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SPComm.pas
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SPComm.pas
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// Communications
//
// David Wann.COMM32.PAS Version 1.0
// This Communications Component is implemented using separate Read and Write
// threads. Messages from the threads are posted to the Comm control which is
// an invisible window. To handle data from the comm port, simply
// attach a handler to 'OnReceiveData'. There is no need to free the memory
// buffer passed to this handler. If TAPI is used to open the comm port, some
// changes to this component are needed ('StartComm' currently opens the comm
// port). The 'OnRequestHangup' event is included to assist this.
//
// David Wann
// Stamina Software
// 28/02/96
//
//
// This component is totally free(copyleft), you can do anything in any
// purpose EXCEPT SELL IT ALONE.
//
//
// Author: Small-Pig Team in Taiwan R.O.C.
// Email : [email protected]
// Date : 1997/5/9
//
// Version 1.01 1996/9/4
// - Add setting Parity, Databits, StopBits
// - Add setting Flowcontrol:Dtr-Dsr, Cts-Rts, Xon-Xoff
// - Add setting Timeout information for read/write
//
// Version 1.02 1996/12/24
// - Add Sender parameter to TReceiveDataEvent
//
// Version 2.0 1997/4/15
// - Support separatly DTR/DSR and RTS/CTS hardware flow control setting
// - Support separatly OutX and InX software flow control setting
// - Log file(for debug) may used by many comms at the same time
// - Add DSR sensitivity property
// - You can set error char. replacement when parity error
// - Let XonLim/XoffLim and XonChar/XoffChar setting by yourself
// - You may change flow-control when comm is still opened
// - Change TComm32 to TComm
// - Add OnReceiveError event handler
// - Add OnReceiveError event handler when overrun, framing error,
// parity error
// - Fix some bug
//
// Version 2.01 1997/4/19
// - Support some property for modem
// - Add OnModemStateChange event hander when RLSD(CD) change state
//
// Version 2.02 1997/4/28
// - Bug fix: When receive XOFF character, the system FAULT!!!!
//
// Version 2.5 1997/5/9
// - Add OnSendDataEmpty event handler when all data in buffer
// are sent(send-buffer become empty) this handler is called.
// You may call send data here.
// - Change the ModemState parameters in OnModemStateChange
// to ModemEvent to indicate what modem event make this call
// - Add RING signal detect. When RLSD changed state or
// RING signal was detected, OnModemStateChange handler is called
// - Change XonLim and XoffLim from 100 to 500
// - Remove TWriteThread.WriteData member
// - PostHangupCall is re-design for debuging function
// - Add a boolean property SendDataEmpty, True when send buffer
// is empty
//
// Version 2.58 2004/10/8
unit SPComm;
interface
uses
Windows, Messages, SysUtils, Classes, Graphics, Controls, Forms, Dialogs;
const
// messages from read/write threads
PWM_GOTCOMMDATA = WM_USER + 1;
PWM_RECEIVEERROR = WM_USER + 2;
PWM_REQUESTHANGUP = WM_USER + 3;
PWM_MODEMSTATECHANGE = WM_USER + 4;
PWM_SENDDATAEMPTY = WM_USER + 5;
type
TParity = (None, Odd, Even, Mark, Space);
TStopBits = (_1, _1_5, _2);
TByteSize = (_5, _6, _7, _8);
TDtrControl = (DtrEnable, DtrDisable, DtrHandshake);
TRtsControl = (RtsEnable, RtsDisable, RtsHandshake, RtsTransmissionAvailable);
ECommsError = class(Exception);
TReceiveDataEvent = procedure(Sender: TObject; Buffer: PAnsiChar;
BufferLength: Word) of object;
TReceiveErrorEvent = procedure(Sender: TObject; EventMask: DWORD) of object;
TModemStateChangeEvent = procedure(Sender: TObject; ModemEvent: DWORD)
