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fix(ble/bluedroid): Added SPI output support for Bluedroid host log

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This commit is contained in:
zhanghaipeng 2025-02-23 16:13:26 +08:00
parent e00ba3cbd1
commit b6903296ad
6 changed files with 234 additions and 1 deletions
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8
components/bt/common/Kconfig.in
View File

@ -18,6 +18,14 @@ config BT_BLE_LOG_SPI_OUT_HCI_ENABLED
help
Enable logging of HCI packets to the SPI bus when BLE SPI log output is enabled.
config BT_BLE_LOG_SPI_OUT_HOST_ENABLED
bool "Enable Host log output to SPI"
depends on BT_BLE_LOG_SPI_OUT_ENABLED
default n
help
This configuration applies to the logs of both Bluedroid Host and NimBLE Host.
When BLE SPI log output is enabled, this option allows host logs to be transmitted via SPI.
config BT_BLE_LOG_SPI_OUT_QUEUE_SIZE
int "Number of ble log async SPI output queues"
depends on BT_BLE_LOG_SPI_OUT_ENABLED

47
components/bt/common/ble_log/ble_log_spi_out.c
View File

@ -437,6 +437,53 @@ IRAM_ATTR int ble_log_spi_out_printf(uint8_t source, const char *format, ...)
return 0;
}
IRAM_ATTR int ble_log_spi_out_printf_enh(uint8_t source, uint8_t level, const char *tag, const char *format, ...)
{
// Get ESP timestamp
uint32_t esp_ts = esp_timer_get_time();
// Create log prefix in the format: "[level][tag] "
char prefix[32];
int prefix_len = snprintf(prefix, sizeof(prefix), "[%d][%s] ", level, tag ? tag : "NULL");
// Compute the length of the formatted log message
va_list args;
va_start(args, format);
va_list args_copy;
va_copy(args_copy, args);
int log_len = vsnprintf(NULL, 0, format, args_copy);
va_end(args_copy);
// Validate length
if (log_len < 0 || log_len > 0xFFFF) {
va_end(args);
return -1;
}
// Compute total log length (prefix + formatted message)
int total_len = prefix_len + log_len;
// Allocate memory for the complete log message
uint8_t *buffer = malloc(total_len + 1);
if (!buffer) {
va_end(args);
return -1;
}
// Construct the final log message
memcpy(buffer, prefix, prefix_len); // Copy the prefix
vsnprintf((char *)(buffer + prefix_len), log_len + 1, format, args);
va_end(args);
// Transmit log data via SPI
ble_log_spi_out_write(source, (const uint8_t *)&esp_ts, 4);
ble_log_spi_out_write(source, buffer, total_len);
// Free allocated memory
free(buffer);
return 0;
}
IRAM_ATTR void ble_log_spi_out_write_with_ts(uint8_t source, const uint8_t *addr, uint16_t len)
{
// Get esp timestamp

10
components/bt/common/ble_log/include/ble_log/ble_log_spi_out.h
