/* * Copyright Johannes Sixt * This file is licensed under the GNU General Public License Version 2. * See the file COPYING in the toplevel directory of the source directory. */ #include "dbgdriver.h" #include "exprwnd.h" #include #include #include /* strtol, atoi */ #include #ifdef HAVE_CONFIG_H #include "config.h" #endif #include "mydebug.h" #include DebuggerDriver::DebuggerDriver() : TDEProcess(), m_state(DSidle), m_output(0), m_outputLen(0), m_outputAlloc(0), m_activeCmd(0), m_promptMinLen(0), m_promptLastChar('\0') { m_outputAlloc = 4000; m_output = new char[m_outputAlloc]; m_prompt[0] = '\0'; // Derived classes can set either m_prompt or m_promptRE. // If m_promptRE is set, it must include the '$' at the end. // m_promptLastChar and m_promptMinLen must also be set. // debugger process connect(this, SIGNAL(receivedStdout(TDEProcess*,char*,int)), SLOT(slotReceiveOutput(TDEProcess*,char*,int))); connect(this, SIGNAL(wroteStdin(TDEProcess*)), SLOT(slotCommandRead(TDEProcess*))); connect(this, SIGNAL(processExited(TDEProcess*)), SLOT(slotExited(TDEProcess*))); } DebuggerDriver::~DebuggerDriver() { delete[] m_output; flushHiPriQueue(); flushLoPriQueue(); } int DebuggerDriver::commSetupDoneC() { TRACE(__PRETTY_FUNCTION__); if (!TDEProcess::commSetupDoneC()) return 0; close(STDERR_FILENO); return dup2(STDOUT_FILENO, STDERR_FILENO) != -1; } bool DebuggerDriver::startup(TQString cmdStr) { // clear command queues delete m_activeCmd; m_activeCmd = 0; flushHiPriQueue(); flushLoPriQueue(); m_state = DSidle; // debugger executable if (cmdStr.isEmpty()) cmdStr = defaultInvocation(); TQStringList cmd = TQStringList::split(' ', cmdStr); clearArguments(); for (TQStringList::iterator i = cmd.begin(); i != cmd.end(); ++i) { *this << *i; } if (!start(TDEProcess::NotifyOnExit, TDEProcess::Communication(TDEProcess::Stdin|TDEProcess::Stdout))) { return false; } // open log file if (!m_logFile.isOpen() && !m_logFileName.isEmpty()) { m_logFile.setName(m_logFileName); m_logFile.open(IO_WriteOnly); } // these must be set by derived classes in their constructor assert(m_promptMinLen > 0); // _must_ have a prompt assert(m_promptLastChar != '\0'); // last char _must_ be fixed assert(m_prompt[0] == '\0' || strlen(m_prompt) == m_promptMinLen); // either a prompt or a regexp assert(m_prompt[0] != '\0' && m_promptMinLen < sizeof(m_prompt) || !m_promptRE.isEmpty() && m_promptRE.isValid()); return true; } void DebuggerDriver::slotExited(TDEProcess*) { static const char txt[] = "\n====== debugger exited ======\n"; if (m_logFile.isOpen()) { m_logFile.writeBlock(txt,sizeof(txt)-1); } // reset state m_state = DSidle; // empty buffer m_outputLen = 0; *m_output = '\0'; } CmdQueueItem* DebuggerDriver::executeCmdString(DbgCommand cmd, TQString cmdString, bool clearLow) { // place a new command into the high-priority queue CmdQueueItem* cmdItem = new CmdQueueItem(cmd, cmdString); m_hipriCmdQueue.push(cmdItem); if (clearLow) { if (m_state == DSrunningLow) { // take the liberty to interrupt the running command m_state = DSinterrupted; kill(SIGINT); ASSERT(m_activeCmd != 0); TRACE(TQString().sprintf("interrupted the command %d", (m_activeCmd ? m_activeCmd->m_cmd : -1))); delete m_activeCmd; m_activeCmd = 0; } flushLoPriQueue(); } // if gdb is idle, send it the command if (m_state == DSidle) { ASSERT(m_activeCmd == 0); writeCommand(); } return cmdItem; } bool CmdQueueItem::IsEqualCmd::operator()(CmdQueueItem* cmd) const { return cmd->m_cmd == m_cmd && cmd->m_cmdString == m_str; } CmdQueueItem* DebuggerDriver::queueCmdString(DbgCommand cmd, TQString cmdString, QueueMode mode) { // place a new command into the low-priority queue std::list::iterator i; CmdQueueItem* cmdItem = 0; switch (mode) { case TQMoverrideMoreEqual: case TQMoverride: // check whether gdb is currently processing this command if (m_activeCmd != 0 && m_activeCmd->m_cmd == cmd && m_activeCmd->m_cmdString == cmdString) { return m_activeCmd; } // check whether there is already the same command in the queue i = find_if(m_lopriCmdQueue.begin(), m_lopriCmdQueue.end(), CmdQueueItem::IsEqualCmd(cmd, cmdString)); if (i != m_lopriCmdQueue.end()) { // found one cmdItem = *i; if (mode == TQMoverrideMoreEqual) { // All commands