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stm32l431_xl_current/App/Src/frt_protocol.c

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#include "frt_protocol.h"
#include "assertions.h"
#include "inflash.h"
extern u_int8_t lora_out_buff[50];
extern uart_device_info uart_devices[];
/* 静态函数申明 */
static void send_uart_pack(device_handle device,FRT_MsgFunctionCode_e cmd_type, const void *data, u_int16_t len);
static void FRT_MsgProc_ReadRegister(device_handle device, void *pMsg);
static void FRT_MsgProc_WriteRegister(device_handle device, void *pMsg);
static u_int16_t FRT_ReadReg(unsigned char regId);
static u_int16_t FRT_ReadRegCurrent(void *pMsg);
static u_int16_t FRT_ReadRegMaxCurrent(void *pMsg);
static u_int16_t FRT_ReadRegPulseCount(void *pMsg);
static u_int16_t FRT_ReadRegBat_V(void *pMsg);
static u_int16_t FRT_ReadRegBat_Charge(void *pMsg);
static u_int16_t FRT_ReadRegMACINFO(void *pMsg);
static u_int16_t FRT_WriteRegDeviceAddr(void *pMsg);
static u_int16_t FRT_WriteRegNetId(void *pMsg);
static u_int16_t FRT_WriteRegMaxCurrent(void *pMsg);
static u_int16_t FRT_WriteRegPulseCount(void *pMsg);
static u_int16_t FRT_WriteRegReboot(void *pMsg);
static void pdebug_mcs_info();
mcs_para g_stMcs_Para = {
.mac_info = 0x9259
};
/* 功能码处理表 */
FRT_FuncionMsgProcTable_s g_MsgTbl[] =
{
{ FRT_FUNCTION_CODE_READ_REGISTER, FRT_MsgProc_ReadRegister },
{ FRT_FUNCTION_CODE_WRITE_REGISTER, FRT_MsgProc_WriteRegister },
};
/* 读寄存器处理表 */
FRT_RegProcTable_s g_RegTbl[] =
{
{ FRT_REGISTER_CURRENT, FRT_ReadRegCurrent }, /* 泄漏电流 */
{ FRT_REGISTER_MAX_CURRENT, FRT_ReadRegMaxCurrent }, /* 最大电流 */
{ FRT_REGISTER_PULSE_COUNT, FRT_ReadRegPulseCount }, /* 脉冲次数 */
{ FRT_REGISTER_BAT_V, FRT_ReadRegBat_V }, /* 电池电压 */
{ FRT_REGISTER_BAT_CHARGE, FRT_ReadRegBat_Charge }, /* 充电状态 */
{ FRT_REGISTER_MAC_INFO, FRT_ReadRegMACINFO }, /* MAC信息 */
};
/* 写寄存器处理表 */
FRT_RegProcTable_s g_Write_RegTbl[] =
{
{ FRT_REGISTER_DEVICE_ADDR, FRT_WriteRegDeviceAddr }, /* 写设备地址 */
{ FRT_REGISTER_NET_ID, FRT_WriteRegNetId }, /* 写网络ID */
{ FRT_REGISTER_CLEAR_MAX_CURRENT, FRT_WriteRegMaxCurrent }, /* 清空最大泄漏电流统计值 */
{ FRT_REGISTER_CLEAR_PULSE_COUNT, FRT_WriteRegPulseCount }, /* 清空脉冲次数 */
{ FRT_REGISTER_REBOOT, FRT_WriteRegReboot }, /* 重启 */
};
/**
* @brief modbus crc16算法
* @param
* @retval
*/
unsigned short CRC16(unsigned char *arr_buff, unsigned char len)
{
unsigned short crc=0xFFFF;
unsigned char i, j;
for ( j=0; j<len; j++){
crc=crc ^*arr_buff++;
for ( i=0; i<8; i++){
if( ( crc&0x0001) >0){
crc=crc>>1;
crc=crc^ 0xa001;
}else{
crc=crc>>1;
}
}
}
return crc << 8 | crc >> 8;
}
/**
* @brief 交换高低字节
* @param
* @retval
*/
static u_int16_t FRT_swap_endian_16(u_int16_t value)
{
return ((value << 8) | (value >> 8));
}
/**
* @brief 读泄漏电流寄存器值
* @param
* @retval
*/
static u_int16_t FRT_ReadRegCurrent(void *pMsg)
{
u_int16_t value = (u_int16_t)(g_stMcs_Para.current * 100);
return FRT_swap_endian_16(value);//百倍泄漏电流
}
/**
