pinebuds/services/communication/communication_svr.cpp

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#include "communication_svr.h"
#include "app_ai_if_config.h"
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#include "cmsis_nvic.h"
#include "cmsis_os.h"
#include "communication_sysapi.h"
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#include "crc32.h"
#include "hal_gpio.h"
#include "hal_iomux.h"
#include "hal_timer.h"
#include "hal_trace.h"
#include "hal_uart.h"
#include "plat_types.h"
#include "stdbool.h"
#include "stdint.h"
#include "stdio.h"
#include "string.h"
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//======================================================================================================
enum COMMUNICATION_MSG {
COMMUNICATION_MSG_TX_REQ = 0,
COMMUNICATION_MSG_TX_DONE = 1,
COMMUNICATION_MSG_RX_REQ = 2,
COMMUNICATION_MSG_RX_DONE = 3,
COMMUNICATION_MSG_INIT = 4,
COMMUNICATION_MSG_REINIT = 5,
COMMUNICATION_MSG_RESET = 6,
COMMUNICATION_MSG_BREAK = 7,
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};
const static uint8_t communication_process_log[8][26] = {
"COMMUNICATION_MSG_TX_REQ", "COMMUNICATION_MSG_TX_DONE",
"COMMUNICATION_MSG_RX_REQ", "COMMUNICATION_MSG_RX_DONE",
"COMMUNICATION_MSG_INIT", "COMMUNICATION_MSG_REINIT",
"COMMUNICATION_MSG_RESET", "COMMUNICATION_MSG_BREAK",
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};
enum COMMUNICATION_MODE {
COMMUNICATION_MODE_NULL,
COMMUNICATION_MODE_TX,
COMMUNICATION_MODE_RX,
COMMUNICATION_MODE_ENABLE_IRQ,
COMMUNICATION_MODE_DISABLE_IRQ,
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};
#define COMMAND_BLOCK_MAX (5)
#define COMMAND_LEN_MAX (128)
#define COMMAND_TRANSMITTED_SIGNAL (1 << 0)
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typedef struct {
uint8_t cmd_buf[COMMAND_LEN_MAX];
uint8_t cmd_len;
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} COMMAND_BLOCK;
osPoolDef(command_mempool, COMMAND_BLOCK_MAX, COMMAND_BLOCK);
osPoolId command_mempool = NULL;
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#define COMMUNICATION_MAILBOX_MAX (10)
typedef struct {
uint32_t src_thread;
uint32_t system_time;
uint32_t message;
uint32_t parms1;
uint32_t parms2;
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} COMMUNICATION_MAIL;
osMailQDef(communication_mailbox, COMMUNICATION_MAILBOX_MAX,
COMMUNICATION_MAIL);
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static osMailQId communication_mailbox = NULL;
static uint8_t communication_mailbox_cnt = 0;
static osThreadId communication_tid = NULL;
static void communication_thread(void const *argument);
osThreadDef(communication_thread, osPriorityHigh, 1, 2048,
"communication_server");
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static bool uart_opened = false;
static int uart_error_detected = 0;
#if defined(CHIP_BEST2300P) || defined(CHIP_BEST2300A)
static const enum HAL_UART_ID_T comm_uart = HAL_UART_ID_2;
#else
static const enum HAL_UART_ID_T comm_uart = HAL_UART_ID_1;
#endif
static const struct HAL_UART_CFG_T uart_cfg = {
HAL_UART_PARITY_NONE,
HAL_UART_STOP_BITS_1,
HAL_UART_DATA_BITS_8,
HAL_UART_FLOW_CONTROL_NONE,
HAL_UART_FIFO_LEVEL_1_2,
HAL_UART_FIFO_LEVEL_1_2,
#if defined(CHIP_BEST2300P) || defined(CHIP_BEST2300A)
1152000,
#else
921600,
#endif
true,
true,
false,
};
static bool uart_rx_dma_is_running = false;
static COMMAND_BLOCK *rx_command_block_p = NULL;
static uint32_t uart_rx_idle_counter = 0;
static void uart_rx_idle_handler(void const *param);
osTimerDef(uart_rx_idle_timer, uart_rx_idle_handler);
static osTimerId uart_rx_idle_timer_id = NULL;
static communication_receive_func_typedef communication_receive_cb = NULL;
const static struct HAL_IOMUX_PIN_FUNCTION_MAP cfg_led2 = {
HAL_IOMUX_PIN_LED2,
HAL_IOMUX_FUNC_GPIO,