View File

@ -22,6 +22,15 @@
#define BLE_LOG_SPI_OUT_SOURCE_SYNC 0xFE
#define BLE_LOG_SPI_OUT_SOURCE_LOSS 0xFF
// SPI Log Level Definitions
#define BLE_LOG_SPI_OUT_LEVEL_NONE 0 /*!< No log output */
#define BLE_LOG_SPI_OUT_LEVEL_ERROR 1 /*!< Critical errors that SPI driver cannot recover from */
#define BLE_LOG_SPI_OUT_LEVEL_WARN 2 /*!< Recoverable error conditions in SPI communication */
#define BLE_LOG_SPI_OUT_LEVEL_INFO 3 /*!< Informational messages about SPI transactions */
#define BLE_LOG_SPI_OUT_LEVEL_DEBUG 4 /*!< Detailed debug information, such as SPI register values */
#define BLE_LOG_SPI_OUT_LEVEL_VERBOSE 5 /*!< Very detailed debugging logs, potentially flooding output */
#define BLE_LOG_SPI_OUT_LEVEL_MAX 6 /*!< Number of SPI log levels supported */
// Public functions
void ble_log_spi_out_init(void);
void ble_log_spi_out_deinit(void);
@ -30,6 +39,7 @@ void ble_log_spi_out_write_esp(uint32_t len, const uint8_t *addr, bool end);
void ble_log_spi_out_ts_sync_start(void);
void ble_log_spi_out_ts_sync_stop(void);
int ble_log_spi_out_printf(uint8_t source, const char *format, ...);
int ble_log_spi_out_printf_enh(uint8_t source, uint8_t level, const char *tag, const char *format, ...);
void ble_log_spi_out_write_with_ts(uint8_t source, const uint8_t *addr, uint16_t len);
#endif // __BT_SPI_OUT_H__

7
components/bt/common/include/bt_common.h
View File

@ -91,6 +91,13 @@
#define BT_BLE_LOG_SPI_OUT_HCI_ENABLED FALSE
#endif
// BLURDROID LOG TO SPI
#if UC_BT_BLE_LOG_SPI_OUT_HOST_ENABLED
#define BT_BLE_LOG_SPI_OUT_HOST_ENABLED UC_BT_BLE_LOG_SPI_OUT_HOST_ENABLED
#else
#define BT_BLE_LOG_SPI_OUT_HOST_ENABLED FALSE
#endif
#if UC_BT_HCI_LOG_DATA_BUFFER_SIZE
#define HCI_LOG_DATA_BUFFER_SIZE UC_BT_HCI_LOG_DATA_BUFFER_SIZE
#else

9
components/bt/common/include/bt_user_config.h
View File

@ -1,5 +1,5 @@
/*
* SPDX-FileCopyrightText: 2015-2024 Espressif Systems (Shanghai) CO LTD
* SPDX-FileCopyrightText: 2015-2025 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
@ -133,6 +133,13 @@
#define UC_BT_BLE_LOG_SPI_OUT_HCI_ENABLED FALSE
#endif
//BLUEDROID LOG TO SPI
#ifdef CONFIG_BT_BLE_LOG_SPI_OUT_HOST_ENABLED
#define UC_BT_BLE_LOG_SPI_OUT_HOST_ENABLED TRUE
#else
#define UC_BT_BLE_LOG_SPI_OUT_HOST_ENABLED FALSE
#endif
#ifdef CONFIG_BT_HCI_LOG_DATA_BUFFER_SIZE
#define UC_BT_HCI_LOG_DATA_BUFFER_SIZE CONFIG_BT_HCI_LOG_DATA_BUFFER_SIZE
#else

154
components/bt/host/bluedroid/common/include/common/bt_trace.h
View File

@ -25,6 +25,9 @@
#include "stack/bt_types.h"
#include "bt_common.h"
#if (BT_BLE_LOG_SPI_OUT_HOST_ENABLED && !CLASSIC_BT_INCLUDED)