are equal, but some are more equal than others... // put this command in front of all others m_lopriCmdQueue.erase(i); m_lopriCmdQueue.push_front(cmdItem); } break; } // else none found, so add it // drop through case TQMnormal: cmdItem = new CmdQueueItem(cmd, cmdString); m_lopriCmdQueue.push_back(cmdItem); } // if gdb is idle, send it the command if (m_state == DSidle) { ASSERT(m_activeCmd == 0); writeCommand(); } return cmdItem; } // dequeue a pending command, make it the active one and send it to gdb void DebuggerDriver::writeCommand() { // ASSERT(m_activeCmd == 0); assert(m_activeCmd == 0); // first check the high-priority queue - only if it is empty // use a low-priority command. CmdQueueItem* cmd; DebuggerState newState = DScommandSent; if (!m_hipriCmdQueue.empty()) { cmd = m_hipriCmdQueue.front(); m_hipriCmdQueue.pop(); } else if (!m_lopriCmdQueue.empty()) { cmd = m_lopriCmdQueue.front(); m_lopriCmdQueue.pop_front(); newState = DScommandSentLow; } else { // nothing to do m_state = DSidle; /* is necessary if command was interrupted earlier */ return; } m_activeCmd = cmd; TRACE("in writeCommand: " + cmd->m_cmdString); const char* str = cmd->m_cmdString.local8Bit(); writeStdin(str, cmd->m_cmdString.local8Bit().length()); // write also to log file if (m_logFile.isOpen()) { m_logFile.writeBlock(str, cmd->m_cmdString.local8Bit().length()); m_logFile.flush(); } m_state = newState; } void DebuggerDriver::flushLoPriQueue() { while (!m_lopriCmdQueue.empty()) { delete m_lopriCmdQueue.back(); m_lopriCmdQueue.pop_back(); } } void DebuggerDriver::flushHiPriQueue() { while (!m_hipriCmdQueue.empty()) { delete m_hipriCmdQueue.front(); m_hipriCmdQueue.pop(); } } void DebuggerDriver::flushCommands(bool hipriOnly) { flushHiPriQueue(); if (!hipriOnly) { flushLoPriQueue(); } } void DebuggerDriver::slotCommandRead(TDEProcess*) { TRACE(__PRETTY_FUNCTION__); // there must be an active command which is not yet commited ASSERT(m_state == DScommandSent || m_state == DScommandSentLow); ASSERT(m_activeCmd != 0); ASSERT(!m_activeCmd->m_committed); // commit the command m_activeCmd->m_committed = true; // now the debugger is officially working on the command m_state = m_state == DScommandSent ? DSrunning : DSrunningLow; // set the flag that reflects whether the program is really running switch (m_activeCmd->m_cmd) { case DCrun: case DCcont: case DCnext: case DCstep: case DCfinish: case DCuntil: emit inferiorRunning(); break; default: break; } // re-receive delayed output while (!m_delayedOutput.empty()) { TQByteArray delayed = m_delayedOutput.front(); m_delayedOutput.pop(); slotReceiveOutput(0, const_cast(delayed.data()), delayed.size()); } } void DebuggerDriver::slotReceiveOutput(TDEProcess*, char* buffer, int buflen) { /* * The debugger should be running (processing a command) at this point. * If it is not, it is still idle because we haven't received the * wroteStdin signal yet, in which case there must be an active command * which is not commited. */ if (m_state == DScommandSent || m_state == DScommandSentLow) { ASSERT(m_activeCmd != 0); ASSERT(!m_activeCmd->m_committed); /* * We received output before we got signal wroteStdin. Collect this * output, it will be re-sent by commandRead when it gets the * acknowledgment for the uncommitted command. */ m_delayedOutput.push(TQByteArray().duplicate(buffer, buflen)); return; } // write to log file (do not log delayed output - it would appear twice) if (m_logFile.isOpen()) { m_logFile.writeBlock(buffer, buflen); m_logFile.flush(); } /* * gdb sometimes produces stray output while it's idle. This happens if * it receives a signal, most prominently a SIGCONT after a SIGTSTP: * The user haltet kdbg with Ctrl-Z, then continues it with "fg", which * also continues gdb, which repeats the prompt! */ if (m_activeCmd == 0 && m_state != DSinterrupted) { // ignore the output TRACE("ignoring stray output: " + TQString::fromLatin1(buffer, buflen)); return; } ASSERT(m_state == DSrunning || m_state == DSrunningLow || m_state == DSinterrupted); ASSERT(m_activeCmd != 0 || m_state == DSinterrupted); // collect output until next prompt string is found // accumulate it if (m_outputLen + buflen >= m_outputAlloc) { /* * Must enlarge