pinebuds/services/nv_section/log_section/log_section.c

629 lines
19 KiB
C

/***************************************************************************
*
* Copyright 2015-2020 BES.
* All rights reserved. All unpublished rights reserved.
*
* No part of this work may be used or reproduced in any form or by any
* means, or stored in a database or retrieval system, without prior written
* permission of BES.
*
* Use of this work is governed by a license granted by BES.
* This work contains confidential and proprietary information of
* BES. which is protected by copyright, trade secret,
* trademark and other intellectual property rights.
*
****************************************************************************/
#include <stdio.h>
#include <string.h>
#include "hal_trace.h"
#include "log_section.h"
#include <string.h>
#include "hal_timer.h"
#include "hal_norflash.h"
#include "norflash_api.h"
#include "cmsis.h"
#include "hal_cache.h"
#include "hal_sleep.h"
#include "pmu.h"
// #define DUMP_NO_ROLLBACK
#define LOG_DUMP_PREFIX "__LOG_DUMP:"
#if 0
#define LOG_DUMP_TRACE(num,fmt, ...) TRACE(num,fmt, ##__VA_ARGS__)
#else
#define LOG_DUMP_TRACE(num,fmt, ...)
#endif
#define LOG_DUMP_TRACE_FORCE(num,fmt, ...) TRACE(num,fmt, ##__VA_ARGS__)
#define DUMP_LOG_ALIGN(x,a) (uint32_t)(((x + a - 1)/a) * a)
extern uint32_t __log_dump_start;
extern uint32_t __log_dump_end;
extern void watchdog_ping(void);
static const uint32_t log_dump_flash_start_addr = (uint32_t)&__log_dump_start;
static const uint32_t log_dump_flash_end_addr = (uint32_t)&__log_dump_end;
static uint32_t log_dump_flash_len;
static DATA_BUFFER data_buffer_list[LOG_DUMP_SECTOR_BUFFER_COUNT];
static uint32_t log_dump_w_seqnum = 0;
static uint32_t log_dump_f_seqnum = 0;
static uint32_t log_dump_flash_offs = 0;
static uint32_t log_dump_cur_dump_seqnum;
static bool log_dump_is_init = false;
static bool log_dump_is_immediately;
static bool log_dump_is_bootup = true;
static enum LOG_DUMP_FLUSH_STATE log_dump_flash_state = LOG_DUMP_FLASH_STATE_IDLE;
static enum NORFLASH_API_RET_T _flash_api_read(uint32_t addr, uint8_t* buffer, uint32_t len)
{
return norflash_sync_read(NORFLASH_API_MODULE_ID_LOG_DUMP,
addr,
buffer,
len);
}
static void _flash_api_flush(void)
{
hal_trace_pause();
do
{
norflash_api_flush();
} while(!norflash_api_buffer_is_free(NORFLASH_API_MODULE_ID_LOG_DUMP));
hal_trace_continue();
}
static enum NORFLASH_API_RET_T _flash_api_erase(uint32_t addr,
bool is_async)
{
uint32_t lock;
enum NORFLASH_API_RET_T ret = NORFLASH_API_OK;
if(log_dump_is_immediately)
{
is_async = false;
}
do
{
lock = int_lock_global();
hal_trace_pause();
ret = norflash_api_erase(NORFLASH_API_MODULE_ID_LOG_DUMP,
addr,
LOG_DUMP_SECTOR_SIZE,
is_async);
hal_trace_continue();
int_unlock_global(lock);
if (NORFLASH_API_OK == ret)
{
// LOG_DUMP_TRACE(1,LOG_DUMP_PREFIX"%s: norflash_api_erase ok!",__func__);
break;
}
else if(NORFLASH_API_BUFFER_FULL == ret)
{
norflash_api_flush();
if(is_async)
{
break;
}
}
else
{
ASSERT(0, "_flash_api_erase: norflash_api_erase failed. ret = %d,addr = 0x%x.", ret,addr);
}
} while (1);
return ret;
}
static enum NORFLASH_API_RET_T _flash_api_write(uint32_t addr,
uint8_t* ptr,
uint32_t len,
bool is_async)
{
uint32_t lock;
enum NORFLASH_API_RET_T ret = NORFLASH_API_OK;
if(log_dump_is_immediately)
{
is_async = false;
}
do
{
lock = int_lock_global();
hal_trace_pause();
ret = norflash_api_write(NORFLASH_API_MODULE_ID_LOG_DUMP,
addr,
ptr,
len,
