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串口类库 v1.1

2013年10月24日 ⁄ 综合 ⁄ 共 14462字 ⁄ 字号 评论关闭

/*
发现一些网友在同步应用中出错
本次修改增加ReadSync用于同步应用,原来的Read无法同步应用因为
COMSTAT  Stat;
DWORD dwError;

if(::ClearCommError(_hCommHandle, &dwError, &Stat) && dwError > 0)
{
 ::PurgeComm(_hCommHandle, PURGE_RXABORT | PURGE_RXCLEAR);
 return 0;
}

if(!Stat.cbInQue) // 缓冲区无数据
 return 0;
这段代码使得 Read在缓冲区无数据直接返回

对于同步应用, 推荐以下超时设置
_CO.ReadIntervalTimeout = 0;
_CO.ReadTotalTimeoutMultiplier = 1;
_CO.ReadTotalTimeoutConstant = 1000;
_CO.WriteTotalTimeoutMultiplier = 1;
_CO.WriteTotalTimeoutConstant = 1000;

类在使用中无需修改  类的原代码,扩展应用就可以

例如新增校验和
class MyComm : public cnComm
{
public:
 bool WriteWithCheck(void *p, int len)
 {
  if(WriteSync(p, len) != len)
   return false;
  else
  {
   for(unsigned long sum = 0, i = 0; i < len; i++)
    sum += *(unsigned char*)p;
   WriteSync(&sum, sizeof(sum));
  }
 }
};
*/

/*
Comm Base Library(WIN98/NT/2000) ver 1.1

Compile by: BC++ 5; C++ BUILDER 4, 5, 6, X; VC++ 5, 6; VC.NET;  GCC;
 
copyright(c) 2004.5 - 2005.8  llbird wushaojian@21cn.com
 
注: 作为基础代码, 为保证源码的正确性, 请勿修改以下代码, 有问题可直接联系, 可以继承扩展你所需要的功能
*/

#ifndef _CN_COMM_H_
#define _CN_COMM_H_

#pragma warning(disable: 4530)
#pragma warning(disable: 4786)
#pragma warning(disable: 4800)

#include <assert.h>
#include <stdio.h>
#include <windows.h>

//送到窗口的消息  WPARAM 端口号
#define ON_COM_RECEIVE WM_USER + 618   
#define ON_COM_CTS     WM_USER + 619 //LPARAM 1 valid
#define ON_COM_DSR     WM_USER + 621 //LPARAM 1 valid
#define ON_COM_RING    WM_USER + 623
#define ON_COM_RLSD    WM_USER + 624
#define ON_COM_BREAK   WM_USER + 625
#define ON_COM_TXEMPTY WM_USER + 626
#define ON_COM_ERROR   WM_USER + 627 //LPARAM save Error ID
#define DEFAULT_COM_MASK_EVENT  EV_RXCHAR | EV_ERR | EV_CTS | EV_DSR | EV_BREAK | EV_TXEMPTY | EV_RING | EV_RLSD

class cnComm   
{
public:
 
 //------------------------------Construction-----------------------------------
 //第1个参数为是否在打开串口时启动监视线程, 第2个参数为IO方式 阻塞方式(0)/ 异步重叠方式(默认)
 cnComm(bool fAutoBeginThread = true, DWORD dwIOMode = FILE_FLAG_OVERLAPPED)
  : _dwIOMode(dwIOMode), _fAutoBeginThread(fAutoBeginThread)
 {
  Init();
 }
 
