup_requesting_set(bool in_wakeup_requesting);
/* vendor dependent tasks to be posted and handled by controller task*/
extern int btdm_vnd_offload_task_register(btdm_vnd_ol_sig_t sig, btdm_vnd_ol_task_func_t func);
extern int btdm_vnd_offload_task_deregister(btdm_vnd_ol_sig_t sig);
extern int btdm_vnd_offload_post_from_isr(btdm_vnd_ol_sig_t sig, void *param, bool need_yield);
extern int btdm_vnd_offload_post(btdm_vnd_ol_sig_t sig, void *param);
/* Low Power Clock */
extern bool btdm_lpclk_select_src(uint32_t sel);
extern bool btdm_lpclk_set_div(uint32_t div);
extern int btdm_hci_tl_io_event_post(int event);
/* VHCI */
extern bool API_vhci_host_check_send_available(void);
extern void API_vhci_host_send_packet(uint8_t *data, uint16_t len);
extern int API_vhci_host_register_callback(const vhci_host_callback_t *callback);
/* TX power */
extern int ble_txpwr_set(int power_type, int power_level);
extern int ble_txpwr_get(int power_type);
extern uint16_t l2c_ble_link_get_tx_buf_num(void);
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extern int coex_core_ble_conn_dyn_prio_get(bool *low, bool *high);
extern void coex_pti_v2(void);
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extern bool btdm_deep_sleep_mem_init(void);
extern void btdm_deep_sleep_mem_deinit(void);
extern void btdm_ble_power_down_dma_copy(bool copy);
extern uint8_t btdm_sleep_clock_sync(void);
extern void sdk_config_extend_set_pll_track(bool enable);
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#if CONFIG_MAC_BB_PD
extern void esp_mac_bb_power_down(void);
extern void esp_mac_bb_power_up(void);
extern void ets_backup_dma_copy(uint32_t reg, uint32_t mem_addr, uint32_t num, bool to_mem);
#endif
extern char _bss_start_btdm;
extern char _bss_end_btdm;
extern char _data_start_btdm;
extern char _data_end_btdm;
extern uint32_t _data_start_btdm_rom;
extern uint32_t _data_end_btdm_rom;
extern uint32_t _bt_bss_start;
extern uint32_t _bt_bss_end;
extern uint32_t _btdm_bss_start;
extern uint32_t _btdm_bss_end;
extern uint32_t _bt_data_start;
extern uint32_t _bt_data_end;
extern uint32_t _btdm_data_start;
extern uint32_t _btdm_data_end;
extern char _bt_tmp_bss_start;
extern char _bt_tmp_bss_end;
/* Local Function Declare
*********************************************************************
*/
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static void interrupt_set_wrapper(int cpu_no, int intr_source, int intr_num, int intr_prio);
static void interrupt_clear_wrapper(int intr_source, int intr_num);
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static void interrupt_handler_set_wrapper(int n, void *fn, void *arg);
static void interrupt_disable(void);
static void interrupt_restore(void);
static void task_yield_from_isr(void);
static void *semphr_create_wrapper(uint32_t max, uint32_t init);
static void semphr_delete_wrapper(void *semphr);
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static int semphr_take_from_isr_wrapper(void *semphr, void *hptw);
static int semphr_give_from_isr_wrapper(void *semphr, void *hptw);
static int semphr_take_wrapper(void *semphr, uint32_t block_time_ms);
static int semphr_give_wrapper(void *semphr);
static void *mutex_create_wrapper(void);
static void mutex_delete_wrapper(void *mutex);
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static int mutex_lock_wrapper(void *mutex);
static int mutex_unlock_wrapper(void *mutex);
static void *queue_create_wrapper(uint32_t queue_len, uint32_t item_size);
static void queue_delete_wrapper(void *queue);
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static int queue_send_wrapper(void *queue, void *item, uint32_t block_time_ms);
static int queue_send_from_isr_wrapper(void *queue, void *item, void *hptw);
static int queue_recv_wrapper(void *queue, void *item, uint32_t block_time_ms);
static int queue_recv_from_isr_wrapper(void *queue, void *item, void *hptw);
static int task_create_wrapper(void *task_func, const char *name, uint32_t stack_depth, void *param, uint32_t prio, void *task_handle, uint32_t core_id);
static void task_delete_wrapper(void *task_handle);
static bool is_in_isr_wrapper(void);
static void *malloc_internal_wrapper(size_t size);
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static int read_mac_wrapper(uint8_t mac[6]);
static void srand_wrapper(unsigned int seed);
static int rand_wrapper(void);
static uint32_t btdm_lpcycles_2_hus(uint32_t cycles, uint32_t *error_corr);
static uint32_t btdm_hus_2_lpcycles(uint32_t hus);
static bool btdm_sleep_check_duration(int32_t *slot_cnt);
static void btdm_sleep_enter_phase1_wrapper(uint32_t lpcycles);
static void btdm_sleep_enter_phase2_wrapper(void);
static void btdm_sleep_exit_phase3_wrapper(void);
static void coex_wifi_sleep_set_hook(bool sleep);
static void coex_schm_status_bit_set_wrapper(uint32_t type, uint32_t status);
static void coex_schm_status_bit_clear_wrapper(uint32_t type, uint32_t status);
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static void interrupt_on_wrapper(int intr_num);
static void interrupt_off_wrapper(int intr_num);
static void btdm_hw_mac_power_up_wrapper(void);
static void btdm_hw_mac_power_down_wrapper(void);
static void btdm_backup_dma_copy_wrapper(uint32_t reg, uint32_t mem_addr, uint32_t num, bool to_mem);
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static void btdm_slp_tmr_callback(void *arg);
/* Local variable definition
***************************************************************************
*/
/* OSI funcs */
static const struct osi_funcs_t osi_funcs_ro = {
._magic = OSI_MAGIC_VALUE,
._version = OSI_VERSION,
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._interrupt_set = interrupt_set_wrapper,
._interrupt_clear = interrupt_clear_wrapper,
._interrupt_handler_set = interrupt_handler_set_wrapper,
._interrupt_disable = interrupt_disable,
