You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
tdevelop/languages/cpp/debugger/gdbcontroller.cpp

1861 lines
60 KiB

// *************************************************************************
// gdbcontroller.cpp - description
// -------------------
// begin : Sun Aug 8 1999
// copyright : (C) 1999 by John Birch
// email : jbb@tdevelop.org
// **************************************************************************
//
// **************************************************************************
// * *
// * This program 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. *
// * *
// **************************************************************************
#include "gdbcontroller.h"
#include "breakpoint.h"
#include "gdbcommand.h"
#include "stty.h"
#include "domutil.h"
#include "settings.h"
#include "mi/miparser.h"
#include <tdeapplication.h>
#include <tdeconfig.h>
#include <kdebug.h>
#include <tdeglobal.h>
#include <tdelocale.h>
#include <tdemessagebox.h>
#include <kprocess.h>
#include <twin.h>
#include <tqdatetime.h>
#include <tqfileinfo.h>
#include <tqregexp.h>
#include <tqstring.h>
#include <tqdir.h>
#include <tqvaluevector.h>
#include <tqeventloop.h>
#include <iostream>
#include <ctype.h>
#include <stdlib.h>
#include <assert.h>
#include <typeinfo>
using namespace std;
// **************************************************************************
//
// Does all the communication between gdb and the tdevelop's debugger code.
// Significatant classes being used here are
//
// GDBParser - parses the "variable" data using the vartree and varitems
// VarTree - where the variable data will end up
// FrameStack - tracks the program frames and allows the user to switch between
// and therefore view the calling funtions and their data
// Breakpoint - Where and what to do with breakpoints.
// STTY - the tty that the _application_ will run on.
//
// Significant variables
// state_ - be very careful setting this. The controller is totally
// dependent on this reflecting the correct state. For instance,
// if the app is busy but we don't think so, then we lose control
// of the app. The only way to get out of these situations is to
// delete (stop) the controller.
// currentFrame_
// - Holds the frame number where and locals/variable information will
// go to
//
// Certain commands need to be "wrapped", so that the output gdb produces is
// of the form "\032data_id gdb output \032data_id"
// Then a very simple parse can extract this gdb output and hand it off
// to its' respective parser.
// To do this we set the prompt to be \032data_id before the command and then
// reset to \032i to indicate the "idle".
//
// Note that the following does not work because in certain situations
// gdb can get an error in performing the command and therefore will not
// output the final echo. Hence the data will be thrown away.
// (certain "info locals" will generate this error.
//
// queueCmd(new GDBCommand(TQString().sprintf("define printlocal\n"
// "echo \32%c\ninfo locals\necho \32%c\n"
// "end",
// LOCALS, LOCALS)));
// (although replacing echo with "set prompt" appropriately could work Hmmmm.)
//
// Shared libraries and breakpoints
// ================================
// Shared libraries and breakpoints have a problem that has a reasonable solution.
// The problem is that gdb will not accept breakpoints in source that is in a
// shared library that has _not_ _yet_ been opened but will be opened via a
// dlopen.
//
// The solution is to get gdb to tell us when a shared library has been opened.
// This means that when the user sets a breakpoint, we flag this breakpoint as
// pending, try to set the breakpoint and if gdb says it succeeded then flag it
// as active. If gdb is not successful then we leave the breakpoint as pending.
//
// This is known as "lazy breakpoints"
//
// If the user has selected a file that is really outside the program and tried to
// set a breakpoint then this breakpoint will always be pending. I can't do
// anything about that, because it _might_ be in a shared library. If not they
// are either fools or just misguided...
//
// Now that the breakpoint is pending, we need gdb to tell us when a shared
// library has been loaded. We use "set stop-on 1". This breaks on _any_
// library event, and we just try to set the pending breakpoints. Once we're
// done, we then "continue"
//
// Now here's the problem with all this. If the user "step"s over code that
// contains a library dlopen then it'll just keep running, because we receive a
// break and hence end up doing a continue. In this situation, I do _not_
// do a continue but leave it stopped with the status line reflecting the
// stopped state. The frame stack is in the dl routine that caused the stop.
//
// There isn't any way around this, but I could allievate the problem somewhat
// by only doing a "set stop-on 1" when we have pending breakpoints.
//
// **************************************************************************
namespace GDBDebugger
{
// This is here so we can check for startup /shutdown problems
int debug_controllerExists = false;
GDBController::GDBController(TQDomDocument &projectDom)
: DbgController(),
currentFrame_(0),
viewedThread_(-1),
holdingZone_(),
currentCmd_(0),
tty_(0),
badCore_(TQString()),
state_(s_dbgNotStarted|s_appNotStarted),
programHasExited_(false),
dom(projectDom),
config_breakOnLoadingLibrary_(true),
config_forceBPSet_(true),
config_displayStaticMembers_(false),
config_asmDemangle_(true),
config_dbgTerminal_(false),
config_gdbPath_(),
config_outputRadix_(10),
state_reload_needed(false),
stateReloadInProgress_(false)
{
configure();
cmdList_.setAutoDelete(true);
Q_ASSERT(! debug_controllerExists);
debug_controllerExists = true;
}
// **************************************************************************
// Deleting the controller involves shutting down gdb nicely.
// When were attached to a process, we must first detach so that the process
// can continue running as it was before being attached. gdb is quite slow to
// detach from a process, so we must process events within here to get a "clean"
// shutdown.
GDBController::~GDBController()
{
debug_controllerExists = false;
}
// **************************************************************************
void GDBController::configure()
{
// A a configure.gdb script will prevent these from uncontrolled growth...
config_configGdbScript_ = DomUtil::readEntry(dom, "/kdevdebugger/general/configGdbScript").latin1();
config_runShellScript_ = DomUtil::readEntry(dom, "/kdevdebugger/general/runShellScript").latin1();
config_runGdbScript_ = DomUtil::readEntry(dom, "/kdevdebugger/general/runGdbScript").latin1();
// add macros for reading TQStrings? or in configGdbScript?
config_forceBPSet_ = DomUtil::readBoolEntry(dom, "/kdevdebugger/general/allowforcedbpset", true);
config_dbgTerminal_ = DomUtil::readBoolEntry(dom, "/kdevdebugger/general/separatetty", false);
config_gdbPath_ = DomUtil::readEntry(dom, "/kdevdebugger/general/gdbpath");
bool old_displayStatic = config_displayStaticMembers_;
config_displayStaticMembers_ = DomUtil::readBoolEntry(dom, "/kdevdebugger/display/staticmembers",false);
bool old_asmDemangle = config_asmDemangle_;
config_asmDemangle_ = DomUtil::readBoolEntry(dom, "/kdevdebugger/display/demanglenames",true);
bool old_breakOnLoadingLibrary_ = config_breakOnLoadingLibrary_;
config_breakOnLoadingLibrary_ = DomUtil::readBoolEntry(dom, "/kdevdebugger/general/breakonloadinglibs",true);
// FIXME: should move this into debugger part or variable widget.