HAL_IOMUX_PIN_VOLTAGE_VBAT,
HAL_IOMUX_PIN_PULLUP_ENABLE,
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};
inline int communication_mailbox_put(COMMUNICATION_MAIL *msg_src);
static void communication_process(COMMUNICATION_MAIL *mail_p);
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int communication_io_mode_switch(enum COMMUNICATION_MODE mode);
static void uart_rx_dma_stop(void) {
union HAL_UART_IRQ_T mask;
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uint32_t lock = int_lock();
// TRACE(1,"uart_rx_dma_stop:%d", uart_rx_dma_is_running);
if (uart_rx_dma_is_running) {
mask.reg = 0;
hal_uart_irq_set_mask(comm_uart, mask);
hal_uart_stop_dma_recv(comm_uart);
uart_rx_dma_is_running = false;
}
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int_unlock(lock);
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}
static void uart_rx_dma_start(void) {
union HAL_UART_IRQ_T mask;
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uint32_t lock = int_lock();
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// TRACE(1,"uart_rx_dma_start:%d", uart_rx_dma_is_running);
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hal_uart_flush(comm_uart, 0);
// hal_uart_dma_recv(comm_uart, rx_command_block_p->cmd_buf, COMMAND_LEN_MAX,
// NULL, NULL);
mask.reg = 0;
mask.RT = 1;
// hal_uart_irq_set_mask(comm_uart, mask);
hal_uart_dma_recv_mask(comm_uart, rx_command_block_p->cmd_buf,
COMMAND_LEN_MAX, NULL, NULL, &mask);
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uart_rx_dma_is_running = true;
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int_unlock(lock);
}
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static void uart_break_handler(void) {
union HAL_UART_IRQ_T mask;
COMMUNICATION_MAIL msg;
memset(&msg, 0, sizeof(msg));
TRACE(0, "UART-BREAK");
mask.reg = 0;
hal_uart_irq_set_mask(comm_uart, mask);
hal_uart_flush(comm_uart, 0);
uart_error_detected = 1;
msg.message = COMMUNICATION_MSG_BREAK;
communication_mailbox_put(&msg);
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}
static void uart_rx_dma_handler(uint32_t xfer_size, int dma_error,
union HAL_UART_IRQ_T status) {
COMMUNICATION_MAIL msg;
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// TRACE(8,"UART-RX size:%d dma_error=%d, status=0x%08x rt:%d fe:%d pe:%d
// be:%d oe:%d", xfer_size, dma_error, status, status.RT, status.FE,
// status.PE, status.BE, status.OE);
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if (status.BE) {
uart_break_handler();
return;
}
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memset(&msg, 0, sizeof(COMMUNICATION_MAIL));
msg.message = COMMUNICATION_MSG_RX_DONE;
if (dma_error || status.FE || status.PE || status.BE || status.OE) {
uart_error_detected = 1;
uart_rx_dma_stop();
msg.parms1 = false;
msg.message = COMMUNICATION_MSG_RESET;
communication_mailbox_put(&msg);
} else {
if (xfer_size) {
msg.parms1 = true;
msg.parms2 = xfer_size;
communication_mailbox_put(&msg);
} else {
uart_rx_dma_stop();
msg.message = COMMUNICATION_MSG_RESET;
communication_mailbox_put(&msg);
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}
}
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}
static void uart_tx_dma_handler(uint32_t xfer_size, int dma_error) {
COMMUNICATION_MAIL msg;
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memset(&msg, 0, sizeof(COMMUNICATION_MAIL));
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// TRACE(2,"UART-TX size:%d dma_error=%d", xfer_size, dma_error);
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osSignalSet(communication_tid, COMMAND_TRANSMITTED_SIGNAL);
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msg.message = COMMUNICATION_MSG_TX_DONE;
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communication_mailbox_put(&msg);