 virtual ~cnComm()
 {
  Close();
  UnInit();
 }
 
 //----------------------------------Attributes----------------------------------
 //判断串口是或打开
 inline bool IsOpen()
 {
  return _hCommHandle != INVALID_HANDLE_VALUE;
 }
 //判断串口是或打开
 operator bool ()
 {
  return _hCommHandle != INVALID_HANDLE_VALUE;
 }
 //获得串口句炳
 inline HANDLE GetHandle()
 {
  return _hCommHandle;
 }
 //获得串口句炳
 operator HANDLE()
 {
  return _hCommHandle;
 }
 //获得串口参数 DCB
 DCB *GetState()
 {
  return IsOpen() && ::GetCommState(_hCommHandle, &_DCB) == TRUE ? &_DCB : NULL;
 }
 //设置串口参数 DCB
 bool SetState(DCB *pdcb = NULL)
 {
  return IsOpen() ? ::SetCommState(_hCommHandle, pdcb == NULL ? &_DCB : pdcb) == TRUE : false;
 }
 //设置串口参数:波特率,停止位,等 支持设置字符串 "9600, n, 8, 1"
 bool SetState(char *szSetStr)
 {
  if(IsOpen())
  {
   if(::GetCommState(_hCommHandle, &_DCB) != TRUE)
    return false;
   if(::BuildCommDCB(szSetStr, &_DCB) != TRUE)
    return false;
   return ::SetCommState(_hCommHandle, &_DCB) == TRUE;
  }
  return false;
 }
 //设置串口参数:波特率,停止位,等
 bool SetState(DWORD dwBaudRate, DWORD dwByteSize = 8, DWORD dwParity = NOPARITY, DWORD dwStopBits = ONESTOPBIT)
 {
  if(IsOpen())
  {
   if(::GetCommState(_hCommHandle, &_DCB) != TRUE)
    return false;
   _DCB.BaudRate = dwBaudRate;
   _DCB.ByteSize = (unsigned char)dwByteSize;
   _DCB.Parity   = (unsigned char)dwParity;
   _DCB.StopBits = (unsigned char)dwStopBits;
   return ::SetCommState(_hCommHandle, &_DCB) == TRUE;
  }
  return false;
 }
 //获得超时结构
 LPCOMMTIMEOUTS GetTimeouts(void)
 {
  return IsOpen() && ::GetCommTimeouts(_hCommHandle, &_CO) == TRUE  ? &_CO : NULL;
 }
 //设置超时
 bool SetTimeouts(LPCOMMTIMEOUTS lpCO)
 {
  return IsOpen() ? ::SetCommTimeouts(_hCommHandle, lpCO) == TRUE : false;
 }
 //设置串口的I/O缓冲区大小
 bool SetBufferSize(DWORD dwInputSize, DWORD dwOutputSize)
 {
  return IsOpen() ? ::SetupComm(_hCommHandle, dwInputSize, dwOutputSize) == TRUE : false;
 }
 //关联消息的窗口句柄
 inline void SetWnd(HWND hWnd)
 {
  assert(::IsWindow(hWnd));
  _hNotifyWnd = hWnd;
 }
 //设定发送通知, 接受字符最小值
 inline void SetNotifyNum(DWORD dwNum)
 {
  _dwNotifyNum = dwNum;
 }
 //线程是否运行
 inline bool IsThreadRunning()
 {
  return _hThreadHandle != NULL;
 }
 //获得线程句柄
 inline HANDLE GetThread()
 {
  return _hThreadHandle;
 }
 //设置要监视的事件, 打开前设置有效
 void SetMaskEvent(DWORD dwEvent = DEFAULT_COM_MASK_EVENT)
 {
  _dwMaskEvent = dwEvent;
 }
 //获得读缓冲区的字符数
 int GetInputSize()
 {
  COMSTAT Stat;
  DWORD dwError;
  
  return ::ClearCommError(_hCommHandle, &dwError, &Stat) == TRUE  ? Stat.cbInQue : (DWORD)-1L;
 }
 
 //----------------------------------Operations----------------------------------
 //打开串口 缺省 9600, n, 8, 1
 bool Open(DWORD dwPort)
 {
  return Open(dwPort, 9600);
 }
 //打开串口 缺省 baud_rate, n, 8, 1
 bool Open(DWORD dwPort, DWORD dwBaudRate)
 {
  if(dwPort < 1 || dwPort > 1024)
   return false;
  
  BindCommPort(dwPort);
  
  if(!OpenCommPort())
   return false;
  
  if(!SetupPort())
   return false;
  
  return SetState(dwBaudRate);
 }
 //打开串口, 使用类似"9600, n, 8, 1"的设置字符串设置串口
 bool Open(DWORD dwPort, char *szSetStr)
 {
  if(dwPort < 1 || dwPort > 1024)
   return false;
  