int old_outputRadix = config_outputRadix_;
#if 0
config_outputRadix_ = DomUtil::readIntEntry(dom, "/kdevdebugger/display/outputradix", 10);
varTree_->setRadix(config_outputRadix_);
#endif
if (( old_displayStatic != config_displayStaticMembers_ ||
old_asmDemangle != config_asmDemangle_ ||
old_breakOnLoadingLibrary_ != config_breakOnLoadingLibrary_ ||
old_outputRadix != config_outputRadix_) &&
dbgProcess_)
{
bool restart = false;
if (stateIsOn(s_dbgBusy))
{
pauseApp();
restart = true;
}
if (old_displayStatic != config_displayStaticMembers_)
{
if (config_displayStaticMembers_)
queueCmd(new GDBCommand("set print static-members on"));
else
queueCmd(new GDBCommand("set print static-members off"));
}
if (old_asmDemangle != config_asmDemangle_)
{
if (config_asmDemangle_)
queueCmd(new GDBCommand("set print asm-demangle on"));
else
queueCmd(new GDBCommand("set print asm-demangle off"));
}
// Disabled for MI port.
if (old_outputRadix != config_outputRadix_)
{
queueCmd(new GDBCommand(TQCString().sprintf("set output-radix %d",
config_outputRadix_)));
// FIXME: should do this in variable widget anyway.
// After changing output radix, need to refresh variables view.
raiseEvent(program_state_changed);
}
if (!config_configGdbScript_.isEmpty())
queueCmd(new GDBCommand("source " + config_configGdbScript_));
if (restart)
queueCmd(new GDBCommand("-exec-continue"));
}
}
// **************************************************************************
void GDBController::addCommand(GDBCommand* cmd)
{
queueCmd(cmd);
}
void GDBController::addCommand(const TQString& str)
{
queueCmd(new GDBCommand(str));
}
void GDBController::addCommandToFront(GDBCommand* cmd)
{
queueCmd(cmd, queue_at_front);
}
void GDBController::addCommandBeforeRun(GDBCommand* cmd)
{
queueCmd(cmd, queue_before_run);
}
int GDBController::currentThread() const
{
return viewedThread_;
}
int GDBController::currentFrame() const
{
return currentFrame_;
}
// Fairly obvious that we'll add whatever command you give me to a queue
// If you tell me to, I'll put it at the head of the queue so it'll run ASAP
// Not quite so obvious though is that if we are going to run again. then any
// information requests become redundent and must be removed.
// We also try and run whatever command happens to be at the head of
// the queue.
void GDBController::queueCmd(GDBCommand *cmd, enum queue_where queue_where)
{
if (stateIsOn(s_dbgNotStarted))
{
KMessageBox::information(
0,
i18n("<b>Gdb command sent when debugger is not running</b><br>"
"The command was:<br> %1").arg(cmd->initialString()),
i18n("Internal error"), "gdb_error");
return;
}
if (stateReloadInProgress_)
stateReloadingCommands_.insert(cmd);
if (queue_where == queue_at_front)
cmdList_.insert(0, cmd);
else if (queue_where == queue_at_end)
cmdList_.append (cmd);
else if (queue_where == queue_before_run)
{
unsigned i;
for (i = 0; i < cmdList_.count(); ++i)
if (cmdList_.at(i)->isRun())
break;
cmdList_.insert(i, cmd);
}
kdDebug(9012) << "QUEUE: " << cmd->initialString()
<< (stateReloadInProgress_ ? " (state reloading)\n" : "\n");
setStateOn(s_dbgBusy);
emit dbgStatus("", state_);
raiseEvent(debugger_busy);
executeCmd();
}
// **************************************************************************
// If the appliction can accept a command and we've got one waiting
// then send it.
// Commands can be just request for data (or change gdbs state in someway)
// or they can be "run" commands. If a command is sent to gdb our internal
// state will get updated.
void GDBController::executeCmd()
{
if (stateIsOn(s_dbgNotStarted|s_waitForWrite|s_shuttingDown) || !dbgProcess_)
{
return;
}
if (!currentCmd_)
{
if (cmdList_.isEmpty())
return;
currentCmd_ = cmdList_.take(0);
}
else
{
return;
}
TQString commandText = currentCmd_->cmdToSend();
bool bad_command = false;
TQString message;
unsigned length = commandText.length();
// No i18n for message since it's mainly for debugging.
if (length == 0)
{
// The command might decide it's no longer necessary to send
// it.
if (SentinelCommand* sc = dynamic_cast<SentinelCommand*>(currentCmd_))
{
kdDebug(9012) << "SEND: sentinel command, not sending\n";
sc->invokeHandler();
}
else
{
kdDebug(9012) << "SEND: command " << currentCmd_->initialString()
<< " changed its mind, not sending\n";
}
destroyCurrentCommand();
executeCmd();
commandDone();
return;
}
else
{
if (commandText[length-1] != '\n')
{
bad_command = true;
message = "Debugger command does not end with newline";
}
}
if (bad_command)
{
KMessageBox::information(0, i18n("<b>Invalid debugger command</b><br>")
+ message,
i18n("Invalid debugger command"), "gdb_error");
return;
}
kdDebug(9012) << "SEND: " << commandText;
dbgProcess_->writeStdin(commandText.local8Bit(),
commandText.length());
setStateOn(s_waitForWrite);
TQString prettyCmd = currentCmd_->cmdToSend();
prettyCmd.replace( TQRegExp("set prompt \032.\n"), "" );
prettyCmd = "(gdb) " + prettyCmd;
if (currentCmd_->isUserCommand())
emit gdbUserCommandStdout( prettyCmd.latin1() );
else
emit gdbInternalCommandStdout( prettyCmd.latin1() );
emit dbgStatus ("", state_);
}
// **************************************************************************
void GDBController::destroyCmds()
{
if (currentCmd_)
{
destroyCurrentCommand();
}
while (!cmdList_.isEmpty())
delete cmdList_.take(0);
}
// Pausing an app removes any pending run commands so that the app doesn't
// start again. If we want to be silent then we remove any pending info
// commands as well.
void GDBController::pauseApp()
{
setStateOn(s_explicitBreakInto);
/* FIXME: need to decide if we really
need this, and the consistenly mark
info commands as such.
int i = cmdList_.count();
while (i)
{
i--;
DbgCommand *cmd = cmdList_.at(i);
if (cmd->isAnInfoCmd())
delete cmdList_.take(i);
}
*/
if (dbgProcess_)
dbgProcess_->kill(SIGINT);
}
void GDBController::actOnProgramPauseMI(const GDBMI::ResultRecord& r)
{
// Is this stop on shared library load? Gdb smartly does not
// print any 'reason' field in this case.
bool shared_library_load = false;
if (currentCmd_)
{
const TQValueVector<TQString>& lines = currentCmd_->allStreamOutput();
for(unsigned int i = 0; i < lines.count(); ++i)
{
if (lines[i].startsWith("Stopped due to shared library event"))
{
shared_library_load = true;
break;
}
}
}
if (shared_library_load)
{
raiseEvent(shared_library_loaded);
queueCmd(new GDBCommand("-exec-continue"));
return;
}
if (!r.hasField("reason"))
{
// FIXME: throw an exception, and add the gdb reply in the
// caller. Show message box in the caller, not here.