of object;
TSendDataEmptyEvent = procedure(Sender: TObject) of object;
const
//
// Modem Event Constant
//
ME_CTS = 1;
ME_DSR = 2;
ME_RING = 4;
ME_RLSD = 8;
type
TReadThread = class(TThread)
protected
procedure Execute; override;
public
hCommFile: THandle;
hCloseEvent: THandle;
hComm32Window: THandle;
// --------------------------------------------------------------------------------
FInBufferSize: Word; // 输入缓冲区大小
FInputLen: Word; // 每次从缓冲区取字节数
// --------------------------------------------------------------------------------
function SetupCommEvent(lpOverlappedCommEvent: POverlapped;
var lpfdwEvtMask: DWORD): Boolean;
function SetupReadEvent(lpOverlappedRead: POverlapped;
lpszInputBuffer: LPSTR; dwSizeofBuffer: DWORD;
var lpnNumberOfBytesRead: DWORD): Boolean;
function HandleCommEvent(lpOverlappedCommEvent: POverlapped;
var lpfdwEvtMask: DWORD; fRetrieveEvent: Boolean): Boolean;
function HandleReadEvent(lpOverlappedRead: POverlapped;
lpszInputBuffer: LPSTR; dwSizeofBuffer: DWORD;
var lpnNumberOfBytesRead: DWORD): Boolean;
function HandleReadData(lpszInputBuffer: LPCSTR;
dwSizeofBuffer: DWORD): Boolean;
function ReceiveData(lpNewString: LPSTR; dwSizeofNewString: DWORD): BOOL;
function ReceiveError(EvtMask: DWORD): BOOL;
function ModemStateChange(ModemEvent: DWORD): BOOL;
procedure PostHangupCall;
end;
TWriteThread = class(TThread)
protected
procedure Execute; override;
function HandleWriteData(lpOverlappedWrite: POverlapped;
pDataToWrite: PAnsiChar; dwNumberOfBytesToWrite: DWORD): Boolean;
public
hCommFile: THandle;
hCloseEvent: THandle;
hComm32Window: THandle;
pFSendDataEmpty: ^Boolean;
procedure PostHangupCall;
end;
TComm = class(TComponent)
private
{ Private declarations }
ReadThread: TReadThread;
WriteThread: TWriteThread;
hCommFile: THandle;
hCloseEvent: THandle;
FHWnd: THandle;
FSendDataEmpty: Boolean; // True if send buffer become empty
// --------------------------------------------------------------------------------
FPortOpen: Boolean; // 追加端口控制字段
FCommPort: BYTE; // 追加端口号字段
FPortOpenError: String; // 追加端口打开错误字段
FOutput: AnsiString; // 追加端口输出字符字段
FInBufferSize: Word; // 输入缓冲区大小
FInputLen: Word; // 每次从缓冲区取字节数
// --------------------------------------------------------------------------------
FCommName: String; // 端口名字段,MSComm为端口号CommPort
FBaudRate: DWORD; // 波特率字段,MSComm在Settings内
FParityCheck: Boolean; // 校验位字段,MSComm在Settings内
FOutx_CtsFlow: Boolean;
FOutx_DsrFlow: Boolean;
FDtrControl: TDtrControl;
FDsrSensitivity: Boolean;
FTxContinueOnXoff: Boolean;
FOutx_XonXoffFlow: Boolean;
FInx_XonXoffFlow: Boolean;
FReplaceWhenParityError: Boolean;
FIgnoreNullChar: Boolean;
FRtsControl: TRtsControl;
FXonLimit: Word;
FXoffLimit: Word;
FByteSize: TByteSize;
FParity: TParity;
FStopBits: TStopBits;
FXonChar: AnsiChar;
FXoffChar: AnsiChar;
FReplacedChar: AnsiChar;
FReadIntervalTimeout: DWORD;
FReadTotalTimeoutMultiplier: DWORD;
FReadTotalTimeoutConstant: DWORD;
FWriteTotalTimeoutMultiplier: DWORD;
FWriteTotalTimeoutConstant: DWORD;
FOnReceiveData: TReceiveDataEvent;
FOnRequestHangup: TNotifyEvent;
FOnReceiveError: TReceiveErrorEvent;
FOnModemStateChange: TModemStateChangeEvent;
FOnSendDataEmpty: TSendDataEmptyEvent;
// --------------------------------------------------------------------------------
procedure SetPortOpen(b: Boolean); // 打开端口
function GetPortOpen: Boolean; // 打开端口
procedure SetCommPort(CommPort: BYTE); // 设置端口号
procedure SetOutput(Buffer: AnsiString);
procedure SetInputLen(StrLen: Word);
procedure SetInBufferSize(StrSize: Word);
// --------------------------------------------------------------------------------