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}
static void uart_init(void) {
struct HAL_UART_CFG_T comm_uart_cfg;
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if (!uart_opened) {
memcpy(&comm_uart_cfg, &uart_cfg, sizeof(comm_uart_cfg));
hal_uart_open(comm_uart, &comm_uart_cfg);
hal_uart_irq_set_dma_handler(comm_uart, uart_rx_dma_handler,
uart_tx_dma_handler);
uart_opened = true;
}
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hal_uart_flush(comm_uart, 0);
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}
static void uart_deinit(void) {
if (uart_opened) {
hal_uart_close(comm_uart);
uart_opened = false;
}
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}
static void uart_rx_idle_timer_start(void) {
uart_rx_idle_counter = 0;
TRACE(1, "[%s] enter...", __func__);
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if (uart_rx_idle_timer_id != NULL) {
osTimerStop(uart_rx_idle_timer_id);
osTimerStart(uart_rx_idle_timer_id, 100);
}
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}
#if defined(CHIP_BEST1400) || defined(CHIP_BEST1402)
static void uart_rx_edge_detect_handler(enum HAL_GPIO_PIN_T pin) {
COMMUNICATION_MAIL msg = {0};
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// disable led2 pin external interrupt mode...
communication_io_mode_switch(COMMUNICATION_MODE_DISABLE_IRQ);
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// post uart rx request...
msg.message = COMMUNICATION_MSG_RX_REQ;
communication_mailbox_put(&msg);
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}
#endif
static void uart_rx_idle_handler(void const *param) {
const uint8_t rx_idle_indicate[2] = {0x10, 0x24};
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if (uart_rx_idle_counter++ >= 150) // 150 * 100 = 15s
{
TRACE(1, "[%s] enter...", __func__);
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uart_rx_idle_counter = 0;
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// stop virtual timer...
osTimerStop(uart_rx_idle_timer_id);
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// stop uart rx dma...
uart_rx_dma_stop();
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// notify charge box uart rx dma has closed...
communication_io_mode_switch(COMMUNICATION_MODE_TX);
hal_uart_dma_send(comm_uart, rx_idle_indicate, 2, NULL, NULL);
osDelay(10);
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// config led2 pin as external interrupt mode...
communication_io_mode_switch(COMMUNICATION_MODE_ENABLE_IRQ);
}
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}
int communication_io_mode_switch(enum COMMUNICATION_MODE mode) {
// best1400 and best1402 platform
switch (mode) {
case COMMUNICATION_MODE_TX: {
#if defined(CHIP_BEST1400) || defined(CHIP_BEST1402)
hal_iomux_single_wire_uart1_tx();
#endif
} break;
case COMMUNICATION_MODE_RX: {
#if defined(CHIP_BEST1400) || defined(CHIP_BEST1402)
hal_iomux_single_wire_uart1_rx();
#endif
} break;
case COMMUNICATION_MODE_ENABLE_IRQ: {
#if defined(CHIP_BEST1400) || defined(CHIP_BEST1402)
hal_iomux_single_wire_uart1_enable_irq(uart_rx_edge_detect_handler);
#endif
} break;
case COMMUNICATION_MODE_DISABLE_IRQ: {
#if defined(CHIP_BEST1400) || defined(CHIP_BEST1402)
hal_iomux_single_wire_uart1_disable_irq();
#endif
} break;
default:
break;
}
return 0;
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}
int communication_io_mode_init(void) {
communication_io_mode_switch(COMMUNICATION_MODE_RX);
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return 0;
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}
inline int communication_mailbox_put(COMMUNICATION_MAIL *msg_src) {
osStatus status;
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COMMUNICATION_MAIL *mail_p = NULL;
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if (msg_src == NULL) {
return -1;
}