is_async);
hal_trace_continue();
int_unlock_global(lock);
if (NORFLASH_API_OK == ret)
{
// LOG_DUMP_TRACE(1,LOG_DUMP_PREFIX"%s: norflash_api_write ok!",__func__);
break;
}
else if (NORFLASH_API_BUFFER_FULL == ret)
{
norflash_api_flush();
if(is_async)
{
LOG_DUMP_TRACE(1,LOG_DUMP_PREFIX"%s: norflash api buffer full",__func__);
break;
}
}
else
{
ASSERT(0,"_flash_api_write: norflash_api_write failed. ret = %d",ret);
}
}while (1);
return ret;
}
static int32_t _get_seqnum(uint32_t * dump_seqnum, uint32_t *sector_seqnum)
{
#ifndef DUMP_NO_ROLLBACK
uint32_t i;
uint32_t count;
static enum NORFLASH_API_RET_T result;
LOG_DUMP_HEADER log_dump_header;
uint32_t max_dump_seqnum = 0;
uint32_t max_sector_seqnum = 0;
bool is_existed = false;
count = (log_dump_flash_end_addr-log_dump_flash_start_addr)/LOG_DUMP_SECTOR_SIZE;
for(i = 0; i < count; i++)
{
result = _flash_api_read(
log_dump_flash_start_addr + i*LOG_DUMP_SECTOR_SIZE,
(uint8_t*)&log_dump_header,
sizeof(LOG_DUMP_HEADER));
if(result == NORFLASH_API_OK)
{
if(log_dump_header.magic == DUMP_LOG_MAGIC
&& log_dump_header.version == DUMP_LOG_VERSION
)
{
is_existed = true;
if(log_dump_header.seqnum > max_dump_seqnum)
{
max_dump_seqnum = log_dump_header.seqnum;
max_sector_seqnum = i;
}
}
}
else
{
ASSERT(0,"_get_cur_sector_seqnum: _flash_api_read failed!result = %d.",result);
}
}
if(is_existed)
{
*dump_seqnum = max_dump_seqnum + 1;
*sector_seqnum = max_sector_seqnum + 1 >= count ? 0: max_sector_seqnum + 1;
}
else
{
*dump_seqnum = 0;
*sector_seqnum = 0;
}
#else
{
LOG_DUMP_HEADER log_dump_header;
_flash_api_read(
log_dump_flash_start_addr,
(uint8_t*)&log_dump_header,
sizeof(LOG_DUMP_HEADER));
*dump_seqnum = 0;
*sector_seqnum = 0;
}
#endif
return 0;
}
static int _log_dump_flush(uint32_t buff_state,bool is_async)
{
enum NORFLASH_API_RET_T result;
static uint32_t total_len = 0;
DATA_BUFFER *data_buff;
if(log_dump_flash_state == LOG_DUMP_FLASH_STATE_IDLE
&& (log_dump_flash_offs % LOG_DUMP_SECTOR_SIZE) == 0)
{
LOG_DUMP_TRACE(3,LOG_DUMP_PREFIX"%s:%d,state = idle,addr = 0x%x.",
__func__,__LINE__,log_dump_flash_start_addr + log_dump_flash_offs);
result = _flash_api_erase(log_dump_flash_start_addr + log_dump_flash_offs,is_async);
if(result == NORFLASH_API_OK)
{
LOG_DUMP_TRACE(3,LOG_DUMP_PREFIX"%s:%d,erase ok,addr = 0x%x,",
__func__,__LINE__,log_dump_flash_start_addr + log_dump_flash_offs);
log_dump_flash_state = LOG_DUMP_FLASH_STATE_ERASED;
}
else
{
LOG_DUMP_TRACE(3,LOG_DUMP_PREFIX"%s: _flash_api_erase failed!addr = 0x%x,ret = %d.",
__func__,log_dump_flash_start_addr + log_dump_flash_offs, result);
}
}
else if(log_dump_flash_state == LOG_DUMP_FLASH_STATE_ERASED ||
log_dump_flash_state == LOG_DUMP_FLASH_STATE_WRITTING)
{
data_buff = &data_buffer_list[log_dump_f_seqnum];
if((data_buff->state & buff_state) != 0
&& data_buff->offset > 0)
{
LOG_DUMP_TRACE(3,LOG_DUMP_PREFIX"%s:%d,state = ERASED,f_seqnum = %d.",
__func__,__LINE__,log_dump_f_seqnum);
log_dump_flash_state = LOG_DUMP_FLASH_STATE_WRITTING;
result = _flash_api_write(
log_dump_flash_start_addr + log_dump_flash_offs,
data_buff->buffer,
data_buff->offset,
is_async);
if(result == NORFLASH_API_OK)
{
LOG_DUMP_TRACE(5,LOG_DUMP_PREFIX"%s:%d,write ok,addr = 0x%x,f_seqnum = 0x%x,total_len = 0x%x.",
__func__,__LINE__,
log_dump_flash_start_addr + log_dump_flash_offs,
log_dump_f_seqnum,
total_len);
data_buff->state = DATA_BUFFER_STATE_FREE;
log_dump_f_seqnum = log_dump_f_seqnum + 1 == LOG_DUMP_SECTOR_BUFFER_COUNT ?