procedure SetBaudRate(Rate: DWORD);
procedure SetParityCheck(b: Boolean);
procedure SetOutx_CtsFlow(b: Boolean);
procedure SetOutx_DsrFlow(b: Boolean);
procedure SetDtrControl(c: TDtrControl);
procedure SetDsrSensitivity(b: Boolean);
procedure SetTxContinueOnXoff(b: Boolean);
procedure SetOutx_XonXoffFlow(b: Boolean);
procedure SetInx_XonXoffFlow(b: Boolean);
procedure SetReplaceWhenParityError(b: Boolean);
procedure SetIgnoreNullChar(b: Boolean);
procedure SetRtsControl(c: TRtsControl);
procedure SetXonLimit(Limit: Word);
procedure SetXoffLimit(Limit: Word);
procedure SetByteSize(Size: TByteSize);
procedure SetParity(p: TParity);
procedure SetStopBits(Bits: TStopBits);
procedure SetXonChar(c: AnsiChar);
procedure SetXoffChar(c: AnsiChar);
procedure SetReplacedChar(c: AnsiChar);
procedure SetReadIntervalTimeout(v: DWORD);
procedure SetReadTotalTimeoutMultiplier(v: DWORD);
procedure SetReadTotalTimeoutConstant(v: DWORD);
procedure SetWriteTotalTimeoutMultiplier(v: DWORD);
procedure SetWriteTotalTimeoutConstant(v: DWORD);
procedure CommWndProc(var msg: TMessage);
procedure _SetCommState;
procedure _SetCommTimeout;
protected
{ Protected declarations }
procedure CloseReadThread;
procedure CloseWriteThread;
procedure ReceiveData(Buffer: PAnsiChar; BufferLength: Word);
procedure ReceiveError(EvtMask: DWORD);
procedure ModemStateChange(ModemEvent: DWORD);
procedure RequestHangup;
procedure _SendDataEmpty;
public
{ Public declarations }
property Handle: THandle read hCommFile;
property SendDataEmpty: Boolean read FSendDataEmpty;
constructor Create(AOwner: TComponent); override;
destructor Destroy; override;
procedure StartComm;
procedure StopComm;
function WriteCommData(pDataToWrite: PAnsiChar;
dwSizeofDataToWrite: Word): Boolean;
function GetModemState: DWORD;
procedure SetDtrRtsControl(DtrControl: TDtrControl;
RtsControl: TRtsControl);
published
{ Published declarations }
// --------------------------------------------------------------------------------
property PortOpen: Boolean read GetPortOpen write SetPortOpen default False;
// 追加端口号属性
property CommPort: BYTE read FCommPort write SetCommPort default 1;
// 追加端口号属性
property PortOpenError: String read FPortOpenError write FPortOpenError;
// 追加只读端口打开错误字段
property Output: AnsiString read FOutput write SetOutput; // 追加发送数据属性
property InputLen: Word read FInputLen write SetInputLen default 1;
property InBufferSize: Word read FInBufferSize write SetInBufferSize
default 2048;
// --------------------------------------------------------------------------------
property CommName: String read FCommName write FCommName;
property BaudRate: DWORD read FBaudRate write SetBaudRate default 9600;
property ParityCheck: Boolean read FParityCheck write SetParityCheck
default False;
property Outx_CtsFlow: Boolean read FOutx_CtsFlow write SetOutx_CtsFlow
default False;
property Outx_DsrFlow: Boolean read FOutx_DsrFlow write SetOutx_DsrFlow
default False;
property DtrControl: TDtrControl read FDtrControl write SetDtrControl
default DtrDisable;
property DsrSensitivity: Boolean read FDsrSensitivity
write SetDsrSensitivity default False;
property TxContinueOnXoff: Boolean read FTxContinueOnXoff
write SetTxContinueOnXoff default False;
property Outx_XonXoffFlow: Boolean read FOutx_XonXoffFlow
write SetOutx_XonXoffFlow default False;
property Inx_XonXoffFlow: Boolean read FInx_XonXoffFlow
write SetInx_XonXoffFlow default False;
property ReplaceWhenParityError: Boolean read FReplaceWhenParityError
write SetReplaceWhenParityError default False;
property IgnoreNullChar: Boolean read FIgnoreNullChar
write SetIgnoreNullChar default False;
