zephyr/subsys/logging/log_backend_rtt.c

310 lines
7.4 KiB
C

/*
* Copyright (c) 2018 omSquare s.r.o.
*
* SPDX-License-Identifier: Apache-2.0
*/
#include <logging/log_backend.h>
#include <logging/log_core.h>
#include <logging/log_msg.h>
#include <logging/log_output.h>
#include <logging/log_backend_std.h>
#include <SEGGER_RTT.h>
#ifndef CONFIG_LOG_BACKEND_RTT_BUFFER_SIZE
#define CONFIG_LOG_BACKEND_RTT_BUFFER_SIZE 0
#endif
#ifndef CONFIG_LOG_BACKEND_RTT_MESSAGE_SIZE
#define CONFIG_LOG_BACKEND_RTT_MESSAGE_SIZE 0
#endif
#ifndef CONFIG_LOG_BACKEND_RTT_OUTPUT_BUFFER_SIZE
#define CONFIG_LOG_BACKEND_RTT_OUTPUT_BUFFER_SIZE 0
#endif
#ifndef CONFIG_LOG_BACKEND_RTT_RETRY_DELAY_MS
/* Long enough to detect host presence */
#define CONFIG_LOG_BACKEND_RTT_RETRY_DELAY_MS 10
#endif
#ifndef CONFIG_LOG_BACKEND_RTT_RETRY_CNT
/* Big enough to detect host presence */
#define CONFIG_LOG_BACKEND_RTT_RETRY_CNT 10
#endif
#define DROP_MAX 99
#define DROP_MSG "messages dropped: \r\n"
#define DROP_MSG_LEN (sizeof(DROP_MSG) - 1)
#define MESSAGE_SIZE CONFIG_LOG_BACKEND_RTT_MESSAGE_SIZE
#define CHAR_BUF_SIZE \
((IS_ENABLED(CONFIG_LOG_BACKEND_RTT_MODE_BLOCK) && \
!IS_ENABLED(CONFIG_LOG_IMMEDIATE)) ? \
CONFIG_LOG_BACKEND_RTT_OUTPUT_BUFFER_SIZE : 1)
#define RTT_LOCK() \
COND_CODE_0(CONFIG_LOG_BACKEND_RTT_BUFFER, (SEGGER_RTT_LOCK()), ())
#define RTT_UNLOCK() \
COND_CODE_0(CONFIG_LOG_BACKEND_RTT_BUFFER, (SEGGER_RTT_UNLOCK()), ())
#define RTT_BUFFER_SIZE \
COND_CODE_0(CONFIG_LOG_BACKEND_RTT_BUFFER, \
(0), (CONFIG_LOG_BACKEND_RTT_BUFFER_SIZE))
static const char *drop_msg = DROP_MSG;
static uint8_t rtt_buf[RTT_BUFFER_SIZE];
static uint8_t line_buf[MESSAGE_SIZE + DROP_MSG_LEN];
static uint8_t *line_pos;
static uint8_t char_buf[CHAR_BUF_SIZE];
static int drop_cnt;
static int drop_warn;
static bool panic_mode;
static bool host_present;
static int data_out_block_mode(uint8_t *data, size_t length, void *ctx);
static int data_out_drop_mode(uint8_t *data, size_t length, void *ctx);
static int char_out_drop_mode(uint8_t data);
static int line_out_drop_mode(void);
static inline bool is_sync_mode(void)
{
return IS_ENABLED(CONFIG_LOG_IMMEDIATE) || panic_mode;
}
static inline bool is_panic_mode(void)
{
return panic_mode;
}
static int data_out_drop_mode(uint8_t *data, size_t length, void *ctx)
{
(void) ctx;
uint8_t *pos;
if (is_sync_mode()) {
return data_out_block_mode(data, length, ctx);
}
for (pos = data; pos < data + length; pos++) {
if (char_out_drop_mode(*pos)) {
break;
}
}
return (int) (pos - data);
}
static int char_out_drop_mode(uint8_t data)
{
if (data == '\n') {
if (line_out_drop_mode()) {
return 1;
}
line_pos = line_buf;
return 0;
}
if (line_pos < line_buf + MESSAGE_SIZE - 1) {
*line_pos++ = data;
}
/* not enough space in line buffer, we have to wait for EOL */
return 0;
}
static int line_out_drop_mode(void)
{
/* line cannot be empty */
__ASSERT_NO_MSG(line_pos > line_buf);
/* Handle the case if line contains only '\n' */
if (line_pos - line_buf == 1) {
line_pos++;
}
*(line_pos - 1) = '\r';
*line_pos++ = '\n';
if (drop_cnt > 0 && !drop_warn) {
int cnt = MIN(drop_cnt, DROP_MAX);
__ASSERT_NO_MSG(line_pos - line_buf <= MESSAGE_SIZE);
memmove(line_buf + DROP_MSG_LEN, line_buf, line_pos - line_buf);
(void)memcpy(line_buf, drop_msg, DROP_MSG_LEN);
line_pos += DROP_MSG_LEN;
drop_warn = 1;
if (cnt < 10) {
line_buf[DROP_MSG_LEN - 2] = ' ';
line_buf[DROP_MSG_LEN - 3] = (uint8_t) ('0' + cnt);
line_buf[DROP_MSG_LEN - 4] = ' ';
} else {
line_buf[DROP_MSG_LEN - 2] = (uint8_t) ('0' + cnt % 10);
line_buf[DROP_MSG_LEN - 3] = (uint8_t) ('0' + cnt / 10);
line_buf[DROP_MSG_LEN - 4] = '>';
}
}
RTT_LOCK();
int ret = SEGGER_RTT_WriteSkipNoLock(CONFIG_LOG_BACKEND_RTT_BUFFER,
line_buf, line_pos - line_buf);
RTT_UNLOCK();
if (ret == 0) {
drop_cnt++;
} else {
drop_cnt = 0;
drop_warn = 0;
}
return 0;
}
static void on_failed_write(int retry_cnt)
{
if (retry_cnt == 0) {
host_present = false;
} else if (is_sync_mode()) {
k_busy_wait(USEC_PER_MSEC *
CONFIG_LOG_BACKEND_RTT_RETRY_DELAY_MS);
} else {
k_msleep(CONFIG_LOG_BACKEND_RTT_RETRY_DELAY_MS);
}
}
static void on_write(int retry_cnt)
{
host_present = true;
if (is_panic_mode()) {
/* In panic mode block on each write until host reads it. This
* way it is ensured that if system resets all messages are read
* by the host. While pending on data being read by the host we
* must also detect situation where host is disconnected.
