#include "string.h" #include #include "protocol.h" #include "malloc.h" #include #include "gateway_message.h" GATEWAY_PARAMS gateway_config_params = {0}; GATEWAY_PARAMS *get_gateway_config_params() { return &gateway_config_params; } void parseStringField(const char *data, const char *field, char *value); int parseIntField(const char *data, const char *field); //void addNode(char *nodestring); void addDevice(char *string); int extract_substring(const char *input_string, const char *start_token, const char *end_token, char *result); void addSensorListParams(char *paramString, DEVICE_PARAMS *device); void addCommandListParams(char *paramString, DEVICE_PARAMS *device); /** * @brief 解析输入字符串网关结构体信息,将数据保存 * @param char *gatewayString 输入字符串的数据 * @retval 无 */ void addGatewayParams(char *gatewayString) { //gateway_config_params.device_params = NULL; gateway_config_params.port = parseIntField(gatewayString, "\"port\":"); gateway_config_params.stopBit = parseIntField(gatewayString, "\"stopBit\":"); gateway_config_params.dataBits = parseIntField(gatewayString, "\"dataBit\":"); gateway_config_params.baudrate = parseIntField(gatewayString, "\"baudrate\":"); gateway_config_params.checkBit = parseIntField(gatewayString, "\"checkBit\":"); gateway_config_params.inboundTime= parseIntField(gatewayString, "\"inboundTime\":"); parseStringField(gatewayString, "\"host\":\"", (char *)&gateway_config_params.host); parseStringField(gatewayString, "\"deviceId\":\"", (char *)&gateway_config_params.deviceId); parseStringField(gatewayString, "\"commandTopic\":\"", (char *)&gateway_config_params.commandTopic); parseStringField(gatewayString, "\"messageTopic\":\"", (char *)&gateway_config_params.messageTopic); parseStringField(gatewayString, "\"username\":\"", (char *)&gateway_config_params.username); parseStringField(gatewayString, "\"password\":\"", (char *)&gateway_config_params.passwd); char *deviceString = strstr(gatewayString,"deviceList"); //移位置到节点数据开始处 while (1) { if (deviceString) { addDevice(deviceString); // 往此地址下挂载设备信息 deviceString=deviceString;//重新获取设备字符串的位置 deviceString = strstr(deviceString, "}"); deviceString[0]='A'; deviceString++; if(deviceString[0]==']') { break; } } else { return; } } } /** * @brief 解析输入字段的字符串,解析出属于该节点下的设备信息 * @param uint8_t *string输入的字符串数据,NODE_PARAMS *node节点信息 * @retval 无 */ void addDevice(char *deviceString) { char *paramString = (char *)deviceString; // 属性指针 DEVICE_PARAMS *newDevicePage = (DEVICE_PARAMS *)malloc(sizeof(DEVICE_PARAMS)); // 创建新设备页 newDevicePage->nextDevice = NULL; newDevicePage->protocol = parseIntField(deviceString, "\"protocol\":"); newDevicePage->MDBdataType = parseIntField(deviceString, "\"dataType\":"); newDevicePage->MDBbigLittleFormat = parseIntField(deviceString, "\"bigLittleFormat\":"); parseStringField(deviceString, "\"deviceId\":\"", (char *)&newDevicePage->deviceID); newDevicePage->params = (PARAMS_PROTOCOL_COMMAND *)malloc(sizeof(PARAMS_PROTOCOL_COMMAND)); paramString = strstr(paramString, "\"sensorData\":["); // 找到该节点的轮询上发属性 while (1) // 此处数据是以数组形式存储所以解析方法和上面不一样 { addSensorListParams(paramString, newDevicePage); // 解析一个属性并挂载该属性于该属性下 paramString=paramString; paramString = strstr(paramString, "}"); // 移动到下一条属性 paramString[0]='A'; paramString++; if (paramString[0] == ']') { paramString = (char *)deviceString; // 复原指针位置 break; // 找到了结束符,跳出循环 } } if(newDevicePage->protocol==MODBUS) //如果为modbus的话解析写指令 { paramString=deviceString; //移动到最开始的地方 newDevicePage->MDBbigLittleFormat = parseIntField(paramString, "\"bigLittleFormat\":"); newDevicePage->MDBdataType= parseIntField(paramString, "\"dataType\":"); paramString = strstr(paramString, "\"commandData\":["); // 找到其轮询的写命令 if(paramString!