  BindCommPort(dwPort);
  
  if(!OpenCommPort())
   return false;
  
  if(!SetupPort())
   return false;
  
  return SetState(szSetStr);
 }
 //读取串口 dwBufferLength个字符到 Buffer 返回实际读到的字符数  可读任意数据
 DWORD Read(LPVOID Buffer, DWORD dwBufferLength, DWORD dwWaitTime = 10)
 {
  if(!IsOpen())
   return 0;
  
  COMSTAT  Stat;
  DWORD dwError;
  
  if(::ClearCommError(_hCommHandle, &dwError, &Stat) && dwError > 0)
  {
   ::PurgeComm(_hCommHandle, PURGE_RXABORT | PURGE_RXCLEAR);
   return 0;
  }
  
  if(!Stat.cbInQue) // 缓冲区无数据
   return 0;
  
  unsigned long uReadLength = 0;
  
  dwBufferLength = dwBufferLength > Stat.cbInQue ? Stat.cbInQue : dwBufferLength;
  
  if(!::ReadFile(_hCommHandle, Buffer, dwBufferLength, &uReadLength, &_ReadOverlapped))
  {
   if(::GetLastError() == ERROR_IO_PENDING)
   {
    WaitForSingleObject(_ReadOverlapped.hEvent, dwWaitTime); // 结束异步I/O
    if(!::GetOverlappedResult(_hCommHandle, &_ReadOverlapped, &uReadLength, false))
    {
     if(::GetLastError() != ERROR_IO_INCOMPLETE)
      uReadLength = 0;
    }
   }
   else
    uReadLength = 0;
  }
  
  return uReadLength;
 }
 //读取串口 dwBufferLength - 1 个字符到 szBuffer 返回ANSI C 模式字符串指针 适合一般字符通讯
 char * ReadString(char *szBuffer, DWORD dwBufferLength, DWORD dwWaitTime = 20)
 {
  unsigned long uReadLength = Read(szBuffer, dwBufferLength - 1, dwWaitTime);
  szBuffer[uReadLength] = '/0';
  return szBuffer;
 }
 //写串口 可写任意数据 "abcd" or "/x0/x1/x2"
 DWORD Write(LPVOID Buffer, DWORD dwBufferLength)
 {
  if(!IsOpen())
   return 0;
  
  DWORD dwError;
  
  if(::ClearCommError(_hCommHandle, &dwError, NULL) && dwError > 0)
   ::PurgeComm(_hCommHandle, PURGE_TXABORT | PURGE_TXCLEAR);
  
  unsigned long uWriteLength = 0;
  
  if(!::WriteFile(_hCommHandle, Buffer, dwBufferLength, &uWriteLength, &_WriteOverlapped))
   if(::GetLastError() != ERROR_IO_PENDING)
    uWriteLength = 0;
   
   return uWriteLength;
 }
 //写串口 写ANSI C 模式字符串指针
 DWORD Write(const char *szBuffer)
 {
  assert(szBuffer);
  
  return Write((void *)szBuffer, strlen(szBuffer));
 }
 //读串口 同步应用
 DWORD ReadSync(LPVOID Buffer, DWORD dwBufferLength)
 {
  if(!IsOpen())
   return 0;
  
  DWORD dwError;
  if(::ClearCommError(_hCommHandle, &dwError, NULL) && dwError > 0)
  {
   ::PurgeComm(_hCommHandle, PURGE_RXABORT | PURGE_RXCLEAR);
   return 0;
  }

  DWORD uReadLength = 0;
  ::ReadFile(_hCommHandle, Buffer, dwBufferLength, &uReadLength, NULL);
  return uReadLength;
 }
 //写串口 同步应用
 DWORD WriteSync(LPVOID Buffer, DWORD dwBufferLength)
 {
  if(!IsOpen())
   return 0;
  
