zhoujie
2cbd4a152d
- 新增性能监控模块(performance_monitor),用于实时跟踪系统性能指标 - 添加串口调试输出功能,支持系统状态和性能统计的定期输出 - 实现双缓冲机制,提升ADC数据采集和存储的实时性 - 优化数据存储模块,支持校正后数据的存储和双缓冲管理 - 增强错误处理机制,完善中断回调函数和系统错误恢复 ♻️ refactor(ltc2508): 重构ADC驱动支持双缓冲 - 将ADC数据存储从单缓冲区重构为双缓冲区结构 - 新增缓冲区状态管理和自动切换机制 - 优化DMA传输完成回调,支持多缓冲区处理 - 提供缓冲区获取和释放的API接口 📝 docs(performance): 新增性能评估报告和使用指南 - 创建STM32F405性能评估报告,详细分析系统性能指标 - 编写双缓冲机制使用指南,说明实现原理和使用方法 - 添加LTC2508驱动使用示例代码 🐛 fix(dma): 调整DMA中断优先级 - 将DMA2_Stream7中断优先级从9调整为6,优化中断响应 - 更新STM32CubeMX配置文件中的中断优先级设置 🔧 chore(config): 优化系统配置和代码结构 - 添加串口调试输出控制开关和间隔配置 - 清理中断处理文件,移除重复的回调函数定义 - 增强错误处理函数,添加系统状态恢复机制
352 lines
9.6 KiB
C
352 lines
9.6 KiB
C
#include "data_storage.h"
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#include <string.h>
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#include <stdio.h>
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/**
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* @brief 初始化数据存储模块
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* @param handle: 数据存储句柄指针
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* @retval HAL_StatusTypeDef
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*/
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HAL_StatusTypeDef DataStorage_Init(DataStorageHandle_t *handle)
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{
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if (handle == NULL) {
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return HAL_ERROR;
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}
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// 初始化句柄
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memset(handle, 0, sizeof(DataStorageHandle_t));
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// 初始化双缓冲区
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for (int i = 0; i < 2; i++) {
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handle->buffers[i].index = 0;
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handle->buffers[i].state = BUFFER_IDLE;
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memset(handle->buffers[i].data, 0, DATA_STORAGE_BUFFER_SIZE);
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}
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// 设置活动缓冲区为0
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handle->active_buffer = 0;
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handle->flush_buffer = 1;
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handle->flush_in_progress = 0;
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// 创建数据存储目录
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FRESULT res = f_mkdir(DATA_STORAGE_PATH);
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if (res != FR_OK && res != FR_EXIST) {
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return HAL_ERROR;
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}
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handle->stats.state = DATA_STORAGE_IDLE;
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handle->initialized = 1;
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return HAL_OK;
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}
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/**
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* @brief 停止数据记录
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* @param handle: 数据存储句柄指针
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* @retval HAL_StatusTypeDef
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*/
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HAL_StatusTypeDef DataStorage_StopRecording(DataStorageHandle_t *handle)
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{
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if (handle == NULL || !handle->initialized) {
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return HAL_ERROR;
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}
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if (handle->stats.state != DATA_STORAGE_RECORDING) {
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return HAL_OK; // 没有在记录中
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}
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// 刷新所有缓冲区
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for (int i = 0; i < 2; i++) {
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if (handle->buffers[i].index > 0) {
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handle->buffers[i].state = BUFFER_READY_TO_FLUSH;
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DataStorage_FlushBuffer(handle, i);
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}
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}
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// 关闭文件
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f_close(&handle->file);
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handle->stats.state = DATA_STORAGE_IDLE;
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return HAL_OK;
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}
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/**
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* @brief 写入数据包到存储
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* @param handle: 数据存储句柄指针
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* @param packet: 数据包指针
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* @retval HAL_StatusTypeDef
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*/
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HAL_StatusTypeDef DataStorage_WriteData(DataStorageHandle_t *handle, const DataPacket_t *packet)
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{
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if (handle == NULL || packet == NULL || !handle->initialized) {
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return HAL_ERROR;
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}
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if (handle->stats.state != DATA_STORAGE_RECORDING) {
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return HAL_ERROR;
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}
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DataBuffer_t *active_buf = &handle->buffers[handle->active_buffer];
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// 检查当前活动缓冲区空间
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if (active_buf->index + sizeof(DataPacket_t) > DATA_STORAGE_BUFFER_SIZE) {
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// 切换缓冲区
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if (DataStorage_SwitchBuffer(handle) != HAL_OK) {
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handle->stats.error_count++;
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return HAL_ERROR;
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}
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active_buf = &handle->buffers[handle->active_buffer];
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}
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// 复制数据到活动缓冲区
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memcpy(&active_buf->data[active_buf->index], packet, sizeof(DataPacket_t));
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active_buf->index += sizeof(DataPacket_t);
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active_buf->state = BUFFER_WRITING;
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handle->stats.total_samples++;
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return HAL_OK;
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}
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/**
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* @brief 写入校正后的数据到存储
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* @param handle: 数据存储句柄指针
