{ $Id$ } { ---------------------------------------------- CMDLineDebugger.pp - Debugger class for commandline debuggers ---------------------------------------------- @created(Wed Feb 28st WET 2001) @lastmod($Date$) @author(Marc Weustink ) This unit contains the Commandline debugger class for external commandline debuggers. *************************************************************************** * * * This source is free software; you can redistribute it and/or modify * * it under the terms of the GNU General Public License as published by * * the Free Software Foundation; either version 2 of the License, or * * (at your option) any later version. * * * * This code is distributed in the hope that it will be useful, but * * WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * * General Public License for more details. * * * * A copy of the GNU General Public License is available on the World * * Wide Web at . You can also * * obtain it by writing to the Free Software Foundation, * * Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. * * * *************************************************************************** } unit CmdLineDebugger; {$mode objfpc} {$H+} interface uses Classes, Types, Process, FileUtil, Debugger, LCLProc, Forms, DebugUtils; type { TCmdLineDebugger } TCmdLineDebugger = class(TDebugger) private FDbgProcess: TProcess; // The process used to call the debugger FLineEnds: TStringDynArray; // List of strings considered as lineends FOutputBuf: String; FReading: Boolean; // Set if we are in the ReadLine loop FFlushAfterRead: Boolean;// Set if we should flush after finished reading FPeekOffset: Integer; // Count the number of lines we have peeked FReadLineTimedOut: Boolean; function WaitForHandles(const AHandles: array of Integer; var ATimeOut: Integer): Integer; overload; function WaitForHandles(const AHandles: array of Integer): Integer; overload; protected procedure DoReadError; virtual; procedure DoWriteError; virtual; function GetDebugProcessRunning: Boolean; virtual; procedure ProcessWhileWaitForHandles; virtual; function CreateDebugProcess(const AOptions: String): Boolean; virtual; procedure Flush; // Flushes output buffer function GetWaiting: Boolean; override; function ReadLine(ATimeOut: Integer = -1): String; overload; function ReadLine(const APeek: Boolean; ATimeOut: Integer = -1): String; virtual; overload; procedure SendCmdLn(const ACommand: String); virtual; overload; procedure SendCmdLn(const ACommand: String; Values: array of const); overload; procedure SetLineEnds(ALineEnds: TStringDynArray); property ReadLineTimedOut: Boolean read FReadLineTimedOut; public constructor Create(const AExternalDebugger: String); override; destructor Destroy; override; procedure TestCmd(const ACommand: String); virtual;// For internal debugging purposes public property DebugProcess: TProcess read FDbgProcess; property DebugProcessRunning: Boolean read GetDebugProcessRunning; end; implementation ////////////////////////////////////////////////// // Needs to go to proper include // Platform dependent ////////////////////////////////////////////////// uses LCLIntf, {$IFdef MSWindows} Windows, {$ENDIF} {$IFDEF UNIX} Unix,BaseUnix, {$ENDIF} SysUtils; {------------------------------------------------------------------------------ Function: WaitForHandles Params: AHandles: A set of handles to wait for (max 32) TimeOut: Max Time in milli-secs => set to 0 if timeout occured Returns: BitArray of handles set, 0 when an error occoured ------------------------------------------------------------------------------} function TCmdLineDebugger.WaitForHandles(const AHandles: array of Integer; var ATimeOut: Integer): Integer; {$IFDEF UNIX} var n, R, Max, Count: Integer; TimeOut: Integer; FDSWait, FDS: TFDSet; Step: Integer; t, t2, t3: DWord; begin Result := 0; Max := 0; Count := High(AHandles); if Count < 0 then Exit; if Count > 31 then Count := 31; // zero the whole bit set of handles FpFD_ZERO(FDS); // set bits for all waiting handles for n := 0 to Count do begin if Max < AHandles[n] then Max := AHandles[n]; if AHandles[n] <> 