  DWORD dwError;
  if(::ClearCommError(_hCommHandle, &dwError, NULL) && dwError > 0)
   ::PurgeComm(_hCommHandle, PURGE_TXABORT | PURGE_TXCLEAR);
  
  unsigned long uWriteLength = 0;
  ::WriteFile(_hCommHandle, Buffer, dwBufferLength, &uWriteLength, NULL);
  return uWriteLength;
 }
 //写串口 szBuffer 可以输出格式字符串 包含缓冲区长度
 DWORD Write(char *szBuffer, DWORD dwBufferLength, char * szFormat, ...)
 {
  if(!IsOpen())
   return 0;
  
  va_list va;
  va_start(va, szFormat);
  _vsnprintf(szBuffer, dwBufferLength, szFormat, va);
  va_end(va);
  
  return Write(szBuffer);
 }
 //写串口 szBuffer 可以输出格式字符串 不检查缓冲区长度 小心溢出
 DWORD Write(char *szBuffer, char * szFormat, ...)
 {
  if(!IsOpen())
   return 0;
  
  va_list va;
  va_start(va, szFormat);
  vsprintf(szBuffer, szFormat, va);
  va_end(va);
  
  return Write(szBuffer);
 }
 //关闭串口 同时也关闭关联线程
 virtual void Close()
 {
  if(IsOpen()) 
  {
   PurgeComm(_hCommHandle, PURGE_TXABORT | PURGE_TXCLEAR);
   
   EndThread();
   ::CloseHandle(_hCommHandle);
   
   _hCommHandle = INVALID_HANDLE_VALUE;
  }
 }
 //DTR 电平控制
 bool SetDTR(bool OnOrOff)
 {
  return IsOpen() ? EscapeCommFunction(_hCommHandle, OnOrOff ? SETDTR : CLRDTR) : false;
 }
 //RTS 电平控制
 bool SetRTS(bool OnOrOff)
 {
  return IsOpen() ? EscapeCommFunction(_hCommHandle, OnOrOff ? SETRTS : CLRRTS) : false;
 }
 //
 bool SetBreak(bool OnOrOff)
 {
  return IsOpen() ? EscapeCommFunction(_hCommHandle, OnOrOff ? SETBREAK : CLRBREAK) : false;
 }
 //辅助线程控制 建监视线程
 bool BeginThread()
 {
  if(!IsThreadRunning())
  {
   _fRunFlag = true;
   _hThreadHandle = NULL;
   
   DWORD id;
   
   _hThreadHandle = ::CreateThread(NULL, 0, CommThreadProc, this, 0, &id);
   
   return (_hThreadHandle != NULL);
  }
  return false;
 }
 //暂停监视线程
 inline bool SuspendThread()
 {
  return IsThreadRunning() ? ::SuspendThread(_hThreadHandle) != 0xFFFFFFFF : false;
 }
 //恢复监视线程
 inline bool ResumeThread()
 {
  return IsThreadRunning() ? ::ResumeThread(_hThreadHandle) != 0xFFFFFFFF : false;
 }
 //终止线程
 bool EndThread(DWORD dwWaitTime = 100)
 {
  if(IsThreadRunning())
  {
   _fRunFlag = false;
   ::SetCommMask(_hCommHandle, 0);
   ::SetEvent(_WaitOverlapped.hEvent);
   if(::WaitForSingleObject(_hThreadHandle, dwWaitTime) != WAIT_OBJECT_0)
    if(!::TerminateThread(_hThreadHandle, 0))
     return false;
    
    ::CloseHandle(_hThreadHandle);
    ::ResetEvent(_WaitOverlapped.hEvent);
    
    _hThreadHandle = NULL;
    
    return true;
  }
  return false;
 }
 
protected:
 
 volatile DWORD _dwPort;   //串口号
 volatile HANDLE _hCommHandle;  //串口句柄
 char _szCommStr[20];  //保存COM1类似的字符串
 
 DCB _DCB;  //波特率,停止位,等  
 COMMTIMEOUTS _CO;  //超时结构  
 
 DWORD _dwIOMode;  // 0 同步  默认 FILE_FLAG_OVERLAPPED 重叠I/O 异步
 OVERLAPPED _ReadOverlapped, _WriteOverlapped; // 重叠I/O
 
 volatile HANDLE _hThreadHandle; //辅助线程
 volatile HWND _hNotifyWnd;  // 通知窗口
 volatile DWORD _dwNotifyNum; //接受多少字节(>=_dwNotifyNum)发送通知消息
 volatile DWORD _dwMaskEvent; //监视的事件
 volatile bool _fRunFlag;  //线程运行循环标志
 bool _fAutoBeginThread;  //Open() 自动 BeginThread();
 OVERLAPPED _WaitOverlapped;  //WaitCommEvent use
 