// FIXME: remove this 'bla-bla-bla'.
KMessageBox::detailedSorry(
0,
i18n("<b>Invalid gdb reply</b>"
"<p>The 'stopped' packet does not include the 'reason' field'."),
i18n("The gdb reply is: bla-bla-bla"),
i18n("Invalid gdb reply"));
return;
}
TQString reason = r["reason"].literal();
if (reason == "exited-normally" || reason == "exited")
{
programNoApp("Exited normally", false);
programHasExited_ = true;
state_reload_needed = false;
return;
}
if (reason == "exited-signalled")
{
programNoApp(i18n("Exited on signal %1")
.arg(r["signal-name"].literal()), false);
// FIXME: figure out why this variable is needed.
programHasExited_ = true;
state_reload_needed = false;
return;
}
if (reason == "watchpoint-scope")
{
TQString number = r["wpnum"].literal();
// FIXME: shuld remove this watchpoint
// But first, we should consider if removing all
// watchpoinst on program exit is the right thing to
// do.
queueCmd(new GDBCommand("-exec-continue"));
state_reload_needed = false;
return;
}
if (reason == "signal-received")
{
TQString name = r["signal-name"].literal();
TQString user_name = r["signal-meaning"].literal();
// SIGINT is a "break into running program".
// We do this when the user set/mod/clears a breakpoint but the
// application is running.
// And the user does this to stop the program also.
bool suppress_reporting = false;
if (name == "SIGINT" && stateIsOn(s_explicitBreakInto))
{
suppress_reporting = true;
// TODO: check that we do something reasonable on
// implicit break into program (for setting breakpoints,
// or whatever).
setStateOff(s_explicitBreakInto);
emit dbgStatus("Application interrupted", state_);
// Will show the source line in the code
// handling non-special stop kinds, below.
}
if (!suppress_reporting)
{
// Whenever we have a signal raised then tell the user, but don't
// end the program as we want to allow the user to look at why the
// program has a signal that's caused the prog to stop.
// Continuing from SIG FPE/SEGV will cause a "Cannot ..." and
// that'll end the program.
KMessageBox::information(0,
i18n("Program received signal %1 (%2)")
.arg(name).arg(user_name),
i18n("Received signal"));
}
}
if (reason == "breakpoint-hit")
{
int id = r["bkptno"].literal().toInt();
emit breakpointHit(id);
}
}
void GDBController::reloadProgramState()
{
const GDBMI::ResultRecord& r = *last_stop_result;
// In gdb 6.3, the *stopped reply does not include full
// name of the source file. Need to send extra command.
// Don't send it unless there was 'line' field in last *stopped response.
// The command has a bug that makes it always returns some file/line,
// even if we're not in one.
//
// FIXME: For gdb 6.4, should not send extra commands.
// That's for later, so that I verify that this three-command
// approach works fine.
if (r.hasField("frame") && r["frame"].hasField("line"))
queueCmd(new GDBCommand(
"-file-list-exec-source-file",
this,
&GDBController::handleMiFileListExecSourceFile));
else
{
maybeAnnounceWatchpointHit();
}
emit dbgStatus ("", state_);
// We're always at frame zero when the program stops
// and we must reset the active flag
if (r.hasField("thread-id"))
viewedThread_ = r["thread-id"].literal().toInt();
else
viewedThread_ = -1;
currentFrame_ = 0;
raiseEvent(program_state_changed);
state_reload_needed = false;
}
// **************************************************************************
// There is no app anymore. This can be caused by program exiting
// an invalid program specified or ...
// gdb is still running though, but only the run command (may) make sense
// all other commands are disabled.
void GDBController::programNoApp(const TQString &msg, bool msgBox)
{
setState(s_appNotStarted|s_programExited|(state_&s_shuttingDown));
destroyCmds();
// We're always at frame zero when the program stops
// and we must reset the active flag
viewedThread_ = -1;
currentFrame_ = 0;
// The application has existed, but it's possible that
// some of application output is still in the pipe. We use
// different pipes to communicate with gdb and to get application
// output, so "exited" message from gdb might have arrived before
// last application output. Get this last bit.
// Note: this method can be called when we open an invalid
// core file. In that case, tty_ won't be set.
if (tty_)
tty_->readRemaining();
// Tty is no longer usable, delete it. Without this, TQSocketNotifier
// will continiously bomd STTY with signals, so we need to either disable
// TQSocketNotifier, or delete STTY. The latter is simpler, since we can't
// reuse it for future debug sessions anyway.
delete tty_;
tty_ = 0;
raiseEvent(program_exited);
if (msgBox)
KMessageBox::information(0, i18n("gdb message:\n")+msg,"Warning", "gdb_error");
emit dbgStatus (msg, state_);
/* Also show message in gdb window, so that users who
prefer to look at gdb window know what's up. */
emit gdbUserCommandStdout(msg.ascii());
}
void GDBController::parseCliLine(const TQString& line)
{
if (line.startsWith("The program no longer exists")
|| line.startsWith("Program exited")
|| line.startsWith("Program terminated"))
{
programNoApp(line, false);
return;
}
#if 0
if (strncmp(buf, "No symbol", 9) == 0 || // watch point failed
strncmp(buf, "Single", 6) == 0 || // Single stepping
strncmp(buf, "No source file named", 20) == 0 || // breakpoint not set
strncmp(buf, "[Switching to Thread", 20) == 0 || //
strncmp(buf, "[Thread debugging using", 23) == 0 ||
strncmp(buf, "Current language:", 17) == 0 ||
strncmp(buf, "Error while mapping shared library sections:", 44) == 0 ||
strncmp(buf, "Error while reading shared library symbols:", 43) == 0 ||
*buf == ':' )
{
// We don't change state, because this falls out when a run command
// starts rather than when a run command stops.