property RtsControl: TRtsControl read FRtsControl write SetRtsControl
default RtsDisable;
property XonLimit: Word read FXonLimit write SetXonLimit;
property XoffLimit: Word read FXoffLimit write SetXoffLimit;
property ByteSize: TByteSize read FByteSize write SetByteSize;
// property Parity: TParity read FParity write FParity;
property Parity: TParity read FParity write SetParity;
property StopBits: TStopBits read FStopBits write SetStopBits;
property XonChar: AnsiChar read FXonChar write SetXonChar;
property XoffChar: AnsiChar read FXoffChar write SetXoffChar;
property ReplacedChar: AnsiChar read FReplacedChar write SetReplacedChar;
property ReadIntervalTimeout: DWORD read FReadIntervalTimeout
write SetReadIntervalTimeout;
property ReadTotalTimeoutMultiplier: DWORD read FReadTotalTimeoutMultiplier
write SetReadTotalTimeoutMultiplier;
property ReadTotalTimeoutConstant: DWORD read FReadTotalTimeoutConstant
write SetReadTotalTimeoutConstant;
property WriteTotalTimeoutMultiplier: DWORD
read FWriteTotalTimeoutMultiplier write SetWriteTotalTimeoutMultiplier;
property WriteTotalTimeoutConstant: DWORD read FWriteTotalTimeoutConstant
write SetWriteTotalTimeoutConstant;
property OnReceiveData: TReceiveDataEvent read FOnReceiveData
write FOnReceiveData;
property OnReceiveError: TReceiveErrorEvent read FOnReceiveError
write FOnReceiveError;
property OnModemStateChange: TModemStateChangeEvent read FOnModemStateChange
write FOnModemStateChange;
property OnRequestHangup: TNotifyEvent read FOnRequestHangup
write FOnRequestHangup;
property OnSendDataEmpty: TSendDataEmptyEvent read FOnSendDataEmpty
write FOnSendDataEmpty;
end;
const
// This is the message posted to the WriteThread
// When we have something to write.
PWM_COMMWRITE = WM_USER + 1;
// Default size of the Input Buffer used by this code.
// --------------------------------------------------------------------------------
// 废除,用InBufferSize属性替代,增强灵活性
// INPUTBUFFERSIZE = 2048;
// INPUTBUFFERSIZE = 1;
// --------------------------------------------------------------------------------
RFCOMM = 340;
procedure Register;
implementation
(* **************************************************************************** *)
// TComm PUBLIC METHODS
(* **************************************************************************** *)
constructor TComm.Create(AOwner: TComponent);
begin
inherited Create(AOwner);
ReadThread := nil;
WriteThread := nil;
hCommFile := 0;
hCloseEvent := 0;
FSendDataEmpty := True;
FCommPort := 1; //
FCommName := 'COM1';
FBaudRate := 9600;
FParityCheck := False;
FOutx_CtsFlow := False;
FOutx_DsrFlow := False;
FDtrControl := DtrDisable;
FDsrSensitivity := False;
FTxContinueOnXoff := False;
FOutx_XonXoffFlow := False;
FInx_XonXoffFlow := False;
FReplaceWhenParityError := False;
FIgnoreNullChar := False;
FRtsControl := RtsDisable;
FXonLimit := 500;
FXoffLimit := 500;
FByteSize := _8;
FParity := None;
FStopBits := _1;
FXonChar := chr($11); // Ctrl-Q
FXoffChar := chr($13); // Ctrl-S
FReplacedChar := chr(0);
FReadIntervalTimeout := 100;
FReadTotalTimeoutMultiplier := 0;
FReadTotalTimeoutConstant := 0;
FWriteTotalTimeoutMultiplier := 0;
FWriteTotalTimeoutConstant := 0;
// -----------------------------------------------------------
FInputLen := 1;
FInBufferSize := 2048;
// -----------------------------------------------------------
if not(csDesigning in ComponentState) then
FHWnd := AllocateHWnd(CommWndProc);
end;
destructor TComm.Destroy;
begin
if not(csDesigning in ComponentState) then
DeallocateHWnd(FHWnd);
inherited Destroy;
end;
//
// FUNCTION: StartComm
//
// PURPOSE: Starts communications over the comm port.