._interrupt_restore = interrupt_restore,
._task_yield = vPortYield,
._task_yield_from_isr = task_yield_from_isr,
._semphr_create = semphr_create_wrapper,
._semphr_delete = semphr_delete_wrapper,
._semphr_take_from_isr = semphr_take_from_isr_wrapper,
._semphr_give_from_isr = semphr_give_from_isr_wrapper,
._semphr_take = semphr_take_wrapper,
._semphr_give = semphr_give_wrapper,
._mutex_create = 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 = queue_delete_wrapper,
._queue_send = queue_send_wrapper,
._queue_send_from_isr = queue_send_from_isr_wrapper,
._queue_recv = queue_recv_wrapper,
._queue_recv_from_isr = queue_recv_from_isr_wrapper,
._task_create = task_create_wrapper,
._task_delete = task_delete_wrapper,
._is_in_isr = is_in_isr_wrapper,
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._cause_sw_intr_to_core = NULL,
._malloc = malloc,
._malloc_internal = malloc_internal_wrapper,
._free = free,
._read_efuse_mac = read_mac_wrapper,
._srand = srand_wrapper,
._rand = rand_wrapper,
._btdm_lpcycles_2_hus = btdm_lpcycles_2_hus,
._btdm_hus_2_lpcycles = btdm_hus_2_lpcycles,
._btdm_sleep_check_duration = btdm_sleep_check_duration,
._btdm_sleep_enter_phase1 = btdm_sleep_enter_phase1_wrapper,
._btdm_sleep_enter_phase2 = btdm_sleep_enter_phase2_wrapper,
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._btdm_sleep_exit_phase1 = NULL,
._btdm_sleep_exit_phase2 = NULL,
._btdm_sleep_exit_phase3 = btdm_sleep_exit_phase3_wrapper,
._coex_wifi_sleep_set = coex_wifi_sleep_set_hook,
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._coex_core_ble_conn_dyn_prio_get = coex_core_ble_conn_dyn_prio_get,
._coex_schm_status_bit_set = coex_schm_status_bit_set_wrapper,
._coex_schm_status_bit_clear = coex_schm_status_bit_clear_wrapper,
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._interrupt_on = interrupt_on_wrapper,
._interrupt_off = interrupt_off_wrapper,
._esp_hw_power_down = btdm_hw_mac_power_down_wrapper,
._esp_hw_power_up = btdm_hw_mac_power_up_wrapper,
._ets_backup_dma_copy = btdm_backup_dma_copy_wrapper,
};
static DRAM_ATTR struct osi_funcs_t *osi_funcs_p;
/* Static variable declare */
static DRAM_ATTR esp_bt_controller_status_t btdm_controller_status = ESP_BT_CONTROLLER_STATUS_IDLE;
static DRAM_ATTR portMUX_TYPE global_int_mux = portMUX_INITIALIZER_UNLOCKED;
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// low power control struct
static DRAM_ATTR btdm_lpcntl_t s_lp_cntl;
// low power status struct
static DRAM_ATTR btdm_lpstat_t s_lp_stat;
// measured average low power clock period in micro seconds
static DRAM_ATTR uint32_t btdm_lpcycle_us = 0;
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// number of fractional bit for btdm_lpcycle_us
static DRAM_ATTR uint8_t btdm_lpcycle_us_frac = 0;
// semaphore used for blocking VHCI API to wait for controller to wake up
static DRAM_ATTR QueueHandle_t s_wakeup_req_sem = NULL;
// wakeup timer
static DRAM_ATTR esp_timer_handle_t s_btdm_slp_tmr;
#ifdef CONFIG_PM_ENABLE
static DRAM_ATTR esp_pm_lock_handle_t s_pm_lock;
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// pm_lock to prevent light sleep due to incompatibility currently
static DRAM_ATTR esp_pm_lock_handle_t s_light_sleep_pm_lock;
#endif
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void IRAM_ATTR btdm_hw_mac_power_down_wrapper(void)
{
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#if CONFIG_MAC_BB_PD
esp_mac_bb_power_down();
#endif
}
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void IRAM_ATTR btdm_hw_mac_power_up_wrapper(void)
{
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#if CONFIG_MAC_BB_PD
esp_mac_bb_power_up();
#endif
}
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void IRAM_ATTR btdm_backup_dma_copy_wrapper(uint32_t reg, uint32_t mem_addr, uint32_t num, bool to_mem)
{
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#if CONFIG_MAC_BB_PD
ets_backup_dma_copy(reg, mem_addr, num, to_mem);
#endif
}
static inline void esp_bt_power_domain_on(void)
{
// Bluetooth module power up
esp_wifi_bt_power_domain_on();
}
static inline void esp_bt_power_domain_off(void)
{
// Bluetooth module power down
esp_wifi_bt_power_domain_off();
}
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static void interrupt_set_wrapper(int cpu_no, int intr_source, int intr_num, int intr_prio)
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{
esp_rom_route_intr_matrix(cpu_no, intr_source, intr_num);
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}
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static void interrupt_clear_wrapper(int intr_source, int intr_num)
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{
}
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static void interrupt_handler_set_wrapper(int n, void *fn, void *arg)
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{
xt_set_interrupt_handler(n, (xt_handler)fn, arg);
}
static void interrupt_on_wrapper(int intr_num)
{
xt_ints_on(1 << intr_num);
}
static void interrupt_off_wrapper(int intr_num)
{
xt_ints_off(1 << intr_num);
}
static void IRAM_ATTR interrupt_disable(void)
{
if (xPortInIsrContext()) {
portENTER_CRITICAL_ISR(&global_int_mux);
} else {
portENTER_CRITICAL(&global_int_mux);
}
}
static void IRAM_ATTR interrupt_restore(void)
{
if (xPortInIsrContext()) {
portEXIT_CRITICAL_ISR(&global_int_mux);
} else {
portEXIT_CRITICAL(&global_int_mux);
}
}
static void IRAM_ATTR task_yield_from_isr(void)
{
portYIELD_FROM_ISR();
}
static void *semphr_create_wrapper(uint32_t max, uint32_t init)
{
btdm_queue_item_t *semphr = heap_caps_calloc(1, sizeof(btdm_queue_item_t), MALLOC_CAP_8BIT|MALLOC_CAP_INTERNAL);
assert(semphr);
#if !CONFIG_SPIRAM_USE_MALLOC
semphr->handle = (void *)xSemaphoreCreateCounting(max, init);
#else
semphr->storage = heap_caps_malloc(sizeof(StaticQueue_t), MALLOC_CAP_INTERNAL|MALLOC_CAP_8BIT);
