串口操作---C代码
com.h
#ifndef __COM_H__
#define __COM_H__
#ifdef __cplusplus
extern "C" {
#endif
//打开串口
int OpenComPort(int port, int userBaudRate);//打开串口
//关闭串口
void CloseComPort(void);//关闭串口
int ReadComBlock(unsigned char *buf,int maxLen);
void _DoRxTx(void *args);
int ReadComBuf(unsigned char *buf, int maxLen);//读串口
int WriteComBuf(unsigned char *buf, int maxLen);//写串口
int WriteComByte(unsigned char byte);//往串口写一个字节
int ReadComByte(unsigned char byte);//从串口读取一个字节
void resetComPort(void);//重置串口
void resetRTS(void);//resetRTS_sub(150,20);
int ReceiveMessage(unsigned char *pBuf, int maxlen, int time);//带时间的接收操作
void resetRTSLowHigh(int Low,int High);//CTS高低电平操作
void SetRTSControlEnable(bool enable);//CTS操作:enable=true:上拉,false:下拉
#ifdef __cplusplus
}
#endif
#endif
com.c:
/*******************************************************************************
* FileName : com.cpp
* Author :
* Description :
* Create Data : 2005-6-28 9:09
* modify History:
*******************************************************************************/
//#include <windowsx.h>
//#include <commctrl.h>
//#include <tchar.h>
#include <string.h>
#include <stdlib.h>
#include <stdio.h>
#include "com.h"
//#include "common.h"
//#include "Debug.h"
#include <windows.h>
#include <process.h>
#define DelayXms Sleep
//#define EB_Printf Debug_Printf
#define COM_OVERTIME 5 // 此延时控制Uart_ReadBuf中每次读串口的延时:步长为10ms
#define IS_OVERLAPPED_IO (TRUE)
#define MAX_BLOCK_SIZE (0x20000) // 缓冲区最大128Kbytes
#define MAX_Uart_SIZE (4096) // 缓冲区最大128Kbytes
HANDLE idComDev;
OVERLAPPED osWrite,osRead;
volatile int isConnected=FALSE;
volatile int txEmpty=TRUE;
unsigned char rxBuf[MAX_Uart_SIZE+1];
unsigned char RoundBuf[MAX_BLOCK_SIZE];
struct {
int Enable; // 允许接收
int Ok; // 接收成功
int Off1; // 缓冲区当前有效数据 开始偏移
int Off2; // 缓冲区当前有效数据 末尾偏移
unsigned int Cnt; // 缓冲区当前有效数据 计数器=Off2-Off1
}rxFlag;
//打开串口
int OpenComPort(int port, int userBaudRate)
//port=0,1,2,3
{
//TCHAR *textCom[]={TEXT("COM1"),TEXT("COM2"),TEXT("COM3"),TEXT("COM4"),TEXT("COM5"),TEXT("COM6"),TEXT("COM7"),TEXT("COM8"),TEXT("COM9"),TEXT("\\\\.\\COM10"),TEXT("\\\\.\\COM11"),TEXT("\\\\.\\COM12")};
TCHAR textCom[255][14];
int i;
DCB dcb;
COMMTIMEOUTS commTimeOuts;
for(i=0;i<255;i++)
{
swprintf(textCom[i],14,L"\\\\.\\COM%d",i);
}
if(isConnected) // 若重复打开时先关闭
{
CloseComPort();
/*Debug_Printf("\n[OK:Already Opened. Close first!]");*/
}
//====================================================
osRead.Offset=0;
osRead.OffsetHigh=0;
osWrite.Offset=0;
osWrite.OffsetHigh=0;
osRead.hEvent = CreateEvent(NULL,TRUE/*bManualReset*/,FALSE,NULL);
//manual reset event object should be used.
//So, system can make the event objecte nonsignalled.
