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100 lines
4.0 KiB
100 lines
4.0 KiB
//////////////////////////////////////////////////////////////////////////
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/// COPYRIGHT NOTICE
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/// Copyright (c) 2023 CCSENS
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/// All rights reserved.
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///
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/// @file main.c
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/// @brief main app
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///
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///(本文件实现的功能的详述)
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///
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/// @version 1.1 CCsens technology
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/// @author CC
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/// @date 20150102
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///
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///
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/// 修订说明:最初版本
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/// Modified by:
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/// Modified date:
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/// Version:
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/// Descriptions:
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//////////////////////////////////////////////////////////////////////////
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/*****************************************************************************
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update by cc @201700110
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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
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个需要平衡的事情.
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clib/c_lib.c:
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公用的函数 和硬件无关
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放置串行模式(串口等其他通讯总线类的输出)输出的函数,
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一些覆盖模式输出的(lcd等固屏输出的)的也可使用
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void Lc_print(void (*L0pf_send_uc)(char ww), char *dat,...)
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-----------------------------------------------------------------------------------------
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uartcom/Uprotocol2app
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协议到应用
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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
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typedef struct _ts_lcm_pro_; 应用协议包的定义? LCM的协议------------
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L3_UARTcom0_exp_protocol 解析应用协议
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-----------------------------------------------------------------------------------------
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uartcom/urec2protocol: 接收到的数据放入到指向特定协议的缓存中,和协议的格式有关 一般分为 标头式或者标尾式
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公用的串口通讯定义
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struct _s_uart_rec_ 的公共协议包(关键的结构体)的声明------struct _s_uart_rec_
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void L1_uart_2buf(struct _s_uart_rec_ *p)串行数据保存到指向特定协议的缓冲中
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--------------------------------------------------------------------------------------------
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msp/uartx.c 底层代码 和cpu相关 缓存发送也放在里面
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L0_uart1_Init
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uart1_IRQHandler
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L0_Usend_uc------UserDef
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-----------------------------------------------------------------------------------------
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********************************************************************************/
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#ifndef _uart1_H
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#define _uart1_H
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#include "bsp_config.h"
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//#include "tpc_modbus.h"
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#include "msp_uartN.h"
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//#include "msp_time2.h"
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//#include "../tpc/tpc_x.h"
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#define D_UART1_RS_EN(x) REN = (x)
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#define D_uart1_ES_INT(x) ES = (x)
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#define L0_uart1_IntRI() (RI)//BITN_G(SCON,U0RI)
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#define L0_uart1_IntTI() (TI)//BITN_G(SCON,U0TI)
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#define L0_uart1_IntRIClear(); RI = 0;//BITN_0(SCON,U0RI)
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#define L0_uart1_IntTIClear(); TI = 0;//BITN_0(SCON,U0TI)
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#define L0_uart1_set(x) (SBUF = (x))
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#define L0_uart1_get() (SBUF)
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//<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<
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extern void L1_uart1_open(void);
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extern void L0_uart1_buf_init(void);
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extern void L0_uart1_Array(U8 * buf, U16 len);
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#define L1_uart1_uc(X) L0_uartN_uc(D_UART1,X)
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#define L0_uart1_us(X) L0_uartN_us(D_UART1,X)
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#define L0_uart1_ul(X) L0_uartN_ul(D_UART1,X)
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#define L0_uart1_0d0a() L0_uartN_0d0a(0)
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#define L0_uart1_uchex(X) L0_uartN_uchex(D_UART1,X)
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#define L0_uart1_ushex(X) L0_uartN_ushex(D_UART1,X)
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#define L0_uart1_ulhex(X) L0_uartN_ulhex(D_UART1,X)
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#define L0_uart1_str(buf) L0_uartN_str(D_UART1,buf)
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#define L1_uart1_Array(buf,len) L0_uartN_Array(D_UART1,(buf),(len))
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#define L1_uart1_Arrayhex(buf,len) L0_uartN_uchexArray(D_UART1,(buf),(len))
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///void L2_callback_uart1_free(void);
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///void L2_callback_uart1_free(Ts_uart_rev_ *p);
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#define L1_uart1_isFree(); /////L0_timer2_start();
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#define L1_uart1_isFree_over(); /////L0_timer2_stop();
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#define L1_uart1_timer_isFree_init(); /////L0_timer2_init();L0_timer2_stop();\
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/////L0_timer2_int_on();\
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/////ts_timer2.callback = L2_callback_uart1_free;ts_timer2.p = &s_uart1_rec;
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extern void L2_uart1_overtime_callback(void);
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#endif //#ifndef _uart1_H
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