//
// PARAMETERS:
// hNewCommFile - This is the COMM File handle to communicate with.
// This handle is obtained from TAPI.
//
// Output:
// Successful: Startup the communications.
// Failure: Raise a exception
//
// COMMENTS:
//
// StartComm makes sure there isn't communication in progress already,
// creates a Comm file, and creates the read and write threads. It
// also configures the hNewCommFile for the appropriate COMM settings.
//
// If StartComm fails for any reason, it's up to the calling application
// to close the Comm file handle.
//
//
procedure TComm.StartComm;
var
hNewCommFile: THandle;
begin
FPortOpenError := '';
FPortOpen := False;
// Are we already doing comm?
if (hCommFile <> 0) then
begin
FPortOpenError := 'This serial port already opened';
// raise ECommsError.Create( FPortOpenError );
Exit;
end;
hNewCommFile := CreateFile(PChar('//./' + FCommName), GENERIC_READ or
GENERIC_WRITE, 0,
{ not shared }
nil, { no security ?? }
OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL or FILE_FLAG_OVERLAPPED,
0 { template } );
if hNewCommFile = INVALID_HANDLE_VALUE then
begin
FPortOpenError := 'Error opening serial port';
// raise ECommsError.Create( FPortOpenError );
Exit;
end;
// Is this a valid comm handle?
// 蓝牙串口可能被识别为Unknown,为了兼容蓝牙串口增加了 FILE_TYPE_UNKNOWN
if ((GetFileType(hNewCommFile) <> FILE_TYPE_CHAR) and
(GetFileType(hNewCommFile) <> FILE_TYPE_UNKNOWN)) then
begin
CloseHandle(hNewCommFile);
FPortOpenError := 'File handle is not a comm handle ';
// raise ECommsError.Create( FPortOpenError );
Exit;
end;
if not SetupComm(hNewCommFile, 4096, 4096) then
begin
CloseHandle(hCommFile);
FPortOpenError := 'Cannot setup comm buffer';
raise ECommsError.Create(FPortOpenError);
end;
// It is ok to continue.
hCommFile := hNewCommFile;
// purge any information in the buffer
PurgeComm(hCommFile, PURGE_TXABORT or PURGE_RXABORT or PURGE_TXCLEAR or
PURGE_RXCLEAR);
FSendDataEmpty := True;
// Setting the time-out value
_SetCommTimeout;
// Querying then setting the comm port configurations.
_SetCommState;
// Create the event that will signal the threads to close.
hCloseEvent := CreateEvent(nil, True, False, nil);
if hCloseEvent = 0 then
begin
CloseHandle(hCommFile);
hCommFile := 0;
FPortOpenError := 'Unable to create event';
// raise ECommsError.Create( FPortOpenError );
Exit;
end;
// Create the Read thread.
try
ReadThread := TReadThread.Create(True { suspended } );
except
ReadThread := nil;
CloseHandle(hCloseEvent);
CloseHandle(hCommFile);
hCommFile := 0;
FPortOpenError := 'Unable to create read thread';
// raise ECommsError.Create( FPortOpenError );
Exit;
end;
ReadThread.hCommFile := hCommFile;
ReadThread.hCloseEvent := hCloseEvent;
ReadThread.hComm32Window := FHWnd;
// ..........................................
ReadThread.FInputLen := FInputLen;
ReadThread.FInBufferSize := FInBufferSize;
// ..........................................
// Comm threads should have a higher base priority than the UI thread.
// If they don't, then any temporary priority boost the UI thread gains
// could cause the COMM threads to loose data.
ReadThread.Priority := tpHighest;
// Create the Write thread.
try
WriteThread := TWriteThread.Create(True { suspended } );
except
CloseReadThread;
WriteThread := nil;
CloseHandle(hCloseEvent);
CloseHandle(hCommFile);
hCommFile := 0;
FPortOpenError := 'Unable to create write thread';
// raise ECommsError.Create( FPortOpenError );
Exit;
end;
WriteThread.hCommFile := hCommFile;
WriteThread.hCloseEvent := hCloseEvent;
WriteThread.hComm32Window := FHWnd;
WriteThread.pFSendDataEmpty := @FSendDataEmpty;
WriteThread.Priority := tpHigher;
ReadThread.Start;
WriteThread.Start;
// Everything was created ok. Ready to go!
end; { TComm.StartComm }
//
// FUNCTION: StopComm
//
// PURPOSE: Stop and end all communication threads.