0 : log_dump_f_seqnum + 1;
total_len += data_buff->offset;
log_dump_flash_offs = log_dump_flash_offs + data_buff->offset >= log_dump_flash_len ?
0 : log_dump_flash_offs + data_buff->offset;
log_dump_flash_state = LOG_DUMP_FLASH_STATE_IDLE;
}
else
{
LOG_DUMP_TRACE(2,LOG_DUMP_PREFIX"%s: _flash_api_write failed!ret = %d.",__func__,result);
return 3;
}
}
}
else
{
LOG_DUMP_TRACE(3,LOG_DUMP_PREFIX"%s:%d state = %d.",
__func__,__LINE__,log_dump_flash_state);
}
return 0;
}
void _log_dump_flush_remain(void)
{
uint32_t i;
uint32_t unfree_count = 0;
do{
unfree_count = 0;
for(i = 0; i < LOG_DUMP_SECTOR_BUFFER_COUNT; i++)
{
if(data_buffer_list[i].state != DATA_BUFFER_STATE_FREE)
{
unfree_count ++;
}
}
if(unfree_count == 0)
{
break;
}
_log_dump_flush(DATA_BUFFER_STATE_WRITTING | DATA_BUFFER_STATE_WRITTEN,false);
}while(1);
_flash_api_flush();
}
int log_dump_flush_all(void)
{
norflash_api_flush_enable_all();
log_dump_is_immediately = true;
_log_dump_flush_remain();
return 0;
}
int log_dump_flush(void)
{
if(!log_dump_is_init)
{
return 0;
}
return _log_dump_flush(DATA_BUFFER_STATE_WRITTEN, true);
}
void log_dump_notify_handler(enum HAL_TRACE_STATE_T state)
{
//uint32_t lock;
if(!log_dump_is_init)
{
return;
}
LOG_DUMP_TRACE(3,LOG_DUMP_PREFIX"%s: state = %d,start_addr = 0x%x,end_addr = 0x%x.",
__func__,state,log_dump_flash_start_addr,log_dump_flash_end_addr);
LOG_DUMP_TRACE(3,LOG_DUMP_PREFIX"%s: dump_seqnum = 0x%x,flash_offset = 0x%x.",
__func__,log_dump_cur_dump_seqnum,log_dump_flash_offs);
if(state == HAL_TRACE_STATE_CRASH_ASSERT_START
|| state == HAL_TRACE_STATE_CRASH_FAULT_START)
{
norflash_api_flush_enable_all();
log_dump_is_immediately = true;
}
else
{
LOG_DUMP_TRACE(2,LOG_DUMP_PREFIX" crash end.");
//lock = int_lock_global();
_log_dump_flush_remain();
//int_unlock_global(lock);
}
}
void log_dump_output_handler(const unsigned char *buf, unsigned int buf_len)
{
uint32_t write_len;
uint32_t written_len;
uint32_t remain_len;
LOG_DUMP_HEADER log_header;
DATA_BUFFER *data_buff;
if(!log_dump_is_init)
{
return;
}
if(strstr((char*)buf,LOG_DUMP_PREFIX) != NULL)
{
return;
}
data_buff = &data_buffer_list[log_dump_w_seqnum];
remain_len = buf_len;
written_len = 0;
do{
if(data_buff->state == DATA_BUFFER_STATE_FREE
|| data_buff->state == DATA_BUFFER_STATE_WRITTEN)
{
// LOG_DUMP_TRACE(3,LOG_DUMP_PREFIX"%s:%d data_buff->state is free.w_seqnum = %d.",
// __func__,__LINE__,log_dump_w_seqnum);
data_buff->state = DATA_BUFFER_STATE_WRITTING;
data_buff->offset = 0;
memset(data_buff->buffer,0,LOG_DUMP_SECTOR_SIZE);
}
if(data_buff->offset == 0)
{
#ifndef DUMP_NO_ROLLBACK
// LOG_DUMP_TRACE(4,LOG_DUMP_PREFIX"%s:%d offset = 0.w_seqnum = %d,dump_seqnum = %d.",