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* @param result: 校正结果指针
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* @retval HAL_StatusTypeDef
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*/
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HAL_StatusTypeDef DataStorage_WriteCorrectedData(DataStorageHandle_t *handle, const CorrectionResult_t *result)
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{
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if (handle == NULL || result == NULL || !handle->initialized) {
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return HAL_ERROR;
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}
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if (handle->stats.state != DATA_STORAGE_RECORDING) {
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return HAL_ERROR;
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}
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DataBuffer_t *active_buf = &handle->buffers[handle->active_buffer];
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// 检查当前活动缓冲区空间
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if (active_buf->index + sizeof(CorrectionResult_t) > DATA_STORAGE_BUFFER_SIZE) {
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// 切换缓冲区
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if (DataStorage_SwitchBuffer(handle) != HAL_OK) {
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handle->stats.error_count++;
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return HAL_ERROR;
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}
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active_buf = &handle->buffers[handle->active_buffer];
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}
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// 复制校正后的数据到活动缓冲区
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memcpy(&active_buf->data[active_buf->index], result, sizeof(CorrectionResult_t));
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active_buf->index += sizeof(CorrectionResult_t);
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active_buf->state = BUFFER_WRITING;
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handle->stats.total_samples++;
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return HAL_OK;
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}
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/**
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* @brief 刷新缓冲区到文件
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* @param handle: 数据存储句柄指针
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* @retval HAL_StatusTypeDef
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*/
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HAL_StatusTypeDef DataStorage_Flush(DataStorageHandle_t *handle)
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{
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if (handle == NULL || !handle->initialized) {
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return HAL_ERROR;
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}
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// 处理后台刷新任务
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DataStorage_ProcessBackgroundTasks(handle);
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return HAL_OK;
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}
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/**
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* @brief 创建新的数据文件
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* @param handle: 数据存储句柄指针
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* @retval HAL_StatusTypeDef
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*/
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HAL_StatusTypeDef DataStorage_CreateNewFile(DataStorageHandle_t *handle)
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{
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if (handle == NULL || !handle->initialized) {
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return HAL_ERROR;
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}
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// 生成文件名 (基于时间戳)
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uint32_t timestamp = HAL_GetTick();
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snprintf(handle->stats.current_filename, sizeof(handle->stats.current_filename),
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"%s%s%08lX.dat", DATA_STORAGE_PATH, DATA_STORAGE_FILE_PREFIX, timestamp);
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// 创建并打开文件
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FRESULT res = f_open(&handle->file, handle->stats.current_filename,
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FA_CREATE_ALWAYS | FA_WRITE);
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if (res != FR_OK) {
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handle->stats.error_count++;
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return HAL_ERROR;
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}
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handle->stats.file_count++;
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handle->stats.current_file_size = 0;
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return HAL_OK;
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}
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/**
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* @brief 获取数据存储统计信息
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* @param handle: 数据存储句柄指针
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* @param stats: 统计信息结构体指针
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* @retval None
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*/
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void DataStorage_GetStats(DataStorageHandle_t *handle, DataStorageStats_t *stats)
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{
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if (handle == NULL || stats == NULL || !handle->initialized) {
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return;
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}
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memcpy(stats, &handle->stats, sizeof(DataStorageStats_t));
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}
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/**
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* @brief 开始数据记录
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* @param handle: 数据存储句柄指针
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* @retval HAL_StatusTypeDef
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*/
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HAL_StatusTypeDef DataStorage_StartRecording(DataStorageHandle_t *handle)
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{
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if (handle == NULL || !handle->initialized) {
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return HAL_ERROR;
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}
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if (handle->stats.state == DATA_STORAGE_RECORDING) {
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return HAL_OK; // 已经在记录中
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}
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// 创建新文件
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if (DataStorage_CreateNewFile(handle) != HAL_OK) {
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handle->stats.state = DATA_STORAGE_ERROR;
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return HAL_ERROR;