//
// PARAMETERS:
// none
//
// RETURN VALUE:
// none
//
// COMMENTS:
//
// Tries to gracefully signal all communication threads to
// close, but terminates them if it has to.
//
//
procedure TComm.StopComm;
begin
// No need to continue if we're not communicating.
FPortOpenError := '';
FPortOpen := False;
if hCommFile = 0 then
Exit;
// Close the threads.
CloseReadThread;
CloseWriteThread;
// Not needed anymore.
CloseHandle(hCloseEvent);
// Now close the comm port handle.
CloseHandle(hCommFile);
hCommFile := 0
end; { TComm.StopComm }
//
// FUNCTION: WriteCommData(PAnsiChar, Word)
//
// PURPOSE: Send a String to the Write Thread to be written to the Comm.
//
// PARAMETERS:
// pszStringToWrite - String to Write to Comm port.
// nSizeofStringToWrite - length of pszStringToWrite.
//
// RETURN VALUE:
// Returns TRUE if the PostMessage is successful.
// Returns FALSE if PostMessage fails or Write thread doesn't exist.
//
// COMMENTS:
//
// This is a wrapper function so that other modules don't care that
// Comm writing is done via PostMessage to a Write thread. Note that
// using PostMessage speeds up response to the UI (very little delay to
// 'write' a string) and provides a natural buffer if the comm is slow
// (ie: the messages just pile up in the message queue).
//
// Note that it is assumed that pszStringToWrite is allocated with
// LocalAlloc, and that if WriteCommData succeeds, its the job of the
// Write thread to LocalFree it. If WriteCommData fails, then its
// the job of the calling function to free the string.
//
//
function TComm.WriteCommData(pDataToWrite: PAnsiChar;
dwSizeofDataToWrite: Word): Boolean;
var
Buffer: Pointer;
begin
if (WriteThread <> nil) and (dwSizeofDataToWrite <> 0) then
begin
Buffer := Pointer(LocalAlloc(LPTR, dwSizeofDataToWrite + 1));
Move(pDataToWrite^, Buffer^, dwSizeofDataToWrite);
if PostThreadMessage(WriteThread.ThreadID, PWM_COMMWRITE,
WPARAM(dwSizeofDataToWrite), LPARAM(Buffer)) then
begin
FSendDataEmpty := False;
Result := True;
Exit
end
end;
Result := False
end; { TComm.WriteCommData }
procedure TComm.SetOutput(Buffer: AnsiString);
begin
FOutput := Buffer;
WriteCommData(PAnsiChar(Buffer), Length(Buffer));
end;
procedure TComm.SetInputLen(StrLen: Word);
begin
if StrLen = 0 then
FInputLen := FInBufferSize
else if StrLen <= FInBufferSize then
FInputLen := StrLen;
// ReadThread.FInputLen := FInputLen;
end;
procedure TComm.SetInBufferSize(StrSize: Word);
begin
if StrSize = 0 then
FInBufferSize := 1
else
FInBufferSize := StrSize;
// ReadThread.FInBufferSize := FInBufferSize;
end;
//
// FUNCTION: GetModemState
//
// PURPOSE: Read the state of modem input pin right now
//
// PARAMETERS:
// none
//
// RETURN VALUE:
//
// A DWORD variable containing one or more of following codes:
//
// Value Meaning
// ---------- -----------------------------------------------------------
// MS_CTS_ON The CTS (clear-to-send) signal is on.
// MS_DSR_ON The DSR (data-set-ready) signal is on.
// MS_RING_ON The ring indicator signal is on.
// MS_RLSD_ON The RLSD (receive-line-signal-detect) signal is on.
//
// If this comm have bad handle or not yet opened, the return value is 0
//
// COMMENTS:
//
// This member function calls GetCommModemStatus and return its value.
// Before calling this member function, you must have a successful
// 'StartOpen' call.