// Or.... it falls out with other messages that _are_ handled.
return;
}
#endif
#if 0
/// @todo - Only do this at start up
if (
strstr(buf, "not in executable format:") ||
strstr(buf, "No such file or directory.") || // does this fall out?
strstr(buf, i18n("No such file or directory.").local8Bit())|| // from system via gdb
strstr(buf, "is not a core dump:") ||
strncmp(buf, "ptrace: No such process.", 24)==0 ||
strncmp(buf, "ptrace: Operation not permitted.", 32)==0 ||
strncmp(buf, "No executable file specified.", 29)==0)
{
programNoApp(TQString(buf), true);
kdDebug(9012) << "Bad file <" << buf << ">" << endl;
return;
}
#endif
}
void GDBController::handleMiFileListExecSourceFile(const GDBMI::ResultRecord& r)
{
if (r.reason != "done")
{
return;
// FIXME: throw an exception here. Move reporting
// to the caller, who knows the gdb output.
#if 0
KMessageBox::information(
0,
i18n("Invalid gdb reply\n"
"Command was: %1\n"
"Response is: %2\n"
"Invalid response kind: \"%3\"")
.arg(currentCmd_->rawDbgCommand())
.arg(buf)
.arg(r.reason),
i18n("Invalid gdb reply"), "gdb_error");
#endif
}
TQString fullname = "";
if (r.hasField("fullname"))
fullname = r["fullname"].literal();
showStepInSource(fullname,
r["line"].literal().toInt(),
(*last_stop_result)["frame"]["addr"].literal());
/* Watchpoint hit is announced only after we've highlighted
the current line. */
maybeAnnounceWatchpointHit();
last_stop_result.reset();
}
void GDBController::maybeAnnounceWatchpointHit()
{
/* For some cases, for example catchpoints,
gdb does not report any reason at all. */
if ((*last_stop_result).hasField("reason"))
{
TQString last_stop_reason = (*last_stop_result)["reason"].literal();
if (last_stop_reason == "watchpoint-trigger")
{
emit watchpointHit((*last_stop_result)["wpt"]["number"]
.literal().toInt(),
(*last_stop_result)["value"]["old"].literal(),
(*last_stop_result)["value"]["new"].literal());
}
else if (last_stop_reason == "read-watchpoint-trigger")
{
emit dbgStatus ("Read watchpoint triggered", state_);
}
}
}
void GDBController::handleMiFrameSwitch(const GDBMI::ResultRecord& r)
{
raiseEvent(thread_or_frame_changed);
const GDBMI::Value& frame = r["frame"];
TQString file;
if (frame.hasField("fullname"))
file = frame["fullname"].literal();
else if (frame.hasField("file"))
file = frame["file"].literal();
int line = -1;
if (frame.hasField("line"))
line = frame["line"].literal().toInt();
showStepInSource(file,
line,
frame["addr"].literal());
}
// **************************************************************************
// SLOTS
// *****
// For most of these slots data can only be sent to gdb when it
// isn't busy and it is running.
// **************************************************************************
bool GDBController::start(const TQString& shell, const DomUtil::PairList& run_envvars, const TQString& run_directory, const TQString &application, const TQString& run_arguments)
{
kdDebug(9012) << "Starting debugger controller\n";
badCore_ = TQString();
Q_ASSERT (!dbgProcess_ && !tty_);
dbgProcess_ = new TDEProcess;
connect( dbgProcess_, TQT_SIGNAL(receivedStdout(TDEProcess *, char *, int)),
this, TQT_SLOT(slotDbgStdout(TDEProcess *, char *, int)) );
connect( dbgProcess_, TQT_SIGNAL(receivedStderr(TDEProcess *, char *, int)),
this, TQT_SLOT(slotDbgStderr(TDEProcess *, char *, int)) );
connect( dbgProcess_, TQT_SIGNAL(wroteStdin(TDEProcess *)),
this, TQT_SLOT(slotDbgWroteStdin(TDEProcess *)) );
connect( dbgProcess_, TQT_SIGNAL(processExited(TDEProcess*)),
this, TQT_SLOT(slotDbgProcessExited(TDEProcess*)) );
application_ = application;
TQString gdb = "gdb";
// Prepend path to gdb, if needed. Using TQDir,
// path can either end with slash, or not.
if (!config_gdbPath_.isEmpty())
{
gdb = config_gdbPath_;
}
if (!shell.isEmpty())
{
*dbgProcess_ << "/bin/sh" << "-c" << shell + " " + gdb +
+ " " + application + " --interpreter=mi2 -quiet";
emit gdbUserCommandStdout(
TQString( "/bin/sh -c " + shell + " " + gdb
+ " " + application
+ " --interpreter=mi2 -quiet\n" ).latin1());
}
else
{
*dbgProcess_ << gdb << application
<< "-interpreter=mi2" << "-quiet";
emit gdbUserCommandStdout(
TQString( gdb + " " + application +
" --interpreter=mi2 -quiet\n" ).latin1());
}
if (!dbgProcess_->start( TDEProcess::NotifyOnExit,
TDEProcess::Communication(TDEProcess::All)))
{
KMessageBox::information(
0,
i18n("<b>Could not start debugger.</b>"
"<p>Could not run '%1'. "
"Make sure that the path name is specified correctly."
).arg(dbgProcess_->args()[0].data()),
i18n("Could not start debugger"), "gdb_error");
return false;
}
setStateOff(s_dbgNotStarted);
emit dbgStatus ("", state_);
saw_gdb_prompt_ = false;
// Initialise gdb. At this stage gdb is sitting wondering what to do,
// and to whom. Organise a few things, then set up the tty for the application,
// and the application itself
// The following two are not necessary in MI, and the first one
// just breaks MI completely.