assert(semphr->storage);
semphr->handle = (void *)xSemaphoreCreateCountingStatic(max, init, semphr->storage);
#endif
assert(semphr->handle);
return semphr;
}
static void semphr_delete_wrapper(void *semphr)
{
if (semphr == NULL) {
return;
}
btdm_queue_item_t *semphr_item = (btdm_queue_item_t *)semphr;
if (semphr_item->handle) {
vSemaphoreDelete(semphr_item->handle);
}
#ifdef CONFIG_SPIRAM_USE_MALLOC
if (semphr_item->storage) {
free(semphr_item->storage);
}
#endif
free(semphr);
}
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static int IRAM_ATTR semphr_take_from_isr_wrapper(void *semphr, void *hptw)
{
return (int)xSemaphoreTakeFromISR(((btdm_queue_item_t *)semphr)->handle, hptw);
}
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static int IRAM_ATTR semphr_give_from_isr_wrapper(void *semphr, void *hptw)
{
return (int)xSemaphoreGiveFromISR(((btdm_queue_item_t *)semphr)->handle, hptw);
}
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static int semphr_take_wrapper(void *semphr, uint32_t block_time_ms)
{
if (block_time_ms == OSI_FUNCS_TIME_BLOCKING) {
return (int)xSemaphoreTake(((btdm_queue_item_t *)semphr)->handle, portMAX_DELAY);
} else {
return (int)xSemaphoreTake(((btdm_queue_item_t *)semphr)->handle, block_time_ms / portTICK_PERIOD_MS);
}
}
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static int semphr_give_wrapper(void *semphr)
{
return (int)xSemaphoreGive(((btdm_queue_item_t *)semphr)->handle);
}
static void *mutex_create_wrapper(void)
{
return (void *)xSemaphoreCreateMutex();
}
static void mutex_delete_wrapper(void *mutex)
{
vSemaphoreDelete(mutex);
}
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static int mutex_lock_wrapper(void *mutex)
{
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return (int)xSemaphoreTake(mutex, portMAX_DELAY);
}
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static int mutex_unlock_wrapper(void *mutex)
{
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return (int)xSemaphoreGive(mutex);
}
static void *queue_create_wrapper(uint32_t queue_len, uint32_t item_size)
{
btdm_queue_item_t *queue = NULL;
queue = (btdm_queue_item_t*)heap_caps_malloc(sizeof(btdm_queue_item_t), MALLOC_CAP_INTERNAL|MALLOC_CAP_8BIT);
assert(queue);
#if CONFIG_SPIRAM_USE_MALLOC
queue->storage = heap_caps_calloc(1, sizeof(StaticQueue_t) + (queue_len*item_size), MALLOC_CAP_INTERNAL|MALLOC_CAP_8BIT);
assert(queue->storage);
queue->handle = xQueueCreateStatic( queue_len, item_size, ((uint8_t*)(queue->storage)) + sizeof(StaticQueue_t), (StaticQueue_t*)(queue->storage));
assert(queue->handle);
#else
queue->handle = xQueueCreate( queue_len, item_size);
assert(queue->handle);
#endif
return queue;
}
static void queue_delete_wrapper(void *queue)
{
btdm_queue_item_t *queue_item = (btdm_queue_item_t *)queue;
if (queue_item) {
if(queue_item->handle){
vQueueDelete(queue_item->handle);
}
#if CONFIG_SPIRAM_USE_MALLOC
if (queue_item->storage) {
free(queue_item->storage);
}
#endif
free(queue_item);
}
}
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static int queue_send_wrapper(void *queue, void *item, uint32_t block_time_ms)
{
if (block_time_ms == OSI_FUNCS_TIME_BLOCKING) {
return (int)xQueueSend(((btdm_queue_item_t*)queue)->handle, item, portMAX_DELAY);
} else {
return (int)xQueueSend(((btdm_queue_item_t*)queue)->handle, item, block_time_ms / portTICK_PERIOD_MS);
}
}
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static int IRAM_ATTR queue_send_from_isr_wrapper(void *queue, void *item, void *hptw)
{
return (int)xQueueSendFromISR(((btdm_queue_item_t*)queue)->handle, item, hptw);
}
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static int queue_recv_wrapper(void *queue, void *item, uint32_t block_time_ms)
{
if (block_time_ms == OSI_FUNCS_TIME_BLOCKING) {
return (int)xQueueReceive(((btdm_queue_item_t*)queue)->handle, item, portMAX_DELAY);
} else {
return (int)xQueueReceive(((btdm_queue_item_t*)queue)->handle, item, block_time_ms / portTICK_PERIOD_MS);
}
}
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static int IRAM_ATTR queue_recv_from_isr_wrapper(void *queue, void *item, void *hptw)
{
return (int)xQueueReceiveFromISR(((btdm_queue_item_t*)queue)->handle, item, hptw);
}
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static int task_create_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 void task_delete_wrapper(void *task_handle)
{
vTaskDelete(task_handle);
}
static bool IRAM_ATTR is_in_isr_wrapper(void)
{
return (bool)xPortInIsrContext();
}
static void *malloc_internal_wrapper(size_t size)
{
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void *p = heap_caps_malloc(size, MALLOC_CAP_DEFAULT|MALLOC_CAP_INTERNAL|MALLOC_CAP_DMA);
if(p == NULL) {
ESP_LOGE(BT_LOG_TAG, "Malloc failed");
}
return p;
}
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static int IRAM_ATTR read_mac_wrapper(uint8_t mac[6])
{
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int ret = esp_read_mac(mac, ESP_MAC_BT);
ESP_LOGI(BT_LOG_TAG, "Bluetooth MAC: %02x:%02x:%02x:%02x:%02x:%02x\n",
mac[0], mac[1], mac[2], mac[3], mac[4], mac[5]);
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return ret;
}
static void IRAM_ATTR srand_wrapper(unsigned int seed)
{
/* empty function */
}
static int IRAM_ATTR rand_wrapper(void)
{
return (int)esp_random();
}
static uint32_t IRAM_ATTR btdm_lpcycles_2_hus(uint32_t cycles, uint32_t *error_corr)
{
uint64_t local_error_corr = (error_corr == NULL) ? 0 : (uint64_t)(*error_corr);
uint64_t res = (uint64_t)btdm_lpcycle_us * cycles * 2;
local_error_corr += res;
res = (local_error_corr >> btdm_lpcycle_us_frac);
local_error_corr -= (res << btdm_lpcycle_us_frac);
if (error_corr) {
*error_corr = (uint32_t) local_error_corr;
}
return (uint32_t)res;
}
/*
* @brief Converts a duration in half us into a number of low power clock cycles.