 //初始化
 void Init()
 {
  memset(_szCommStr, 0, 20);
  memset(&_DCB, 0, sizeof(_DCB));
  _DCB.DCBlength = sizeof(_DCB);
  _hCommHandle = INVALID_HANDLE_VALUE;
  
  memset(&_ReadOverlapped, 0, sizeof(_ReadOverlapped));
  memset(&_WriteOverlapped, 0, sizeof(_WriteOverlapped));
  
  _ReadOverlapped.hEvent = ::CreateEvent(NULL, true, false, NULL);
  assert(_ReadOverlapped.hEvent != INVALID_HANDLE_VALUE);
  
  _WriteOverlapped.hEvent = ::CreateEvent(NULL, true, false, NULL);
  assert(_WriteOverlapped.hEvent != INVALID_HANDLE_VALUE);
  
  _hNotifyWnd = NULL;
  _dwNotifyNum = 0;
  _dwMaskEvent = DEFAULT_COM_MASK_EVENT;
  _hThreadHandle = NULL;
  
  memset(&_WaitOverlapped, 0, sizeof(_WaitOverlapped));
  _WaitOverlapped.hEvent = ::CreateEvent(NULL, true, false, NULL);
  assert(_WaitOverlapped.hEvent != INVALID_HANDLE_VALUE);
 }
 //析构
 void UnInit()
 {
  if(_ReadOverlapped.hEvent != INVALID_HANDLE_VALUE)
   CloseHandle(_ReadOverlapped.hEvent);
  
  if(_WriteOverlapped.hEvent != INVALID_HANDLE_VALUE)
   CloseHandle(_WriteOverlapped.hEvent);
  
  if(_WaitOverlapped.hEvent != INVALID_HANDLE_VALUE)
   CloseHandle(_WaitOverlapped.hEvent);
 }
 //绑定串口
 void BindCommPort(DWORD dwPort)
 {
  assert(dwPort >= 1 && dwPort <= 1024);
  
  char p[5];
  
  _dwPort = dwPort;
  strcpy(_szCommStr, "////.//COM");
  ltoa(_dwPort, p, 10);
  strcat(_szCommStr, p);
 }
 //打开串口
 virtual bool OpenCommPort()
 {
  if(IsOpen())
   Close();
  
  _hCommHandle = ::CreateFile(
   _szCommStr,
   GENERIC_READ | GENERIC_WRITE,
   0,
   NULL,
   OPEN_EXISTING,
   FILE_ATTRIBUTE_NORMAL | _dwIOMode,
   NULL
   );
  
  if(_fAutoBeginThread)
  {
   if(IsOpen() && BeginThread())
    return true;
   else
   {
    Close();  //创建线程失败
    return false;
   }
  }
  return IsOpen();
 }
 //设置串口
 virtual bool SetupPort()
 {
  if(!IsOpen())
   return false;
  
  
  if(!::SetupComm(_hCommHandle, 4096, 4096))
   return false;
  
  
  if(!::GetCommTimeouts(_hCommHandle, &_CO))
   return false;
  _CO.ReadIntervalTimeout = 0;
  _CO.ReadTotalTimeoutMultiplier = 1;
  _CO.ReadTotalTimeoutConstant = 1000;
  _CO.WriteTotalTimeoutMultiplier = 1;
  _CO.WriteTotalTimeoutConstant = 1000;
  if(!::SetCommTimeouts(_hCommHandle, &_CO))
   return false;
  
  
  if(!::PurgeComm(_hCommHandle, PURGE_TXABORT | PURGE_RXABORT | PURGE_TXCLEAR | PURGE_RXCLEAR ))
   return false;
  
  return true;
 }
 
 //---------------------------------------threads callback-----------------------------------------------------
 //线程收到消息自动调用, 如窗口句柄有效, 送出消息, 包含串口编号, 均为虚函数可以在基层类中扩展      
 virtual void OnReceive()//EV_RXCHAR
 {
  if(::IsWindow(_hNotifyWnd))
   ::PostMessage(_hNotifyWnd, ON_COM_RECEIVE, WPARAM(_dwPort), LPARAM(0));
 }
 