// queueCmd(new GDBCommand("set edit off", NOTRUNCMD, NOTINFOCMD, 0));
// queueCmd(new GDBCommand("set confirm off", NOTRUNCMD, NOTINFOCMD));
if (config_displayStaticMembers_)
queueCmd(new GDBCommand("set print static-members on"));
else
queueCmd(new GDBCommand("set print static-members off"));
// This makes gdb pump a variable out on one line.
queueCmd(new GDBCommand("set width 0"));
queueCmd(new GDBCommand("set height 0"));
queueCmd(new GDBCommand("handle SIG32 pass nostop noprint"));
queueCmd(new GDBCommand("handle SIG41 pass nostop noprint"));
queueCmd(new GDBCommand("handle SIG42 pass nostop noprint"));
queueCmd(new GDBCommand("handle SIG43 pass nostop noprint"));
// Print some nicer names in disassembly output. Although for an assembler
// person this may actually be wrong and the mangled name could be better.
if (config_asmDemangle_)
queueCmd(new GDBCommand("set print asm-demangle on"));
else
queueCmd(new GDBCommand("set print asm-demangle off"));
// make sure output radix is always set to users view.
queueCmd(new GDBCommand(TQCString().sprintf("set output-radix %d", config_outputRadix_)));
// Change the "Working directory" to the correct one
TQCString tmp( "cd " + TQFile::encodeName( run_directory ));
queueCmd(new GDBCommand(tmp));
// Set the run arguments
if (!run_arguments.isEmpty())
queueCmd(
new GDBCommand(TQCString("set args ") + run_arguments.local8Bit()));
// Get the run environment variables pairs into the environstr string
// in the form of: "ENV_VARIABLE=ENV_VALUE" and send to gdb using the
// "set enviroment" command
// Note that we quote the variable value due to the possibility of
// embedded spaces
TQString environstr;
DomUtil::PairList::ConstIterator it;
for (it = run_envvars.begin(); it != run_envvars.end(); ++it)
{
environstr = "set environment ";
environstr += (*it).first;
environstr += "=";
environstr += (*it).second;
queueCmd(new GDBCommand(environstr.latin1()));
}
queueCmd(new GDBCommand(
"-list-features", this,
&GDBController::handleListFeatures, true /* handles error */));
queueCmd(new SentinelCommand(this, &GDBController::startDone));
// Now gdb has been started and the application has been loaded,
// BUT the app hasn't been started yet! A run command is about to be issued
// by whoever is controlling us. Or we might be asked to load a core, or
// attach to a running process.
return true;
}
void GDBController::startDone()
{
// Needed so that breakpoint widget has a chance to insert breakpoints.
// FIXME: a bit hacky, as we're really not ready for new commands.
setStateOn(s_dbgBusy);
raiseEvent(debugger_ready);
raiseEvent(connected_to_program);
}
void GDBController::handleListFeatures(const GDBMI::ResultRecord& r)
{
mi_pending_breakpoints_ = false;
if (r.reason == "done")
{
const GDBMI::Value& features = r["features"];
for (unsigned i = 0; i < features.size(); ++i)
if (features[i].literal() == "pending-breakpoints")
{
mi_pending_breakpoints_ = true;
}
}
if (!mi_pending_breakpoints_)
{
// This version of GDB does not support pending breakpoints in MI,
// so use a workaround.
// The below command makes GDB notify us about shared library
// events, and on each stop we'll try to set breakpoint again.
addCommandToFront(new GDBCommand("set stop-on-solib-events 1"));
}
}
// **************************************************************************
void GDBController::slotStopDebugger()
{
kdDebug(9012) << "GDBController::slotStopDebugger() called" << endl;
if (stateIsOn(s_shuttingDown) || !dbgProcess_)
return;
setStateOn(s_shuttingDown);
kdDebug(9012) << "GDBController::slotStopDebugger() executing" << endl;
TQTime start;
TQTime now;
// Get gdb's attention if it's busy. We need gdb to be at the
// command line so we can stop it.
if (stateIsOn(s_dbgBusy))
{
kdDebug(9012) << "gdb busy on shutdown - stopping gdb (SIGINT)" << endl;
dbgProcess_->kill(SIGINT);
start = TQTime::currentTime();
while (-1)
{
kapp->eventLoop()->processEvents( TQEventLoop::ExcludeUserInput, 20 );
now = TQTime::currentTime();
if (!stateIsOn(s_dbgBusy) || start.msecsTo( now ) > 2000)
break;
}
}
// If the app is attached then we release it here. This doesn't stop
// the app running.
if (stateIsOn(s_attached))
{
const char *detach="detach\n";
if (!dbgProcess_->writeStdin(detach, strlen(detach)))
kdDebug(9012) << "failed to write 'detach' to gdb" << endl;
emit gdbUserCommandStdout("(gdb) detach\n");
start = TQTime::currentTime();
while (-1)
{
kapp->eventLoop()->processEvents( TQEventLoop::ExcludeUserInput, 20 );
now = TQTime::currentTime();
if (!stateIsOn(s_attached) || start.msecsTo( now ) > 2000)
break;
}
}
// Now try to stop gdb running.
const char *quit="quit\n";
if (!dbgProcess_->writeStdin(quit, strlen(quit)))
kdDebug(9012) << "failed to write 'quit' to gdb" << endl;
emit gdbUserCommandStdout("(gdb) quit");
start = TQTime::currentTime();
while (-1)
{
kapp->eventLoop()->processEvents( TQEventLoop::ExcludeUserInput, 20 );
now = TQTime::currentTime();
if (stateIsOn(s_programExited) || start.msecsTo( now ) > 2000)
break;
}
// We cannot wait forever.
if (!stateIsOn(s_programExited))
{
kdDebug(9012) << "gdb not shutdown - killing" << endl;
dbgProcess_->kill(SIGKILL);
}
destroyCmds();
delete dbgProcess_; dbgProcess_ = 0;
delete tty_; tty_ = 0;
// The gdb output buffer might contain start marker of some
// previously issued command that crashed gdb (so there's no end marker)
// If we don't clear this, then after restart, we'll be trying to search
// for the end marker of the command issued in previous gdb session,
// and never succeed.
gdbOutput_ = "";
setState(s_dbgNotStarted | s_appNotStarted);
emit dbgStatus (i18n("Debugger stopped"), state_);
raiseEvent(debugger_exited);
}
// **************************************************************************
void GDBController::slotCoreFile(const TQString &coreFile)
{
setStateOff(s_programExited|s_appNotStarted);
setStateOn(s_core);
queueCmd(new GDBCommand(TQCString("core ") + coreFile.latin1()));
raiseEvent(connected_to_program);
raiseEvent(program_state_changed);
}
// **************************************************************************
void GDBController::slotAttachTo(int pid)
{
setStateOff(s_appNotStarted|s_programExited);
setStateOn(s_attached);
// Currently, we always start debugger with a name of binary,
// we might be connecting to a different binary completely,
// so cancel all symbol tables gdb has.
