/***************************************************************************** update by cc @201501101001 针对多串口 和 单一串口 有区别 每个串口是独立的还是分开的有讲究 程序是复杂的还是软件应用简单是 个需要平衡的事情. uartcom/uartlib.c: 公用的函数 和硬件无关 放置串行模式(串口等其他通讯总线类的输出)输出的函数, 一些覆盖模式输出的(lcd等固屏输出的)的也可使用 void Lc_print(void (*L0pf_send_uc)(char ww), char *dat,...) ----------------------------------------------------------------------------------------- uartcom/uartcom0 和uart相关的通讯协议 com + n 为了适应不同的通讯协议需要不同的uart口来对应 和应用相关 typedef struct _ts_lcm_pro_; 应用协议包的定义? LCM的协议------------ L3_UARTcom0_exp_protocol 解析应用协议 ----------------------------------------------------------------------------------------- uartcom/uprotocol: 主要是为 uartcom + n服务的 驱动层到应用层缓存的过度 公用的串口通讯定义 struct _s_protocol_ 的公共协议包(关键的结构体)的声明------struct _s_protocol_ void L1_uart_2buf(struct _s_protocol_ *p)串行数据保存到缓冲中 -------------------------------------------------------------------------------------------- msp/uartx.c 底层代码 和cpu相关 L0_UART0_Init UART0_IRQHandler L0_Usend_uc----------s_at0 ----------------------------------------------------------------------------------------- ********************************************************************************/ #include "tpc_modbus.h" #include "../clib/clib.h" U8 L3_pack_modbus_03(TS_PH4_modbus *pmodbus ,U8 slaverId, U16 reg, U16 num) { U8 bufsize = 4; pmodbus->salver = slaverId; pmodbus->oper = MODBUS_OPER_READ; pmodbus->buf[0] = reg >> 8 & 0xFF; pmodbus->buf[1] = reg >> 0 & 0xFF; pmodbus->buf[2] = num >> 8 * 0xFF; pmodbus->buf[3] = num >> 0 & 0xFF; crc16(pmodbus->crc,&pmodbus->salver,2 + bufsize); pmodbus->buf[bufsize] = pmodbus->crc[0]; pmodbus->buf[bufsize + 1] = pmodbus->crc[1]; return bufsize + 2 + 2; } U8 L3_pack_modbus_06(TS_PH4_modbus *pmodbus ,U8 slaverId, U16 reg, U8 *buf) { U8 bufsize = 4; pmodbus->salver = slaverId; pmodbus->oper = MODBUS_OPER_WRITE; pmodbus->buf[0] = reg >> 8 & 0xFF; pmodbus->buf[1] = reg >> 0 & 0xFF; pmodbus->buf[2] = buf[0]; pmodbus->buf[3] = buf[1]; crc16(pmodbus->crc,&pmodbus->salver,2 + bufsize); pmodbus->buf[bufsize] = pmodbus->crc[0]; pmodbus->buf[bufsize + 1] = pmodbus->crc[1]; return bufsize + 2 + 2; } U8 L3_pack_modbus_10(TS_PH4_modbus *pmodbus ,U8 slaverId, U16 reg, U16 num, U8 bytes, U8 *buf) { U8 bufsize = 5,i = 0; pmodbus->salver = slaverId; pmodbus->oper = MODBUS_OPER_WRITE_M; pmodbus->buf[0] = reg >> 8 & 0xFF; pmodbus->buf[1] = reg >> 0 & 0xFF; pmodbus->buf[2] = num >> 8 * 0xFF; pmodbus->buf[3] = num >> 0 & 0xFF; pmodbus->buf[4] = bytes; for(i=0;ibuf[5+i] = buf[i]; } crc16(pmodbus->crc,&pmodbus->salver,2 + bufsize + bytes); pmodbus->buf[bufsize + bytes] = pmodbus->crc[0]; pmodbus->buf[bufsize + bytes + 1] = pmodbus->crc[1]; return bufsize + bytes + 2 + 2; } U8 L3_pack_modbus(TS_PH4_modbus *pmodbus, MD_SLAVER_INFO *slaver_info) { U8 pkglen = 0; switch(slaver_info->oper) { case MODBUS_OPER_READ: return L3_pack_modbus_03(pmodbus,slaver_info->slaver,slaver_info->reg,slaver_info->regnum); case MODBUS_OPER_WRITE: return L3_pack_modbus_06(pmodbus,slaver_info->slaver,slaver_info->reg,slaver_info->buf); case MODBUS_OPER_WRITE_M: return L3_pack_modbus_10(pmodbus,slaver_info->slaver,slaver_info->reg,slaver_info->regnum,slaver_info->bytes,slaver_info->buf); default: return 0; } } void L1_s2b_PH4_init(TS_Handle_PH4 *p) { p->max = 0; p->ok = 0; p->head = 0; p->num = 0; p->error = 0; } void L1_s2b_PH4(TS_Handle_PH4 *p) { if(p->head == 0) { if(/*p->reg == p->slaver*/ 1) { p->head = 1; p->error = 0; p->max = D_s_PH4_modbus_max + 4; p->sp = p->buf; p->num = 0; p->sp[p->num++] = p->reg; } } else { if(p->num < p->max) { p->sp[p->num++] = p->reg; } else { //P10 ^= 1; p->error = 1; } } } /****************************************************************************** ** End Of File ******************************************************************************/