#include "ble_log/ble_log_spi_out.h"
#endif // (BT_BLE_LOG_SPI_OUT_HOST_ENABLED && !CLASSIC_BT_INCLUDED)
static inline void trc_dump_buffer(const char *prefix, uint8_t *data, uint16_t len)
{
uint16_t i;
@ -217,20 +220,83 @@ static inline void trc_dump_buffer(const char *prefix, uint8_t *data, uint16_t l
/* Define tracing for BTM
*/
#if (BT_BLE_LOG_SPI_OUT_HOST_ENABLED && !CLASSIC_BT_INCLUDED)
#define BTM_TRACE_ERROR(fmt, args...) { \
ble_log_spi_out_printf_enh(BLE_LOG_SPI_OUT_SOURCE_BLUEDROID, BLE_LOG_SPI_OUT_LEVEL_ERROR, "BT_BTM", fmt, ## args); \
if (btm_cb.trace_level >= BT_TRACE_LEVEL_ERROR && BT_LOG_LEVEL_CHECK(BTM, ERROR)) BT_PRINT_E("BT_BTM", fmt, ## args); \
}
#define BTM_TRACE_WARNING(fmt, args...) { \
ble_log_spi_out_printf_enh(BLE_LOG_SPI_OUT_SOURCE_BLUEDROID, BLE_LOG_SPI_OUT_LEVEL_WARN, "BT_BTM", fmt, ## args); \
if (btm_cb.trace_level >= BT_TRACE_LEVEL_WARNING && BT_LOG_LEVEL_CHECK(BTM, WARNING)) BT_PRINT_W("BT_BTM", fmt, ## args); \
}
#define BTM_TRACE_API(fmt, args...) { \
ble_log_spi_out_printf_enh(BLE_LOG_SPI_OUT_SOURCE_BLUEDROID, BLE_LOG_SPI_OUT_LEVEL_INFO, "BT_BTM", fmt, ## args); \
if (btm_cb.trace_level >= BT_TRACE_LEVEL_API && BT_LOG_LEVEL_CHECK(BTM, API)) BT_PRINT_I("BT_BTM", fmt, ## args); \
}
#define BTM_TRACE_EVENT(fmt, args...) { \
ble_log_spi_out_printf_enh(BLE_LOG_SPI_OUT_SOURCE_BLUEDROID, BLE_LOG_SPI_OUT_LEVEL_DEBUG, "BT_BTM", fmt, ## args); \
if (btm_cb.trace_level >= BT_TRACE_LEVEL_EVENT && BT_LOG_LEVEL_CHECK(BTM, EVENT)) BT_PRINT_D("BT_BTM", fmt, ## args); \
}
#define BTM_TRACE_DEBUG(fmt, args...) { \
ble_log_spi_out_printf_enh(BLE_LOG_SPI_OUT_SOURCE_BLUEDROID, BLE_LOG_SPI_OUT_LEVEL_DEBUG, "BT_BTM", fmt, ## args); \
if (btm_cb.trace_level >= BT_TRACE_LEVEL_DEBUG && BT_LOG_LEVEL_CHECK(BTM, DEBUG)) BT_PRINT_D("BT_BTM", fmt, ## args); \
}
#else
#define BTM_TRACE_ERROR(fmt, args...) {if (btm_cb.trace_level >= BT_TRACE_LEVEL_ERROR && BT_LOG_LEVEL_CHECK(BTM, ERROR)) BT_PRINT_E("BT_BTM", fmt, ## args);}
#define BTM_TRACE_WARNING(fmt, args...) {if (btm_cb.trace_level >= BT_TRACE_LEVEL_WARNING && BT_LOG_LEVEL_CHECK(BTM, WARNING)) BT_PRINT_W("BT_BTM", fmt, ## args);}
#define BTM_TRACE_API(fmt, args...) {if (btm_cb.trace_level >= BT_TRACE_LEVEL_API && BT_LOG_LEVEL_CHECK(BTM,API)) BT_PRINT_I("BT_BTM", fmt, ## args);}
#define BTM_TRACE_EVENT(fmt, args...) {if (btm_cb.trace_level >= BT_TRACE_LEVEL_EVENT && BT_LOG_LEVEL_CHECK(BTM,EVENT)) BT_PRINT_D("BT_BTM", fmt, ## args);}
#define BTM_TRACE_DEBUG(fmt, args...) {if (btm_cb.trace_level >= BT_TRACE_LEVEL_DEBUG && BT_LOG_LEVEL_CHECK(BTM,DEBUG)) BT_PRINT_D("BT_BTM", fmt, ## args);}