*/
static uint32_t IRAM_ATTR btdm_hus_2_lpcycles(uint32_t hus)
{
// The number of sleep duration(us) should not lead to overflow. Thrs: 100s
// Compute the sleep duration in us to low power clock cycles, with calibration result applied
// clock measurement is conducted
uint64_t cycles = ((uint64_t)(hus) << btdm_lpcycle_us_frac) / btdm_lpcycle_us;
cycles >>= 1;
return (uint32_t)cycles;
}
static bool IRAM_ATTR btdm_sleep_check_duration(int32_t *half_slot_cnt)
{
if (*half_slot_cnt < BTDM_MIN_SLEEP_DURATION) {
return false;
}
/* wake up in advance considering the delay in enabling PHY/RF */
*half_slot_cnt -= BTDM_MODEM_WAKE_UP_DELAY;
return true;
}
static void btdm_sleep_enter_phase1_wrapper(uint32_t lpcycles)
{
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if (s_lp_cntl.wakeup_timer_required == 0) {
return;
}
// start a timer to wake up and acquire the pm_lock before modem_sleep awakes
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uint32_t us_to_sleep = btdm_lpcycles_2_hus(lpcycles, NULL) >> 1;
#define BTDM_MIN_TIMER_UNCERTAINTY_US (1800)
assert(us_to_sleep > BTDM_MIN_TIMER_UNCERTAINTY_US);
// allow a maximum time uncertainty to be about 488ppm(1/2048) at least as clock drift
// and set the timer in advance
uint32_t uncertainty = (us_to_sleep >> 11);
if (uncertainty < BTDM_MIN_TIMER_UNCERTAINTY_US) {
uncertainty = BTDM_MIN_TIMER_UNCERTAINTY_US;
}
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assert (s_lp_stat.wakeup_timer_started == 0);
if (esp_timer_start_once(s_btdm_slp_tmr, us_to_sleep - uncertainty) == ESP_OK) {
s_lp_stat.wakeup_timer_started = 1;
} else {
ESP_LOGE(BT_LOG_TAG, "timer start failed");
assert(0);
}
}
static void btdm_sleep_enter_phase2_wrapper(void)
{
if (btdm_controller_get_sleep_mode() == ESP_BT_SLEEP_MODE_1) {
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if (s_lp_stat.phy_enabled) {
esp_phy_disable();
s_lp_stat.phy_enabled = 0;
} else {
assert(0);
}
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if (s_lp_stat.pm_lock_released == 0) {
#ifdef CONFIG_PM_ENABLE
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esp_pm_lock_release(s_pm_lock);
#endif
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s_lp_stat.pm_lock_released = 1;
}
}
}
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static void btdm_sleep_exit_phase3_wrapper(void)
{
#ifdef CONFIG_PM_ENABLE
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// If BT wakeup before esp timer coming due to timer task have no chance to run.
// Then we will not run into `btdm_sleep_exit_phase0` and acquire PM lock,
// Do it again here to fix this issue.
if (s_lp_stat.pm_lock_released) {
esp_pm_lock_acquire(s_pm_lock);
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s_lp_stat.pm_lock_released = 0;
}
#endif
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if (btdm_controller_get_sleep_mode() == ESP_BT_SLEEP_MODE_1) {
if (s_lp_stat.phy_enabled == 0) {
esp_phy_enable();
s_lp_stat.phy_enabled = 1;
}
}
// If BT wakeup before esp timer coming due to timer task have no chance to run.
// Then we will not run into `btdm_sleep_exit_phase0` and stop esp timer,
// Do it again here to fix this issue.
if (s_lp_cntl.wakeup_timer_required && s_lp_stat.wakeup_timer_started) {
esp_timer_stop(s_btdm_slp_tmr);
s_lp_stat.wakeup_timer_started = 0;
}
// wait for the sleep state to change
// the procedure duration is at micro-second level or less
while (btdm_sleep_clock_sync()) {
;
}
}
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static void IRAM_ATTR btdm_sleep_exit_phase0(void *param)
{
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assert(s_lp_cntl.enable == 1);
#ifdef CONFIG_PM_ENABLE
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if (s_lp_stat.pm_lock_released) {
esp_pm_lock_acquire(s_pm_lock);
s_lp_stat.pm_lock_released = 0;
}
#endif
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int event = (int) param;
if (event == BTDM_ASYNC_WAKEUP_SRC_VHCI || event == BTDM_ASYNC_WAKEUP_SRC_DISA) {
btdm_wakeup_request();
}
if (s_lp_cntl.wakeup_timer_required && s_lp_stat.wakeup_timer_started) {
esp_timer_stop(s_btdm_slp_tmr);
s_lp_stat.wakeup_timer_started = 0;
}
if (event == BTDM_ASYNC_WAKEUP_SRC_VHCI || event == BTDM_ASYNC_WAKEUP_SRC_DISA) {
semphr_give_wrapper(s_wakeup_req_sem);
}
}
static void IRAM_ATTR btdm_slp_tmr_callback(void *arg)
{
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#ifdef CONFIG_PM_ENABLE
btdm_vnd_offload_post(BTDM_VND_OL_SIG_WAKEUP_TMR, (void *)BTDM_ASYNC_WAKEUP_SRC_TMR);
#endif
}
static bool async_wakeup_request(int event)
{
if (s_lp_cntl.enable == 0) {
return false;
}
bool do_wakeup_request = false;
switch (event) {
case BTDM_ASYNC_WAKEUP_SRC_VHCI:
case BTDM_ASYNC_WAKEUP_SRC_DISA:
btdm_in_wakeup_requesting_set(true);
if (!btdm_power_state_active()) {
btdm_vnd_offload_post(BTDM_VND_OL_SIG_WAKEUP_TMR, (void *)event);
do_wakeup_request = true;
semphr_take_wrapper(s_wakeup_req_sem, OSI_FUNCS_TIME_BLOCKING);
}
break;
default:
break;
}
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return do_wakeup_request;
}
static void async_wakeup_request_end(int event)
{
if (s_lp_cntl.enable == 0) {
return;
}
bool allow_to_sleep;
switch (event) {
case BTDM_ASYNC_WAKEUP_SRC_VHCI:
case BTDM_ASYNC_WAKEUP_SRC_DISA:
allow_to_sleep = true;
break;
default:
allow_to_sleep = true;
break;
}