 virtual void OnDSR()
 {
  if(::IsWindow(_hNotifyWnd))
  {
   DWORD Status;
   if(GetCommModemStatus(_hCommHandle, &Status))
    ::PostMessage(_hNotifyWnd, ON_COM_DSR, WPARAM(_dwPort), LPARAM( (Status & MS_DSR_ON) ? 1 : 0));
  }
 }
 
 virtual void OnCTS()
 {
  if(::IsWindow(_hNotifyWnd))
  {
   DWORD Status;
   if(GetCommModemStatus(_hCommHandle, &Status))
    ::PostMessage(_hNotifyWnd, ON_COM_CTS, WPARAM(_dwPort), LPARAM( (Status & MS_CTS_ON) ? 1 : 0));
  }
 }
 
 virtual void OnBreak()
 {
  if(::IsWindow(_hNotifyWnd))
  {
   ::PostMessage(_hNotifyWnd, ON_COM_BREAK , WPARAM(_dwPort), LPARAM(0));
  }
 }
 
 virtual void OnTXEmpty()
 {
  if(::IsWindow(_hNotifyWnd))
   ::PostMessage(_hNotifyWnd, ON_COM_TXEMPTY, WPARAM(_dwPort), LPARAM(0));
 }
 
 virtual void OnError()
 {
  DWORD dwError;
  ::ClearCommError(_hCommHandle, &dwError, NULL);
  if(::IsWindow(_hNotifyWnd))
   ::PostMessage(_hNotifyWnd, ON_COM_ERROR, WPARAM(_dwPort), LPARAM(dwError));
 }
 
 virtual void OnRing()
 {
  if(::IsWindow(_hNotifyWnd))
   ::PostMessage(_hNotifyWnd, ON_COM_RING, WPARAM(_dwPort), LPARAM(0));
 }
 
 virtual void OnRLSD()
 {
  if(::IsWindow(_hNotifyWnd))
   ::PostMessage(_hNotifyWnd, ON_COM_RLSD, WPARAM(_dwPort), LPARAM(0));
 }
 
 virtual DWORD ThreadFunc()
 {
  if(!::SetCommMask(_hCommHandle, _dwMaskEvent))
  {
   char szBuffer[256];
   _snprintf(szBuffer, 255, "%s(%d) : COM%d Call WINAPI SetCommMask(%x, %x) Fail, thread work invalid! GetLastError() = %d;",
    __FILE__, __LINE__, _dwPort, _hCommHandle, _dwMaskEvent, GetLastError());
   MessageBox(NULL, szBuffer, "Class cnComm", MB_OK);
   return 1;
  }
  
  COMSTAT Stat;
  DWORD dwError;
  
  for(DWORD dwLength, dwMask = 0; _fRunFlag && IsOpen(); dwMask = 0)
  {
   if(!::WaitCommEvent(_hCommHandle, &dwMask, &_WaitOverlapped))
   {
    if(::GetLastError() == ERROR_IO_PENDING)// asynchronous
     ::GetOverlappedResult(_hCommHandle, &_WaitOverlapped, &dwLength, TRUE);
    else
     continue;
   }
   
   if(dwMask == 0)
    continue;
   
   switch(dwMask)
   {
   case EV_RXCHAR :
    ::ClearCommError(_hCommHandle, &dwError, &Stat);
    if(Stat.cbInQue >= _dwNotifyNum)
     OnReceive();
    break;
    
   case EV_TXEMPTY :
    OnTXEmpty();
    break;
    
   case EV_CTS :
    OnCTS();
    break;
    
   case EV_DSR :
    OnDSR();
    break;
    
   case EV_RING :
    OnRing();
    break;
    
   case EV_RLSD :
    OnRLSD();
    break;
    
   case EV_BREAK:
    OnBreak();
    break;
    
   case EV_ERR :
    OnError();
    break;
    
   }//case
        }//for
  return 0;
 }
 
private:  //the function protected
 
 cnComm(const cnComm&);
 cnComm &operator = (const cnComm&);
 
 //base function for thread
 static DWORD WINAPI CommThreadProc(LPVOID lpPara)
 {
  return ( (cnComm *)lpPara )->ThreadFunc();
 }
};

#endif //_CN_COMM_H_

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