#include #include #include #include #include #include "common/TempConfig.h" #include "common/Configuration.h" #include "common/AsyncTask.h" #include "common/R2Task.h" #include "Cutter.h" #include "sdb.h" Q_GLOBAL_STATIC(ccClass, uniqueInstance) RCoreLocked::RCoreLocked(RCore *core) : core(core) { r_th_lock_enter(core->lock); } RCoreLocked::RCoreLocked(RCoreLocked &&o) : core(o.core) { o.core = nullptr; } RCoreLocked::~RCoreLocked() { r_th_lock_leave(core->lock); } RCoreLocked::operator RCore *() const { return core; } RCore *RCoreLocked::operator->() const { return core; } RCoreLocked CutterCore::core() const { return RCoreLocked(this->core_); } #define CORE_LOCK() RCoreLocked core_lock__(this->core_) CutterCore::CutterCore(QObject *parent) : QObject(parent) { r_cons_new(); // initialize console this->core_ = r_core_new(); #if defined(APPIMAGE) || defined(MACOS_R2_BUNDLED) auto prefix = QDir(QCoreApplication::applicationDirPath()); #ifdef APPIMAGE // Executable is in appdir/bin prefix.cdUp(); qInfo() << "Setting r2 prefix =" << prefix.absolutePath() << " for AppImage."; #else // MACOS_R2_BUNDLED // Executable is in Contents/MacOS, prefix is Contents/Resources/r2 prefix.cdUp(); prefix.cd("Resources"); prefix.cd("r2"); qInfo() << "Setting r2 prefix =" << prefix.absolutePath() << " for macOS Application Bundle."; #endif setConfig("dir.prefix", prefix.absolutePath()); #endif r_core_loadlibs(this->core_, R_CORE_LOADLIBS_ALL, NULL); // IMPLICIT r_bin_iobind (core_->bin, core_->io); // Otherwise r2 may ask the user for input and Cutter would freeze setConfig("scr.interactive", false); asyncTaskManager = new AsyncTaskManager(this); } CutterCore *CutterCore::getInstance() { return uniqueInstance; } QList CutterCore::sdbList(QString path) { CORE_LOCK(); QList list = QList(); Sdb *root = sdb_ns_path(core_->sdb, path.toUtf8().constData(), 0); if (root) { void *vsi; ls_iter_t *iter; ls_foreach(root->ns, iter, vsi) { SdbNs *nsi = (SdbNs *)vsi; list << nsi->name; } } return list; } QList CutterCore::sdbListKeys(QString path) { CORE_LOCK(); QList list = QList(); Sdb *root = sdb_ns_path(core_->sdb, path.toUtf8().constData(), 0); if (root) { void *vsi; ls_iter_t *iter; SdbList *l = sdb_foreach_list(root, false); ls_foreach(l, iter, vsi) { SdbKv *nsi = (SdbKv *)vsi; list << nsi->base.key; } } return list; } QString CutterCore::sdbGet(QString path, QString key) { CORE_LOCK(); Sdb *db = sdb_ns_path(core_->sdb, path.toUtf8().constData(), 0); if (db) { const char *val = sdb_const_get(db, key.toUtf8().constData(), 0); if (val && *val) return val; } return QString(""); } bool CutterCore::sdbSet(QString path, QString key, QString val) { CORE_LOCK(); Sdb *db = sdb_ns_path(core_->sdb, path.toUtf8().constData(), 1); if (!db) return false; return sdb_set(db, key.toUtf8().constData(), val.toUtf8().constData(), 0); } CutterCore::~CutterCore() { r_core_free(this->core_); r_cons_free(); } QString CutterCore::sanitizeStringForCommand(QString s) { static const QRegExp regexp(";|@"); return s.replace(regexp, "_"); } /** * @brief CutterCore::cmd send a command to radare2 * @param str the command you want to execute * Note that if you want to seek to an address, you should use CutterCore::seek * @return command output */ QString CutterCore::cmd(const QString &str) { CORE_LOCK(); RVA offset = core_->offset; QByteArray cmd = str.toUtf8(); r_core_task_sync_begin(core_); char *res = r_core_cmd_str(this->core_, cmd.constData()); r_core_task_sync_end(core_); QString o = QString(res ? res : ""); r_mem_free(res); if (offset != core_->offset) { emit seekChanged(core_->offset); } return o; } QString CutterCore::cmdRaw(const QString &str) { QString cmdStr = str; cmdStr.replace('\"', "\\\""); return cmd("\"" + cmdStr + "\""); } QJsonDocument CutterCore::cmdj(const QString &str) { CORE_LOCK(); QByteArray cmd = str.toUtf8(); r_core_task_sync_begin(core_); char *res = r_core_cmd_str(this->core_, cmd.constData()); r_core_task_sync_end(core_); QJsonDocument doc = parseJson(res, str); r_mem_free(res); return doc; } QString CutterCore::cmdTask(const QString &str) { R2Task task(str); task.startTask(); task.joinTask(); return task.getResult(); } QJsonDocument CutterCore::cmdjTask(const QString &str) { R2Task task(str); task.startTask(); task.joinTask(); return parseJson(task.getResultRaw(), str); } QJsonDocument CutterCore::parseJson(const char *res, const QString &cmd) { QString resString = QString(res); if (resString.isEmpty()) { return QJsonDocument(); } QJsonParseError jsonError; QJsonDocument doc = res ? QJsonDocument::fromJson(resString.toUtf8(), &jsonError) : QJsonDocument(); if (jsonError.error != QJsonParseError::NoError) { if (!cmd.isNull()) { eprintf("Failed to parse JSON for command \"%s\": %s\n", cmd.toLocal8Bit().constData(), jsonError.errorString().toLocal8Bit().constData()); } else { eprintf("Failed to parse JSON: %s\n", jsonError.errorString().toLocal8Bit().constData()); } eprintf("%s\n", resString.toLocal8Bit().constData()); } return doc; } /** * @brief CutterCore::loadFile * Load initial file. TODO Maybe use the "o" commands? * @param path File path * @param baddr Base (RBin) address * @param mapaddr Map address * @param perms * @param va * @param loadbin Load RBin information * @param forceBinPlugin * @return */ bool CutterCore::loadFile(QString path, ut64 baddr, ut64 mapaddr, int perms, int va, bool loadbin, const QString &forceBinPlugin) { CORE_LOCK(); RCoreFile *f; r_config_set_i(core_->config, "io.va", va); f = r_core_file_open(core_, path.toUtf8().constData(), perms, mapaddr); if (!f) { eprintf("r_core_file_open failed\n"); return false; } if (!forceBinPlugin.isNull()) { r_bin_force_plugin(r_core_get_bin(core_), forceBinPlugin.toUtf8().constData()); } if (loadbin && va) { if (!r_core_bin_load(core_, path.toUtf8().constData(), baddr)) { eprintf("CANNOT GET RBIN INFO\n"); } #if HAVE_MULTIPLE_RBIN_FILES_INSIDE_SELECT_WHICH_ONE if (!r_core_file_open(core, path.toUtf8(), R_IO_READ | (rw ? R_IO_WRITE : 0, mapaddr))) { eprintf("Cannot open file\n"); } else { // load RBin information // XXX only for sub-bins r_core_bin_load(core, path.toUtf8(), baddr); r_bin_select_idx(core_->bin, NULL, idx); } #endif } else { // Not loading RBin info coz va = false } auto iod = core_->io ? core_->io->desc : NULL; auto debug = core_->file && iod && (core_->file->fd == iod->fd) && iod->plugin && \ iod->plugin->isdbg; if (!debug && r_flag_get (core_->flags, "entry0")) { r_core_cmd0 (core_, "s entry0"); } if (perms & R_PERM_W) { r_core_cmd0 (core_, "omfg+w"); } r_core_hash_load(core_, path.toUtf8().constData()); fflush(stdout); return true; } bool CutterCore::tryFile(QString path, bool rw) { CORE_LOCK(); RCoreFile *cf; int flags = R_PERM_R; if (rw) flags = R_PERM_RW; cf = r_core_file_open(this->core_, path.toUtf8().constData(), flags, 0LL); if (!cf) { return false; } r_core_file_close (this->core_, cf); return true; } void CutterCore::openFile(QString path, RVA mapaddr) { if (mapaddr != RVA_INVALID) { cmd("o " + path + QString(" %1").arg(mapaddr)); } else { cmd("o " + path); } } void CutterCore::renameFunction(const QString &oldName, const QString &newName) { cmdRaw("afn " + newName + " " + oldName); emit functionRenamed(oldName, newName); } void CutterCore::delFunction(RVA addr) { cmd("af- " + RAddressString(addr)); emit functionsChanged(); } void CutterCore::renameFlag(QString old_name, QString new_name) { cmdRaw("fr " + old_name + " " + new_name); emit flagsChanged(); } void CutterCore::delFlag(RVA addr) { cmd("f-@" + RAddressString(addr)); emit flagsChanged(); } void CutterCore::delFlag(const QString &name) { cmdRaw("f-" + name); emit flagsChanged(); } QString CutterCore::getInstructionBytes(RVA addr) { return cmdj("aoj @ " + RAddressString(addr)).array().first().toObject()["bytes"].toString(); } QString CutterCore::getInstructionOpcode(RVA addr) { return cmdj("aoj @ " + RAddressString(addr)).array().first().toObject()["opcode"].toString(); } void CutterCore::editInstruction(RVA addr, const QString &inst) { cmd("wa " + inst + " @ " + RAddressString(addr)); emit instructionChanged(addr); } void CutterCore::nopInstruction(RVA addr) { cmd("wao nop @ " + RAddressString(addr)); emit instructionChanged(addr); } void CutterCore::jmpReverse(RVA addr) { cmd("wao recj @ " + RAddressString(addr)); emit instructionChanged(addr); } void CutterCore::editBytes(RVA addr, const QString &bytes) { cmd("wx " + bytes + " @ " + RAddressString(addr)); emit instructionChanged(addr); } void CutterCore::editBytesEndian(RVA addr, const QString &bytes) { cmd("wv " + bytes + " @ " + RAddressString(addr)); emit stackChanged(); } void CutterCore::setToCode(RVA addr) { cmd("Cd- @ " + RAddressString(addr)); emit instructionChanged(addr); } void CutterCore::setToData(RVA addr, int size, int repeat) { if (size <= 0 || repeat <= 0) { return; } cmd("Cd- @ " + RAddressString(addr)); cmd(QString::asprintf("Cd %d %d @ %lld", size, repeat, addr)); emit instructionChanged(addr); } int CutterCore::sizeofDataMeta(RVA addr) { bool ok; int size = cmd("Cd. @ " + RAddressString(addr)).toInt(&ok); return (ok ? size : 0); } void CutterCore::setComment(RVA addr, const QString &cmt) { cmd("CCu base64:" + cmt.toLocal8Bit().toBase64() + " @ " + QString::number(addr)); emit commentsChanged(); } void CutterCore::delComment(RVA addr) { cmd("CC- @ " + QString::number(addr)); emit commentsChanged(); } void CutterCore::setImmediateBase(const QString &r2BaseName, RVA offset) { if (offset == RVA_INVALID) { offset = getOffset(); } this->cmd("ahi " + r2BaseName + " @ " + QString::number(offset)); emit instructionChanged(offset); } void CutterCore::setCurrentBits(int bits, RVA offset) { if (offset == RVA_INVALID) { offset = getOffset(); } this->cmd("ahb " + QString::number(bits) + " @ " + QString::number(offset)); emit instructionChanged(offset); } void CutterCore::seek(ut64 offset) { // Slower than using the API, but the API is not complete // which means we either have to duplicate code from radare2 // here, or refactor radare2 API. CORE_LOCK(); if (offset == RVA_INVALID) { return; } cmd(QString("s %1").arg(offset)); // cmd already does emit seekChanged(core_->offset); triggerRaisePrioritizedMemoryWidget(); } void CutterCore::seek(QString thing) { cmdRaw(QString("s %1").arg(thing)); triggerRaisePrioritizedMemoryWidget(); } void CutterCore::seekPrev() { cmd("s-"); triggerRaisePrioritizedMemoryWidget(); } void CutterCore::seekNext() { cmd("s+"); triggerRaisePrioritizedMemoryWidget(); } void CutterCore::updateSeek() { emit seekChanged(core_->offset); } RVA CutterCore::prevOpAddr(RVA startAddr, int count) { CORE_LOCK(); bool ok; RVA offset = cmd("/O " + QString::number(count) + " @ " + QString::number(startAddr)).toULongLong( &ok, 16); return ok ? offset : startAddr - count; } RVA CutterCore::nextOpAddr(RVA startAddr, int count) { CORE_LOCK(); QJsonArray array = Core()->cmdj("pdj " + QString::number(count + 1) + "@" + QString::number( startAddr)).array(); if (array.isEmpty()) { return startAddr + 1; } QJsonValue instValue = array.last(); if (!instValue.isObject()) { return startAddr + 1; } bool ok; RVA offset = instValue.toObject()["offset"].toVariant().toULongLong(&ok); if (!ok) { return startAddr + 1; } return offset; } RVA CutterCore::getOffset() { return core_->offset; } ut64 CutterCore::math(const QString &expr) { CORE_LOCK(); return r_num_math(this->core_ ? this->core_->num : NULL, expr.toUtf8().constData()); } void CutterCore::setConfig(const QString &k, const QString &v) { CORE_LOCK(); r_config_set(core_->config, k.toUtf8().constData(), v.toUtf8().constData()); } void CutterCore::setConfig(const QString &k, int v) { CORE_LOCK(); r_config_set_i(core_->config, k.toUtf8().constData(), static_cast(v)); } void CutterCore::setConfig(const QString &k, bool v) { CORE_LOCK(); r_config_set_i(core_->config, k.toUtf8().constData(), v ? 