if (allow_to_sleep) {
btdm_in_wakeup_requesting_set(false);
}
return;
}
static void coex_schm_status_bit_set_wrapper(uint32_t type, uint32_t status)
{
#if CONFIG_SW_COEXIST_ENABLE
coex_schm_status_bit_set(type, status);
#endif
}
static void coex_schm_status_bit_clear_wrapper(uint32_t type, uint32_t status)
{
#if CONFIG_SW_COEXIST_ENABLE
coex_schm_status_bit_clear(type, status);
#endif
}
bool esp_vhci_host_check_send_available(void)
{
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if (btdm_controller_status != ESP_BT_CONTROLLER_STATUS_ENABLED) {
return false;
}
return API_vhci_host_check_send_available();
}
void esp_vhci_host_send_packet(uint8_t *data, uint16_t len)
{
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if (btdm_controller_status != ESP_BT_CONTROLLER_STATUS_ENABLED) {
return;
}
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async_wakeup_request(BTDM_ASYNC_WAKEUP_SRC_VHCI);
API_vhci_host_send_packet(data, len);
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async_wakeup_request_end(BTDM_ASYNC_WAKEUP_SRC_VHCI);
}
esp_err_t esp_vhci_host_register_callback(const esp_vhci_host_callback_t *callback)
{
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if (btdm_controller_status != ESP_BT_CONTROLLER_STATUS_ENABLED) {
return ESP_FAIL;
}
return API_vhci_host_register_callback((const vhci_host_callback_t *)callback) == 0 ? ESP_OK : ESP_FAIL;
}
static void btdm_controller_mem_init(void)
{
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extern void btdm_controller_rom_data_init(void );
btdm_controller_rom_data_init();
}
esp_err_t esp_bt_controller_mem_release(esp_bt_mode_t mode)
{
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ESP_LOGW(BT_LOG_TAG, "%s not implemented, return OK", __func__);
Reclaim BT/BTDM BSS and Data in bluetooth memory release function 1. Modify esp_bt_controller_mem_release() to release BTDM BSS and Data to heap if ESP_BT_MODE_BTDM mode is passed to it 2. Add a new API esp_bt_mem_release() which internally calls esp_bt_controller_mem_release() with the provided mode and then if mode is ESP_BT_MODE_BTDM, releases BT BSS and Data to heap. Background: For Wi-Fi and BT/BLE applications, for e.g. the usecase is like when Bluetooth is used for provisioning and once the device is connected to the Wi-Fi AP, we can turn off Bluetooth completely. In such scenarios, it should be possible to reclaim all the memory of Bluetooth. Although, currently this does not happen. Experiment: Made the following modifications to examples/bluetooth/gatt_server : 1. Added support of simple_wifi to it 2. Moved all the bluetooth related code under CONFIG_BT_ENABLED config option 3. Calculated the free heap in 2 similar scenarios: i. Disabled BT (CONFIG_BT_ENABLED undefined) and checked the free heap after STA connected ii. Kept BT enabled and disabled it after STA connected and checked the free heap Ideally, the numbers for i., ii. above should have been similar. But there was a delta of almost 30-31K. (i. > ii.) 4. Through make size-components checked the common BSS for libbta.a and libbtdm_app.a and found it to be almost 30K. Data is around 1K Solution: 1. Modified the linker script to mark the BSS and Data for these libraries and free it when ESP_BT_MODE_BTDM mode is passed to mem release APIs. 2. Verified that the free heap is comparable for i. and ii. above. Note: It is known that once this is done, Bluetooth can only be used again post reboot. Signed-off-by: Hrishikesh Dhayagude <hrishi@espressif.com>
2018-07-11 02:22:32 -04:00
return ESP_OK;
}
esp_err_t esp_bt_mem_release(esp_bt_mode_t mode)
{
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ESP_LOGW(BT_LOG_TAG, "%s not implemented, return OK", __func__);
return ESP_OK;
}
#if CONFIG_MAC_BB_PD
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static void IRAM_ATTR btdm_mac_bb_power_down_cb(void)
{
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if (s_lp_cntl.mac_bb_pd && s_lp_stat.mac_bb_pd == 0) {
btdm_ble_power_down_dma_copy(true);
s_lp_stat.mac_bb_pd = 1;
}
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}
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static void IRAM_ATTR btdm_mac_bb_power_up_cb(void)
{
if (s_lp_cntl.mac_bb_pd && s_lp_stat.mac_bb_pd) {
btdm_ble_power_down_dma_copy(false);
s_lp_stat.mac_bb_pd = 0;
}
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}
#endif
esp_err_t esp_bt_controller_init(esp_bt_controller_config_t *cfg)
{
esp_err_t err = ESP_FAIL;
if (btdm_controller_status != ESP_BT_CONTROLLER_STATUS_IDLE) {
return ESP_ERR_INVALID_STATE;
}
if (cfg == NULL) {
return ESP_ERR_INVALID_ARG;
}
if (cfg->controller_task_prio != ESP_TASK_BT_CONTROLLER_PRIO
|| cfg->controller_task_stack_size < ESP_TASK_BT_CONTROLLER_STACK) {
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ESP_LOGE(BT_LOG_TAG, "Invalid controller task prioriy or stack size");
return ESP_ERR_INVALID_ARG;
}
if (cfg->bluetooth_mode != ESP_BT_MODE_BLE) {
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ESP_LOGE(BT_LOG_TAG, "%s controller only support BLE only mode", __func__);
return ESP_ERR_NOT_SUPPORTED;
}
if (cfg->bluetooth_mode & ESP_BT_MODE_BLE) {
if ((cfg->ble_max_act <= 0) || (cfg->ble_max_act > BT_CTRL_BLE_MAX_ACT_LIMIT)) {
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ESP_LOGE(BT_LOG_TAG, "Invalid value of ble_max_act");
