/************************************************************************** ** ** This file is part of Qt Creator ** ** Copyright (c) 2011 Nokia Corporation and/or its subsidiary(-ies). ** ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** ** GNU Lesser General Public License Usage ** ** This file may be used under the terms of the GNU Lesser General Public ** License version 2.1 as published by the Free Software Foundation and ** appearing in the file LICENSE.LGPL included in the packaging of this file. ** Please review the following information to ensure the GNU Lesser General ** Public License version 2.1 requirements will be met: ** http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** Other Usage ** ** Alternatively, this file may be used in accordance with the terms and ** conditions contained in a signed written agreement between you and Nokia. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** **************************************************************************/ #include "breakpoint.h" #include "utils/qtcassert.h" #include #include #include namespace Debugger { namespace Internal { ////////////////////////////////////////////////////////////////// // // BreakpointModelId // ////////////////////////////////////////////////////////////////// /*! \class Debugger::Internal::ModelId This identifies a breakpoint in the \c BreakHandler. The major parts are strictly increasing over time. The minor part identifies a multiple breakpoint set for example by gdb in constructors. */ QDebug operator<<(QDebug d, const BreakpointModelId &id) { d << qPrintable(id.toString()); return d; } QByteArray BreakpointModelId::toByteArray() const { if (!isValid()) return ""; QByteArray ba = QByteArray::number(m_majorPart); if (isMinor()) { ba.append('.'); ba.append(QByteArray::number(m_minorPart)); } return ba; } QString BreakpointModelId::toString() const { if (!isValid()) return ""; if (isMinor()) return QString("%1.%2").arg(m_majorPart).arg(m_minorPart); return QString::number(m_majorPart); } BreakpointModelId BreakpointModelId::parent() const { QTC_ASSERT(isMinor(), return BreakpointModelId()); return BreakpointModelId(m_majorPart, 0); } BreakpointModelId BreakpointModelId::child(int row) const { QTC_ASSERT(isMajor(), return BreakpointModelId()); return BreakpointModelId(m_majorPart, row + 1); } ////////////////////////////////////////////////////////////////// // // BreakpointResponseId // ////////////////////////////////////////////////////////////////// /*! \class Debugger::Internal::BreakpointResponseId This is what the external debuggers use to identify a breakpoint. It is only valid for one debugger run. In gdb, the breakpoint number is used, which is constant during a session. CDB's breakpoint numbers vary if breakpoints are deleted, so, the ID is used. */ BreakpointResponseId::BreakpointResponseId(const QByteArray &ba) { int pos = ba.indexOf('.'); if (pos == -1) { m_majorPart = ba.toInt(); m_minorPart = 0; } else { m_majorPart = ba.left(pos).toInt(); m_minorPart = ba.mid(pos + 1).toInt(); } } QDebug operator<<(QDebug d, const BreakpointResponseId &id) { d << qPrintable(id.toString()); return d; } QByteArray BreakpointResponseId::toByteArray() const { if (!isValid()) return ""; QByteArray ba = QByteArray::number(m_majorPart); if (isMinor()) { ba.append('.'); ba.append(QByteArray::number(m_minorPart)); } return ba; } QString BreakpointResponseId::toString() const { if (!isValid()) return ""; if (isMinor()) return QString("%1.%2").arg(m_majorPart).arg(m_minorPart); return QString::number(m_majorPart); } BreakpointResponseId BreakpointResponseId::parent() const { QTC_ASSERT(isMinor(), return BreakpointResponseId()); return BreakpointResponseId(m_majorPart, 0); } BreakpointResponseId BreakpointResponseId::child(int row) const { QTC_ASSERT(isMajor(), return BreakpointResponseId()); return BreakpointResponseId(m_majorPart, row + 1); } ////////////////////////////////////////////////////////////////// // // BreakpointParameters // ////////////////////////////////////////////////////////////////// /*! \class Debugger::Internal::BreakpointParameters Data type holding the parameters of a breakpoint. */ BreakpointParameters::BreakpointParameters(BreakpointType t) : type(t), enabled(true), pathUsage(BreakpointPathUsageEngineDefault), ignoreCount(0), lineNumber(0), address(0), size(0), bitpos(0), bitsize(0), threadSpec(-1), tracepoint(false) {} BreakpointParts BreakpointParameters::differencesTo (const BreakpointParameters &rhs) const { BreakpointParts parts = BreakpointParts(); if (type != rhs.type) parts |= TypePart; if (enabled != rhs.enabled) parts |= EnabledPart; if (pathUsage != rhs.pathUsage) parts |= PathUsagePart; if (fileName != rhs.fileName) parts |= FileAndLinePart; if (!conditionsMatch(rhs.condition)) parts |= ConditionPart; if (ignoreCount != rhs.ignoreCount) parts |= IgnoreCountPart; if (lineNumber != rhs.lineNumber) parts |= FileAndLinePart; if (address != rhs.address) parts |= AddressPart; if (threadSpec != rhs.threadSpec) parts |= ThreadSpecPart; if (functionName != rhs.functionName) parts |= FunctionPart; if (tracepoint != rhs.tracepoint) parts |= TracePointPart; if (module != rhs.module) parts |= ModulePart; if (command != rhs.command) parts |= CommandPart; if (message != rhs.message) parts |= MessagePart; return parts; } bool BreakpointParameters::isValid() const { switch (type) { case Debugger::Internal::BreakpointByFileAndLine: return !fileName.isEmpty() && lineNumber > 0; case Debugger::Internal::BreakpointByFunction: return !functionName.isEmpty(); case Debugger::Internal::WatchpointAtAddress: case Debugger::Internal::BreakpointByAddress: return address != 0; case Debugger::Internal::BreakpointAtThrow: case Debugger::Internal::BreakpointAtCatch: case Debugger::Internal::BreakpointAtMain: case Debugger::Internal::BreakpointAtFork: case Debugger::Internal::BreakpointAtExec: case Debugger::Internal::BreakpointAtSysCall: case Debugger::Internal::BreakpointOnQmlSignalHandler: case Debugger::Internal::BreakpointAtJavaScriptThrow: break; case Debugger::Internal::WatchpointAtExpression: return !expression.isEmpty(); case Debugger::Internal::UnknownType: return false; } return true; } bool BreakpointParameters::equals(const BreakpointParameters &rhs) const { return !differencesTo(rhs); } bool BreakpointParameters::conditionsMatch(const QByteArray &other) const { // Some versions of gdb "beautify" the passed condition. QByteArray s1 = condition; s1.replace(' ', ""); QByteArray s2 = other; s2.replace(' ', ""); return s1 == s2; } void BreakpointParameters::updateLocation(const QByteArray &location) { if (location.size()) { int pos = location.indexOf(':'); lineNumber = location.mid(pos + 1).toInt(); QString file = QString::fromUtf8(location.left(pos)); if (file.startsWith(QLatin1Char('"')) && file.endsWith(QLatin1Char('"'))) file = file.mid(1, file.size() - 2); QFileInfo fi(file); if (fi.isReadable()) fileName = fi.absoluteFilePath(); } } QString BreakpointParameters::toString() const { QString result; QTextStream ts(&result); ts << "Type: " << type; switch (type) { case BreakpointByFileAndLine: ts << " FileName: " << fileName << ':' << lineNumber << " PathUsage: " << pathUsage; break; case BreakpointByFunction: case BreakpointOnQmlSignalHandler: ts << " FunctionName: " << functionName; break; case BreakpointByAddress: case WatchpointAtAddress: ts << " Address: " << address; break; case WatchpointAtExpression: ts << " Expression: " << expression; break; case BreakpointAtThrow: case BreakpointAtCatch: case BreakpointAtMain: case BreakpointAtFork: case BreakpointAtExec: //case BreakpointAtVFork: case BreakpointAtSysCall: case BreakpointAtJavaScriptThrow: case UnknownType: break; } ts << (enabled ? " [enabled]" : " [disabled]"); if (!condition.isEmpty()) ts << " Condition: " << condition; if (ignoreCount) ts << " IgnoreCount: " << ignoreCount; if (tracepoint) ts << " [tracepoint]"; if (!module.isEmpty()) ts << " Module: " << module; if (!command.isEmpty()) ts << " Command: " << command; if (!message.isEmpty()) ts << " Message: " << message; return result; } ////////////////////////////////////////////////////////////////// // // BreakpointResponse // ////////////////////////////////////////////////////////////////// /*! \class Debugger::Internal::BreakpointResponse This is what debuggers produce in response to the attempt to insert a breakpoint. The data might differ from the requested bits. */ BreakpointResponse::BreakpointResponse() { pending = true; hitCount = 0; multiple = false; correctedLineNumber = 0; } QString BreakpointResponse::toString() const { QString result = BreakpointParameters::toString(); QTextStream ts(&result); ts << " Number: " << id.toString(); if (pending) ts << " [pending]"; if (!functionName.isEmpty()) ts << " Function: " << functionName; if (multiple) ts << " Multiple: " << multiple; if (correctedLineNumber) ts << " CorrectedLineNumber: " << correctedLineNumber; ts << " Hit: " << hitCount << " times"; ts << ' '; return result + BreakpointParameters::toString(); } void BreakpointResponse::fromParameters(const BreakpointParameters &p) { BreakpointParameters::operator=(p); id = BreakpointResponseId(); multiple = false; correctedLineNumber = 0; hitCount = 0; } } // namespace Internal } // namespace Debugger