#endif // (BT_BLE_LOG_SPI_OUT_HOST_ENABLED && !CLASSIC_BT_INCLUDED)
/* Define tracing for the L2CAP unit
*/
#if (BT_BLE_LOG_SPI_OUT_HOST_ENABLED && !CLASSIC_BT_INCLUDED)
#define L2CAP_TRACE_ERROR(fmt, args...) { \
ble_log_spi_out_printf_enh(BLE_LOG_SPI_OUT_SOURCE_BLUEDROID, BLE_LOG_SPI_OUT_LEVEL_ERROR, "BT_L2CAP", fmt, ## args); \
if (l2cb.l2cap_trace_level >= BT_TRACE_LEVEL_ERROR && BT_LOG_LEVEL_CHECK(L2CAP, ERROR)) BT_PRINT_E("BT_L2CAP", fmt, ## args); \
}
#define L2CAP_TRACE_WARNING(fmt, args...) { \
ble_log_spi_out_printf_enh(BLE_LOG_SPI_OUT_SOURCE_BLUEDROID, BLE_LOG_SPI_OUT_LEVEL_WARN, "BT_L2CAP", fmt, ## args); \
if (l2cb.l2cap_trace_level >= BT_TRACE_LEVEL_WARNING && BT_LOG_LEVEL_CHECK(L2CAP, WARNING)) BT_PRINT_W("BT_L2CAP", fmt, ## args); \
}
#define L2CAP_TRACE_API(fmt, args...) { \
ble_log_spi_out_printf_enh(BLE_LOG_SPI_OUT_SOURCE_BLUEDROID, BLE_LOG_SPI_OUT_LEVEL_INFO, "BT_L2CAP", fmt, ## args); \
if (l2cb.l2cap_trace_level >= BT_TRACE_LEVEL_API && BT_LOG_LEVEL_CHECK(L2CAP, API)) BT_PRINT_I("BT_L2CAP", fmt, ## args); \
}
#define L2CAP_TRACE_EVENT(fmt, args...) { \
ble_log_spi_out_printf_enh(BLE_LOG_SPI_OUT_SOURCE_BLUEDROID, BLE_LOG_SPI_OUT_LEVEL_DEBUG, "BT_L2CAP", fmt, ## args); \
if (l2cb.l2cap_trace_level >= BT_TRACE_LEVEL_EVENT && BT_LOG_LEVEL_CHECK(L2CAP, EVENT)) BT_PRINT_D("BT_L2CAP", fmt, ## args); \
}
#define L2CAP_TRACE_DEBUG(fmt, args...) { \
ble_log_spi_out_printf_enh(BLE_LOG_SPI_OUT_SOURCE_BLUEDROID, BLE_LOG_SPI_OUT_LEVEL_DEBUG, "BT_L2CAP", fmt, ## args); \
if (l2cb.l2cap_trace_level >= BT_TRACE_LEVEL_DEBUG && BT_LOG_LEVEL_CHECK(L2CAP, DEBUG)) BT_PRINT_D("BT_L2CAP", fmt, ## args); \
}
#else
#define L2CAP_TRACE_ERROR(fmt, args...) {if (l2cb.l2cap_trace_level >= BT_TRACE_LEVEL_ERROR && BT_LOG_LEVEL_CHECK(L2CAP, ERROR)) BT_PRINT_E("BT_L2CAP", fmt, ## args);}
#define L2CAP_TRACE_WARNING(fmt, args...) {if (l2cb.l2cap_trace_level >= BT_TRACE_LEVEL_WARNING && BT_LOG_LEVEL_CHECK(L2CAP, WARNING)) BT_PRINT_W("BT_L2CAP", fmt, ## args);}
#define L2CAP_TRACE_API(fmt, args...) {if (l2cb.l2cap_trace_level >= BT_TRACE_LEVEL_API && BT_LOG_LEVEL_CHECK(L2CAP,API)) BT_PRINT_I("BT_L2CAP", fmt, ## args);}
#define L2CAP_TRACE_EVENT(fmt, args...) {if (l2cb.l2cap_trace_level >= BT_TRACE_LEVEL_EVENT && BT_LOG_LEVEL_CHECK(L2CAP,EVENT)) BT_PRINT_D("BT_L2CAP", fmt, ## args);}
#define L2CAP_TRACE_DEBUG(fmt, args...) {if (l2cb.l2cap_trace_level >= BT_TRACE_LEVEL_DEBUG && BT_LOG_LEVEL_CHECK(L2CAP,DEBUG)) BT_PRINT_D("BT_L2CAP", fmt, ## args);}
#endif // (BT_BLE_LOG_SPI_OUT_HOST_ENABLED && !CLASSIC_BT_INCLUDED)
