/*************************************************************************** * * Copyright 2015-2019 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 All unpublished rights reserved.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. * ****************************************************************************/ #if 0 #include "crash_dump_section.h" #include "cmsis.h" #if defined(CRASH_DUMP_SECTION_SIZE) && (CRASH_DUMP_SECTION_SIZE > 0) #include "hal_bootmode.h" #include "hal_norflash.h" #include "hal_timer.h" #include "hal_trace.h" #include "heap_api.h" #include "pmu.h" #include "stdio.h" #include "string.h" extern uint32_t __crash_dump_start[]; extern uint32_t __crash_dump_end[]; extern const char sys_build_info[]; #define DUMPED_MSP_BYTES 32 #define DUMPED_PSP_BYTES 32 // #undef CRASH_DUMP_SECTION_SIZE #define CRASH_DUMP_FRAME_NUM \ (((uint32_t)__crash_dump_end - (uint32_t)__crash_dump_start) / \ CRASH_DUMP_FRAME_SIZE) #ifdef TRACE_CRLF #define NEW_LINE_STR "\r\n" #else #define NEW_LINE_STR "\n" #endif static struct CRASH_OUTPUT_BUF_T *crash_dump_section_p = NULL; static struct CRASH_OUTPUT_BUF_T *crash_output_p = NULL; static bool crash_dump_init = false; static uint8_t isCrashHappened = false; static uint8_t isCrashDumpExisting = false; static void crashdump_dump_output(const unsigned char *buf, unsigned int buf_len) { if (crash_dump_init){ if ((crash_output_p->hdr.bufpos+buf_len) <= OFFSETOF(struct CRASH_OUTPUT_BUF_T, buf)){ memcpy(crash_output_p->buf+crash_output_p->hdr.bufpos, buf, buf_len); crash_output_p->hdr.bufpos += buf_len; }else{ memcpy(crash_output_p->buf+crash_output_p->hdr.bufpos, buf, OFFSETOF(struct CRASH_OUTPUT_BUF_T, buf)-crash_output_p->hdr.bufpos); crash_output_p->hdr.bufpos += OFFSETOF(struct CRASH_OUTPUT_BUF_T, buf)-crash_output_p->hdr.bufpos; } } } int crashdump_get_empty_section(uint32_t *seqnum, struct CRASH_OUTPUT_BUF_T **crash_dump_addr) { struct CRASH_OUTPUT_BUF_T *p; int32_t lastWrittenIndex = -1, index = 0; int32_t max = -1; for (p = (struct CRASH_OUTPUT_BUF_T *)__crash_dump_start; p < (struct CRASH_OUTPUT_BUF_T *)__crash_dump_end; p++){ // TRACE(2,"magic code is 0x%x seqnum is 0x%x", p->magicCode, (uint32_t)(p->seqnum)); if ((CRASH_DUMP_MAGIC_CODE == p->hdr.magicCode) && (0xffffffff != (uint32_t)(p->hdr.seqnum))) { if (max < p->hdr.seqnum){ max = p->hdr.seqnum; lastWrittenIndex = index; } } index++; } if (-1 != lastWrittenIndex) { crashdump_set_existing_flag(true); TRACE(1,"The last written dump log is at index %d", lastWrittenIndex); lastWrittenIndex++; if (lastWrittenIndex == (((uint32_t)__crash_dump_end-(uint32_t)__crash_dump_start)/sizeof(struct CRASH_OUTPUT_BUF_T))) { lastWrittenIndex = 0; } *crash_dump_addr = (struct CRASH_OUTPUT_BUF_T *)((uint32_t)__crash_dump_start + lastWrittenIndex*sizeof(struct CRASH_OUTPUT_BUF_T)); *seqnum = max+1; } else { crashdump_set_existing_flag(false); TRACE(0,"No dump log saved yet!"); *seqnum = 0; *crash_dump_addr = (struct CRASH_OUTPUT_BUF_T *)__crash_dump_start; } TRACE(1,"Next crash dump addr 0x%x", *crash_dump_addr); return 0; } void crashdump_flush_buffer(void) { uint32_t sent_cnt; uint32_t send_frame_size; const uint32_t max_frame_size = 256; sent_cnt = 0; while (sent_cnt < crash_output_p->hdr.bufpos) { send_frame_size = crash_output_p->hdr.bufpos - sent_cnt; if (send_frame_size > max_frame_size) { send_frame_size = max_frame_size; } TRACE_FLUSH(); TRACE_OUTPUT(crash_output_p->buf + sent_cnt, send_frame_size); TRACE_FLUSH(); sent_cnt += send_frame_size; } } int crashdump_init(void) { const char separate_line[] = NEW_LINE_STR "----------------------------------------" NEW_LINE_STR; uint32_t dump_section_idx; int len; char crash_buf[100]; if (crash_dump_init) return 0; crash_dump_init = true; hal_sw_bootmode_set(HAL_SW_BOOTMODE_REBOOT_FLASH_FLUSH); crashdump_get_empty_section(&dump_section_idx, &crash_dump_section_p); syspool_init(); syspool_get_buff((uint8_t **)&crash_output_p, sizeof(struct CRASH_OUTPUT_BUF_T)); crash_output_p->hdr.bufpos = 0; crash_output_p->hdr.magicCode = CRASH_DUMP_MAGIC_CODE; crash_output_p->hdr.seqnum = dump_section_idx; crash_output_p->hdr.partnum = CRASH_DUMP_FRAME_NUM; crashdump_dump_output((unsigned char *)separate_line, sizeof(separate_line) - 1); len = snprintf(crash_buf, sizeof(crash_buf), "%08lX/%08lX" NEW_LINE_STR, crash_output_p->hdr.seqnum, crash_output_p->hdr.partnum); crashdump_dump_output((unsigned char *)crash_buf, len); crashdump_dump_output((unsigned char *)sys_build_info, strlen(sys_build_info)); crashdump_dump_output((unsigned char *)separate_line, sizeof(separate_line) - 1); #if defined(TRACE_DUMP2FLASH) { const unsigned char *e1 = NULL, *e2 = NULL; unsigned int len1 = 0, len2 = 0; hal_trace_get_history_buffer(&e1, &len1, &e2, &len2); if (e1 && len1) { crashdump_dump_output(e1, len1); } if (e2 && len2) { crashdump_dump_output(e2, len2); } } #endif crashdump_dump_output((unsigned char *)separate_line, sizeof(separate_line) - 1); crashdump_dumptoflash(); return 0; } #if defined(CRASH_DUMP_SECTION_SIZE) && (CRASH_DUMP_SECTION_SIZE > 0) static void crashdump_state_handler(enum HAL_TRACE_STATE_T state) { if (state == HAL_TRACE_STATE_CRASH_START) { crashdump_init(); } } #endif bool crashdump_is_crash_happened(void) { return isCrashHappened; } bool crashdump_is_crash_dump_existing(void) { return isCrashDumpExisting; } void crashdump_set_existing_flag(uint8_t isExisting) { isCrashDumpExisting = isExisting; } int32_t crashdump_get_latest_flash_offset(void) { if (crashdump_is_crash_dump_existing()) { if ((uint32_t)__crash_dump_start == (uint32_t)crash_dump_section_p) { return ((uint32_t)__crash_dump_end - sizeof(struct CRASH_OUTPUT_BUF_T))&0x3FFFFF; } else { return ((uint32_t)crash_dump_section_p - sizeof(struct CRASH_OUTPUT_BUF_T))&0x3FFFFF; } } else { return -1; } } void crashdump_test_flash_access(void) { TRACE(1,"Did crash just happen: %d", crashdump_is_crash_happened()); TRACE(1,"Did crash ever happen: %d", crashdump_is_crash_dump_existing()); int32_t latestCrashDumpFlashOffset = crashdump_get_latest_flash_offset(); if (latestCrashDumpFlashOffset > 0) { TRACE(2,"The latest crash dump flash offset 0x%x flash logic addr 0x%x", latestCrashDumpFlashOffset, latestCrashDumpFlashOffset + FLASH_NC_BASE); struct CRASH_OUTPUT_BUF_T* pBuf = (struct CRASH_OUTPUT_BUF_T *)(latestCrashDumpFlashOffset + FLASH_NC_BASE); TRACE(1,"Valid content size of the dump log is %d", pBuf->hdr.bufpos); TRACE(1,"Logic address of the trace buffer is 0x%x", pBuf->buf); TRACE(1,"Up to %d logs can be saved in the flash", pBuf->hdr.partnum); TRACE(1,"Log seq number is %d", pBuf->hdr.seqnum); for (int i = 0; i < pBuf->hdr.bufpos;i++) { TRACE_NOCRLF(1,"%c", pBuf->buf[i]); } } else { TRACE(0,"No crash dump log in flash."); } TRACE(0,"========================================="); } #endif // (CRASH_DUMP_SECTION_SIZE > 0) void crashdump_set_crash_happened_flag(uint8_t isHappened) { #if defined(CRASH_DUMP_SECTION_SIZE) && (CRASH_DUMP_SECTION_SIZE > 0) isCrashHappened = isHappened; #endif } void crashdump_dumptoflash(void) { #if defined(CRASH_DUMP_SECTION_SIZE) && (CRASH_DUMP_SECTION_SIZE > 0) uint32_t lock; uint32_t dump_section_idx; crashdump_get_empty_section(&dump_section_idx, &crash_dump_section_p); lock = int_lock_global(); pmu_flash_write_config(); hal_norflash_erase(HAL_NORFLASH_ID_0,(uint32_t)crash_dump_section_p,sizeof(struct CRASH_OUTPUT_BUF_T)); hal_norflash_write(HAL_NORFLASH_ID_0,(uint32_t)crash_dump_section_p,(uint8_t *)crash_output_p, sizeof(struct CRASH_OUTPUT_BUF_T)); pmu_flash_read_config(); int_unlock_global(lock); #endif } void crashdump_init_section_info(void) { #if defined(CRASH_DUMP_SECTION_SIZE) && (CRASH_DUMP_SECTION_SIZE > 0) uint32_t dump_section_idx; crashdump_get_empty_section(&dump_section_idx, &crash_dump_section_p); hal_trace_app_register(crashdump_state_handler, crashdump_dump_output); #endif } #else #include "cmsis.h" #include "crash_dump_section.h" #include "hal_cache.h" #include "hal_norflash.h" #include "hal_sleep.h" #include "hal_timer.h" #include "heap_api.h" #include "norflash_api.h" #include "pmu.h" #include #include extern uint32_t __crash_dump_start; extern uint32_t __crash_dump_end; extern void syspool_init_specific_size(uint32_t size); static const uint32_t crash_dump_flash_start_addr = (uint32_t)&__crash_dump_start; static const uint32_t crash_dump_flash_end_addr = (uint32_t)&__crash_dump_end; static uint32_t crash_dump_flash_len; static CRASH_DATA_BUFFER crash_data_buffer; static uint32_t crash_dump_w_seqnum = 0; static uint32_t crash_dump_flash_offs = 0; static uint32_t crash_dump_cur_dump_seqnum; static uint32_t crash_dump_total_len = 0; static bool crash_dump_is_init = false; static uint8_t crash_dump_is_happend = 0; static uint32_t crash_dump_type; HAL_TRACE_APP_NOTIFY_T crash_dump_notify_cb = NULL; HAL_TRACE_APP_OUTPUT_T crash_dump_output_cb = NULL; HAL_TRACE_APP_OUTPUT_T crash_dump_fault_cb = NULL; 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_CRASH_DUMP, addr, buffer, len); } static int32_t _crash_dump_get_seqnum(uint32_t *dump_seqnum, uint32_t *sector_seqnum) { uint32_t i; uint32_t count; static enum NORFLASH_API_RET_T result; CRASH_DUMP_HEADER_T crash_dump_header; uint32_t max_dump_seqnum = 0; uint32_t max_sector_seqnum = 0; bool is_existed = false; count = (crash_dump_flash_end_addr - crash_dump_flash_start_addr) / CRASH_DUMP_BUFFER_LEN; for (i = 0; i < count; i++) { result = _flash_api_read( crash_dump_flash_start_addr + i * CRASH_DUMP_BUFFER_LEN, (uint8_t *)&crash_dump_header, sizeof(CRASH_DUMP_HEADER_T)); if (result == NORFLASH_API_OK) { if (crash_dump_header.magic == CRASH_DUMP_MAGIC_CODE && crash_dump_header.version == CRASH_DUMP_VERSION) { is_existed = true; if (crash_dump_header.seqnum > max_dump_seqnum) { max_dump_seqnum = crash_dump_header.seqnum; max_sector_seqnum = i; } } } else { ASSERT(0, "_crash_dump_get_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; } return 0; } static void _crash_dump_notify(enum HAL_TRACE_STATE_T state) { uint32_t