// We can't omit application name from gdb invocation
// because for libtool binaries, we have no way to guess
// real binary name.
queueCmd(new GDBCommand(TQString("file")));
// The MI interface does not implements -target-attach yet,
// and we don't recognize whatever gibberish 'attach' pours out, so...
queueCmd(new GDBCommand(
TQCString().sprintf("attach %d", pid)));
raiseEvent(connected_to_program);
// ...emit a separate MI command to step one instruction more. We'll
// notice the '*stopped' response from it and proceed as usual.
queueCmd(new GDBCommand("-exec-step-instruction"));
}
// **************************************************************************
void GDBController::slotRun()
{
if (stateIsOn(s_dbgNotStarted|s_shuttingDown))
return;
if (stateIsOn(s_appNotStarted)) {
delete tty_;
tty_ = new STTY(config_dbgTerminal_, Settings::terminalEmulatorName( *kapp->config() ));
if (!config_dbgTerminal_)
{
connect( tty_, TQT_SIGNAL(OutOutput(const char*)), TQT_SIGNAL(ttyStdout(const char*)) );
connect( tty_, TQT_SIGNAL(ErrOutput(const char*)), TQT_SIGNAL(ttyStderr(const char*)) );
}
TQString tty(tty_->getSlave());
if (tty.isEmpty())
{
KMessageBox::information(0, i18n("GDB cannot use the tty* or pty* devices.\n"
"Check the settings on /dev/tty* and /dev/pty*\n"
"As root you may need to \"chmod ug+rw\" tty* and pty* devices "
"and/or add the user to the tty group using "
"\"usermod -G tty username\"."), "Warning", "gdb_error");
delete tty_;
tty_ = 0;
return;
}
queueCmd(new GDBCommand(TQCString("tty ")+tty.latin1()));
if (!config_runShellScript_.isEmpty()) {
// Special for remote debug...
TQCString tty(tty_->getSlave().latin1());
TQCString options = TQCString(">") + tty + TQCString(" 2>&1 <") + tty;
TDEProcess *proc = new TDEProcess;
*proc << "sh" << "-c";
*proc << config_runShellScript_ +
" " + application_.latin1() + options;
proc->start(TDEProcess::DontCare);
}
if (!config_runGdbScript_.isEmpty()) {// gdb script at run is requested
// Race notice: wait for the remote gdbserver/executable
// - but that might be an issue for this script to handle...
// Future: the shell script should be able to pass info (like pid)
// to the gdb script...
queueCmd(new GDBCommand("source " + config_runGdbScript_));
// Note: script could contain "run" or "continue"
}
else {
TQFileInfo app(application_);
if (!app.exists())
{
KMessageBox::error(
0,
i18n("<b>Application does not exist</b>"
"<p>The application you are trying to debug,<br>"
" %1\n"
"<br>does not exist. Check that you have specified "
"the right application in the debugger configuration."
).arg(app.fileName()),
i18n("Application does not exist"));
// FIXME: after this, KDevelop will still show that debugger
// is running, because DebuggerPart::slotStopDebugger won't be
// called, and core()->running(this, false) won't be called too.
slotStopDebugger();
return;
}
if (!app.isExecutable())
{
KMessageBox::error(
0,
i18n("<b>Could not run application '%1'.</b>"
"<p>The application does not have the executable bit set. "
"Try rebuilding the project, or change permissions "
"manually."
).arg(app.fileName()),
i18n("Could not run application"));
slotStopDebugger();
}
else
{
GDBCommand *cmd = new GDBCommand("-exec-run");
cmd->setRun(true);
queueCmd(cmd);
}
}
}
else {
removeStateReloadingCommands();
queueCmd(new GDBCommand("-exec-continue"));
}
setStateOff(s_appNotStarted|s_programExited);
}
void GDBController::slotKill()
{
if (stateIsOn(s_dbgNotStarted|s_shuttingDown))
return;
if (stateIsOn(s_dbgBusy))
{
pauseApp();
}
queueCmd(new GDBCommand("kill"));
setStateOn(s_appNotStarted);
}
// **************************************************************************
void GDBController::slotRunUntil(const TQString &fileName, int lineNum)
{
if (stateIsOn(s_dbgBusy|s_dbgNotStarted|s_shuttingDown))
return;
removeStateReloadingCommands();
if (fileName.isEmpty())
queueCmd(new GDBCommand(
TQCString().sprintf("-exec-until %d", lineNum)));
else
queueCmd(new GDBCommand(
TQCString().
sprintf("-exec-until %s:%d", fileName.latin1(), lineNum)));
}
// **************************************************************************
void GDBController::slotJumpTo(const TQString &fileName, int lineNum)
{
if (stateIsOn(s_dbgBusy|s_dbgNotStarted|s_shuttingDown))
return;
if (!fileName.isEmpty()) {
queueCmd(new GDBCommand(TQCString().sprintf("tbreak %s:%d", fileName.latin1(), lineNum)));
queueCmd(new GDBCommand(TQCString().sprintf("jump %s:%d", fileName.latin1(), lineNum)));
}
}
// **************************************************************************
void GDBController::slotStepInto()
{
if (stateIsOn(s_dbgBusy|s_appNotStarted|s_shuttingDown))
return;
removeStateReloadingCommands();
queueCmd(new GDBCommand("-exec-step"));
}
// **************************************************************************
void GDBController::slotStepIntoIns()
{
if (stateIsOn(s_dbgBusy|s_appNotStarted|s_shuttingDown))
return;
removeStateReloadingCommands();
queueCmd(new GDBCommand("-exec-step-instruction"));
}
// **************************************************************************
void GDBController::slotStepOver()
{
if (stateIsOn(s_dbgBusy|s_appNotStarted|s_shuttingDown))
return;
removeStateReloadingCommands();
queueCmd(new GDBCommand("-exec-next"));
}
// **************************************************************************
void GDBController::slotStepOverIns()
{
if (stateIsOn(s_dbgBusy|s_appNotStarted|s_shuttingDown))
return;
removeStateReloadingCommands();
queueCmd(new GDBCommand("-exec-next-instruction"));
}
// **************************************************************************
void GDBController::slotStepOutOff()
{
if (stateIsOn(s_dbgBusy|s_appNotStarted|s_shuttingDown))
return;
removeStateReloadingCommands();
queueCmd(new GDBCommand("-exec-finish"));
}
// **************************************************************************
// Only interrupt a running program.
void GDBController::slotBreakInto()
{
pauseApp();
}
// **************************************************************************
void GDBController::selectFrame(int frameNo, int threadNo)
{
// FIXME: this either should be removed completely, or
// trigger an error message.
if (stateIsOn(s_dbgBusy|s_dbgNotStarted|s_shuttingDown))
return;
if (threadNo != -1)
{
if (viewedThread_ != threadNo)
queueCmd(new GDBCommand(
TQString("-thread-select %1").arg(threadNo).ascii()));
}
queueCmd(new GDBCommand(
TQString("-stack-select-frame %1").arg(frameNo).ascii()));
// Will emit the 'thread_or_frame_changed' event.
queueCmd(new GDBCommand("-stack-info-frame",
this, &GDBController::handleMiFrameSwitch));
// FIXME: the above commands might not be the first in queue, and
// previous commands might using values of 'viewedThread_' or
// 'currentFrame_'. Ideally, should change the values only after
// response from gdb.
viewedThread_ = threadNo;
currentFrame_ = frameNo;
}
// **************************************************************************
void GDBController::defaultErrorHandler(const GDBMI::ResultRecord& result)
{
TQString msg = result["msg"].literal();
if (msg.contains("No such process"))
{
setState(s_appNotStarted|s_programExited);
emit dbgStatus (i18n("Process exited"), state_);
raiseEvent(program_exited);
return;
}
KMessageBox::information(
0,
i18n("<b>Debugger error</b>"
"<p>Debugger reported the following error:"
"<p><tt>") + result["msg"].literal(),
i18n("Debugger error"), "gdb_error");
// Error most likely means that some change made in GUI
// was not communicated to the gdb, so GUI is now not
// in sync with gdb. Resync it.