//osRead.hEvent & osWrite.hEvent may be used to check the completion of
// WriteFile() & ReadFile(). But, the DNW doesn't use this feature.
if(osRead.hEvent==NULL)
{
/*Debug_Printf("\n[ERROR:CreateEvent for osRead.]");*/
return FALSE;
}
osWrite.hEvent = CreateEvent(NULL,TRUE,FALSE,NULL);
if(osWrite.hEvent==NULL)
{
/*Debug_Printf("\n[ERROR:CreateEvent for osWrite.]");*/
return FALSE;
}
//====================================================
idComDev=CreateFile(textCom[port],
GENERIC_READ|GENERIC_WRITE,
0, //exclusive access
/*FILE_SHARE_READ|FILE_SHARE_WRITE,*/
NULL,
OPEN_EXISTING,
#if IS_OVERLAPPED_IO
FILE_ATTRIBUTE_NORMAL|FILE_FLAG_OVERLAPPED,
#else
/*FILE_ATTRIBUTE_NORMAL,*/ 0,
#endif
NULL);
if(idComDev==INVALID_HANDLE_VALUE)
{
/*Debug_Printf("\n[ERROR:CreateFile for opening COM port.]" );*/
return FALSE;
}
SetCommMask(idComDev,EV_RXCHAR);
SetupComm(idComDev,MAX_Uart_SIZE,MAX_Uart_SIZE);
PurgeComm(idComDev,PURGE_TXABORT|PURGE_RXABORT|PURGE_TXCLEAR|PURGE_RXCLEAR);
commTimeOuts.ReadIntervalTimeout=0xffffffff;
commTimeOuts.ReadTotalTimeoutMultiplier=0;
commTimeOuts.ReadTotalTimeoutConstant=1000;
commTimeOuts.WriteTotalTimeoutMultiplier=0;
commTimeOuts.WriteTotalTimeoutConstant=1000;
SetCommTimeouts(idComDev,&commTimeOuts);
//====================================================
dcb.DCBlength=sizeof(DCB);
GetCommState(idComDev,&dcb);
dcb.fBinary=TRUE;
dcb.fParity=FALSE;
dcb.BaudRate=userBaudRate; //CBR_115200;
dcb.ByteSize=8;
dcb.Parity=0;
dcb.StopBits=0;
dcb.fDtrControl=DTR_CONTROL_ENABLE;//DTR_CONTROL_DISABLE; //2009-9-4 9:36:26 zzt
dcb.fRtsControl=RTS_CONTROL_DISABLE;
dcb.fOutxCtsFlow=0;
dcb.fOutxDsrFlow=0;
if(SetCommState(idComDev,&dcb)==TRUE)
{
isConnected=TRUE;
_beginthread( (void (*)(void *))_DoRxTx,0x2000,(void *)0);
rxFlag.Off1=0;
rxFlag.Off2=0;
rxFlag.Cnt=0;
rxFlag.Enable=1; // 允许串口接收
/*Debug_Printf("\n[OK:OpenComPort port=%d baud=%d.]", port, userBaudRate);*/
return TRUE;
}
else
{
isConnected=FALSE;
CloseHandle(idComDev);
return FALSE;
}
}
void resetComPort(void)
{
rxFlag.Off1=0;
rxFlag.Off2=0;
rxFlag.Cnt=0;
rxFlag.Enable=1; // 允许串口接收
rxFlag.Ok=0; // 允许串口接收
}
static void resetRTS_sub(int Low,int High)
{
DCB dcb;
//====================================================
dcb.DCBlength=sizeof(DCB);
GetCommState(idComDev,&dcb);
dcb.fRtsControl=RTS_CONTROL_ENABLE;
SetCommState(idComDev,&dcb);
DelayXms(Low);
GetCommState(idComDev,&dcb);
dcb.fRtsControl=RTS_CONTROL_DISABLE;
SetCommState(idComDev,&dcb);
DelayXms(High);
}
void SetRTSControlEnable(bool enable)
{
DCB dcb;
dcb.DCBlength=sizeof(DCB);
GetCommState(idComDev,&dcb);
if(true ==enable)
{
dcb.fRtsControl=RTS_CONTROL_ENABLE;
}
else
{
dcb.fRtsControl=RTS_CONTROL_DISABLE;
}
SetCommState(idComDev,&dcb);
}
void resetRTS(void)
{
resetRTS_sub(150,20);
}
void resetRTSLowHigh(int Low,int High)
{
return resetRTS_sub(Low,High);
}
//关闭串口
void CloseComPort(void)
{
if(isConnected)
{
isConnected=FALSE;
SetCommMask(idComDev,0);
//disable event notification and wait for thread to halt
EscapeCommFunction(idComDev,CLRDTR);
PurgeComm(idComDev,PURGE_TXABORT|PURGE_RXABORT|PURGE_TXCLEAR|PURGE_RXCLEAR);
CloseHandle(idComDev);
CloseHandle(osRead.hEvent);
CloseHandle(osWrite.hEvent);
}
Sleep(100);
//wait until CloseComPort() effective.