//
//
function TComm.GetModemState: DWORD;
var
dwModemState: DWORD;
begin
if not GetCommModemStatus(hCommFile, dwModemState) then
Result := 0
else
Result := dwModemState
end;
(* **************************************************************************** *)
// TComm PROTECTED METHODS
(* **************************************************************************** *)
//
// FUNCTION: CloseReadThread
//
// PURPOSE: Close the Read Thread.
//
// PARAMETERS:
// none
//
// RETURN VALUE:
// none
//
// COMMENTS:
//
// Closes the Read thread by signaling the CloseEvent.
// Purges any outstanding reads on the comm port.
//
// Note that terminating a thread leaks memory.
// Besides the normal leak incurred, there is an event object
// that doesn't get closed. This isn't worth worrying about
// since it shouldn't happen anyway.
//
//
procedure TComm.CloseReadThread;
begin
// If it exists...
if ReadThread <> nil then
begin
// Signal the event to close the worker threads.
SetEvent(hCloseEvent);
// Purge all outstanding reads
PurgeComm(hCommFile, PURGE_RXABORT + PURGE_RXCLEAR);
// Wait 10 seconds for it to exit. Shouldn't happen.
if (WaitForSingleObject(ReadThread.Handle, 10000) = WAIT_TIMEOUT) then
ReadThread.Terminate;
ReadThread.Free;
ReadThread := nil
end
end; { TComm.CloseReadThread }
//
// FUNCTION: CloseWriteThread
//
// PURPOSE: Closes the Write Thread.
//
// PARAMETERS:
// none
//
// RETURN VALUE:
// none
//
// COMMENTS:
//
// Closes the write thread by signaling the CloseEvent.
// Purges any outstanding writes on the comm port.
//
// Note that terminating a thread leaks memory.
// Besides the normal leak incurred, there is an event object
// that doesn't get closed. This isn't worth worrying about
// since it shouldn't happen anyway.
//
//
procedure TComm.CloseWriteThread;
begin
// If it exists...
if WriteThread <> nil then
begin
// Signal the event to close the worker threads.
SetEvent(hCloseEvent);
// Purge all outstanding writes.
PurgeComm(hCommFile, PURGE_TXABORT + PURGE_TXCLEAR);
FSendDataEmpty := True;
// Wait 10 seconds for it to exit. Shouldn't happen.
if WaitForSingleObject(WriteThread.Handle, 10000) = WAIT_TIMEOUT then
WriteThread.Terminate;
WriteThread.Free;
WriteThread := nil
end
end; { TComm.CloseWriteThread }
procedure TComm.ReceiveData(Buffer: PAnsiChar; BufferLength: Word);
begin
if Assigned(FOnReceiveData) then // 如果添加了用户串口事件处理则执行
FOnReceiveData(self, Buffer, BufferLength) // 用户串口事件处理
end;
procedure TComm.ReceiveError(EvtMask: DWORD);
begin
if Assigned(FOnReceiveError) then
FOnReceiveError(self, EvtMask)
end;
procedure TComm.ModemStateChange(ModemEvent: DWORD);
begin
if Assigned(FOnModemStateChange) then
FOnModemStateChange(self, ModemEvent)
end;
procedure TComm.RequestHangup;
begin
if Assigned(FOnRequestHangup) then
FOnRequestHangup(self)
end;
procedure TComm._SendDataEmpty;
begin
if Assigned(FOnSendDataEmpty) then
FOnSendDataEmpty(self)
end;
(* **************************************************************************** *)
// TComm PRIVATE METHODS
(* **************************************************************************** *)
procedure TComm.CommWndProc(var msg: TMessage);
begin
case msg.msg of
PWM_GOTCOMMDATA:
begin
ReceiveData(PAnsiChar(msg.LPARAM), msg.WPARAM);
LocalFree(msg.LPARAM)
end;
PWM_RECEIVEERROR:
ReceiveError(msg.LPARAM);
PWM_MODEMSTATECHANGE:
ModemStateChange(msg.LPARAM);
PWM_REQUESTHANGUP:
RequestHangup;
PWM_SENDDATAEMPTY:
_SendDataEmpty
end
end;
procedure TComm._SetCommState;
var
dcb: Tdcb;
commprop: TCommProp;
fdwEvtMask: DWORD;
begin
// Configure the comm settings.
// NOTE: Most Comm settings can be set through TAPI, but this means that
// the CommFile will have to be passed to this component.