// __func__,__LINE__,log_dump_w_seqnum,log_dump_cur_dump_seqnum);
memset((uint8_t*)&log_header,0,sizeof(log_header));
log_header.magic = DUMP_LOG_MAGIC;
log_header.version = DUMP_LOG_VERSION;
log_header.seqnum = log_dump_cur_dump_seqnum;
if(log_dump_is_bootup)
{
log_header.is_bootup = 1;
log_dump_is_bootup = false;
}
else
{
log_header.is_bootup = 0;
}
log_header.reseved[0] = '\0';
log_header.reseved[1] = '\0';
log_header.reseved[2] = '\n';
memcpy(data_buff->buffer + data_buff->offset,
(uint8_t*)&log_header,
sizeof(log_header));
data_buff->offset += sizeof(log_header);
#else
if(log_dump_cur_dump_seqnum*LOG_DUMP_SECTOR_SIZE >= log_dump_flash_len)
{
log_header = log_header;
log_dump_is_bootup = log_dump_is_bootup;
break;
}
#endif
log_dump_cur_dump_seqnum ++;
}
if(data_buff->offset + remain_len > LOG_DUMP_SECTOR_SIZE)
{
write_len = (LOG_DUMP_SECTOR_SIZE - data_buff->offset);
}
else
{
write_len = remain_len;
}
if(write_len > 0)
{
memcpy(data_buff->buffer + data_buff->offset,
buf + written_len,
write_len);
data_buff->offset += write_len;
written_len += write_len;
}
if(data_buff->offset == LOG_DUMP_SECTOR_SIZE)
{
data_buff->state = DATA_BUFFER_STATE_WRITTEN;
}
remain_len -= write_len;
if(data_buff->offset == LOG_DUMP_SECTOR_SIZE)
{
log_dump_w_seqnum = log_dump_w_seqnum + 1 == LOG_DUMP_SECTOR_BUFFER_COUNT ?
0 : log_dump_w_seqnum + 1;
if(log_dump_w_seqnum == log_dump_f_seqnum)
{
log_dump_f_seqnum = log_dump_f_seqnum + 1 == LOG_DUMP_SECTOR_BUFFER_COUNT ?
0 : log_dump_f_seqnum + 1;
}
// LOG_DUMP_TRACE(4,LOG_DUMP_PREFIX"%s:%d w_seqnum = %d,dump_seqnum = %d.",
// __func__,__LINE__,log_dump_w_seqnum,log_dump_cur_dump_seqnum);
data_buff = &data_buffer_list[log_dump_w_seqnum];
ASSERT(data_buff->state == DATA_BUFFER_STATE_FREE ||
data_buff->state == DATA_BUFFER_STATE_WRITTEN,
"log_dump_output_handler: data_buff state error! state = %d.",
data_buff->state);
}
}while(remain_len > 0);
}
void log_dump_callback(void* param)
{
NORFLASH_API_OPERA_RESULT *opera_result;
opera_result = (NORFLASH_API_OPERA_RESULT*)param;
LOG_DUMP_TRACE_FORCE(6,LOG_DUMP_PREFIX"%s:type = %d, addr = 0x%x,len = 0x%x,remain = %d,result = %d.",
__func__,
opera_result->type,
opera_result->addr,
opera_result->len,
opera_result->remain_num,
opera_result->result);
{
static uint32_t is_fst = 1;
if(is_fst)
{
LOG_DUMP_TRACE(3,LOG_DUMP_PREFIX"%s:log_dump_start = 0x%x, log_dump_end = 0x%x.",
__func__,
log_dump_flash_start_addr,
log_dump_flash_end_addr);
is_fst = 0;
}
}
}
void log_dump_init(void)
{
uint32_t block_size = 0;
uint32_t sector_size = 0;
uint32_t page_size = 0;
uint32_t buffer_len = 0;
uint32_t dump_seqnum = 0;