return ESP_ERR_INVALID_ARG;
}
}
if (cfg->sleep_mode == ESP_BT_SLEEP_MODE_1) {
if (cfg->sleep_clock == ESP_BT_SLEEP_CLOCK_NONE) {
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ESP_LOGE(BT_LOG_TAG, "SLEEP_MODE_1 enabled but sleep clock not configured");
return ESP_ERR_INVALID_ARG;
}
}
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// overwrite some parameters
cfg->magic = ESP_BT_CTRL_CONFIG_MAGIC_VAL;
sdk_config_extend_set_pll_track(false);
#if CONFIG_MAC_BB_PD
esp_mac_bb_pd_mem_init();
#endif
esp_phy_pd_mem_init();
esp_bt_power_domain_on();
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btdm_controller_mem_init();
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#if CONFIG_MAC_BB_PD
if (esp_register_mac_bb_pd_callback(btdm_mac_bb_power_down_cb) != 0) {
err = ESP_ERR_INVALID_ARG;
goto error;
}
if (esp_register_mac_bb_pu_callback(btdm_mac_bb_power_up_cb) != 0) {
err = ESP_ERR_INVALID_ARG;
goto error;
}
#endif
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osi_funcs_p = (struct osi_funcs_t *)malloc_internal_wrapper(sizeof(struct osi_funcs_t));
if (osi_funcs_p == NULL) {
return ESP_ERR_NO_MEM;
}
memcpy(osi_funcs_p, &osi_funcs_ro, sizeof(struct osi_funcs_t));
if (btdm_osi_funcs_register(osi_funcs_p) != 0) {
return ESP_ERR_INVALID_ARG;
}
ESP_LOGI(BT_LOG_TAG, "BT controller compile version [%s]", btdm_controller_get_compile_version());
// init low-power control resources
do {
// set default values for global states or resources
s_lp_stat.val = 0;
s_lp_cntl.val = 0;
s_lp_cntl.main_xtal_pu = 0;
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s_wakeup_req_sem = NULL;
s_btdm_slp_tmr = NULL;
// configure and initialize resources
s_lp_cntl.enable = (cfg->sleep_mode == ESP_BT_SLEEP_MODE_1) ? 1 : 0;
s_lp_cntl.no_light_sleep = 0;
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if (s_lp_cntl.enable) {
#if CONFIG_MAC_BB_PD
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if (!btdm_deep_sleep_mem_init()) {
err = ESP_ERR_NO_MEM;
goto error;
}
s_lp_cntl.mac_bb_pd = 1;
#endif
#ifdef CONFIG_PM_ENABLE
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s_lp_cntl.wakeup_timer_required = 1;
#endif
// async wakeup semaphore for VHCI
s_wakeup_req_sem = semphr_create_wrapper(1, 0);
if (s_wakeup_req_sem == NULL) {
err = ESP_ERR_NO_MEM;
goto error;
}
btdm_vnd_offload_task_register(BTDM_VND_OL_SIG_WAKEUP_TMR, btdm_sleep_exit_phase0);
}
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if (s_lp_cntl.wakeup_timer_required) {
esp_timer_create_args_t create_args = {
.callback = btdm_slp_tmr_callback,
.arg = NULL,
.name = "btSlp",
};
if ((err = esp_timer_create(&create_args, &s_btdm_slp_tmr)) != ESP_OK) {
goto error;
}
}
// set default bluetooth sleep clock cycle and its fractional bits
btdm_lpcycle_us_frac = RTC_CLK_CAL_FRACT;
btdm_lpcycle_us = 2 << (btdm_lpcycle_us_frac);
// set default bluetooth sleep clock source
s_lp_cntl.lpclk_sel = BTDM_LPCLK_SEL_XTAL; // set default value
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#if CONFIG_BT_CTRL_LPCLK_SEL_EXT_32K_XTAL
// check whether or not EXT_CRYS is working
if (rtc_clk_slow_src_get() == SOC_RTC_SLOW_CLK_SRC_XTAL32K) {
s_lp_cntl.lpclk_sel = BTDM_LPCLK_SEL_XTAL32K; // External 32 kHz XTAL
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} else {
ESP_LOGW(BT_LOG_TAG, "32.768kHz XTAL not detected, fall back to main XTAL as Bluetooth sleep clock");
#if !CONFIG_BT_CTRL_MAIN_XTAL_PU_DURING_LIGHT_SLEEP
s_lp_cntl.no_light_sleep = 1;
#endif
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}
#elif (CONFIG_BT_CTRL_LPCLK_SEL_MAIN_XTAL)
ESP_LOGI(BT_LOG_TAG, "Bluetooth will use main XTAL as Bluetooth sleep clock.");
#if !CONFIG_BT_CTRL_MAIN_XTAL_PU_DURING_LIGHT_SLEEP
s_lp_cntl.no_light_sleep = 1;
#endif
#elif (CONFIG_BT_CTRL_LPCLK_SEL_RTC_SLOW)
// check whether or not internal 150 kHz RC oscillator is working
if (rtc_clk_slow_src_get() == SOC_RTC_SLOW_CLK_SRC_RC_SLOW) {
s_lp_cntl.lpclk_sel = BTDM_LPCLK_SEL_RTC_SLOW; // Internal 150 kHz RC oscillator
ESP_LOGW(BT_LOG_TAG, "Internal 150kHz RC osciallator. The accuracy of this clock is a lot larger than 500ppm which is "
"required in Bluetooth communication, so don't select this option in scenarios such as BLE connection state.");
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} else {
ESP_LOGW(BT_LOG_TAG, "Internal 150kHz RC oscillator not detected.");
assert(0);
}
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#endif
bool select_src_ret __attribute__((unused));
bool set_div_ret __attribute__((unused));
if (s_lp_cntl.lpclk_sel == BTDM_LPCLK_SEL_XTAL) {
#ifdef CONFIG_BT_CTRL_MAIN_XTAL_PU_DURING_LIGHT_SLEEP
ESP_ERROR_CHECK(esp_sleep_pd_config(ESP_PD_DOMAIN_XTAL, ESP_PD_OPTION_ON));
s_lp_cntl.main_xtal_pu = 1;
#endif
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select_src_ret = btdm_lpclk_select_src(BTDM_LPCLK_SEL_XTAL);
set_div_ret = btdm_lpclk_set_div(esp_clk_xtal_freq() / MHZ);
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assert(select_src_ret && set_div_ret);
btdm_lpcycle_us_frac = RTC_CLK_CAL_FRACT;
btdm_lpcycle_us = 1 << (btdm_lpcycle_us_frac);
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} else if (s_lp_cntl.lpclk_sel == BTDM_LPCLK_SEL_XTAL32K) {
select_src_ret = btdm_lpclk_select_src(BTDM_LPCLK_SEL_XTAL32K);
set_div_ret = btdm_lpclk_set_div(0);