GetCommState(hCommFile, dcb);
GetCommProperties(hCommFile, commprop);
GetCommMask(hCommFile, fdwEvtMask);
// fAbortOnError is the only DCB dependancy in TapiComm.
// Can't guarentee that the SP will set this to what we expect.
{ dcb.fAbortOnError := False; NOT VALID }
dcb.BaudRate := FBaudRate;
dcb.Flags := 1; // Enable fBinary
if FParityCheck then
dcb.Flags := dcb.Flags or 2; // Enable parity check
// setup hardware flow control
if FOutx_CtsFlow then
dcb.Flags := dcb.Flags or 4;
if FOutx_DsrFlow then
dcb.Flags := dcb.Flags or 8;
if FDtrControl = DtrEnable then
dcb.Flags := dcb.Flags or $10
else if FDtrControl = DtrHandshake then
dcb.Flags := dcb.Flags or $20;
if FDsrSensitivity then
dcb.Flags := dcb.Flags or $40;
if FTxContinueOnXoff then
dcb.Flags := dcb.Flags or $80;
if FOutx_XonXoffFlow then
dcb.Flags := dcb.Flags or $100;
if FInx_XonXoffFlow then
dcb.Flags := dcb.Flags or $200;
if FReplaceWhenParityError then
dcb.Flags := dcb.Flags or $400;
if FIgnoreNullChar then
dcb.Flags := dcb.Flags or $800;
if FRtsControl = RtsEnable then
dcb.Flags := dcb.Flags or $1000
else if FRtsControl = RtsHandshake then
dcb.Flags := dcb.Flags or $2000
else if FRtsControl = RtsTransmissionAvailable then
dcb.Flags := dcb.Flags or $3000;
dcb.XonLim := FXonLimit;
dcb.XoffLim := FXoffLimit;
dcb.ByteSize := Ord(FByteSize) + 5;
dcb.Parity := Ord(FParity);
dcb.StopBits := Ord(FStopBits);
dcb.XonChar := FXonChar;
dcb.XoffChar := FXoffChar;
dcb.ErrorChar := FReplacedChar;
SetCommState(hCommFile, dcb)
end;
procedure TComm._SetCommTimeout;
var
commtimeouts: TCommTimeouts;
begin
GetCommTimeouts(hCommFile, commtimeouts);
// The CommTimeout numbers will very likely change if you are
// coding to meet some kind of specification where
// you need to reply within a certain amount of time after
// recieving the last byte. However, If 1/4th of a second
// goes by between recieving two characters, its a good
// indication that the transmitting end has finished, even
// assuming a 1200 baud modem.
commtimeouts.ReadIntervalTimeout := FReadIntervalTimeout;
commtimeouts.ReadTotalTimeoutMultiplier := FReadTotalTimeoutMultiplier;
commtimeouts.ReadTotalTimeoutConstant := FReadTotalTimeoutConstant;
commtimeouts.WriteTotalTimeoutMultiplier := FWriteTotalTimeoutMultiplier;
commtimeouts.WriteTotalTimeoutConstant := FWriteTotalTimeoutConstant;
SetCommTimeouts(hCommFile, commtimeouts);
end;
procedure TComm.SetPortOpen(b: Boolean); // 打开端口
begin
if b = True then
StartComm // 打开端口
else
StopComm; // 关闭端口
end;
function TComm.GetPortOpen: Boolean; // 打开端口
begin
if hCommFile = 0 then
begin
FPortOpen := False;
Result := False;
end
else
begin
FPortOpen := True;
Result := True;
end;
end;
procedure TComm.SetCommPort(CommPort: BYTE);
begin
if (CommPort <> 0) and (CommPort <> FCommPort) then
begin
FCommPort := CommPort;
FCommName := 'COM' + inttostr(CommPort);
end;
end;
procedure TComm.SetBaudRate(Rate: DWORD);
begin
if Rate = FBaudRate then
Exit;
FBaudRate := Rate;
if hCommFile <> 0 then
_SetCommState
end;
procedure TComm.SetParityCheck(b: Boolean);
begin
if b = FParityCheck then
Exit;
FParityCheck := b;
if hCommFile <> 0 then
_SetCommState
end;
procedure TComm.SetOutx_CtsFlow(b: Boolean);
begin
if b = FOutx_CtsFlow then