=NULL) { while(1) { addCommandListParams(paramString, newDevicePage); paramString = strstr(paramString, "}"); paramString[0]='A'; paramString++; if (paramString[0] == ']') { paramString = (char *)deviceString;// 复原指针位置 break; // 找到了结束符,跳出循环 } } } } // 解析下发的mqtt存储信息下发控制指令 // 添加设备页到链表末尾 if (gateway_config_params.device_params == NULL) { gateway_config_params.device_params = newDevicePage; } else { DEVICE_PARAMS *current = gateway_config_params.device_params; while (current->nextDevice != NULL) { current = current->nextDevice; } current->nextDevice = newDevicePage; } //解析modbus command指令将其加载到设备链表中 } /** * @brief 解析输入字符串的paramString数据,将数据保存到至该设备结构体下,此处解析sensorList * @param uint8_t *paramString输入的字符串数据,DEVICE_PARAMS *device节点信息 * @retval 无 */ void addSensorListParams(char *paramString, DEVICE_PARAMS *device) { switch (device->protocol) { case DLT645_97: case DLT645_07: { GATEWAY_READ_DLT645_COMMAND *read_dlt645_command = malloc(sizeof(GATEWAY_READ_DLT645_COMMAND)); read_dlt645_command->Identification = parseIntField(paramString, "\"identifier645\":"); parseStringField(paramString, "\"identifier\":\"", (char *)&read_dlt645_command->keyword); char *string = mymalloc(SRAMIN, 13); parseStringField(paramString, "\"deviceID645\":\"", string); for (int j = 0; j < 6; j++) { uint8_t byte; sscanf((const char *)&string[j * 2], "%2hhx", &byte); read_dlt645_command->deviceID645[j]=byte; } myfree(SRAMIN, string); if (device->params->gateway_read_dlt645_command == NULL) { device->params->gateway_read_dlt645_command = read_dlt645_command; } else { GATEWAY_READ_DLT645_COMMAND *current = device->params->gateway_read_dlt645_command; while (current->nextParams != NULL) { current = current->nextParams; } current->nextParams = read_dlt645_command; } } break; case MODBUS: { GATEWAY_READ_MODBUS_COMMAND *read_modbus_command = malloc(sizeof(GATEWAY_READ_MODBUS_COMMAND)); parseStringField(paramString,"\"identifier\":\"",(char *)&read_modbus_command->keyword); read_modbus_command->decimalPoint = parseIntField(paramString, "\"precise\":"); read_modbus_command->functionCode = parseIntField(paramString, "\"rFunctionCode\":"); read_modbus_command->slaveAddress = parseIntField(paramString, "\"slaveAddress\":"); read_modbus_command->registerAddress = parseIntField(paramString, "\"registerAddress\":"); read_modbus_command->registerByteNum = parseIntField(paramString, "\"registerByteNum\":"); if (device->params->gateway_read_modbus_command== NULL) { device->params->gateway_read_modbus_command = read_modbus_command; } else { GATEWAY_READ_MODBUS_COMMAND *current = device->params->gateway_read_modbus_command; while (current->nextParams != NULL) { current = current->nextParams; } current->nextParams = read_modbus_command; } } break; default: break; } } /** * @brief 解析输入字符串的paramString数据,将数据保存到至该设备结构体下,此处解析commandList * @param uint8_t *paramString输入的字符串数据,DEVICE_PARAMS *device节点信息 * @retval 无 */ void addCommandListParams(char *paramString, DEVICE_PARAMS *device) { GATEWAY_WRITE_MODBUS_COMMAND *write_modbus_command=malloc(sizeof(GATEWAY_WRITE_MODBUS_COMMAND)); parseStringField(paramString,"\"identifier\":\"",(char *)&write_modbus_command->keyword); write_modbus_command->functionCode=parseIntField(paramString, "\"wFunctionCode\":"); write_modbus_command->slaveAddress=parseIntField(paramString, "\"slaveAddress\":"); write_modbus_command->registerAddress = parseIntField(paramString, "\"registerAddress\":"); write_modbus_command->registerByteNum = parseIntField(paramString, "\"registerByteNum\":"); if(device->params->gateway_write_modbus_command == NULL) { device->params->gateway_write_modbus_command=write_modbus_command; } else { GATEWAY_WRITE_MODBUS_COMMAND *current=device->params->gateway_write_modbus_command; while (current->nextParams != NULL) { current = current->nextParams; } current->nextParams = write_modbus_command; } } // 提取int数据 int parseIntField(const char *data, const char *field) { char *ptr = strstr(data, field) + strlen(field); int value; value = strtol(ptr, &ptr, 10); return value; } // 提取string字符串 void parseStringField(const char *data, const char *field, char *value) { char *ptr = strstr(data, field) + strlen(field); sscanf(ptr, "%[^\"],", value); } // 不采用json解析硬解json数据 void processStringJson(uint8_t *data) { GATEWAY_PARAMS *gateway; gateway = get_gateway_config_params(); uint8_t *ptr = (uint8_t *)data; parseStringField((char *)&ptr, "\"messageTopic\":\"", (char *)&gateway->messageTopic); parseStringField((char *)&ptr, "\"commandTopic\":\"", (char *)&gateway->commandTopic); gateway->port = parseIntField((char *)&ptr, "\"port\":\""); parseStringField((char *)&ptr, "\"host\":\"", (char *)&gateway->host); parseStringField((char *)&ptr, "\"deviceId\":\"", (char *)&gateway->deviceId); // 解析最外层数据完成,申请空间存储节点信息 int nodeNum = 1; char *node_index = malloc(10); sprintf(node_index, "node_%d", nodeNum); strstr(ptr, node_index); // 将指针指向第一个节点 while (*ptr == NULL) { } free(node_index); } /** * @brief 从输入的input_string中寻找开始到结束位置的字符串数据,并将数据截取出来,传给result; * @param input_string输入字符串,start_token字符串起始位置,end_token字符串结束位置,result截取出的字符串 * @retval 0:没有被截取到的字符串。1:有被截取到的字符串。 */ int extract_substring(const char *input_string, const char *start_token, const char *end_token, char *result) { const char *start_ptr = strstr(input_string, start_token); if (start_ptr == NULL) { return 0; // 未找到起始标记 } start_ptr += strlen(start_token); // 移动指针到起始标记之后 const char *end_ptr = strstr(start_ptr, end_token); if (end_ptr == NULL) { // 如果未找到结束标记,将从起始标记开始的字符串一直复制到 \0 结束 strcpy(result, start_ptr); } else { // 找到结束标记,计算截取的长度并复制 size_t length = end_ptr - start_ptr; strncpy(result, start_ptr, length); result[length] = '\0'; // 添加字符串结束符 } return 1; } //void addparams(DEVICE_PARAMS *device, char* pbuf){ // GATEWAY_PARAMS* get; // get = get_gateway_config_params(); // switch (device->protocol) // { //// case DLT645_97: //// case DLT645_07: //// { //// DLT_READ_DATA *read_dlt645_data= mymalloc(SRAMEX, sizeof(DLT_READ_DATA)); //// read_dlt645_data->Identification = parseIntField(pbuf, "\"identifier645\":"); //// parseStringField(pbuf, "\"identifier\":\"", (char *)&read_dlt645_data->keyword); //// char *string = mymalloc(SRAMIN, 13); //// parseStringField(pbuf, "\"deviceID645\":\"", string); //// for (int j = 0; j < 6; j++) //// { //// uint8_t byte; //// sscanf((const char *)&string[j * 2], "%2hhx", &byte); //// read_dlt645_data->deviceID645[j]=byte; //// } //// myfree(SRAMIN, string); //// if (readData->read_dlt645_data == NULL) //// { //// readData->read_dlt645_data = read_dlt645_data; //// } //// else //// { //// DLT_READ_DATA *current = readData->read_dlt645_data; //// while (current->nextParams != NULL) //// { //// current = current->nextParams; //// } //// current->nextParams = read_dlt645_data; //// } //// } //// //// break; // case MODBUS: // { // parseStringField(pbuf,"\"deviceId\":\"",(char *)&get->device_params->deviceID); // get->device_params->params->gateway_read_modbus_command->value = parseIntField(pbuf, "\"power\":"); // // if (readData->read_modbus_data == NULL) // { // readData->read_modbus_data = read_modbus_command; // } // else // { // MODBUS_READ_DATA *current = readData->read_modbus_data; // while (current->nextParams != NULL) // { // current = current->nextParams; // } // current->nextParams = read_modbus_command; // } // } // break; // default: // break; // } //} //void analysis_read_data(DEVICE_PARAMS *device, char* buf){ //// READ_DATA* readData = mymalloc(SRAMEX, sizeof(READ_DATA)); // char* pbuf = mymalloc(SRAMEX, strlen(buf)); // memcpy(pbuf,buf,strlen(buf)); // while(1) // { //// addparams(device, readData ,pbuf); // addparams(device, pbuf); // pbuf = strstr(pbuf, "}"); // pbuf[0]='A'; // pbuf++; // if (pbuf[0] == ']') // { // myfree(SRAMEX, pbuf); // break; // } // } //}