assert(select_src_ret && set_div_ret);
btdm_lpcycle_us_frac = RTC_CLK_CAL_FRACT;
btdm_lpcycle_us = (RTC_CLK_CAL_FRACT > 15) ? (1000000 << (RTC_CLK_CAL_FRACT - 15)) :
(1000000 >> (15 - RTC_CLK_CAL_FRACT));
assert(btdm_lpcycle_us != 0);
} else if (s_lp_cntl.lpclk_sel == BTDM_LPCLK_SEL_RTC_SLOW) {
select_src_ret = btdm_lpclk_select_src(BTDM_LPCLK_SEL_RTC_SLOW);
set_div_ret = btdm_lpclk_set_div(0);
assert(select_src_ret && set_div_ret);
btdm_lpcycle_us_frac = RTC_CLK_CAL_FRACT;
btdm_lpcycle_us = esp_clk_slowclk_cal_get();
} else {
err = ESP_ERR_INVALID_ARG;
goto error;
}
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#ifdef CONFIG_PM_ENABLE
if (s_lp_cntl.no_light_sleep) {
if ((err = esp_pm_lock_create(ESP_PM_NO_LIGHT_SLEEP, 0, "btLS", &s_light_sleep_pm_lock)) != ESP_OK) {
err = ESP_ERR_NO_MEM;
goto error;
}
ESP_LOGW(BT_LOG_TAG, "light sleep mode will not be able to apply when bluetooth is enabled.");
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}
if ((err = esp_pm_lock_create(ESP_PM_APB_FREQ_MAX, 0, "bt", &s_pm_lock)) != ESP_OK) {
err = ESP_ERR_NO_MEM;
goto error;
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} else {
s_lp_stat.pm_lock_released = 1;
}
#endif
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} while (0);
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#if CONFIG_SW_COEXIST_ENABLE
coex_init();
#endif
periph_module_enable(PERIPH_BT_MODULE);
periph_module_reset(PERIPH_BT_MODULE);
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esp_phy_enable();
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s_lp_stat.phy_enabled = 1;
if (btdm_controller_init(cfg) != 0) {
err = ESP_ERR_NO_MEM;
goto error;
}
coex_pti_v2();
btdm_controller_status = ESP_BT_CONTROLLER_STATUS_INITED;
return ESP_OK;
error:
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if (s_lp_stat.phy_enabled) {
esp_phy_disable();
s_lp_stat.phy_enabled = 0;
}
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do {
// deinit low power control resources
#ifdef CONFIG_PM_ENABLE
if (s_lp_cntl.no_light_sleep) {
if (s_light_sleep_pm_lock != NULL) {
esp_pm_lock_delete(s_light_sleep_pm_lock);
s_light_sleep_pm_lock = NULL;
}
}
if (s_pm_lock != NULL) {
esp_pm_lock_delete(s_pm_lock);
s_pm_lock = NULL;
s_lp_stat.pm_lock_released = 0;
}
#endif
if (s_lp_cntl.wakeup_timer_required && s_btdm_slp_tmr != NULL) {
esp_timer_delete(s_btdm_slp_tmr);
s_btdm_slp_tmr = NULL;
}
#if CONFIG_MAC_BB_PD
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if (s_lp_cntl.mac_bb_pd) {
btdm_deep_sleep_mem_deinit();
s_lp_cntl.mac_bb_pd = 0;
}
#endif
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if (s_lp_cntl.enable) {
btdm_vnd_offload_task_deregister(BTDM_VND_OL_SIG_WAKEUP_TMR);
if (s_wakeup_req_sem != NULL) {
semphr_delete_wrapper(s_wakeup_req_sem);
s_wakeup_req_sem = NULL;
}
if (s_lp_cntl.lpclk_sel == BTDM_LPCLK_SEL_XTAL) {
#ifdef CONFIG_BT_CTRL_MAIN_XTAL_PU_DURING_LIGHT_SLEEP
if (s_lp_cntl.main_xtal_pu) {
ESP_ERROR_CHECK(esp_sleep_pd_config(ESP_PD_DOMAIN_XTAL, ESP_PD_OPTION_OFF));
s_lp_cntl.main_xtal_pu = 0;
}
#endif
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}
} while (0);
#if CONFIG_MAC_BB_PD
esp_unregister_mac_bb_pd_callback(btdm_mac_bb_power_down_cb);
esp_unregister_mac_bb_pu_callback(btdm_mac_bb_power_up_cb);
#endif
if (osi_funcs_p != NULL) {
free(osi_funcs_p);
osi_funcs_p = NULL;
}
return err;
}
esp_err_t esp_bt_controller_deinit(void)
{
if (btdm_controller_status != ESP_BT_CONTROLLER_STATUS_INITED) {
return ESP_ERR_INVALID_STATE;
}
btdm_controller_deinit();
periph_module_disable(PERIPH_BT_MODULE);
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if (s_lp_stat.phy_enabled) {
esp_phy_disable();
s_lp_stat.phy_enabled = 0;
} else {
assert(0);
}
// deinit low power control resources
do {
#if CONFIG_MAC_BB_PD
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btdm_deep_sleep_mem_deinit();
#endif
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#ifdef CONFIG_PM_ENABLE
if (s_lp_cntl.no_light_sleep) {
esp_pm_lock_delete(s_light_sleep_pm_lock);
s_light_sleep_pm_lock = NULL;
}
esp_pm_lock_delete(s_pm_lock);
s_pm_lock = NULL;
s_lp_stat.pm_lock_released = 0;
#endif
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if (s_lp_cntl.wakeup_timer_required) {
if (s_lp_stat.wakeup_timer_started) {
esp_timer_stop(s_btdm_slp_tmr);
}
s_lp_stat.wakeup_timer_started = 0;
esp_timer_delete(s_btdm_slp_tmr);
s_btdm_slp_tmr = NULL;
}
if (s_lp_cntl.enable) {
btdm_vnd_offload_task_deregister(BTDM_VND_OL_SIG_WAKEUP_TMR);
semphr_delete_wrapper(s_wakeup_req_sem);
s_wakeup_req_sem = NULL;
}
if (s_lp_cntl.lpclk_sel == BTDM_LPCLK_SEL_XTAL) {
#ifdef CONFIG_BT_CTRL_MAIN_XTAL_PU_DURING_LIGHT_SLEEP
if (s_lp_cntl.main_xtal_pu) {
ESP_ERROR_CHECK(esp_sleep_pd_config(ESP_PD_DOMAIN_XTAL, ESP_PD_OPTION_OFF));
s_lp_cntl.main_xtal_pu = 0;
}
#endif
}
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} while (0);
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#if CONFIG_MAC_BB_PD
esp_unregister_mac_bb_pd_callback(btdm_mac_bb_power_down_cb);
esp_unregister_mac_bb_pu_callback(btdm_mac_bb_power_up_cb);
#endif
esp_bt_power_domain_off();
#if CONFIG_MAC_BB_PD
esp_mac_bb_pd_mem_deinit();
#endif
esp_phy_pd_mem_deinit();
free(osi_funcs_p);
osi_funcs_p = NULL;
btdm_controller_status = ESP_BT_CONTROLLER_STATUS_IDLE;
btdm_lpcycle_us = 0;