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mail_p = (COMMUNICATION_MAIL *)osMailAlloc(communication_mailbox, 0);
if (!mail_p) {
osEvent evt;
TRACE(0, "communication_mailbox");
for (uint8_t i = 0; i < COMMUNICATION_MAILBOX_MAX; i++) {
evt = osMailGet(communication_mailbox, 0);
if (evt.status == osEventMail) {
TRACE(4, "msg cnt:%d msg:%d parms:%08x/%08x", i,
((COMMUNICATION_MAIL *)(evt.value.p))->message,
((COMMUNICATION_MAIL *)(evt.value.p))->parms1,
((COMMUNICATION_MAIL *)(evt.value.p))->parms2);
} else {
break;
}
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}
ASSERT(mail_p, "communication_mailbox error");
}
mail_p->src_thread = (uint32_t)osThreadGetId();
mail_p->system_time = hal_sys_timer_get();
mail_p->message = msg_src->message;
mail_p->parms1 = msg_src->parms1;
mail_p->parms2 = msg_src->parms2;
status = osMailPut(communication_mailbox, mail_p);
if (osOK == status) {
communication_mailbox_cnt++;
}
return (int)status;
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}
inline int communication_mailbox_free(COMMUNICATION_MAIL *mail_p) {
osStatus status;
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status = osMailFree(communication_mailbox, mail_p);
if (osOK == status) {
communication_mailbox_cnt--;
}
return (int)status;
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}
inline int communication_mailbox_get(COMMUNICATION_MAIL **mail_p) {
osEvent evt;
evt = osMailGet(communication_mailbox, osWaitForever);
if (evt.status == osEventMail) {
*mail_p = (COMMUNICATION_MAIL *)evt.value.p;
return 0;
}
return -1;
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}
static void communication_thread(void const *argument) {
while (1) {
COMMUNICATION_MAIL *mail_p = NULL;
if (!communication_mailbox_get(&mail_p)) {
communication_process(mail_p);
communication_mailbox_free(mail_p);
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}
}
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}
int communication_command_block_alloc(COMMAND_BLOCK **cmd_blk) {
*cmd_blk = (COMMAND_BLOCK *)osPoolCAlloc(command_mempool);
ASSERT(*cmd_blk, "%s error", __func__);
return 0;
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}
void communication_command_block_free(COMMAND_BLOCK *cmd_blk) {
osPoolFree(command_mempool, cmd_blk);
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}
void communication_send_command(COMMAND_BLOCK *cmd_blk) {
COMMUNICATION_MAIL mail;
memset(&mail, 0, sizeof(mail));
ASSERT(cmd_blk->cmd_len <= COMMAND_LEN_MAX, "%s len error", __func__);
mail.message = COMMUNICATION_MSG_TX_REQ;
mail.parms2 = (uint32_t)cmd_blk;
communication_mailbox_put(&mail);
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}
static void communication_process(COMMUNICATION_MAIL *mail_p) {
osEvent evt;
COMMAND_BLOCK *command_block_p;
COMMUNICATION_MAIL msg;
uint32_t lock;
TRACE(2, "[%s]: %s", __func__, communication_process_log[mail_p->message]);
memset(&msg, 0, sizeof(COMMUNICATION_MAIL));
switch (mail_p->message) {
case COMMUNICATION_MSG_TX_REQ:
command_block_p = (COMMAND_BLOCK *)mail_p->parms2;
TRACE(1, "UART TX:%d", command_block_p->cmd_len);
DUMP8("%02x ", command_block_p->cmd_buf, command_block_p->cmd_len);
uart_rx_dma_stop();
communication_io_mode_switch(COMMUNICATION_MODE_TX);
osSignalClear(communication_tid, COMMAND_TRANSMITTED_SIGNAL);
hal_uart_dma_send(comm_uart, command_block_p->cmd_buf,
command_block_p->cmd_len, NULL, NULL);
evt = osSignalWait(COMMAND_TRANSMITTED_SIGNAL, 1000);
if (evt.status == osEventTimeout) {
ASSERT(0, "%s osEventTimeout", __func__);
}
communication_command_block_free(command_block_p);
while (!hal_uart_get_flag(comm_uart).TXFE ||
hal_uart_get_flag(comm_uart).BUSY) {
osThreadYield();
}
communication_io_mode_switch(COMMUNICATION_MODE_RX);
if (!uart_error_detected) {