1 : 0); } int CutterCore::getConfigi(const QString &k) { CORE_LOCK(); QByteArray key = k.toUtf8(); return static_cast(r_config_get_i(core_->config, key.constData())); } bool CutterCore::getConfigb(const QString &k) { CORE_LOCK(); return r_config_get_i(core_->config, k.toUtf8().constData()) != 0; } void CutterCore::triggerRefreshAll() { emit refreshAll(); } void CutterCore::triggerAsmOptionsChanged() { emit asmOptionsChanged(); } void CutterCore::triggerGraphOptionsChanged() { emit graphOptionsChanged(); } void CutterCore::message(const QString &msg, bool debug) { if (msg.isEmpty()) return; if (debug) { qDebug() << msg; emit newDebugMessage(msg); return; } emit newMessage(msg); } QString CutterCore::getConfig(const QString &k) { CORE_LOCK(); QByteArray key = k.toUtf8(); return QString(r_config_get(core_->config, key.constData())); } void CutterCore::setConfig(const QString &k, const QVariant &v) { switch (v.type()) { case QVariant::Type::Bool: setConfig(k, v.toBool()); break; case QVariant::Type::Int: setConfig(k, v.toInt()); break; default: setConfig(k, v.toString()); break; } } void CutterCore::setCPU(QString arch, QString cpu, int bits) { if (arch != nullptr) { setConfig("asm.arch", arch); } if (cpu != nullptr) { setConfig("asm.cpu", cpu); } setConfig("asm.bits", bits); } void CutterCore::setEndianness(bool big) { setConfig("cfg.bigendian", big); } void CutterCore::setBBSize(int size) { setConfig("anal.bb.maxsize", size); } QString CutterCore::assemble(const QString &code) { CORE_LOCK(); RAsmCode *ac = r_asm_massemble(core_->assembler, code.toUtf8().constData()); QString hex(ac != nullptr ? ac->buf_hex : ""); r_asm_code_free(ac); return hex; } QString CutterCore::disassemble(const QString &hex) { CORE_LOCK(); RAsmCode *ac = r_asm_mdisassemble_hexstr(core_->assembler, hex.toUtf8().constData()); QString code = QString(ac != nullptr ? ac->buf_asm : ""); r_asm_code_free(ac); return code; } QString CutterCore::disassembleSingleInstruction(RVA addr) { return cmd("pi 1@" + QString::number(addr)).simplified(); } RAnalFunction *CutterCore::functionAt(ut64 addr) { CORE_LOCK(); //return r_anal_fcn_find (core_->anal, addr, addr); return r_anal_get_fcn_in(core_->anal, addr, 0); } QString CutterCore::cmdFunctionAt(QString addr) { QString ret; //afi~name:1[1] @ 0x08048e44 //ret = cmd("afi~name[1] @ " + addr); ret = cmd(QString("fd @ ") + addr + "~[0]"); return ret.trimmed(); } QString CutterCore::cmdFunctionAt(RVA addr) { return cmdFunctionAt(QString::number(addr)); } void CutterCore::cmdEsil(QString command) { QString res = cmd(command); if (res.contains("[ESIL] Stopped execution in an invalid instruction")) { msgBox.showMessage("Stopped when attempted to run an invalid instruction. You can disable this in Preferences"); } } QString CutterCore::createFunctionAt(RVA addr, QString name) { name.remove(QRegExp("[^a-zA-Z0-9_]")); QString command = "af " + name + " " + RAddressString(addr); QString ret = cmd(command); emit functionsChanged(); return ret; } QJsonDocument CutterCore::getRegistersInfo() { return cmdj("aeafj"); } RVA CutterCore::getOffsetJump(RVA addr) { bool ok; RVA value = cmdj("aoj @" + QString::number( addr)).array().first().toObject().value("jump").toVariant().toULongLong(&ok); if (!ok) { return RVA_INVALID; } return value; } QString CutterCore::getDecompiledCodePDC(RVA addr) { return cmd("pdc @ " + QString::number(addr)); } bool CutterCore::getR2DecAvailable() { return cmd("e cmd.pdc=?").split('\n').contains("r2dec"); } QString CutterCore::getDecompiledCodeR2Dec(RVA addr) { return cmd("pdd @ " + QString::number(addr)); } QJsonDocument CutterCore::getFileInfo() { return cmdj("ij"); } QJsonDocument CutterCore::getFileVersionInfo() { return cmdj("iVj"); } QJsonDocument CutterCore::getSignatureInfo() { return cmdj("iCj"); } QJsonDocument CutterCore::getStack(int size) { return cmdj("pxrj " + QString::number(size) + " @ r:SP"); } QJsonDocument CutterCore::getRegisterValues() { return cmdj("drj"); } QList CutterCore::getRegisterRefs() { QList ret; QJsonArray registerRefArray = cmdj("drrj").array(); for (QJsonValue value : registerRefArray) { QJsonObject regRefObject = value.toObject(); RegisterRefDescription regRef; regRef.reg = regRefObject["reg"].toString(); regRef.value = regRefObject["value"].toString(); regRef.ref = regRefObject["ref"].toString(); ret << regRef; } return ret; } QJsonObject CutterCore::getRegisterJson() { QJsonArray registerRefArray = cmdj("drrj").array(); QJsonObject registerJson; for (QJsonValue value : registerRefArray) { QJsonObject regRefObject = value.toObject(); QJsonObject registers; registers.insert("value", regRefObject["value"]); registers.insert("ref", regRefObject["ref"]); registerJson.insert(regRefObject["reg"].toString(), registers); } return registerJson; } QString CutterCore::getRegisterName(QString registerRole) { return cmd("drn " + registerRole).trimmed(); } RVA CutterCore::getProgramCounterValue() { bool ok; if (currentlyDebugging) { RVA addr = cmd("dr?`drn PC`").toULongLong(&ok, 16); if (ok) { return addr; } } return RVA_INVALID; } void CutterCore::setRegister(QString regName, QString regValue) { cmd("dr " + regName + "=" + regValue); emit registersChanged(); emit refreshCodeViews(); } void CutterCore::startDebug() { if (!currentlyDebugging) { offsetPriorDebugging = getOffset(); } cmd("ood"); emit registersChanged(); if (!currentlyDebugging) { setConfig("asm.flags", false); currentlyDebugging = true; emit changeDebugView(); emit flagsChanged(); emit refreshCodeViews(); } emit stackChanged(); } void CutterCore::startEmulation() { if (!currentlyDebugging) { offsetPriorDebugging = getOffset(); } // clear registers, init esil state, stack, progcounter at current seek cmd("ar0; aei; aeim; aeip"); emit registersChanged(); if (!currentlyDebugging || !currentlyEmulating) { // prevent register flags from appearing during debug/emul setConfig("asm.flags", false); // allows to view self-modifying code changes or other binary changes setConfig("io.cache", true); currentlyDebugging = true; currentlyEmulating = true; emit changeDebugView(); emit flagsChanged(); } emit stackChanged(); emit refreshCodeViews(); } void CutterCore::attachDebug(int pid) { if (!currentlyDebugging) { offsetPriorDebugging = getOffset(); } // attach to process with dbg plugin cmd("o-*; e cfg.debug = true; o+ dbg://" + QString::number(pid)); QString programCounterValue = cmd("dr?