* @brief 读最大电流寄存器值
* @param
* @retval
*/
static u_int16_t FRT_ReadRegMaxCurrent(void *pMsg)
{
u_int16_t value = (u_int16_t)(g_stMcs_Para.max_current * 100);
return FRT_swap_endian_16(value);//百倍最大泄漏电流
}
/**
* @brief 读脉冲次数寄存器值
* @param
* @retval
*/
static u_int16_t FRT_ReadRegPulseCount(void *pMsg)
{
// u_int16_t value = (u_int16_t)(g_stMcs_Para.pulse_count);
// return FRT_swap_endian_16(value);
term_printf("333\r\n");
}
/**
* @brief 读电池电压寄存器值
* @param
* @retval
*/
static u_int16_t FRT_ReadRegBat_V(void *pMsg)
{
// u_int16_t value = (u_int16_t)(g_stMcs_Para.bat_v);
// return FRT_swap_endian_16(value);
term_printf("444\r\n");
}
/**
* @brief 读充电状态寄存器值
* @param
* @retval
*/
static u_int16_t FRT_ReadRegBat_Charge(void *pMsg)
{
// u_int16_t value = (u_int16_t)(g_stMcs_Para.bat_charge);
// return FRT_swap_endian_16(value);
term_printf("555\r\n");
}
/**
* @brief 读MAC信息寄存器值
* @param
* @retval
*/
static u_int16_t FRT_ReadRegMACINFO(void *pMsg)
{
// u_int16_t value = (u_int16_t)(g_stMcs_Para.mac_info);
// return FRT_swap_endian_16(value);
term_printf("666\r\n");
}
/**
* @brief 写设备地址
* @param
* @retval
*/
static u_int16_t FRT_WriteRegDeviceAddr(void *pMsg)
{
// uint16_t *pMsgAddr = (uint16_t *)pMsg;
// uint16_t data = *pMsgAddr;
// g_stConfigInfo.addr = data;
// save_config_info(g_stConfigInfo);
//
// return 0;
term_printf("3131\r\n");
}
/**
* @brief 写网络地址
* @param
* @retval
*/
static u_int16_t FRT_WriteRegNetId(void *pMsg)
{
// uint16_t *pMsgAddr = (uint16_t *)pMsg;
// uint16_t data = *pMsgAddr;
// g_stConfigInfo.net_id = data;
// save_config_info(g_stConfigInfo);
//
// return 0;
term_printf("3232\r\n");
}
/**
* @brief 清空最大电流
* @param
* @retval
*/
static u_int16_t FRT_WriteRegMaxCurrent(void *pMsg)
{
// uint16_t *pMsgAddr = (uint16_t *)pMsg;
// uint16_t data = *pMsgAddr;
// if(data == 0x0001)
// {
// __iar_builtin_set_FAULTMASK(1);
// NVIC_SystemReset();
// }
//
// return 0;
term_printf("3333\r\n");
}
/**
* @brief 清空脉冲次数
* @param
* @retval
*/
static u_int16_t FRT_WriteRegPulseCount(void *pMsg)
{
// uint16_t *pMsgAddr = (uint16_t *)pMsg;
// uint16_t data = *pMsgAddr;
// if(data == 0x0001)
// {
// __iar_builtin_set_FAULTMASK(1);
// NVIC_SystemReset();
// }
//
// return 0;
term_printf("3434\r\n");
}
/**
* @brief 重启
* @param
* @retval
*/
static u_int16_t FRT_WriteRegReboot(void *pMsg)
{
// uint16_t *pMsgAddr = (uint16_t *)pMsg;
// uint16_t data = *pMsgAddr;
// if(data == 0x0001)
// {
// __iar_builtin_set_FAULTMASK(1);
// NVIC_SystemReset();
// }
//
// return 0;
term_printf("3535\r\n");
}
/**
* @brief 封装协议发送
* @param
* @retval 数据正确返回TRUE数据异常返回FALSE
*/
static void send_uart_pack(device_handle device,FRT_MsgFunctionCode_e cmd_type, const void *data, u_int16_t len)
{
memset(lora_out_buff,0,sizeof(lora_out_buff));
frt_climate_pack_resp *pack = (frt_climate_pack_resp*)lora_out_buff;
pack->up_addr_h = 0x00;
pack->up_addr_l = 0x00;
pack->chanel = 0x0A;
pack->addr = g_stConfigInfo.addr;