lock; CRASH_DATA_BUFFER *data_buff = NULL; if (!crash_dump_is_init) { return; } if (state == HAL_TRACE_STATE_CRASH_ASSERT_START) { crash_dump_type = CRASH_DUMP_ASSERT_CODE; } else if (state == HAL_TRACE_STATE_CRASH_FAULT_START) { crash_dump_type = CRASH_DUMP_EXCEPTION_CODE; } CRASH_DUMP_TRACE(2, "__CRASH_DUMP:%s: state = %d.", __func__, state); CRASH_DUMP_TRACE(3, "__CRASH_DUMP:%s: start_addr = 0x%x,end_addr = 0x%x.", __func__, crash_dump_flash_start_addr, crash_dump_flash_end_addr); CRASH_DUMP_TRACE(3, "__CRASH_DUMP:%s: dump_seqnum = 0x%x,flash_offset = 0x%x.", __func__, crash_dump_cur_dump_seqnum, crash_dump_flash_offs); if (HAL_TRACE_STATE_CRASH_END == state) { lock = int_lock_global(); data_buff = &crash_data_buffer; crash_dump_write(crash_dump_flash_start_addr + crash_dump_flash_offs, data_buff->buffer, data_buff->offset); int_unlock_global(lock); } } static void _crash_dump_output(const unsigned char *buf, unsigned int buf_len) { // uint32_t len,len1; uint32_t uint_len; uint32_t written_len; uint32_t remain_len; CRASH_DUMP_HEADER_T log_header; CRASH_DATA_BUFFER *data_buff = NULL; if (!crash_dump_is_init) { return; } if (strstr((char *)buf, CRASH_DUMP_PREFIX) != NULL) { return; } data_buff = &crash_data_buffer; remain_len = buf_len; written_len = 0; do { if (data_buff->offset == 0) { CRASH_DUMP_TRACE( 4, "__CRASH_DUMP:%s:%d offset = 0.w_seqnum = %d,dump_seqnum = %d.", __func__, __LINE__, crash_dump_w_seqnum, crash_dump_cur_dump_seqnum); memset((uint8_t *)&log_header, 0, sizeof(log_header)); log_header.magic = CRASH_DUMP_MAGIC_CODE; log_header.version = CRASH_DUMP_VERSION; log_header.seqnum = crash_dump_cur_dump_seqnum; log_header.reseved[0] = '\0'; log_header.reseved[1] = '\0'; log_header.reseved[2] = '\0'; log_header.reseved[3] = '\n'; memcpy(data_buff->buffer + data_buff->offset, (uint8_t *)&log_header, sizeof(log_header)); data_buff->offset += sizeof(log_header); crash_dump_cur_dump_seqnum++; } if (data_buff->offset + remain_len > CRASH_DUMP_SECTOR_SIZE) { uint_len = (CRASH_DUMP_SECTOR_SIZE - data_buff->offset); } else { uint_len = remain_len; } if (uint_len > 0) { memcpy(data_buff->buffer + data_buff->offset, buf + written_len, uint_len); data_buff->offset += uint_len; written_len += uint_len; crash_dump_total_len += uint_len; } if (data_buff->offset == CRASH_DUMP_SECTOR_SIZE) { crash_dump_write(crash_dump_flash_start_addr + crash_dump_flash_offs, data_buff->buffer, data_buff->offset); crash_dump_flash_offs = crash_dump_flash_offs + data_buff->offset >= crash_dump_flash_len ? 0 : crash_dump_flash_offs + data_buff->offset; data_buff->offset = 0; } remain_len -= uint_len; } while (remain_len > 0); } static void _crash_dump_fault(const unsigned char *buf, unsigned int buf_len) { _crash_dump_output(buf, buf_len); } void crash_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; hal_norflash_get_size(HAL_NORFLASH_ID_0, NULL, &block_size, §or_size, &page_size); buffer_len = CRASH_DUMP_NORFALSH_BUFFER_LEN; CRASH_DUMP_TRACE(4, "__CRASH_DUMP:%s: crash_dump_start = 0x%x, crash_dump_end = " "0x%x, buff_len = 0x%x.", __func__, crash_dump_flash_start_addr, crash_dump_flash_end_addr, buffer_len); result = norflash_api_register( NORFLASH_API_MODULE_ID_CRASH_DUMP, HAL_NORFLASH_ID_0, crash_dump_flash_start_addr, crash_dump_flash_end_addr - crash_dump_flash_start_addr, block_size, sector_size, page_size, buffer_len, NULL); if (result == NORFLASH_API_OK) { CRASH_DUMP_TRACE(1, "__CRASH_DUMP:%s: norflash_api_register ok.", __func__); } else { CRASH_DUMP_TRACE( 2, "__CRASH_DUMP:%s: norflash_api_register failed,result = %d", __func__, result); return; } crash_dump_notify_cb = _crash_dump_notify; crash_dump_output_cb = _crash_dump_output; crash_dump_fault_cb = _crash_dump_fault; hal_trace_app_custom_register(crash_dump_notify_handler, crash_dump_output_handler, crash_dump_fault_handler); _crash_dump_get_seqnum(&dump_seqnum, §or_seqnum); crash_dump_cur_dump_seqnum = dump_seqnum; crash_dump_flash_len = crash_dump_flash_end_addr - crash_dump_flash_start_addr; crash_dump_flash_offs = sector_seqnum * CRASH_DUMP_BUFFER_LEN; crash_data_buffer.offset = 0; crash_data_buffer.buffer = NULL; crash_dump_w_seqnum = 0; crash_dump_total_len = 0; crash_dump_is_init = true; } void crash_dump_init_buffer(void) { crash_data_buffer.offset = 0; syspool_init_specific_size(CRASH_DUMP_BUFFER_LEN); syspool_get_buff(&(crash_data_buffer.buffer), CRASH_DUMP_BUFFER_LEN); } int32_t crash_dump_read(uint32_t addr, uint8_t *ptr, uint32_t len) { enum NORFLASH_API_RET_T ret; ret = norflash_sync_read(NORFLASH_API_MODULE_ID_CRASH_DUMP, addr, ptr, len); if (ret != NORFLASH_API_OK) { CRASH_DUMP_TRACE( 4, "__CRASH_DUMP:%s: norflash_sync_read,addr = 0x%x,len = 0x%x,ret = %d.", __func__, addr, len, ret); return ret; } return 0; } int32_t crash_dump_write(uint32_t addr, uint8_t *ptr, uint32_t len) { enum NORFLASH_API_RET_T ret; if (CRASH_LOG_ALIGN(addr, CRASH_DUMP_SECTOR_SIZE) != addr) { CRASH_DUMP_TRACE(2, "__CRASH_DUMP:%s: addr not aligned! addr = 0x%x.", __func__, addr); return (int32_t)NORFLASH_API_BAD_ADDR; } ret = norflash_api_erase(NORFLASH_API_MODULE_ID_CRASH_DUMP, addr, CRASH_DUMP_SECTOR_SIZE, false); if (ret != NORFLASH_API_OK) { CRASH_DUMP_TRACE( 3, "__CRASH_DUMP:%s: norflash_api_erase failed! addr = 0x%x,ret = %d.", __func__, addr, ret); return (int32_t)ret; } ret = norflash_api_write(NORFLASH_API_MODULE_ID_CRASH_DUMP, addr, ptr, len, false); if (ret != NORFLASH_API_OK) { CRASH_DUMP_TRACE( 4, "__CRASH_DUMP:%s: norflash_api_write,addr = 0x%x,len = 0x%x,ret = %d.", __func__, addr, len, ret); return (int32_t)ret; } return 0; } void crash_dump_notify_handler(enum HAL_TRACE_STATE_T state) { if ((state == HAL_TRACE_STATE_CRASH_ASSERT_START) || (state == HAL_TRACE_STATE_CRASH_FAULT_START)) { norflash_api_flush_enable_all(); crash_dump_init_buffer(); } if (crash_dump_notify_cb) { crash_dump_notify_cb(state); } } void crash_dump_output_handler(const unsigned char *buf, unsigned int buf_len) { if (crash_dump_output_cb) { crash_dump_output_cb(buf, buf_len); } } void crash_dump_fault_handler(const unsigned char *buf, unsigned int buf_len) { if (crash_dump_fault_cb) { crash_dump_fault_cb(buf, buf_len); } } void crash_dump_set_flag(uint8_t is_happend) { crash_dump_is_happend = is_happend; } void crash_dump_register(HAL_TRACE_APP_NOTIFY_T notify_cb, HAL_TRACE_APP_OUTPUT_T crash_output_cb, HAL_TRACE_APP_OUTPUT_T crash_fault_cb) { crash_dump_notify_cb = notify_cb; crash_dump_output_cb = crash_output_cb; crash_dump_fault_cb = crash_fault_cb; } CRASH_DATA_BUFFER *crash_dump_get_buffer(void) { return &crash_data_buffer; } uint32_t crash_dump_get_type(void) { return crash_dump_type; } #endif