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}
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// 重置双缓冲区状态
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for (int i = 0; i < 2; i++) {
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handle->buffers[i].index = 0;
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handle->buffers[i].state = BUFFER_IDLE;
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}
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handle->active_buffer = 0;
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handle->flush_buffer = 1;
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handle->flush_in_progress = 0;
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handle->stats.state = DATA_STORAGE_RECORDING;
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return HAL_OK;
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}
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/**
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* @brief 刷新指定缓冲区到文件
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* @param handle: 数据存储句柄指针
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* @param buffer_index: 缓冲区索引 (0 或 1)
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* @retval HAL_StatusTypeDef
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*/
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HAL_StatusTypeDef DataStorage_FlushBuffer(DataStorageHandle_t *handle, uint8_t buffer_index)
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{
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if (handle == NULL || !handle->initialized || buffer_index > 1) {
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return HAL_ERROR;
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}
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DataBuffer_t *buffer = &handle->buffers[buffer_index];
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// 检查缓冲区状态和数据
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if (buffer->state != BUFFER_READY_TO_FLUSH || buffer->index == 0) {
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return HAL_OK; // 没有数据需要刷新
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}
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// 标记缓冲区正在刷新
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buffer->state = BUFFER_FLUSHING;
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UINT bytes_written;
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FRESULT res = f_write(&handle->file, buffer->data, buffer->index, &bytes_written);
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if (res != FR_OK || bytes_written != buffer->index) {
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handle->stats.error_count++;
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buffer->state = BUFFER_READY_TO_FLUSH; // 恢复状态以便重试
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return HAL_ERROR;
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}
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// 同步到存储设备
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f_sync(&handle->file);
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// 更新统计信息
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handle->stats.current_file_size += bytes_written;
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// 重置缓冲区
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buffer->index = 0;
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buffer->state = BUFFER_IDLE;
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// 检查文件大小是否超过限制
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if (handle->stats.current_file_size >= DATA_STORAGE_FILE_MAX_SIZE) {
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f_close(&handle->file);
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DataStorage_CreateNewFile(handle);
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}
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return HAL_OK;
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}
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/**
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* @brief 处理后台任务(异步刷新缓冲区)
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* @param handle: 数据存储句柄指针
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* @retval None
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*/
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void DataStorage_ProcessBackgroundTasks(DataStorageHandle_t *handle)
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{
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if (handle == NULL || !handle->initialized) {
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return;
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}
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// 检查是否有缓冲区需要刷新
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for (int i = 0; i < 2; i++) {
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if (handle->buffers[i].state == BUFFER_READY_TO_FLUSH) {
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// 刷新缓冲区
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DataStorage_FlushBuffer(handle, i);
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break; // 一次只处理一个缓冲区,避免阻塞太久
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}
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}
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}
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/**
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* @brief 切换活动缓冲区
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* @param handle: 数据存储句柄指针
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* @retval HAL_StatusTypeDef
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*/
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HAL_StatusTypeDef DataStorage_SwitchBuffer(DataStorageHandle_t *handle)
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{
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if (handle == NULL || !handle->initialized) {
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return HAL_ERROR;
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}
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DataBuffer_t *current_buf = &handle->buffers[handle->active_buffer];
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// 标记当前缓冲区准备刷新
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if (current_buf->index > 0) {
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current_buf->state = BUFFER_READY_TO_FLUSH;
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}
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// 切换到另一个缓冲区
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uint8_t next_buffer = (handle->active_buffer == 0) ? 1 : 0;
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DataBuffer_t *next_buf = &handle->buffers[next_buffer];
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// 检查目标缓冲区是否可用
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if (next_buf->state == BUFFER_FLUSHING) {
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// 目标缓冲区正在刷新,等待完成
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handle->stats.error_count++;
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return HAL_ERROR;
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}
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// 切换活动缓冲区
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handle->active_buffer = next_buffer;
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next_buf->index = 0;
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next_buf->state = BUFFER_WRITING;
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return HAL_OK;
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} |