`drn PC`").trimmed(); seek(programCounterValue); emit registersChanged(); if (!currentlyDebugging || !currentlyEmulating) { // prevent register flags from appearing during debug/emul setConfig("asm.flags", false); currentlyDebugging = true; currentlyOpenFile = getConfig("file.path"); currentlyAttachedToPID = pid; emit flagsChanged(); emit changeDebugView(); } } void CutterCore::stopDebug() { if (currentlyDebugging) { if (currentlyEmulating) { cmd("aeim-; aei-; wcr; .ar-"); currentlyEmulating = false; } else if (currentlyAttachedToPID != -1) { cmd(QString("dp- %1; o %2; .ar-").arg(QString::number(currentlyAttachedToPID), currentlyOpenFile)); currentlyAttachedToPID = -1; } else { cmd("dk 9; oo; .ar-"); } seek(offsetPriorDebugging); setConfig("asm.flags", true); setConfig("io.cache", false); currentlyDebugging = false; emit flagsChanged(); emit changeDefinedView(); } } void CutterCore::continueDebug() { if (currentlyDebugging) { if (currentlyEmulating) { cmdEsil("aec"); } else { cmd("dc"); } emit registersChanged(); emit refreshCodeViews(); } } void CutterCore::continueUntilDebug(QString offset) { if (currentlyDebugging) { if (currentlyEmulating) { cmdEsil("aecu " + offset); } else { cmd("dcu " + offset); } emit registersChanged(); emit refreshCodeViews(); } } void CutterCore::continueUntilCall() { if (currentlyDebugging) { if (currentlyEmulating) { cmdEsil("aecc"); } else { cmd("dcc"); } QString programCounterValue = cmd("dr?`drn PC`").trimmed(); seek(programCounterValue); emit registersChanged(); } } void CutterCore::continueUntilSyscall() { if (currentlyDebugging) { if (currentlyEmulating) { cmdEsil("aecs"); } else { cmd("dcs"); } QString programCounterValue = cmd("dr?`drn PC`").trimmed(); seek(programCounterValue); emit registersChanged(); } } void CutterCore::stepDebug() { if (currentlyDebugging) { cmdEsil("ds"); QString programCounterValue = cmd("dr?`drn PC`").trimmed(); seek(programCounterValue); emit registersChanged(); } } void CutterCore::stepOverDebug() { if (currentlyDebugging) { cmdEsil("dso"); QString programCounterValue = cmd("dr?`drn PC`").trimmed(); seek(programCounterValue); emit registersChanged(); } } void CutterCore::stepOutDebug() { if (currentlyDebugging) { cmd("dsf"); QString programCounterValue = cmd("dr?`drn PC`").trimmed(); seek(programCounterValue); emit registersChanged(); } } QStringList CutterCore::getDebugPlugins() { QStringList plugins; QJsonArray pluginArray = cmdj("dLj").array(); for (QJsonValue value : pluginArray) { QJsonObject pluginObject = value.toObject(); QString plugin = pluginObject["name"].toString(); plugins << plugin; } return plugins; } QString CutterCore::getActiveDebugPlugin() { return getConfig("dbg.backend"); } void CutterCore::setDebugPlugin(QString plugin) { setConfig("dbg.backend", plugin); } void CutterCore::toggleBreakpoint(RVA addr) { cmd("dbs " + RAddressString(addr)); emit instructionChanged(addr); emit breakpointsChanged(); } void CutterCore::toggleBreakpoint(QString addr) { cmd("dbs " + addr); emit instructionChanged(addr.toULongLong()); emit breakpointsChanged(); } void CutterCore::delBreakpoint(RVA addr) { cmd("db- " + RAddressString(addr)); emit instructionChanged(addr); emit breakpointsChanged(); } void CutterCore::delAllBreakpoints() { cmd("db-*"); emit refreshCodeViews(); } void CutterCore::enableBreakpoint(RVA addr) { cmd("dbe " + RAddressString(addr)); emit instructionChanged(addr); emit breakpointsChanged(); } void CutterCore::disableBreakpoint(RVA addr) { cmd("dbd " + RAddressString(addr)); emit instructionChanged(addr); emit breakpointsChanged(); } QList CutterCore::getBreakpoints() { QList ret; QJsonArray breakpointArray = cmdj("dbj").array(); for (QJsonValue value : breakpointArray) { QJsonObject bpObject = value.toObject(); BreakpointDescription bp; bp.addr = bpObject["addr"].toVariant().toULongLong(); bp.size = bpObject["size"].toVariant().toInt(); bp.permission = bpObject["prot"].toString(); bp.hw = bpObject["hw"].toBool(); bp.trace = bpObject["trace"].toBool(); bp.enabled = bpObject["enabled"].toBool(); ret << bp; } return ret; } QList CutterCore::getBreakpointsAddresses() { QList bps = getBreakpoints(); BreakpointDescription bp; QList bpAddresses; foreach (bp, bps) { bpAddresses << bp.addr; } return bpAddresses; } bool CutterCore::isBreakpoint(QList breakpoints, RVA addr) { return breakpoints.contains(addr); } QJsonDocument CutterCore::getBacktrace() { return cmdj("dbtj"); } QList CutterCore::getAllProcesses() { QList ret; QJsonArray ProcessArray = cmdj("dplj").array(); for (QJsonValue value : ProcessArray) { QJsonObject procObject = value.toObject(); ProcessDescription proc; proc.pid = procObject["pid"].toVariant().toInt(); proc.uid = procObject["uid"].toVariant().toInt(); proc.status = procObject["status"].toString(); proc.path = procObject["path"].toString(); ret << proc; } return ret; } QList CutterCore::getMemoryMap() { QList ret; QJsonArray memoryMapArray = cmdj("dmj").array(); for (QJsonValue value : memoryMapArray) { QJsonObject memMapObject = value.toObject(); MemoryMapDescription memMap; memMap.name = memMapObject["name"].toString(); memMap.fileName = memMapObject["file"].toString(); memMap.addrStart = memMapObject["addr"].toVariant().toULongLong(); memMap.addrEnd = memMapObject["addr_end"].toVariant().toULongLong(); memMap.type = memMapObject["type"].toString(); memMap.permission = memMapObject["perm"].toString(); ret << memMap; } return ret; } QStringList