/* Define tracing for the SDP unit
*/
#define SDP_TRACE_ERROR(fmt, args...) {if (sdp_cb.trace_level >= BT_TRACE_LEVEL_ERROR && BT_LOG_LEVEL_CHECK(SDP, ERROR)) BT_PRINT_E("BT_SDP", fmt, ## args);}
@ -248,11 +314,38 @@ static inline void trc_dump_buffer(const char *prefix, uint8_t *data, uint16_t l
#define RFCOMM_TRACE_DEBUG(fmt, args...) {if (rfc_cb.trace_level >= BT_TRACE_LEVEL_DEBUG && BT_LOG_LEVEL_CHECK(RFCOMM,DEBUG)) BT_PRINT_D("BT_RFCOMM", fmt, ## args);}
/* Generic Access Profile traces */
#if (BT_BLE_LOG_SPI_OUT_HOST_ENABLED && !CLASSIC_BT_INCLUDED)
#define GAP_TRACE_ERROR(fmt, args...) { \
ble_log_spi_out_printf_enh(BLE_LOG_SPI_OUT_SOURCE_BLUEDROID, BLE_LOG_SPI_OUT_LEVEL_ERROR, "BT_GAP", fmt, ## args); \
if (gap_cb.trace_level >= BT_TRACE_LEVEL_ERROR && BT_LOG_LEVEL_CHECK(GAP, ERROR)) BT_PRINT_E("BT_GAP", fmt, ## args); \
}
#define GAP_TRACE_WARNING(fmt, args...) { \
ble_log_spi_out_printf_enh(BLE_LOG_SPI_OUT_SOURCE_BLUEDROID, BLE_LOG_SPI_OUT_LEVEL_WARN, "BT_GAP", fmt, ## args); \
if (gap_cb.trace_level >= BT_TRACE_LEVEL_WARNING && BT_LOG_LEVEL_CHECK(GAP, WARNING)) BT_PRINT_W("BT_GAP", fmt, ## args); \
}
#define GAP_TRACE_API(fmt, args...) { \
ble_log_spi_out_printf_enh(BLE_LOG_SPI_OUT_SOURCE_BLUEDROID, BLE_LOG_SPI_OUT_LEVEL_INFO, "BT_GAP", fmt, ## args); \
if (gap_cb.trace_level >= BT_TRACE_LEVEL_API && BT_LOG_LEVEL_CHECK(GAP, API)) BT_PRINT_I("BT_GAP", fmt, ## args); \
}
#define GAP_TRACE_EVENT(fmt, args...) { \
ble_log_spi_out_printf_enh(BLE_LOG_SPI_OUT_SOURCE_BLUEDROID, BLE_LOG_SPI_OUT_LEVEL_DEBUG, "BT_GAP", fmt, ## args); \
if (gap_cb.trace_level >= BT_TRACE_LEVEL_EVENT && BT_LOG_LEVEL_CHECK(GAP, EVENT)) BT_PRINT_D("BT_GAP", fmt, ## args); \
}
#else
#define GAP_TRACE_ERROR(fmt, args...) {if (gap_cb.trace_level >= BT_TRACE_LEVEL_ERROR && BT_LOG_LEVEL_CHECK(GAP, ERROR)) BT_PRINT_E("BT_GAP", fmt, ## args);}
#define GAP_TRACE_API(fmt, args...) {if (gap_cb.trace_level >= BT_TRACE_LEVEL_API && BT_LOG_LEVEL_CHECK(GAP,API)) BT_PRINT_I("BT_GAP", fmt, ## args);}
#define GAP_TRACE_EVENT(fmt, args...) {if (gap_cb.trace_level >= BT_TRACE_LEVEL_EVENT && BT_LOG_LEVEL_CHECK(GAP,EVENT)) BT_PRINT_D("BT_GAP", fmt, ## args);}
#define GAP_TRACE_WARNING(fmt, args...) {if (gap_cb.trace_level >= BT_TRACE_LEVEL_WARNING && BT_LOG_LEVEL_CHECK(GAP, WARNING)) BT_PRINT_W("BT_GAP", fmt, ## args);}
#endif // (BT_BLE_LOG_SPI_OUT_HOST_ENABLED && !CLASSIC_BT_INCLUDED)
/* define traces for HID Host */
#define HIDH_TRACE_ERROR(fmt, args...) {if (hh_cb.trace_level >= BT_TRACE_LEVEL_ERROR && BT_LOG_LEVEL_CHECK(HIDH, ERROR)) BT_PRINT_E("BT_HIDH", fmt, ## args);}