//
// Another approach is to make each widget reload it content
// on errors from commands that it sent, but that's too complex.
// Errors are supposed to happen rarely, so full reload on error
// is not a big deal. Well, maybe except for memory view, but
// it's no auto-reloaded anyway.
//
// Also, don't reload state on errors appeared during state
// reloading!
if (stateReloadingCommands_.count(currentCmd_) == 0)
raiseEvent(program_state_changed);
}
void GDBController::processMICommandResponse(const GDBMI::ResultRecord& result)
{
kdDebug(9012) << "MI stop reason " << result.reason << "\n";
if (result.reason == "stopped")
{
actOnProgramPauseMI(result);
}
else if (result.reason == "done")
{
// At least in one case, for 'detach', debuger write
// command directly, and 'currentCmd_' will be unset.
// Checking for currentCmd_ is safer in any case.
if (currentCmd_)
{
// Assume that if this command is part of state reloading,
// then any further commands issued in command handler
// are part of state reloading as well.
if (stateReloadingCommands_.count(currentCmd_))
{
stateReloadInProgress_ = true;
}
currentCmd_->invokeHandler(result);
stateReloadInProgress_ = false;
}
}
else if (result.reason == "error")
{
// Some commands want to handle errors themself.
if (currentCmd_ && currentCmd_->handlesError() &&
currentCmd_->invokeHandler(result))
{
// Done, nothing more needed
}
else
{
defaultErrorHandler(result);
}
}
}
// Data from gdb gets processed here.
void GDBController::slotDbgStdout(TDEProcess *, char *buf, int buflen)
{
static bool parsing = false;
TQCString msg(buf, buflen+1);
// Copy the data out of the TDEProcess buffer before it gets overwritten
// Append to the back of the holding zone.
holdingZone_ += TQCString(buf, buflen+1);
// Already parsing? then get out quick.
// VP, 2006-01-30. I'm not sure how this could happen, since
// parsing of gdb reply should not ever execute TQt message loop. Except,
// maybe, when we pop up a message box. But even in that case,
// it's likely we won't return to slotDbgStdout again.
if (parsing)
{
kdDebug(9012) << "Already parsing" << endl;
return;
}
bool ready_for_next_command = false;
int i;
bool got_any_command = false;
// For each gdb reply. In MI mode, each reply is one string.
while((i = holdingZone_.find('\n')) != -1)
{
got_any_command = true;
TQCString reply(holdingZone_.left(i));
holdingZone_ = holdingZone_.mid(i+1);
kdDebug(9012) << "REPLY: " << reply << "\n";
FileSymbol file;
file.contents = reply;
std::auto_ptr<GDBMI::Record> r(mi_parser_.parse(&file));
if (r.get() == 0)
{
// FIXME: Issue an error!
kdDebug(9012) << "Invalid MI message: " << reply << "\n";
ready_for_next_command = true;
continue;
}
try {
switch(r->kind)
{
case GDBMI::Record::Result: {
GDBMI::ResultRecord& result = static_cast<GDBMI::ResultRecord&>(*r);
if (result.reason != "running")
{
kdDebug(9012) << "Command execution time "
<< commandExecutionTime.elapsed() << " ms.\n";
}
/* The currentCmd_ may be NULL here, because when detaching
from debugger, we directly write "detach" to gdb and
busy-wait for a reply. Uisng the commands mechanism
won't work there, because command result are
communicated asynchronously.
This is will be fixed in KDevelop4. */
if (currentCmd_ && currentCmd_->isUserCommand())
emit gdbUserCommandStdout(reply);
else
emit gdbInternalCommandStdout(reply + "\n");
if (result.reason == "stopped")
{
// Transfers ownership.
// Needed so that in
// handleMiFileListExecSourceFile(GDBMI::ResultRecord& r);
// we can use the last stop reason.
last_stop_result.reset(static_cast<GDBMI::ResultRecord*>(r.get()));
r.release();
state_reload_needed = true;
}
else if (result.reason == "running")
{
setStateOn(s_appRunning);
raiseEvent(program_running);
}
// All MI commands have just one response, except for
// run-like command, which result in
//
// ^running
//
// followed by
//
// stopped.
ready_for_next_command = (result.reason != "running");
if (ready_for_next_command)
{
// Need to do this before procesing response,
// so that when processing response we don't
// think that application is running.
setStateOff(s_appRunning);
}
processMICommandResponse(result);
if (ready_for_next_command)
{
destroyCurrentCommand();
}
break;
}
case GDBMI::Record::Stream: {
GDBMI::StreamRecord& s = dynamic_cast<GDBMI::StreamRecord&>(*r);
/* The way current code works is that we start gdb,
and immediately send commands to it without waiting for
a prompt. As result, when we return back to the event
loop and read the first line from GDB, currentCmd_ is
already set. But really, we want to output everything
that gdb prints prior to prompt -- it might be
output from user's .gdbinit that user cares about. */
if (!saw_gdb_prompt_
|| !currentCmd_ || currentCmd_->isUserCommand())
emit gdbUserCommandStdout(s.message.ascii());
else
emit gdbInternalCommandStdout(s.message.ascii());
if (currentCmd_)
currentCmd_->newOutput(s.message);
parseCliLine(s.message);
static TQRegExp print_output("^\\$(\\d+) = ");
if (print_output.search(s.message) != -1)
{
kdDebug(9012) << "Found 'print' output: " << s.message << "\n";
print_command_result = s.message.ascii();
}
/* This is output from the program. Route it to
the Application window. */
if (s.reason == '@')
emit ttyStderr(s.message.ascii());
break;
}
case GDBMI::Record::Prompt:
saw_gdb_prompt_ = true;
break;
}
}
catch(const std::exception& e)
{
KMessageBox::detailedSorry(
0,
i18n("<b>Internal debugger error</b>",
"<p>The debugger component encountered an internal error while "
"processing a reply from gdb. Please submit a bug report."),
i18n("The exception is: %1\n"
"The MI response is: %2").arg(e.what()).arg(reply.data()),
i18n("Internal debugger error"));
destroyCurrentCommand();
ready_for_next_command = true;
}
}
// check the queue for any commands to send
if (ready_for_next_command)
{
executeCmd();
}
if (got_any_command)
kdDebug(9012) << "COMMANDS: " << cmdList_.count() << " in queue, "
<< int(bool(currentCmd_)) << " executing\n";
commandDone();
}
void GDBController::commandDone()
{
bool no_more_commands = (cmdList_.isEmpty() && !currentCmd_);
if (no_more_commands && state_reload_needed)
{
kdDebug(9012) << "Finishing program stop\n";
// Set to false right now, so that if 'actOnProgramPauseMI_part2'
// sends some commands, we won't call it again when handling replies
// from that commands.