uart_rx_dma_start();
uart_rx_idle_timer_start();
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}
break;
case COMMUNICATION_MSG_TX_DONE:
break;
case COMMUNICATION_MSG_RX_REQ:
communication_io_mode_init();
uart_init();
uart_rx_dma_start();
uart_rx_idle_timer_start();
break;
case COMMUNICATION_MSG_RX_DONE:
TRACE(2, "UART RX status:%d len:%d", mail_p->parms1, mail_p->parms2);
DUMP8("%02x ", rx_command_block_p->cmd_buf, mail_p->parms2);
TRACE(1, "%s", rx_command_block_p->cmd_buf);
if (communication_receive_cb != NULL)
(*communication_receive_cb)(rx_command_block_p->cmd_buf, mail_p->parms2);
memset(rx_command_block_p->cmd_buf, 0, mail_p->parms2);
if (!uart_error_detected) {
uart_rx_dma_start();
uart_rx_idle_timer_start();
}
break;
case COMMUNICATION_MSG_REINIT:
uart_deinit();
case COMMUNICATION_MSG_INIT:
uart_error_detected = 0;
communication_io_mode_init();
uart_init();
uart_rx_dma_start();
uart_rx_idle_timer_id =
osTimerCreate(osTimer(uart_rx_idle_timer), osTimerPeriodic, NULL);
uart_rx_idle_timer_start();
break;
case COMMUNICATION_MSG_RESET:
case COMMUNICATION_MSG_BREAK:
lock = int_lock();
uart_rx_dma_stop();
communication_io_mode_switch(COMMUNICATION_MODE_RX);
hal_uart_flush(comm_uart, 0);
uart_rx_dma_start();
uart_error_detected = 0;
int_unlock(lock);
uart_rx_idle_timer_start();
break;
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default:
break;
}
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}
void communication_init(void) {
COMMUNICATION_MAIL msg;
COMMAND_BLOCK *cmd_blk;
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memset(&msg, 0, sizeof(COMMUNICATION_MAIL));
TRACE(1, "%s", __func__);
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if (command_mempool == NULL) {
command_mempool = osPoolCreate(osPool(command_mempool));
}
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if (communication_mailbox == NULL) {
communication_mailbox = osMailCreate(osMailQ(communication_mailbox), NULL);
}
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if (communication_tid == NULL) {
communication_tid = osThreadCreate(osThread(communication_thread), NULL);
}
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if (rx_command_block_p == NULL) {
communication_command_block_alloc(&rx_command_block_p);
memset(rx_command_block_p->cmd_buf, 0, COMMAND_LEN_MAX);
rx_command_block_p->cmd_len = 0;
}
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msg.message = COMMUNICATION_MSG_INIT;
communication_mailbox_put(&msg);
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communication_command_block_alloc(&cmd_blk);
cmd_blk->cmd_buf[0] = 0xff;
cmd_blk->cmd_len = 1;
communication_send_command(cmd_blk);
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}
int communication_receive_register_callback(
communication_receive_func_typedef p) {
if (p == NULL)
return -1;
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communication_receive_cb = p;
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TRACE(1, "[%s] register receive callback success\n", __func__);
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return 0;
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}
int communication_send_buf(uint8_t *buf, uint8_t len) {
COMMAND_BLOCK *cmd_blk;
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communication_command_block_alloc(&cmd_blk);
memcpy(cmd_blk->cmd_buf, buf, len);
cmd_blk->cmd_len = len;
communication_send_command(cmd_blk);
return 0;
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}
#ifdef KNOWLES_UART_DATA
#include "knowles_uart.h"
void uart_audio_init() {
TRACE(1, "%s run!!!", __func__);
init_transport();
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}
void uart_audio_deinit() {
deinit_transport();
reopen_uart();
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}
#endif