//If not, OpenComPort()::CreateFile(...) will fail.
}
//读取串口块
int ReadComBlock(unsigned char *buf,int maxLen)
{
BOOL fReadStat;
COMSTAT comStat;
DWORD dwErrorFlags;
DWORD dwLength;
ClearCommError(idComDev,&dwErrorFlags,&comStat);
dwLength=min((DWORD)maxLen,comStat.cbInQue);
if(dwLength>0)
{
#if IS_OVERLAPPED_IO
fReadStat=ReadFile(idComDev,buf,dwLength,&dwLength,&osRead);
if(!fReadStat) //Apr.28.2003:GetOverlappedResult() may be needed.
{
//By experiment, fReadStat was always TRUE,of course, and the following was never executed.
/*Debug_Printf("\n[RX_RD_WAIT]\n" ); */
if(GetLastError()==ERROR_IO_PENDING)
{
GetOverlappedResult(idComDev,&osRead,&dwLength,TRUE);
}
else
{
/*Debug_Printf("[RXERR]" );*/
}
}
#else
fReadStat=ReadFile(idComDev,buf,dwLength,&dwLength,NULL);
if(!fReadStat)
{
Debug_Printf("[RXERR]" );
}
#endif
}
return dwLength;
}
void _DoRxTx(void *args)
{
OVERLAPPED os;
DWORD dwEvtMask;
int nLength;
BOOL fStat;
DWORD temp;
int i;
memset(&os,0,sizeof(OVERLAPPED));
os.hEvent = CreateEvent(NULL,TRUE,FALSE,NULL);
if(os.hEvent==NULL)
{
/*EB_Printf("[ERROR:DoRxTx os.hEvent]\n");*/
_endthread();
}
if(!SetCommMask(idComDev,EV_RXCHAR|EV_TXEMPTY|EV_ERR))
{
/*EB_Printf("[ERROR:SetCommMask()]\n");*/
CloseHandle(os.hEvent);
_endthread();
}
while(isConnected)
{
dwEvtMask=0;
#if IS_OVERLAPPED_IO
fStat=WaitCommEvent(idComDev,&dwEvtMask,&os);
//Apr.28.2003: fStat should be checked for the cpu time saving.
if(!fStat) //Apr.28.2003:GetOverlappedResult() is needed.
{
//By experiment. Only when there was no signalled event, the following was executed.
//EB_Printf("\n[WaitCommEvent=false]\n");
if(GetLastError()==ERROR_IO_PENDING)
{
GetOverlappedResult(idComDev,&os,&temp,TRUE);
}
else
{
/*EB_Printf("[RXTX_THREAD_ERR]" );*/
}
}
#else
WaitCommEvent(idComDev,&dwEvtMask,NULL); //wait until any event is occurred.
#endif
if( (dwEvtMask & EV_TXEMPTY) == EV_TXEMPTY )
txEmpty=TRUE;
if((dwEvtMask & EV_RXCHAR) == EV_RXCHAR)
{
if(rxFlag.Enable) {
do{ //Apr.28.2003:The caveat on MSDN,"Serial Communications in Win32" recommends while();
if( nLength=ReadComBlock(rxBuf,MAX_Uart_SIZE) )
{
// if(nLength>=MAX_BLOCK_SIZE /*for debug*/)
// {
// EB_Printf("\n[ERROR1:nLength>MAX]\n");
// rxFlag.Off1=0;
// rxFlag.Off2=0;
// rxFlag.Cnt=0;
// }
// else
{
rxFlag.Ok=0;
for(i=0; i<nLength; i++){
if(rxFlag.Cnt >= MAX_BLOCK_SIZE) {
/*EB_Printf("\n[ERROR2:nLength>MAX]\n");*/
rxFlag.Off1=0;
rxFlag.Off2=0;
rxFlag.Cnt=0;
}
rxFlag.Cnt++;
RoundBuf[rxFlag.Off2++] = rxBuf[i];
rxFlag.Off2 %= MAX_BLOCK_SIZE;
}
rxFlag.Ok=1;
}
}
}while(nLength);
}
}
// Clear OVERRUN condition.
