#include "protocol.h" #include "process.h" #include "cfg.h" #include "uart.h" #ifdef IS_BOOTLOADER uint32_t Firmware_Version[4] = {1, 0, 3, 20240328}; #else uint32_t Firmware_Version[4] = {2, 1, 1, 20240328}; #endif uint16_t Read_FirmwareVersion(uint8_t *pBuf, uint16_t buf_len) { int i; if( buf_len < 16){ return 0; } for (i = 0; i < 4; ++i) { pBuf[i * 4] = (Firmware_Version[i] >> 24) & 0xff; pBuf[i * 4 + 1] = (Firmware_Version[i] >> 16) & 0xff; pBuf[i * 4 + 2] = (Firmware_Version[i] >> 8) & 0xff; pBuf[i * 4 + 3] = (Firmware_Version[i] >> 0) & 0xff; } return 16; } uint16_t Read_HardwareVersion(uint8_t *pBuf, uint16_t buf_len) { if( buf_len < 2){ return 0; } pBuf[0] = (config->hw_version >> 8)&0xff; pBuf[1] = (config->hw_version >> 0)&0xff; return 2; } uint16_t Read_Deviceid(uint8_t *pBuf, uint16_t buf_len) { if( buf_len < 4){ return 0; } pBuf[0] = (config->deviceid >> 24)&0xff; pBuf[1] = (config->deviceid >> 16)&0xff; pBuf[2] = (config->deviceid >> 8)&0xff; pBuf[3] = (config->deviceid >> 0)&0xff; return 4; } uint16_t Read_Devicetype(uint8_t *pBuf, uint16_t buf_len) { if( buf_len < 2){ return 0; } pBuf[0] = (config->devicetype >> 8)&0xff; pBuf[1] = (config->devicetype >> 0)&0xff; return 2; } uint16_t Read_Addr(uint8_t *pBuf, uint16_t buf_len) { if( buf_len < 2){ return 0; } pBuf[0] = 0x00; pBuf[1] = config->addr; return 2; } uint16_t Read_Baudrate(uint8_t *pBuf, uint16_t buf_len) { if( buf_len < 2){ return 0; } pBuf[0] = 0x00; pBuf[1] = config->br_index; return 2; } uint16_t Read_BvStatus(uint8_t *pBuf, uint16_t buf_len) { if( buf_len < 2){ return 0; } pBuf[0] = 0x00; pBuf[1] = g_bvopen; return 2; } uint16_t Read_NoiseThreshold(uint8_t *pBuf, uint16_t buf_len) { if( buf_len < 12){ return 0; } pBuf[0] = ((uint8_t*)(&config->xaxis_threshold))[0]; pBuf[1] = ((uint8_t*)(&config->xaxis_threshold))[1]; pBuf[2] = ((uint8_t*)(&config->xaxis_threshold))[2]; pBuf[3] = ((uint8_t*)(&config->xaxis_threshold))[3]; pBuf[4] = ((uint8_t*)(&config->yaxis_threshold))[0]; pBuf[5] = ((uint8_t*)(&config->yaxis_threshold))[1]; pBuf[6] = ((uint8_t*)(&config->yaxis_threshold))[2]; pBuf[7] = ((uint8_t*)(&config->yaxis_threshold))[3]; pBuf[8] = ((uint8_t*)(&config->zaxis_threshold))[0]; pBuf[9] = ((uint8_t*)(&config->zaxis_threshold))[1]; pBuf[10] = ((uint8_t*)(&config->zaxis_threshold))[2]; pBuf[11] = ((uint8_t*)(&config->zaxis_threshold))[3]; return 12; } /*=======================================================================================*/ uint8_t Write_Addr(uint8_t *pdata, uint8_t len) { if(len == 2){ config->addr = pdata[1]; return RET_OK|RET_NEED_SAVE; }else{ return RET_DATAINVALID; } } uint8_t Write_Baudrate(uint8_t *pdata, uint8_t len) { if(len == 2){ if(pdata[1] >= BaudRate_4800 && pdata[1] <= BaudRate_230400){ config->br_index = pdata[1]; return RET_OK|RET_NEED_SAVE; }else{ return RET_DATAINVALID; } }else{ return RET_DATAINVALID; } } uint8_t Write_HardwareVersion(uint8_t *pdata, uint8_t len) { if(len == 2){ config->hw_version = ((uint16_t)pdata[0]<<8) | pdata[1]; return RET_OK|RET_NEED_SAVE; }else{ return RET_DATAINVALID; } } uint8_t Write_Deviceid(uint8_t *pdata, uint8_t len) { if(len == 4){ config->deviceid = ((uint32_t)pdata[0]<<24) | ((uint32_t)pdata[1]<<16)| ((uint32_t)pdata[2]<<8)| pdata[3]; return RET_OK|RET_NEED_SAVE; }else{ return RET_DATAINVALID; } } uint8_t Write_Devicetype(uint8_t *pdata, uint8_t len) { if(len == 2){ config->devicetype = ((uint16_t)pdata[0]<<8) | pdata[1]; return RET_OK|RET_NEED_SAVE; }else{ return RET_DATAINVALID; } } //电磁阀控制 uint8_t Control_SValve(uint8_t *pdata, uint8_t len) { if(len == 2){ if(pdata[1] == 0x00){ sv_close(); }else{ sv_open(); } return RET_OK; }else{ return RET_DATAINVALID; } } //语音输出 uint8_t Trigger_VoicOutput(uint8_t *pdata, uint8_t len) { if(len == 2){ g_vo_delay = VO_COUNT_DFTT; g_voiceid = pdata[1]; return RET_OK; }else{ return RET_DATAINVALID; } } //发送原始数据 uint8_t Trigger_SendRaw(uint8_t *pdata, uint8_t len) { if(len == 2){ if(pdata[1] == 0x00){ g_send_raw = 0; }else{ g_send_raw = 1; g_send_sequence = 0; } return RET_OK; }else{ return RET_DATAINVALID; } } //发送滤波后数据 uint8_t Trigger_SendFiltered(uint8_t *pdata, uint8_t len) { if(len == 2){ if(pdata[1] == 0x00){ g_send_filtered = 0; }else{ g_send_filtered = 1; g_send_sequence = 0; } return RET_OK; }else{ return RET_DATAINVALID; } } //触发标定加速度计的机械热噪声 uint8_t Trigger_CalibrateNoise(uint8_t *pdata, uint8_t len) { if(len == 2){ g_autocalibration = 1; g_samplecount = 0; return RET_OK; }else{ return RET_DATAINVALID; } }