*/
while (SEGGER_RTT_HasDataUp(CONFIG_LOG_BACKEND_RTT_BUFFER) &&
host_present) {
on_failed_write(retry_cnt--);
}
}
}
static int data_out_block_mode(uint8_t *data, size_t length, void *ctx)
{
int ret = 0;
/* This function is also called in drop mode for synchronous operation
* in that case retry is undesired */
int retry_cnt = IS_ENABLED(CONFIG_LOG_BACKEND_RTT_MODE_BLOCK) ?
CONFIG_LOG_BACKEND_RTT_RETRY_CNT : 1;
do {
if (!is_sync_mode()) {
RTT_LOCK();
}
ret = SEGGER_RTT_WriteSkipNoLock(CONFIG_LOG_BACKEND_RTT_BUFFER,
data, length);
if (!is_sync_mode()) {
RTT_UNLOCK();
}
if (ret) {
on_write(retry_cnt);
} else if (host_present) {
retry_cnt--;
on_failed_write(retry_cnt);
} else {
}
} while ((ret == 0) && host_present);
return ((ret == 0) && host_present) ? 0 : length;
}
LOG_OUTPUT_DEFINE(log_output_rtt,
IS_ENABLED(CONFIG_LOG_BACKEND_RTT_MODE_BLOCK) ?
data_out_block_mode : data_out_drop_mode,
char_buf, sizeof(char_buf));
static void put(const struct log_backend *const backend,
struct log_msg *msg)
{
uint32_t flag = IS_ENABLED(CONFIG_LOG_BACKEND_RTT_SYST_ENABLE) ?
LOG_OUTPUT_FLAG_FORMAT_SYST : 0;
log_backend_std_put(&log_output_rtt, flag, msg);
}
static void log_backend_rtt_cfg(void)
{
SEGGER_RTT_ConfigUpBuffer(CONFIG_LOG_BACKEND_RTT_BUFFER, "Logger",
rtt_buf, sizeof(rtt_buf),
SEGGER_RTT_MODE_NO_BLOCK_SKIP);
}
static void log_backend_rtt_init(void)
{
if (CONFIG_LOG_BACKEND_RTT_BUFFER > 0) {
log_backend_rtt_cfg();
}
host_present = true;
line_pos = line_buf;
}
static void panic(struct log_backend const *const backend)
{
panic_mode = true;
log_backend_std_panic(&log_output_rtt);
}
static void dropped(const struct log_backend *const backend, uint32_t cnt)
{
ARG_UNUSED(backend);
log_backend_std_dropped(&log_output_rtt, cnt);
}
static void sync_string(const struct log_backend *const backend,
struct log_msg_ids src_level, uint32_t timestamp,
const char *fmt, va_list ap)
{
uint32_t flag = IS_ENABLED(CONFIG_LOG_BACKEND_RTT_SYST_ENABLE) ?
LOG_OUTPUT_FLAG_FORMAT_SYST : 0;
log_backend_std_sync_string(&log_output_rtt, flag, src_level,
timestamp, fmt, ap);
}
static void sync_hexdump(const struct log_backend *const backend,
struct log_msg_ids src_level, uint32_t timestamp,
const char *metadata, const uint8_t *data, uint32_t length)
{
uint32_t flag = IS_ENABLED(CONFIG_LOG_BACKEND_RTT_SYST_ENABLE) ?
LOG_OUTPUT_FLAG_FORMAT_SYST : 0;
log_backend_std_sync_hexdump(&log_output_rtt, flag, src_level,
timestamp, metadata, data, length);
}
const struct log_backend_api log_backend_rtt_api = {
.put = IS_ENABLED(CONFIG_LOG_IMMEDIATE) ? NULL : put,
.put_sync_string = IS_ENABLED(CONFIG_LOG_IMMEDIATE) ?
sync_string : NULL,
.put_sync_hexdump = IS_ENABLED(CONFIG_LOG_IMMEDIATE) ?
sync_hexdump : NULL,
.panic = panic,
.init = log_backend_rtt_init,
.dropped = IS_ENABLED(CONFIG_LOG_IMMEDIATE) ? NULL : dropped,
};
LOG_BACKEND_DEFINE(log_backend_rtt, log_backend_rtt_api, true);