CutterCore::getStats() { QStringList stats; cmd("fs functions"); stats << cmd("f~?").trimmed(); QString imps = cmd("ii~?").trimmed(); stats << imps; cmd("fs symbols"); stats << cmd("f~?").trimmed(); cmd("fs strings"); stats << cmd("f~?").trimmed(); cmd("fs relocs"); stats << cmd("f~?").trimmed(); cmd("fs sections"); stats << cmd("f~?").trimmed(); cmd("fs *"); stats << cmd("f~?").trimmed(); return stats; } void CutterCore::setGraphEmpty(bool empty) { emptyGraph = empty; } bool CutterCore::isGraphEmpty() { return emptyGraph; } void CutterCore::getOpcodes() { QString opcodes = cmd("?O"); this->opcodes = opcodes.split("\n"); // Remove the last empty element this->opcodes.removeLast(); QString registers = cmd("drp~[1]"); this->regs = registers.split("\n"); this->regs.removeLast(); } void CutterCore::setSettings() { setConfig("scr.interactive", false); setConfig("hex.pairs", false); setConfig("asm.xrefs", false); setConfig("asm.tabs.once", true); setConfig("asm.flags.middle", 2); setConfig("anal.hasnext", false); setConfig("asm.lines.call", false); setConfig("anal.autoname", true); setConfig("cfg.fortunes.tts", false); // Colors setConfig("scr.color", COLOR_MODE_DISABLED); // Don't show hits setConfig("search.flags", false); } QList CutterCore::getSeekHistory() { CORE_LOCK(); QList ret; QJsonArray jsonArray = cmdj("sj").array(); for (QJsonValue value : jsonArray) ret << value.toVariant().toULongLong(); return ret; } QStringList CutterCore::getAsmPluginNames() { CORE_LOCK(); RListIter *it; QStringList ret; RAsmPlugin *ap; CutterRListForeach(core_->assembler->plugins, it, RAsmPlugin, ap) { ret << ap->name; } return ret; } QStringList CutterCore::getAnalPluginNames() { CORE_LOCK(); RListIter *it; QStringList ret; RAnalPlugin *ap; CutterRListForeach(core_->anal->plugins, it, RAnalPlugin, ap) { ret << ap->name; } return ret; } QStringList CutterCore::getProjectNames() { CORE_LOCK(); QStringList ret; QJsonArray jsonArray = cmdj("Pj").array(); for (QJsonValue value : jsonArray) ret.append(value.toString()); return ret; } QList CutterCore::getRBinPluginDescriptions(const QString &type) { QList ret; QJsonObject jsonRoot = cmdj("iLj").object(); for (const QString &key : jsonRoot.keys()) { if (!type.isNull() && key != type) continue; QJsonArray pluginArray = jsonRoot[key].toArray(); for (const auto &pluginValue : pluginArray) { QJsonObject pluginObject = pluginValue.toObject(); RBinPluginDescription desc; desc.name = pluginObject["name"].toString(); desc.description = pluginObject["description"].toString(); desc.license = pluginObject["license"].toString(); desc.type = key; ret.append(desc); } } return ret; } QList CutterCore::getRIOPluginDescriptions() { QList ret; QJsonArray plugins = cmdj("oLj").object()["IO_Plugins"].toArray(); for (QJsonValueRef pluginValue : plugins) { QJsonObject pluginObject = pluginValue.toObject(); RIOPluginDescription plugin; plugin.name = pluginObject["Name"].toString(); plugin.description = pluginObject["Description"].toString(); plugin.license = pluginObject["License"].toString(); plugin.permissions = pluginObject["Permissions"].toString(); ret << plugin; } return ret; } QList CutterCore::getRCorePluginDescriptions() { QList ret; QJsonArray plugins = cmdj("Lsj").array(); for (QJsonValueRef pluginValue : plugins) { QJsonObject pluginObject = pluginValue.toObject(); RCorePluginDescription plugin; plugin.name = pluginObject["Name"].toString(); plugin.description = pluginObject["Description"].toString(); ret << plugin; } return ret; } QList CutterCore::getRAsmPluginDescriptions() { CORE_LOCK(); RListIter *it; QList ret; RAsmPlugin *ap; CutterRListForeach(core_->assembler->plugins, it, RAsmPlugin, ap) { RAsmPluginDescription plugin; plugin.name = ap->name; plugin.architecture = ap->arch; plugin.author = ap->author; plugin.version = ap->version; plugin.cpus = ap->cpus; plugin.description = ap->desc; plugin.license = ap->license; ret << plugin; } return ret; } QList CutterCore::getAllFunctions() { return parseFunctionsJson(cmdjTask("aflj")); } QList CutterCore::getAllImports() { CORE_LOCK(); QList ret; QJsonArray importsArray = cmdj("iij").array(); for (QJsonValue value : importsArray) { QJsonObject importObject = value.toObject(); ImportDescription import; import.plt = importObject["plt"].toVariant().toULongLong(); import.ordinal = importObject["ordinal"].toInt(); import.bind = importObject["bind"].toString(); import.type = importObject["type"].toString(); import.name = importObject["name"].toString(); ret << import; } return ret; } QList CutterCore::getAllExports() { CORE_LOCK(); QList ret; QJsonArray importsArray = cmdj("iEj").array(); for (QJsonValue value : importsArray) { QJsonObject importObject = value.toObject(); ExportDescription exp; exp.vaddr = importObject["vaddr"].toVariant().toULongLong(); exp.paddr = importObject["paddr"].toVariant().toULongLong(); exp.size = importObject["size"].toVariant().toULongLong(); exp.type = importObject["type"].toString(); exp.name = importObject["name"].toString(); exp.flag_name = importObject["flagname"].toString(); ret << exp; } return ret; } QList CutterCore::getAllSymbols() { CORE_LOCK(); RListIter *it; QList ret; RBinSymbol *bs; if (core_ && core_->bin && core_->bin->cur && core_->bin->cur->o) { CutterRListForeach(core_->bin->cur->o->symbols, it, RBinSymbol, bs) { QString type = QString(bs->bind) + " " + QString(bs->type); SymbolDescription symbol; symbol.vaddr = bs->vaddr; symbol.name = QString(bs->name); symbol.bind = QString(bs->bind); symbol.type = QString(bs->type); ret << symbol; } /* list entrypoints as symbols too */ int n = 0; RBinAddr *entry; CutterRListForeach(core_->bin->cur->o->entries, it, RBinAddr, entry) { SymbolDescription symbol; symbol.vaddr = entry->vaddr; symbol.name = QString("entry") + QString::number(n++); symbol.bind = ""; symbol.type = "entry"; ret << symbol; } } return ret; } QList CutterCore::getAllHeaders() { CORE_LOCK(); QList ret; QJsonArray