state_reload_needed = false;
reloadProgramState();
}
if (no_more_commands)
{
kdDebug(9012) << "No more commands\n";
setStateOff(s_dbgBusy);
emit dbgStatus("", state_);
raiseEvent(debugger_ready);
}
}
void GDBController::destroyCurrentCommand()
{
stateReloadingCommands_.erase(currentCmd_);
delete currentCmd_;
currentCmd_ = 0;
}
void GDBController::removeStateReloadingCommands()
{
int i = cmdList_.count();
while (i)
{
i--;
GDBCommand* cmd = cmdList_.at(i);
if (stateReloadingCommands_.count(cmd))
{
kdDebug(9012) << "UNQUEUE: " << cmd->initialString() << "\n";
delete cmdList_.take(i);
}
}
if (stateReloadingCommands_.count(currentCmd_))
{
// This effectively prevents handler for this command
// to be ever invoked.
destroyCurrentCommand();
}
}
void GDBController::raiseEvent(event_t e)
{
if (e == program_exited || e == debugger_exited)
{
stateReloadInProgress_ = false;
}
if (e == program_state_changed)
{
stateReloadInProgress_ = true;
kdDebug(9012) << "State reload in progress\n";
}
emit event(e);
if (e == program_state_changed)
{
stateReloadInProgress_ = false;
}
}
void GDBController::slotDbgStderr(TDEProcess *proc, char *buf, int buflen)
{
// At the moment, just drop a message out and redirect
kdDebug(9012) << "STDERR: " << TQString::fromLatin1(buf, buflen+1) << endl;
slotDbgStdout(proc, buf, buflen);
}
// **************************************************************************
void GDBController::slotDbgWroteStdin(TDEProcess *)
{
commandExecutionTime.start();
setStateOff(s_waitForWrite);
// FIXME: need to remove s_waitForWrite flag completely.
executeCmd();
}
// **************************************************************************
void GDBController::slotDbgProcessExited(TDEProcess* process)
{
Q_ASSERT(process == dbgProcess_);
bool abnormal = !process->normalExit();
delete dbgProcess_;
dbgProcess_ = 0;
delete tty_;
tty_ = 0;
if (abnormal)
emit debuggerAbnormalExit();
raiseEvent(debugger_exited);
destroyCmds();
setState(s_dbgNotStarted|s_appNotStarted|s_programExited);
emit dbgStatus (i18n("Process exited"), state_);
emit gdbUserCommandStdout("(gdb) Process exited\n");
}
// **************************************************************************
void GDBController::slotUserGDBCmd(const TQString& cmd)
{
queueCmd(new UserCommand(cmd.latin1()));
// User command can theoreticall modify absolutely everything,
// so need to force a reload.
// We can do it right now, and don't wait for user command to finish
// since commands used to reload all view will be executed after
// user command anyway.
//if (!stateIsOn(s_appNotStarted) && !stateIsOn(s_programExited))
// raiseEvent(program_state_changed);
}
void GDBController::explainDebuggerStatus()
{
TQString information("%1 commands in queue\n"
"%2 commands being processed by gdb\n"
"Debugger state: %3\n");
information =
information.arg(cmdList_.count()).arg(currentCmd_ ? 1 : 0)
.arg(state_);
if (currentCmd_)
{
TQString extra("Current command class: '%1'\n"
"Current command text: '%2'\n"
"Current command origianl text: '%3'\n");
extra = extra.arg(
typeid(*currentCmd_).name()).arg(currentCmd_->cmdToSend()).
arg(currentCmd_->initialString());
information += extra;
}
KMessageBox::information(0, information, "Debugger status");
}
bool GDBController::stateIsOn(int state)
{
return state_ & state;
}
void GDBController::setStateOn(int stateOn)
{
debugStateChange(state_, state_ | stateOn);
state_ |= stateOn;
}
void GDBController::setStateOff(int stateOff)
{
debugStateChange(state_, state_ & ~stateOff);
state_ &= ~stateOff;
}
void GDBController::setState(int newState)
{
debugStateChange(state_, newState);
state_ = newState;
}
void GDBController::debugStateChange(int oldState, int newState)
{
int delta = oldState ^ newState;
if (delta)
{
TQString out = "STATE: ";
for(unsigned i = 1; i < s_lastDbgState; i <<= 1)
{
if (delta & i)
{
if (i & newState)
out += "+";
else
out += "-";
bool found = false;
#define STATE_CHECK(name)\
if (i == name) { out += #name; found = true; }
STATE_CHECK(s_dbgNotStarted);
STATE_CHECK(s_appNotStarted);
STATE_CHECK(s_waitForWrite);
STATE_CHECK(s_programExited);
STATE_CHECK(s_viewBT);
STATE_CHECK(s_viewBP);
STATE_CHECK(s_attached);
STATE_CHECK(s_core);
STATE_CHECK(s_waitTimer);
STATE_CHECK(s_shuttingDown);
STATE_CHECK(s_explicitBreakInto);
STATE_CHECK(s_dbgBusy);
STATE_CHECK(s_appRunning);
#undef STATE_CHECK
if (!found)
out += TQString::number(i);
out += " ";
}
}
kdDebug(9012) << out << "\n";
}
}
int GDBController::qtVersion( ) const
{
return DomUtil::readIntEntry( dom, "/kdevcppsupport/qt/version", 3 );
}
void GDBController::demandAttention() const
{
if ( TQWidget * w = kapp->mainWidget() )
{
KWin::demandAttention( w->winId(), true );
}
}
bool GDBController::miPendingBreakpoints() const
{
return mi_pending_breakpoints_;
}
}
// **************************************************************************
// **************************************************************************
// **************************************************************************
#include "gdbcontroller.moc"