pack->func = FRT_FUNCTION_CODE_READ_REGISTER;
pack->data_len = len;
memcpy(pack->data, data, len);
*(u_int16_t*)&pack->data[len] = CRC16((u_int8_t *)&pack->addr,pack->data_len+3);//加数据之前的字节
uart_dev_write(device,(u_int8_t*)pack,pack->data_len+3+2+3); // 加数据之前的字节+校验位+E22地址信道
}
/**
* @brief 遍历读取寄存器
* @param
* @retval
*/
u_int16_t FRT_ReadReg(unsigned char regId)
{
for(u_int16_t i = 0; i < sizeof(g_RegTbl) / sizeof(FRT_RegProcTable_s); i++){
//term_printf("regId:%d, g_RegTbl.regId :%d\r\n",regId,g_RegTbl[i].regId);
if (regId == g_RegTbl[i].regId){
return g_RegTbl[i].pRegProc(NULL);
}
}
return 0;
}
/**
* @brief 处理读取寄存器数据
* @param
* @retval
*/
void FRT_MsgProc_ReadRegister(device_handle device, void *pMsg)
{
uint8_t *data = (uint8_t *)pMsg;
u_int16_t start_reg_addr = (data[2] << 8)| data[3];
u_int16_t reg_num= (data[4] << 8)| data[5];
if (start_reg_addr < 0x00 || start_reg_addr > 0x05)
{
term_printf("start_reg_addr error:%d", start_reg_addr);
return;
}
if (reg_num < 0x01 || ((reg_num + start_reg_addr - 1) < 0x00) || ((reg_num + start_reg_addr -1) > 0x05))
{
term_printf("reg_num error:%d", reg_num);
return;
}
static u_int8_t reg_value_buff[2*100]={0x00};
memset(reg_value_buff,0,sizeof(reg_value_buff));
for(u_int16_t pos=0; pos <reg_num; pos++){
*(u_int16_t*)&reg_value_buff[pos*2] = FRT_ReadReg((start_reg_addr+pos));
}
if(device == g_term_uart_handle)
{
send_uart_pack(device, FRT_FUNCTION_CODE_READ_REGISTER, (u_int8_t*)&reg_value_buff, reg_num*2);
// pdebug_mcs_info();
}
if(device == g_lora_uart_handle)
{
send_uart_pack(device, FRT_FUNCTION_CODE_READ_REGISTER, (u_int8_t*)&reg_value_buff, reg_num*2);
// pdebug_mcs_info();
}
}
/**
* @brief 处理写入寄存器数据
* @param
* @retval
*/
void FRT_MsgProc_WriteRegister(device_handle device, void *pMsg)
{
uint8_t *data = (uint8_t *)pMsg;
u_int16_t start_reg_addr = (data[2] << 8)| data[3];
u_int16_t reg_num= (data[4] << 8)| data[5];
u_int16_t byte_num= data[6];
unsigned short return_crc_value;
// 校验
if (start_reg_addr < 0x31 || start_reg_addr > 0x35 )
{
term_printf("start_reg_addr error:%d", start_reg_addr);
return;
}
if (reg_num < 0x01 || ((reg_num + start_reg_addr - 1) < 0x31) || ((reg_num + start_reg_addr -1) > 0x35))
{
term_printf("reg_num error:%d", reg_num);
return;
}
// 取出数据
uint16_t content[50] = {0};
for (uint16_t var = 0; var < reg_num; var++)
{
content[var] = data[7 + 2 * var] << 8 | data[7 + 2 * var + 1];
}
for(u_int16_t pos=0; pos <reg_num; pos++)
{
for (uint16_t i = 0; i < sizeof(g_Write_RegTbl) / sizeof(FRT_RegProcTable_s); i++)
{
if (g_Write_RegTbl[i].regId == (start_reg_addr + pos))
{
g_Write_RegTbl[i].pRegProc(&content[pos]);
}
}
}
}
/**
* @brief 读取串口数据
* @param
* @retval
*/
static int uart_read_frt_climate_pack(device_handle uart_handle,u_int8_t *buff, u_int32_t buff_size)
{
u_int32_t offset = 0;
char c = 0;
// frt_climate_pack *pack = (frt_climate_pack *)buff;
unsigned char new_buff[50];
buff_size--; //预留一个'\0'位置
for (int i = 0; i < buff_size;i++)