return ESP_OK;
}
esp_err_t esp_bt_controller_enable(esp_bt_mode_t mode)
{
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int ret = ESP_OK;
if (btdm_controller_status != ESP_BT_CONTROLLER_STATUS_INITED) {
return ESP_ERR_INVALID_STATE;
}
//As the history reason, mode should be equal to the mode which set in esp_bt_controller_init()
if (mode != btdm_controller_get_mode()) {
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ESP_LOGE(BT_LOG_TAG, "invalid mode %d, controller support mode is %d", mode, btdm_controller_get_mode());
return ESP_ERR_INVALID_ARG;
}
#if CONFIG_SW_COEXIST_ENABLE
coex_enable();
#endif
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// enable low power mode
do {
#ifdef CONFIG_PM_ENABLE
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if (s_lp_cntl.no_light_sleep) {
esp_pm_lock_acquire(s_light_sleep_pm_lock);
}
esp_pm_lock_acquire(s_pm_lock);
s_lp_stat.pm_lock_released = 0;
#endif
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if (s_lp_cntl.enable) {
btdm_controller_enable_sleep(true);
}
} while (0);
if (btdm_controller_enable(mode) != 0) {
ret = ESP_ERR_INVALID_STATE;
goto error;
}
btdm_controller_status = ESP_BT_CONTROLLER_STATUS_ENABLED;
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return ret;
error:
// disable low power mode
do {
btdm_controller_enable_sleep(false);
#ifdef CONFIG_PM_ENABLE
if (s_lp_cntl.no_light_sleep) {
esp_pm_lock_release(s_light_sleep_pm_lock);
}
if (s_lp_stat.pm_lock_released == 0) {
esp_pm_lock_release(s_pm_lock);
s_lp_stat.pm_lock_released = 1;
}
#endif
} while (0);
return ret;
}
esp_err_t esp_bt_controller_disable(void)
{
if (btdm_controller_status != ESP_BT_CONTROLLER_STATUS_ENABLED) {
return ESP_ERR_INVALID_STATE;
}
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async_wakeup_request(BTDM_ASYNC_WAKEUP_SRC_DISA);
while (!btdm_power_state_active()){}
btdm_controller_disable();
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async_wakeup_request_end(BTDM_ASYNC_WAKEUP_SRC_DISA);
#if CONFIG_SW_COEXIST_ENABLE
coex_disable();
#endif
btdm_controller_status = ESP_BT_CONTROLLER_STATUS_INITED;
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// disable low power mode
do {
#ifdef CONFIG_PM_ENABLE
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if (s_lp_cntl.no_light_sleep) {
esp_pm_lock_release(s_light_sleep_pm_lock);
}
if (s_lp_stat.pm_lock_released == 0) {
esp_pm_lock_release(s_pm_lock);
s_lp_stat.pm_lock_released = 1;
} else {
assert(0);
}
#endif
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} while (0);
return ESP_OK;
}
esp_bt_controller_status_t esp_bt_controller_get_status(void)
{
return btdm_controller_status;
}
/* extra functions */
esp_err_t esp_ble_tx_power_set(esp_ble_power_type_t power_type, esp_power_level_t power_level)
{
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esp_err_t stat = ESP_FAIL;
switch (power_type) {
case ESP_BLE_PWR_TYPE_ADV:
case ESP_BLE_PWR_TYPE_SCAN:
case ESP_BLE_PWR_TYPE_DEFAULT:
if (ble_txpwr_set(power_type, power_level) == 0) {
stat = ESP_OK;
}
break;
default:
stat = ESP_ERR_NOT_SUPPORTED;
break;
}
return stat;
}
esp_power_level_t esp_ble_tx_power_get(esp_ble_power_type_t power_type)
{
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esp_power_level_t lvl;
switch (power_type) {
case ESP_BLE_PWR_TYPE_ADV:
case ESP_BLE_PWR_TYPE_SCAN:
lvl = (esp_power_level_t)ble_txpwr_get(power_type);
break;
case ESP_BLE_PWR_TYPE_CONN_HDL0:
case ESP_BLE_PWR_TYPE_CONN_HDL1:
case ESP_BLE_PWR_TYPE_CONN_HDL2:
case ESP_BLE_PWR_TYPE_CONN_HDL3:
case ESP_BLE_PWR_TYPE_CONN_HDL4:
case ESP_BLE_PWR_TYPE_CONN_HDL5:
case ESP_BLE_PWR_TYPE_CONN_HDL6:
case ESP_BLE_PWR_TYPE_CONN_HDL7:
case ESP_BLE_PWR_TYPE_CONN_HDL8:
case ESP_BLE_PWR_TYPE_DEFAULT:
lvl = (esp_power_level_t)ble_txpwr_get(ESP_BLE_PWR_TYPE_DEFAULT);
break;
default:
lvl = ESP_PWR_LVL_INVALID;
break;
}
return lvl;
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}
esp_err_t esp_bt_sleep_enable (void)
{
esp_err_t status;
if (btdm_controller_status != ESP_BT_CONTROLLER_STATUS_ENABLED) {
return ESP_ERR_INVALID_STATE;
}
if (btdm_controller_get_sleep_mode() == ESP_BT_SLEEP_MODE_1) {
btdm_controller_enable_sleep (true);
status = ESP_OK;
} else {
status = ESP_ERR_NOT_SUPPORTED;
}
return status;
}
esp_err_t esp_bt_sleep_disable (void)
{
esp_err_t status;
if (btdm_controller_status != ESP_BT_CONTROLLER_STATUS_ENABLED) {
return ESP_ERR_INVALID_STATE;
}
if (btdm_controller_get_sleep_mode() == ESP_BT_SLEEP_MODE_1) {
btdm_controller_enable_sleep (false);
status = ESP_OK;
} else {
status = ESP_ERR_NOT_SUPPORTED;
}
return status;
}
bool esp_bt_controller_is_sleeping(void)
{
if (btdm_controller_status != ESP_BT_CONTROLLER_STATUS_ENABLED ||
btdm_controller_get_sleep_mode() != ESP_BT_SLEEP_MODE_1) {
return false;
}
return !btdm_power_state_active();
}
void esp_bt_controller_wakeup_request(void)
{
if (btdm_controller_status != ESP_BT_CONTROLLER_STATUS_ENABLED ||
btdm_controller_get_sleep_mode() != ESP_BT_SLEEP_MODE_1) {
return;
}
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btdm_wakeup_request();
}
int IRAM_ATTR esp_bt_h4tl_eif_io_event_notify(int event)
{
return btdm_hci_tl_io_event_post(event);
}
uint16_t esp_bt_get_tx_buf_num(void)
{
return l2c_ble_link_get_tx_buf_num();
}
static void coex_wifi_sleep_set_hook(bool sleep)
{
}
#endif /* CONFIG_BT_ENABLED */