uint32_t sector_seqnum = 0;
enum NORFLASH_API_RET_T result;
uint32_t i;
log_dump_flash_len = log_dump_flash_end_addr - log_dump_flash_start_addr;
hal_norflash_get_size(HAL_NORFLASH_ID_0,NULL, &block_size, &sector_size, &page_size);
buffer_len = LOG_DUMP_NORFALSH_BUFFER_LEN;
/*
LOG_DUMP_TRACE(4,LOG_DUMP_PREFIX"%s: log_dump_start = 0x%x, log_dump_len = 0x%x, buff_len = 0x%x.",
__func__,
log_dump_flash_start_addr,
log_dump_flash_len,
buffer_len);
*/
result = norflash_api_register(
NORFLASH_API_MODULE_ID_LOG_DUMP,
HAL_NORFLASH_ID_0,
log_dump_flash_start_addr,
log_dump_flash_end_addr - log_dump_flash_start_addr,
block_size,
sector_size,
page_size,
buffer_len,
log_dump_callback
);
if(result == NORFLASH_API_OK)
{
/*
LOG_DUMP_TRACE(1,LOG_DUMP_PREFIX"%s: norflash_api_register ok.", __func__);
*/
}
else
{
/*
LOG_DUMP_TRACE(2,LOG_DUMP_PREFIX"%s: norflash_api_register failed,result = %d.", __func__, result);
*/
return;
}
hal_trace_app_register(log_dump_notify_handler, log_dump_output_handler);
hal_sleep_set_sleep_hook(HAL_SLEEP_HOOK_DUMP_LOG, log_dump_flush);
_get_seqnum(&dump_seqnum,&sector_seqnum);
log_dump_cur_dump_seqnum = dump_seqnum;
log_dump_flash_offs = sector_seqnum*LOG_DUMP_SECTOR_SIZE;
memset((uint8_t*)&data_buffer_list,0,sizeof(data_buffer_list));
for(i = 0;i < LOG_DUMP_SECTOR_BUFFER_COUNT; i++)
{
data_buffer_list[i].state = DATA_BUFFER_STATE_FREE;
data_buffer_list[i].offset = 0;
}
log_dump_w_seqnum = 0;
log_dump_f_seqnum = 0;
log_dump_flash_state = LOG_DUMP_FLASH_STATE_IDLE;
log_dump_is_immediately = false;
log_dump_is_init = true;
}
void log_dump_clear(void)
{
uint32_t i;
uint32_t addr;
uint32_t lock = int_lock_global();
for(i = 0; i < log_dump_flash_len/LOG_DUMP_SECTOR_SIZE; i++)
{
addr = log_dump_flash_start_addr + i*LOG_DUMP_SECTOR_SIZE;
_flash_api_erase(addr,false);
}
int_unlock_global(lock);
}
#if 0
uint8_t test_buff_r[LOG_DUMP_SECTOR_SIZE];
uint32_t test_log_dump_from_flash(uint32_t addr,uint32_t size)
{
//uint32_t start_addr;
uint32_t i;
//uint8_t value = 0;
int32_t ret = 0;
enum NORFLASH_API_RET_T result = HAL_NORFLASH_OK;
LOG_DUMP_TRACE(1,LOG_DUMP_PREFIX"%s enter!!!", __func__);
for(i = 0; i < size/LOG_DUMP_SECTOR_SIZE; i++)
{
result = _flash_api_read((uint32_t)(addr)+ (i*LOG_DUMP_SECTOR_SIZE),
test_buff_r,LOG_DUMP_SECTOR_SIZE);
if(result != NORFLASH_API_OK)
{
ret = -1;
//LOG_DUMP_TRACE(2,LOG_DUMP_PREFIX"%s ret=%d", __func__, ret);
goto _func_end;
}
LOG_DUMP_TRACE(1,LOG_DUMP_PREFIX"%s", test_buff_r);
}
LOG_DUMP_TRACE(1,LOG_DUMP_PREFIX"%s end!!!", __func__);
_func_end:
LOG_DUMP_TRACE(1,LOG_DUMP_PREFIX"_debug: flash checking end. ret = %d.",ret);
return ret;
}
#endif