0 then FpFD_Set(AHandles[n], FDS); end; if Max=0 then begin // no valid handle, so no change possible DebugLn('WaitForHandles: Error: no handles'); exit; end; if ATimeOut > 0 then t := GetTickCount; // wait for all handles Step:=0; repeat FDSWait := FDS; TimeOut := 10; // Select: // R = -1 on error, 0 on timeout, >0 on success and is number of handles // FDSWait is changed, and indicates what descriptors have changed R := FpSelect(Max + 1, @FDSWait, nil, nil, TimeOut); if (ATimeOut > 0) then begin t2 := GetTickCount; if t2 < t then t3 := t2 + (High(t) - t) else t3 := t2 - t; if (t3 >= ATimeOut) then begin ATimeOut := 0; break; end else begin ATimeOut := ATimeOut - t3; t := t2; end; end; ProcessWhileWaitForHandles; inc(Step); if Step=50 then begin Step:=0; Application.Idle(false); end; try Application.ProcessMessages; except Application.HandleException(Application); end; if Application.Terminated then Break; until R <> 0; // set bits for all changed handles if R > 0 then begin for n := 0 to Count do if (AHandles[n] <> 0) and (FpFD_ISSET(AHandles[n],FDSWait)=1) then begin Result := Result or 1 shl n; Dec(R); if R=0 then Break; end; end; end; {$ELSE linux} {$IFdef MSWindows} var PipeHandle: Integer; TotalBytesAvailable: dword; R: LongBool; n: integer; Step: Integer; t, t2, t3: DWord; begin Result := 0; Step:=0; if ATimeOut > 0 then t := GetTickCount; while Result=0 do begin for n:= 0 to High(AHandles) do begin PipeHandle := AHandles[n]; R := Windows.PeekNamedPipe(PipeHandle, nil, 0, nil, @TotalBytesAvailable, nil); if not R then begin // PeekNamedPipe failed DebugLn('PeekNamedPipe failed, GetLastError is ', IntToStr(GetLastError)); Exit; end; if R then begin // PeekNamedPipe successfull if (TotalBytesAvailable>0) then begin Result := 1 shl n; Break; end; end; end; if (ATimeOut > 0) then begin t2 := GetTickCount; if t2 < t then t3 := t2 + (High(t) - t) else t3 := t2 - t; if (t3 >= ATimeOut) then begin ATimeOut := 0; break; end else begin ATimeOut := ATimeOut - t3; t := t2; end; end; ProcessWhileWaitForHandles; // process messages inc(Step); if Step=20 then begin Step:=0; Application.Idle(false); end; try Application.ProcessMessages; except Application.HandleException(Application); end; if Application.Terminated then Break; // sleep a bit Sleep(10); end; end; {$ELSE win32} begin DebugLn('ToDo: implement WaitForHandles for this OS'); Result := 0; end; {$ENDIF win32} {$ENDIF linux} function TCmdLineDebugger.WaitForHandles(const AHandles: array of Integer): Integer; overload; var t: Integer; begin t := -1; Result := WaitForHandles(AHandles, t); end; procedure TCmdLineDebugger.DoReadError; begin SetState(dsError); end; procedure TCmdLineDebugger.DoWriteError; begin SetState(dsError); end; procedure TCmdLineDebugger.ProcessWhileWaitForHandles; begin // nothing end; ////////////////////////////////////////////////// { TCmdLineDebugger } constructor TCmdLineDebugger.Create(const AExternalDebugger: String); begin FDbgProcess := nil; SetLength(FLineEnds, 1); FLineEnds[0] := LineEnding; FReading := False; FFlushAfterRead := False; FPeekOffset := 0; inherited; end; function TCmdLineDebugger.CreateDebugProcess(const AOptions: String): Boolean; begin if FDbgProcess = nil then begin FDbgProcess := TProcess.Create(nil); FDbgProcess.CommandLine := UTF8ToSys(ExternalDebugger + ' ' + AOptions); // TODO: under win9x and winMe should be created with console, // otherwise no break can be sent. FDbgProcess.Options:= [poUsePipes, poNoConsole, poStdErrToOutPut, poNewProcessGroup]; FDbgProcess.ShowWindow := swoNone; AssignUTF8ListToAnsi(DebuggerEnvironment,FDbgProcess.Environment); end; if not FDbgProcess.Running then begin FDbgProcess.Execute; DebugLn('[TCmdLineDebugger] Debug PID: ', IntToStr(FDbgProcess.Handle)); end; Result := FDbgProcess.Running; end; destructor TCmdLineDebugger.Destroy; begin if (FDbgProcess <> nil) and (FDbgProcess.Running) then FDbgProcess.Terminate(0); //TODO: set state ? inherited; try FreeAndNil(FDbgProcess); except on E: Exception do DebugLn('Exeption while freeing debugger: ', E.Message); end; end; procedure TCmdLineDebugger.Flush; begin