#define HIDH_TRACE_WARNING(fmt, args...) {if (hh_cb.trace_level >= BT_TRACE_LEVEL_WARNING && BT_LOG_LEVEL_CHECK(HIDH, WARNING)) BT_PRINT_W("BT_HIDH", fmt, ## args);}
@ -354,20 +447,81 @@ static inline void trc_dump_buffer(const char *prefix, uint8_t *data, uint16_t l
/* Define tracing for the ATT/GATT unit
*/
#if (BT_BLE_LOG_SPI_OUT_HOST_ENABLED && !CLASSIC_BT_INCLUDED)
#define GATT_TRACE_ERROR(fmt, args...) { \
ble_log_spi_out_printf_enh(BLE_LOG_SPI_OUT_SOURCE_BLUEDROID, BLE_LOG_SPI_OUT_LEVEL_ERROR, "BT_GATT", fmt, ## args); \
if (gatt_cb.trace_level >= BT_TRACE_LEVEL_ERROR && BT_LOG_LEVEL_CHECK(GATT, ERROR)) BT_PRINT_E("BT_GATT", fmt, ## args); \
}
#define GATT_TRACE_WARNING(fmt, args...) { \
ble_log_spi_out_printf_enh(BLE_LOG_SPI_OUT_SOURCE_BLUEDROID, BLE_LOG_SPI_OUT_LEVEL_WARN, "BT_GATT", fmt, ## args); \
if (gatt_cb.trace_level >= BT_TRACE_LEVEL_WARNING && BT_LOG_LEVEL_CHECK(GATT, WARNING)) BT_PRINT_W("BT_GATT", fmt, ## args); \
}
#define GATT_TRACE_API(fmt, args...) { \
ble_log_spi_out_printf_enh(BLE_LOG_SPI_OUT_SOURCE_BLUEDROID, BLE_LOG_SPI_OUT_LEVEL_INFO, "BT_GATT", fmt, ## args); \
if (gatt_cb.trace_level >= BT_TRACE_LEVEL_API && BT_LOG_LEVEL_CHECK(GATT, API)) BT_PRINT_I("BT_GATT", fmt, ## args); \
}
#define GATT_TRACE_EVENT(fmt, args...) { \
ble_log_spi_out_printf_enh(BLE_LOG_SPI_OUT_SOURCE_BLUEDROID, BLE_LOG_SPI_OUT_LEVEL_DEBUG, "BT_GATT", fmt, ## args); \
if (gatt_cb.trace_level >= BT_TRACE_LEVEL_EVENT && BT_LOG_LEVEL_CHECK(GATT, EVENT)) BT_PRINT_D("BT_GATT", fmt, ## args); \
}
#define GATT_TRACE_DEBUG(fmt, args...) { \
ble_log_spi_out_printf_enh(BLE_LOG_SPI_OUT_SOURCE_BLUEDROID, BLE_LOG_SPI_OUT_LEVEL_DEBUG, "BT_GATT", fmt, ## args); \
if (gatt_cb.trace_level >= BT_TRACE_LEVEL_DEBUG && BT_LOG_LEVEL_CHECK(GATT, DEBUG)) BT_PRINT_D("BT_GATT", fmt, ## args); \
}
#else
#define GATT_TRACE_ERROR(fmt, args...) {if (gatt_cb.trace_level >= BT_TRACE_LEVEL_ERROR && BT_LOG_LEVEL_CHECK(GATT, ERROR)) BT_PRINT_E("BT_GATT", fmt, ## args);}
#define GATT_TRACE_WARNING(fmt, args...) {if (gatt_cb.trace_level >= BT_TRACE_LEVEL_WARNING && BT_LOG_LEVEL_CHECK(GATT, WARNING)) BT_PRINT_W("BT_GATT", fmt, ## args);}
#define GATT_TRACE_API(fmt, args...) {if (gatt_cb.trace_level >= BT_TRACE_LEVEL_API && BT_LOG_LEVEL_CHECK(GATT,API)) BT_PRINT_I("BT_GATT", fmt, ## args);}
#define GATT_TRACE_EVENT(fmt, args...) {if (gatt_cb.trace_level >= BT_TRACE_LEVEL_EVENT && BT_LOG_LEVEL_CHECK(GATT,EVENT)) BT_PRINT_D("BT_GATT", fmt, ## args);}