// If OVERRUN error is occurred,the tx/rx will be locked.
if(dwEvtMask & EV_ERR)
{
COMSTAT comStat;
DWORD dwErrorFlags;
ClearCommError(idComDev,&dwErrorFlags,&comStat);
//EB_Printf("[DBG:EV_ERR=%x]\n",dwErrorFlags);
}
}
CloseHandle(os.hEvent);
_endthread();
}
//读取串口缓冲区
int ReadComBuf(unsigned char *buf, int maxLen)
{
unsigned int time=0;
unsigned int i, len;
if(!rxFlag.Enable)return 0;
while(rxFlag.Cnt < (unsigned int)maxLen){ //delay 50ms
Sleep(10);
if( time++ >= COM_OVERTIME )break;
}
if(0==rxFlag.Ok)return 0;
len =(rxFlag.Cnt > (unsigned int)maxLen)? maxLen:rxFlag.Cnt;
for(i=0; i<len; i++){
*(buf+i)= RoundBuf[rxFlag.Off1++];
rxFlag.Cnt--;
rxFlag.Off1 %= MAX_BLOCK_SIZE;
}
return len;
}
//写串口缓冲区
int WriteComBuf(unsigned char *buf, int maxLen)
{
void *txBlk;
DWORD txBlkSize;
DWORD temp;
while(txEmpty==FALSE);
txBlk=buf;
txBlkSize=maxLen;
// Debug_Printf("[OK:WriteComBuf len=%d.]\n", maxLen);
// for(temp=0; temp<maxLen; temp++) {
// Debug_Printf(" %02x", *(buf+temp));
// }
//txEmpty=FALSE; why needed??? this line should be removed.
#if IS_OVERLAPPED_IO
WriteFile(idComDev,txBlk,txBlkSize,&temp,&osWrite);
#else
WriteFile(idComDev,txBlk,txBlkSize,&temp,NULL);
#endif
while(txEmpty==FALSE);
return TRUE;
}
//往串口写一个字节
int WriteComByte(unsigned char byte)
{
return WriteComBuf(&byte, 1);
}
//从串口读取一个字节
int ReadComByte(unsigned char byte)
{
return ReadComBuf(&byte, 1);
}
/*******************************************************************************
* Fuc Name : PC_DelayXms
* Input : num--延时的毫秒数
* Return : void
* Description : PC延时程序,毫秒级
*******************************************************************************/
#include <sys/timeb.h>
#include <time.h>
void PC_DelayXms(int num)
{
LARGE_INTEGER litmp;
LONGLONG QPart1,QPart2;
double dfMinus, dfFreq, dfTim;
QueryPerformanceFrequency(&litmp);
dfFreq = (double)litmp.QuadPart; // 获得计数器的时钟频率
QueryPerformanceCounter(&litmp);
QPart1 = litmp.QuadPart; // 获得初始值
do{
QueryPerformanceCounter(&litmp);
QPart2 = litmp.QuadPart; // 获得中止值
dfMinus = (double)(QPart2-QPart1);
dfTim = dfMinus / dfFreq; // 获得对应的时间值,单位为秒
}while(dfTim<(0.001*num));
}
int ReceiveMessage(unsigned char *pBuf, int maxlen, int time)
{
int ret =0;
DWORD startTime;
int nLen;
startTime=GetTickCount();
int len =0;
while(1)
{
//timeout
if(GetTickCount() -startTime >time)
return 0;
len =ReadComBuf(pBuf,maxlen-1);
if(len)
{
*(pBuf +len) ='\0';
return len;
}
else
{
Sleep(1);
}
}
return 0;
}