if FReading then FFlushAfterRead := True else FOutputBuf := ''; end; function TCmdLineDebugger.GetDebugProcessRunning: Boolean; begin Result := (FDbgProcess <> nil) and FDbgProcess.Running; end; function TCmdLineDebugger.GetWaiting: Boolean; begin Result := FReading; end; function TCmdLineDebugger.ReadLine(ATimeOut: Integer = -1): String; begin Result := ReadLine(False, ATimeOut); end; function TCmdLineDebugger.ReadLine(const APeek: Boolean; ATimeOut: Integer = -1): String; function ReadData(const AStream: TStream; var ABuffer: String): Integer; var S: String; begin SetLength(S, 1024); Result := AStream.Read(S[1], 1024); if Result > 0 then begin SetLength(S, Result); ABuffer := ABuffer + S; end; end; var WaitSet: Integer; LineEndMatch: String; n, Idx, MinIdx, PeekCount: Integer; begin // WriteLN('[TCmdLineDebugger.GetOutput] Enter'); // TODO: get extra handles to wait for // TODO: Fix multiple peeks Result := ''; FReadLineTimedOut := False; if not APeek then FPeekOffset := 0; FReading := True; PeekCount := 0; repeat if FOutputBuf <> '' then begin MinIdx := MaxInt; for n := Low(FLineEnds) to High(FLineEnds) do begin idx := Pos(FLineEnds[n], FOutputBuf); if (idx > 0) and (idx < MinIdx) then begin MinIdx := idx; LineEndMatch := FLineEnds[n]; end; end; if MinIdx < MaxInt then begin Dec(MinIdx); Result := Copy(FOutputBuf, 1, MinIdx); if APeek then begin if PeekCount = FPeekOffset then Inc(FPeekOffset) else begin Inc(PeekCount); Continue; end; end else Delete(FOutputBuf, 1, MinIdx + Length(LineEndMatch)); DoDbgOutput(Result); Break; end; end; if FReadLineTimedOut then break; WaitSet := WaitForHandles([FDbgProcess.Output.Handle], ATimeOut); if (ATimeOut = 0) then FReadLineTimedOut := True; if (WaitSet = 0) and not FReadLineTimedOut then begin SmartWriteln('[TCmdLineDebugger.Getoutput] Error waiting '); DoReadError; Break; end; if ((WaitSet and 1) <> 0) and (FDbgProcess <> nil) and (ReadData(FDbgProcess.Output, FOutputBuf) > 0) then Continue; // start lineend search (* if ((WaitSet and 2) <> 0) and (FTargetProcess <> nil) then begin Count := ReadData(FTargetProcess.Output, FTargetOutputBuf); if Count > 0 then while True do begin Line := StripLN(GetLine(FTargetOutputBuf)); if Line = '' then Break; DoOutput(Line); end; end; *) {$IFDEF VerboseIDEToDo}{$message warning condition should also check end-of-file reached for process output stream}{$ENDIF} until not DebugProcessRunning and (Length(FOutputBuf) = 0); FReading := False; if FFlushAfterRead then FOutputBuf := ''; FFlushAfterRead := False; //writeln('TCmdLineDebugger.ReadLine returns ', result); {$IFDEF DBG_VERBOSE} {$IFnDEF DBG_VERBOSE_FULL_DATA} if length(Result) < 300 then {$ENDIF} debugln('<< TCmdLineDebugger.ReadLn "',Result,'"') {$IFnDEF DBG_VERBOSE_FULL_DATA} else debugln(['<< TCmdLineDebugger.ReadLn "',copy(Result, 1, 200), '" ..(',length(Result)-250,').. "',copy(Result, length(Result)-99, 100),'"']) {$ENDIF} ; {$ENDIF} end; procedure TCmdLineDebugger.SendCmdLn(const ACommand: String); overload; var LE: string[2]; begin //writeln('TCmdLineDebugger.SendCmdLn "',ACommand,'"'); {$IFDEF DBG_VERBOSE} debugln('>> TCmdLineDebugger.SendCmdLn "',ACommand,'"'); {$ENDIF} if DebugProcessRunning then begin DoDbgOutput('<' + ACommand + '>'); if ACommand <> '' then FDbgProcess.Input.Write(ACommand[1], Length(ACommand)); // store LineEnding in local variable, so the same statement can be used // for windows and *nix (1 or 2 character line ending) LE := LineEnding; FDbgProcess.Input.Write(LE[1], Length(LE)); end else begin DebugLn('[TCmdLineDebugger.SendCmdLn] Unable to send <', ACommand, '>. No process running.'); DoWriteError; end; end; procedure TCmdLineDebugger.SendCmdLn(const ACommand: String; Values: array of const); begin SendCmdLn(Format(ACommand, Values)); end; procedure TCmdLineDebugger.SetLineEnds(ALineEnds: TStringDynArray); begin if Length(ALineEnds) = 0 then begin SetLength(FLineEnds, 1); FLineEnds[0] := LineEnding; end else FLineEnds := ALineEnds; end; procedure TCmdLineDebugger.TestCmd(const ACommand: String); begin SendCmdLn(ACommand); end; initialization end.