#define GATT_TRACE_DEBUG(fmt, args...) {if (gatt_cb.trace_level >= BT_TRACE_LEVEL_DEBUG && BT_LOG_LEVEL_CHECK(GATT,DEBUG)) BT_PRINT_D("BT_GATT", fmt, ## args);}
#endif // (BT_BLE_LOG_SPI_OUT_HOST_ENABLED && !CLASSIC_BT_INCLUDED)
/* Define tracing for the SMP unit
*/
#if (BT_BLE_LOG_SPI_OUT_HOST_ENABLED && !CLASSIC_BT_INCLUDED)
#define SMP_TRACE_ERROR(fmt, args...) { \
ble_log_spi_out_printf_enh(BLE_LOG_SPI_OUT_SOURCE_BLUEDROID, BLE_LOG_SPI_OUT_LEVEL_ERROR, "BT_SMP", fmt, ## args); \
if (smp_cb.trace_level >= BT_TRACE_LEVEL_ERROR && BT_LOG_LEVEL_CHECK(SMP, ERROR)) BT_PRINT_E("BT_SMP", fmt, ## args); \
}
#define SMP_TRACE_WARNING(fmt, args...) { \
ble_log_spi_out_printf_enh(BLE_LOG_SPI_OUT_SOURCE_BLUEDROID, BLE_LOG_SPI_OUT_LEVEL_WARN, "BT_SMP", fmt, ## args); \
if (smp_cb.trace_level >= BT_TRACE_LEVEL_WARNING && BT_LOG_LEVEL_CHECK(SMP, WARNING)) BT_PRINT_W("BT_SMP", fmt, ## args); \
}
#define SMP_TRACE_API(fmt, args...) { \
ble_log_spi_out_printf_enh(BLE_LOG_SPI_OUT_SOURCE_BLUEDROID, BLE_LOG_SPI_OUT_LEVEL_INFO, "BT_SMP", fmt, ## args); \
if (smp_cb.trace_level >= BT_TRACE_LEVEL_API && BT_LOG_LEVEL_CHECK(SMP, API)) BT_PRINT_I("BT_SMP", fmt, ## args); \
}
#define SMP_TRACE_EVENT(fmt, args...) { \
ble_log_spi_out_printf_enh(BLE_LOG_SPI_OUT_SOURCE_BLUEDROID, BLE_LOG_SPI_OUT_LEVEL_DEBUG, "BT_SMP", fmt, ## args); \
if (smp_cb.trace_level >= BT_TRACE_LEVEL_EVENT && BT_LOG_LEVEL_CHECK(SMP, EVENT)) BT_PRINT_D("BT_SMP", fmt, ## args); \
}
#define SMP_TRACE_DEBUG(fmt, args...) { \
ble_log_spi_out_printf_enh(BLE_LOG_SPI_OUT_SOURCE_BLUEDROID, BLE_LOG_SPI_OUT_LEVEL_DEBUG, "BT_SMP", fmt, ## args); \
if (smp_cb.trace_level >= BT_TRACE_LEVEL_DEBUG && BT_LOG_LEVEL_CHECK(SMP, DEBUG)) BT_PRINT_D("BT_SMP", fmt, ## args); \
}
#else
#define SMP_TRACE_ERROR(fmt, args...) {if (smp_cb.trace_level >= BT_TRACE_LEVEL_ERROR && BT_LOG_LEVEL_CHECK(SMP, ERROR)) BT_PRINT_E("BT_SMP", fmt, ## args);}
#define SMP_TRACE_WARNING(fmt, args...) {if (smp_cb.trace_level >= BT_TRACE_LEVEL_WARNING && BT_LOG_LEVEL_CHECK(SMP, WARNING)) BT_PRINT_W("BT_SMP", fmt, ## args);}
#define SMP_TRACE_API(fmt, args...) {if (smp_cb.trace_level >= BT_TRACE_LEVEL_API && BT_LOG_LEVEL_CHECK(SMP,API)) BT_PRINT_I("BT_SMP", fmt, ## args);}
#define SMP_TRACE_EVENT(fmt, args...) {if (smp_cb.trace_level >= BT_TRACE_LEVEL_EVENT && BT_LOG_LEVEL_CHECK(SMP,EVENT)) BT_PRINT_D("BT_SMP", fmt, ## args);}
#define SMP_TRACE_DEBUG(fmt, args...) {if (smp_cb.trace_level >= BT_TRACE_LEVEL_DEBUG && BT_LOG_LEVEL_CHECK(SMP,DEBUG)) BT_PRINT_D("BT_SMP", fmt, ## args);}
#endif // (BT_BLE_LOG_SPI_OUT_HOST_ENABLED && !CLASSIC_BT_INCLUDED)
extern UINT8 btif_trace_level;