headersArray = cmdj("ihj").array(); for (QJsonValue value : headersArray) { QJsonObject headerObject = value.toObject(); HeaderDescription header; header.vaddr = headerObject["vaddr"].toVariant().toULongLong(); header.paddr = headerObject["paddr"].toVariant().toULongLong(); header.value = headerObject["comment"].toString(); header.name = headerObject["name"].toString(); ret << header; } return ret; } QList CutterCore::getAllZignatures() { CORE_LOCK(); QList ret; QJsonArray zignaturesArray = cmdj("zj").array(); for (QJsonValue value : zignaturesArray) { QJsonObject zignatureObject = value.toObject(); ZignatureDescription zignature; zignature.name = zignatureObject["name"].toString(); zignature.bytes = zignatureObject["bytes"].toString(); zignature.offset = zignatureObject["offset"].toVariant().toULongLong(); for (QJsonValue ref : zignatureObject["refs"].toArray()) { zignature.refs << ref.toString(); } QJsonObject graphObject = zignatureObject["graph"].toObject(); zignature.cc = graphObject["cc"].toVariant().toULongLong(); zignature.nbbs = graphObject["nbbs"].toVariant().toULongLong(); zignature.edges = graphObject["edges"].toVariant().toULongLong(); zignature.ebbs = graphObject["ebbs"].toVariant().toULongLong(); ret << zignature; } return ret; } QList CutterCore::getAllComments(const QString &filterType) { CORE_LOCK(); QList ret; QJsonArray commentsArray = cmdj("CCj").array(); for (QJsonValue value : commentsArray) { QJsonObject commentObject = value.toObject(); QString type = commentObject["type"].toString(); if (type != filterType) continue; CommentDescription comment; comment.offset = commentObject["offset"].toVariant().toULongLong(); comment.name = commentObject["name"].toString(); ret << comment; } return ret; } QList CutterCore::getAllRelocs() { CORE_LOCK(); RListIter *it; QList ret; RBinReloc *br; if (core_ && core_->bin && core_->bin->cur && core_->bin->cur->o) { CutterRListForeach(core_->bin->cur->o->relocs, it, RBinReloc, br) { RelocDescription reloc; reloc.vaddr = br->vaddr; reloc.paddr = br->paddr; reloc.type = (br->additive ? "ADD_" : "SET_") + QString::number(br->type); if (br->import) reloc.name = br->import->name; else reloc.name = QString("reloc_%1").arg(QString::number(br->vaddr, 16)); ret << reloc; } } return ret; } QList CutterCore::getAllStrings() { return parseStringsJson(cmdjTask("izzj")); } QList CutterCore::parseStringsJson(const QJsonDocument &doc) { QList ret; QJsonArray stringsArray = doc.array(); for (QJsonValue value : stringsArray) { QJsonObject stringObject = value.toObject(); StringDescription string; string.string = QString(QByteArray::fromBase64(stringObject["string"].toVariant().toByteArray())); string.vaddr = stringObject["vaddr"].toVariant().toULongLong(); string.type = stringObject["type"].toString(); string.size = stringObject["size"].toVariant().toUInt(); string.length = stringObject["length"].toVariant().toUInt(); ret << string; } return ret; } QList CutterCore::parseFunctionsJson(const QJsonDocument &doc) { QList ret; QJsonArray jsonArray = doc.array(); for (QJsonValue value : jsonArray) { QJsonObject jsonObject = value.toObject(); FunctionDescription function; function.offset = (RVA)jsonObject["offset"].toVariant().toULongLong(); function.size = (RVA)jsonObject["size"].toVariant().toULongLong(); function.nargs = (RVA)jsonObject["nargs"].toVariant().toULongLong(); function.nbbs = (RVA)jsonObject["nbbs"].toVariant().toULongLong(); function.nlocals = (RVA)jsonObject["nlocals"].toVariant().toULongLong(); function.cc = (RVA)jsonObject["cc"].toVariant().toULongLong(); function.calltype = jsonObject["calltype"].toString(); function.name = jsonObject["name"].toString(); function.edges = (RVA)jsonObject["edges"].toVariant().toULongLong(); function.cost = (RVA)jsonObject["cost"].toVariant().toULongLong(); function.calls = (RVA)jsonObject["outdegree"].toVariant().toULongLong(); function.stackframe = (RVA)jsonObject["stackframe"].toVariant().toULongLong(); ret << function; } return ret; } QList CutterCore::getAllFlagspaces() { CORE_LOCK(); QList ret; QJsonArray flagspacesArray = cmdj("fsj").array(); for (QJsonValue value : flagspacesArray) { QJsonObject flagspaceObject = value.toObject(); FlagspaceDescription flagspace; flagspace.name = flagspaceObject["name"].toString(); ret << flagspace; } return ret; } QList CutterCore::getAllFlags(QString flagspace) { CORE_LOCK(); QList ret; if (!flagspace.isEmpty()) cmd("fs " + flagspace); else cmd("fs *"); QJsonArray flagsArray = cmdj("fj").array(); for (QJsonValue value : flagsArray) { QJsonObject flagObject = value.toObject(); FlagDescription flag; flag.offset = flagObject["offset"].toVariant().toULongLong(); flag.size = flagObject["size"].toVariant().toULongLong(); flag.name = flagObject["name"].toString(); ret << flag; } return ret; } QList CutterCore::getAllSections() { CORE_LOCK(); QList ret; QJsonDocument sectionsDoc = cmdj("iSj entropy"); QJsonObject sectionsObj = sectionsDoc.object(); QJsonArray sectionsArray = sectionsObj["sections"].toArray(); for (QJsonValue value : sectionsArray) { QJsonObject sectionObject = value.toObject(); QString name = sectionObject["name"].toString(); if (name.isEmpty()) continue; SectionDescription section; section.name = name; section.vaddr = sectionObject["vaddr"].toVariant().toULongLong(); section.vsize = sectionObject["vsize"].toVariant().toULongLong(); section.paddr = sectionObject["paddr"].toVariant().toULongLong(); section.size = sectionObject["size"].toVariant().toULongLong(); section.flags = sectionObject["flags"].toString(); section.entropy = sectionObject["entropy"].toString(); ret << section; } return ret; } QList CutterCore::getAllSegments() { CORE_LOCK(); QList ret; QJsonArray segments = cmdj("iSSj").array(); for (QJsonValue value : segments) { QJsonObject segmentObject = value.toObject(); QString name = segmentObject["name"].toString(); if (name.isEmpty()) continue; SegmentDescription