m_output: double it. Note: That particular * sequence of commandes here ensures exception safety. */ int newSize = m_outputAlloc * 2; char* newBuf = new char[newSize]; memcpy(newBuf, m_output, m_outputLen); delete[] m_output; m_output = newBuf; m_outputAlloc = newSize; } memcpy(m_output+m_outputLen, buffer, buflen); m_outputLen += buflen; m_output[m_outputLen] = '\0'; /* * If there's a prompt string in the collected output, it must be at * the very end. In order to quickly find out whether there is a prompt * string, we check whether the last character of m_output is identical * to the last character of the prompt string. Only if it is, we check * for the full prompt string. * * Note: Using the regular expression here is most expensive, because * it translates m_output to a TQString each time. * * Note: It could nevertheless happen that a character sequence that is * equal to the prompt string appears at the end of the output, * although it is very, very unlikely (namely as part of a string that * lingered in gdb's output buffer due to some timing/heavy load * conditions for a very long time such that that buffer overflowed * exactly at the end of the prompt string look-a-like). */ int promptStart = -1; if (m_output[m_outputLen-1] == m_promptLastChar && m_outputLen >= m_promptMinLen) { // this is a candidate for a prompt at the end, // now see if there really is if (m_prompt[0] != '\0') { if (strncmp(m_output+m_outputLen-m_promptMinLen, m_prompt, m_promptMinLen) == 0) { promptStart = m_outputLen-m_promptMinLen; } } else { TQString output = TQString::fromLatin1(m_output, m_outputLen); #if TQT_VERSION >= 300 promptStart = m_promptRE.search(output); #else promptStart = m_promptRE.match(output); #endif } } if (promptStart >= 0) { // found prompt! // terminate output before the prompt m_output[promptStart] = '\0'; /* * We've got output for the active command. But if it was * interrupted, ignore it. */ if (m_state != DSinterrupted) { /* * m_state shouldn't be DSidle while we are parsing the output * so that all commands produced by parse() go into the queue * instead of being written to gdb immediately. */ ASSERT(m_state != DSidle); CmdQueueItem* cmd = m_activeCmd; m_activeCmd = 0; commandFinished(cmd); delete cmd; } // empty buffer m_outputLen = 0; *m_output = '\0'; // also clear delayed output if interrupted if (m_state == DSinterrupted) { m_delayedOutput = std::queue(); } /* * We parsed some output successfully. Unless there's more delayed * output, the debugger must be idle now, so send down the next * command. */ if (m_delayedOutput.empty()) { if (m_hipriCmdQueue.empty() && m_lopriCmdQueue.empty()) { // no pending commands m_state = DSidle; emit enterIdleState(); } else { writeCommand(); } } } } void DebuggerDriver::dequeueCmdByVar(VarTree* var) { if (var == 0) return; std::list::iterator i = m_lopriCmdQueue.begin(); while (i != m_lopriCmdQueue.end()) { if ((*i)->m_expr != 0 && var->isAncestorEq((*i)->m_expr)) { // this is indeed a critical command; delete it TRACE("removing critical lopri-cmd: " + (*i)->m_cmdString); delete *i; m_lopriCmdQueue.erase(i++); } else ++i; } } TQString DebuggerDriver::editableValue(VarTree* value) { // by default, let the user edit what is visible return value->value(); } StackFrame::~StackFrame() { delete var; } DbgAddr::DbgAddr(const TQString& aa) : a(aa) { cleanAddr(); } /* * We strip off the leading 0x and any leading zeros. */ void DbgAddr::cleanAddr() { if (a.isEmpty()) return; while (a[0] == '0' || a[0] == 'x') { a.remove(0, 1); } } void DbgAddr::operator=(const TQString& aa) { a = aa; fnoffs = TQString(); cleanAddr(); } /* Re-attach 0x in front of the address */ TQString DbgAddr::asString() const { if (a.isEmpty()) return TQString(); else return "0x" + a; } bool operator==(const DbgAddr& a1, const DbgAddr& a2) { return TQString::compare(a1.a, a2.a) == 0; } bool operator>(const DbgAddr& a1, const DbgAddr& a2) { if (a1.a.length() > a2.a.length()) return true; if (a1.a.length() < a2.a.length()) return false; return TQString::compare(a1.a, a2.a) > 0; } Breakpoint::Breakpoint() : id(0), type(breakpoint), temporary(false), enabled(true), ignoreCount(0), hitCount(0), lineNo(0) { } #include "dbgdriver.moc"