{
c = uart_dev_in_char(uart_handle);
buff[i] = c;
}
int start_index = buff_size; // 初始化为一个不可能的值
// 遍历数组以找到符合条件的字节对
for (int i = 0; i < buff_size; i += 1)
{
if ((buff[i] == g_stConfigInfo.addr) && ((buff[i + 1] == FRT_FUNCTION_CODE_READ_REGISTER) || (buff[i + 1] == FRT_FUNCTION_CODE_WRITE_REGISTER)))
{
start_index = i; // 从符合条件的字节对开始复制
// term_printf("%d", i);
break;
}
}
if (start_index == buff_size)
{
return 0;
}
memcpy(new_buff, buff + start_index, buff_size - start_index);
// for (int i = 0; i < buff_size; i++) {
// term_printf("%x ", new_buff[i]);
// }
// term_printf("\r\n");
memcpy(buff, 0, buff_size);
memcpy(buff, new_buff, buff_size - start_index);
if (new_buff[1] == FRT_FUNCTION_CODE_READ_REGISTER)
{
offset = 8;
return offset;
}
if (new_buff[1] == FRT_FUNCTION_CODE_WRITE_REGISTER)
{
u_int32_t regnum = 0;
offset = 7;
regnum = new_buff[6];
offset = offset + regnum + 2;
return offset;
}
// for (offset = 0; offset < buff_size;){
// c = uart_dev_in_char(uart_handle);
// buff[offset++] = c;
// if (offset == sizeof(pack->addr)){
// if (pack->addr != g_stConfigInfo.addr){
// memcpy(buff, buff+1, offset-1);
// offset--;
// buff_size--;
// }
// }else if (offset == FRT_CLIMATE_PACK_SIZE(pack)){
// return offset;
// }
// }
return 0;
}
/**
* @brief 处理一条消息
* @param
* @retval
*/
void FRT_MsgHandler(device_handle device, u_int8_t *pMsg, u_int32_t MsgLen)
{
if(CRC16(pMsg, MsgLen-2) != FRT_CLIMATE_BUFF_CRC16(pMsg))
{
// term_printf("CRC不过");
return;
}
if((pMsg[1] != FRT_FUNCTION_CODE_READ_REGISTER) && (pMsg[1] != FRT_FUNCTION_CODE_WRITE_REGISTER))
{
// term_printf("功能码不过");
return;
}
for (u_int16_t i = 0; i < sizeof(g_MsgTbl) / sizeof(FRT_FuncionMsgProcTable_s); i++){
if (pMsg[1] == g_MsgTbl[i].msgId){
g_MsgTbl[i].pMsgProc(device, pMsg);
}
}
}
/**
* @brief 读取并解析串口数据
* @param
* @retval
*/
static u_int8_t rs485_buff[50]={0x00};
void read_and_process_uart_data(device_handle device)
{
if(uart_dev_char_present(device)){
//BUFFER里面第一次有数据后返回等下一次调用
if(read_uart_flag < 1)
{
read_uart_flag++;
return;
}
read_uart_flag = 0;
memset(rs485_buff,0,sizeof(rs485_buff));
int ret = uart_read_frt_climate_pack(device, rs485_buff, sizeof(rs485_buff));
if(ret > 0){
FRT_MsgHandler(device, rs485_buff, ret);
}
}
}
/* 打印寄存器数据 */
static void pdebug_mcs_info()
{
term_printf("current: %.2f\r\n", g_stMcs_Para.current);
term_printf("max_current: %.2f\r\n", g_stMcs_Para.max_current);
term_printf("pulse_count: %.2f\r\n", g_stMcs_Para.pulse_count);
term_printf("bat_v: %.2f\r\n", g_stMcs_Para.bat_v);
term_printf("bat_charge: %.2f\r\n", g_stMcs_Para.bat_charge);
term_printf("mac_info: %.2f\r\n", g_stMcs_Para.mac_info);
term_printf("address: %.2f\r\n", g_stConfigInfo.addr);
term_printf("NetId: %.2f\r\n", g_stConfigInfo.net_id);
// term_printf("precipitation_intensity: %.2f\r\n", g_stMcs_Para.precipitation_intensity);
}
// 30 03 00 00 00 0B 00 2C
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