segment; segment.name = name; segment.vaddr = segmentObject["vaddr"].toVariant().toULongLong(); segment.paddr = segmentObject["paddr"].toVariant().toULongLong(); segment.size = segmentObject["size"].toVariant().toULongLong(); segment.vsize = segmentObject["vsize"].toVariant().toULongLong(); segment.perm = segmentObject["perm"].toString(); ret << segment; } return ret; } QList CutterCore::getAllEntrypoint() { CORE_LOCK(); QList ret; QJsonArray entrypointsArray = cmdj("iej").array(); for (QJsonValue value : entrypointsArray) { QJsonObject entrypointObject = value.toObject(); EntrypointDescription entrypoint; entrypoint.vaddr = entrypointObject["vaddr"].toVariant().toULongLong(); entrypoint.paddr = entrypointObject["paddr"].toVariant().toULongLong(); entrypoint.baddr = entrypointObject["baddr"].toVariant().toULongLong(); entrypoint.laddr = entrypointObject["laddr"].toVariant().toULongLong(); entrypoint.haddr = entrypointObject["haddr"].toVariant().toULongLong(); entrypoint.type = entrypointObject["type"].toString(); ret << entrypoint; } return ret; } QList CutterCore::getAllClassesFromBin() { CORE_LOCK(); QList ret; QJsonArray classesArray = cmdj("icj").array(); for (QJsonValueRef value : classesArray) { QJsonObject classObject = value.toObject(); ClassDescription cls; cls.name = classObject["classname"].toString(); cls.addr = classObject["addr"].toVariant().toULongLong(); cls.index = classObject["index"].toVariant().toULongLong(); for (QJsonValueRef value2 : classObject["methods"].toArray()) { QJsonObject methObject = value2.toObject(); ClassMethodDescription meth; meth.name = methObject["name"].toString(); meth.addr = methObject["addr"].toVariant().toULongLong(); cls.methods << meth; } for (QJsonValueRef value2 : classObject["fields"].toArray()) { QJsonObject fieldObject = value2.toObject(); ClassFieldDescription field; field.name = fieldObject["name"].toString(); field.addr = fieldObject["addr"].toVariant().toULongLong(); cls.fields << field; } ret << cls; } return ret; } #include QList CutterCore::getAllClassesFromFlags() { static const QRegularExpression classFlagRegExp("^class\\.(.*)$"); static const QRegularExpression methodFlagRegExp("^method\\.([^\\.]*)\\.(.*)$"); CORE_LOCK(); QList ret; QMap classesCache; QJsonArray flagsArray = cmdj("fj@F:classes").array(); for (QJsonValueRef value : flagsArray) { QJsonObject flagObject = value.toObject(); QString flagName = flagObject["name"].toString(); QRegularExpressionMatch match = classFlagRegExp.match(flagName); if (match.hasMatch()) { QString className = match.captured(1); ClassDescription *desc = nullptr; auto it = classesCache.find(className); if (it == classesCache.end()) { ClassDescription cls = {}; ret << cls; desc = &ret.last(); classesCache[className] = desc; } else { desc = it.value(); } desc->name = match.captured(1); desc->addr = flagObject["offset"].toVariant().toULongLong(); desc->index = 0; continue; } match = methodFlagRegExp.match(flagName); if (match.hasMatch()) { QString className = match.captured(1); ClassDescription *classDesc = nullptr; auto it = classesCache.find(className); if (it == classesCache.end()) { // add a new stub class, will be replaced if class flag comes after it ClassDescription cls; cls.name = tr("Unknown (%1)").arg(className); cls.addr = 0; cls.index = 0; ret << cls; classDesc = &ret.last(); classesCache[className] = classDesc; } else { classDesc = it.value(); } ClassMethodDescription meth; meth.name = match.captured(2); meth.addr = flagObject["offset"].toVariant().toULongLong(); classDesc->methods << meth; continue; } } return ret; } QList CutterCore::getAllResources() { CORE_LOCK(); QList ret; QJsonArray resourcesArray = cmdj("iRj").array(); for (QJsonValueRef value : resourcesArray) { QJsonObject resourceObject = value.toObject(); ResourcesDescription res; res.name = resourceObject["name"].toInt(); res.vaddr = resourceObject["vaddr"].toVariant().toULongLong(); res.index = resourceObject["index"].toVariant().toULongLong(); res.type = resourceObject["type"].toString(); res.size = resourceObject["size"].toVariant().toULongLong(); res.lang = resourceObject["lang"].toString(); ret << res; } return ret; } QList CutterCore::getAllVTables() { CORE_LOCK(); QList ret; QJsonArray vTablesArray = cmdj("avj").array(); for (QJsonValueRef vTableValue : vTablesArray) { QJsonObject vTableObject = vTableValue.toObject(); VTableDescription res; res.addr = vTableObject["offset"].toVariant().toULongLong(); QJsonArray methodArray = vTableObject["methods"].toArray(); for (QJsonValueRef methodValue : methodArray) { QJsonObject methodObject = methodValue.toObject(); ClassMethodDescription method; method.addr = methodObject["offset"].toVariant().toULongLong(); method.name = methodObject["name"].toString(); res.methods << method; } ret << res; } return ret; } QList CutterCore::getAllTypes() { CORE_LOCK(); QList ret; QJsonArray typesArray = cmdj("tj").array(); for (QJsonValue value : typesArray) { QJsonObject typeObject = value.toObject(); TypeDescription exp; exp.type = typeObject["type"].toString(); exp.size = typeObject["size"].toVariant().toULongLong(); exp.format = typeObject["format"].toString(); ret << exp; } return ret; } QList CutterCore::getAllSearch(QString search_for, QString space) { CORE_LOCK(); QList ret; QJsonArray searchArray = cmdj(space + QString(" ") + search_for).array(); if (space == "/Rj") { for (QJsonValue value : searchArray) { QJsonObject searchObject = value.toObject(); SearchDescription exp; exp.code = QString(""); for (QJsonValue value2 : searchObject["opcodes"].toArray()) { QJsonObject gadget = value2.toObject(); exp.code += gadget["opcode"].toString() + "; "; } exp.offset = searchObject["opcodes"].toArray().first().toObject()["offset"].toVariant().toULongLong(); exp.size = searchObject["size"].toVariant().toULongLong(); ret << exp; } } else { for (QJsonValue value : searchArray) { QJsonObject searchObject = value.toObject(); SearchDescription exp; exp.offset = searchObject["offset"].toVariant().toULongLong(); exp.size = searchObject["len"].toVariant().toULongLong(); exp.code = searchObject["code"].toString(); exp.data = searchObject["data"].toString(); ret << exp; } } return ret; } BlockStatistics CutterCore::getBlockStatistics(unsigned int blocksCount) { if (blocksCount == 0) { BlockStatistics ret; ret.from = ret.to = ret.blocksize = 0; return ret; } QJsonObject statsObj = cmdj("p-j " + QString::number(blocksCount)).object(); BlockStatistics ret; ret.from = statsObj["from"].toVariant().toULongLong(); ret.to = statsObj["to"].toVariant().toULongLong(); ret.blocksize = statsObj["blocksize"].toVariant().toULongLong(); QJsonArray blocksArray = statsObj["blocks"].toArray(); for (const QJsonValue &value : blocksArray) { QJsonObject blockObj = value.toObject(); BlockDescription block; block.addr = blockObj["offset"].toVariant().toULongLong(); block.size = blockObj["size"].toVariant().toULongLong(); block.flags = blockObj["flags"].toInt(0); block.functions = blockObj["functions"].toInt(0); block.inFunctions = blockObj["in_functions"].toInt(0); block.comments = blockObj["comments"].toInt(0); block.symbols = blockObj["symbols"].toInt(0); block.strings = blockObj["strings"].toInt(0); block.rwx = 0; QString rwxStr = blockObj["rwx"].toString(); if (rwxStr.length() == 3) { if (rwxStr[0] == 'r') { block.rwx |= (1 << 0); } if (rwxStr[1] == 'w') { block.rwx |= (1 << 1); } if (rwxStr[2] == 'x') { block.rwx |= (1 << 2); } } ret.blocks << block; } return ret; } QList CutterCore::getXRefs(RVA addr, bool to, bool whole_function, const QString &filterType) { QList ret = QList(); QJsonArray xrefsArray; if (to) xrefsArray = cmdj("axtj@" + QString::number(addr)).array(); else xrefsArray = cmdj("axfj@" + QString::number(addr)).array(); for (QJsonValue value : xrefsArray) { QJsonObject xrefObject = value.toObject(); XrefDescription xref; xref.type = xrefObject["type"].toString(); if (!filterType.isNull() && filterType != xref.type) continue; xref.from = xrefObject["from"].toVariant().toULongLong(); if (!to) { xref.from_str = RAddressString(xref.from); } else { QString fcn = xrefObject["fcn_name"].toString(); if (!fcn.isEmpty()) { RVA fcnAddr = xrefObject["fcn_addr"].toVariant().toULongLong(); xref.from_str = fcn + " + 0x" + QString::number(xref.from - fcnAddr, 16); } else { xref.from_str = RAddressString(xref.from); } } if (!whole_function && !to && xref.from != addr) continue; if (to && !xrefObject.contains("to")) xref.to = addr; else xref.to = xrefObject["to"].toVariant().toULongLong(); xref.to_str = Core()->cmd("fd " + QString::number(xref.to)).trimmed(); ret << xref; } return ret; } void CutterCore::addFlag(RVA offset, QString name, RVA size) { name = sanitizeStringForCommand(name); cmd(QString("f %1 %2 @ %3").arg(name).arg(size).arg(offset)); emit flagsChanged(); } void CutterCore::triggerFlagsChanged() { emit flagsChanged(); } void CutterCore::triggerVarsChanged() { emit varsChanged(); } void CutterCore::triggerFunctionRenamed(const QString &prevName, const QString &newName) { emit functionRenamed(prevName, newName); } void CutterCore::loadPDB(const QString &file) { cmd("idp " + sanitizeStringForCommand(file)); } void CutterCore::openProject(const QString &name) { cmd("Po " + name); QString notes = QString::fromUtf8(QByteArray::fromBase64(cmd("Pnj").toUtf8())); } void CutterCore::saveProject(const QString &name) { const QString &rv = cmd("Ps " + name.trimmed()).trimmed(); const bool ok = rv == name.trimmed(); cmd("Pnj " + notes.toUtf8().toBase64()); emit projectSaved(ok, name); } void CutterCore::deleteProject(const QString &name) { cmd("Pd " + name); } bool CutterCore::isProjectNameValid(const QString &name) { // see is_valid_project_name() in libr/core/project.c static const QRegExp regexp(R"(^[a-zA-Z0-9\\\._:-]{1,}$)"); return regexp.exactMatch(name) && !name.endsWith(".zip") ; } QList CutterCore::disassembleLines(RVA offset, int lines) { QJsonArray array = cmdj(QString("pdJ ") + QString::number(lines) + QString(" @ ") + QString::number( offset)).array(); QList r; for (QJsonValue value : array) { QJsonObject object = value.toObject(); DisassemblyLine line; line.offset = object["offset"].toVariant().toULongLong(); line.text = object["text"].toString(); r << line; } return r; } void CutterCore::loadScript(const QString &scriptname) { r_core_task_sync_begin(core_); r_core_cmd_file(core_, scriptname.toUtf8().constData()); r_core_task_sync_end(core_); triggerRefreshAll(); } QString CutterCore::getVersionInformation() { int i; QString ret; struct vcs_t { const char *name; const char *(*callback)(); } vcs[] = { { "r_anal", &r_anal_version }, { "r_lib", &r_lib_version }, { "r_egg", &r_egg_version }, { "r_asm", &r_asm_version }, { "r_bin", &r_bin_version }, { "r_cons", &r_cons_version }, { "r_flag", &r_flag_version }, { "r_core", &r_core_version }, { "r_crypto", &r_crypto_version }, { "r_bp", &r_bp_version }, { "r_debug", &r_debug_version }, { "r_hash", &r_hash_version }, { "r_fs", &r_fs_version }, { "r_io", &r_io_version }, { "r_magic", &r_magic_version }, { "r_parse", &r_parse_version }, { "r_reg", &r_reg_version }, { "r_sign", &r_sign_version }, { "r_search", &r_search_version }, { "r_syscall", &r_syscall_version }, { "r_util", &r_util_version }, /* ... */ {NULL, NULL} }; ret.append(QString("%1 r2\n").arg(R2_GITTAP)); for (i = 0; vcs[i].name; i++) { struct vcs_t *v = &vcs[i]; const char *name = v->callback (); ret.append(QString("%1 %2\n").arg(name, v->name)); } return ret; } QJsonArray CutterCore::getOpenedFiles() { QJsonDocument files = cmdj("oj"); return files.array(); } QList CutterCore::getColorThemes() { QList r; QJsonDocument themes = cmdj("ecoj"); for (auto s : themes.array()) r << s.toString(); return r; } void CutterCore::setCutterPlugins(QList plugins) { this->plugins = plugins; } QList CutterCore::getCutterPlugins() { return plugins; }