#include #include #include "utils/Configuration.h" #include "cutter.h" #include "sdb.h" Q_GLOBAL_STATIC(ccClass, uniqueInstance) #define DB this->db 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(); 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); // Used by the HTML5 graph setConfig("http.cors", true); setConfig("http.sandbox", false); //config("http.port", "14170"); // Temporary fixes //config("http.root","/usr/local/share/radare2/last/www"); //config("http.root","/usr/local/radare2/osx/share/radare2/1.1.0-git/www"); default_bits = 0; this->db = sdb_new(NULL, NULL, 0); // WTF NOES } CutterCore *CutterCore::getInstance() { return uniqueInstance; } int CutterCore::getCycloComplex(ut64 addr) { CORE_LOCK(); QString ret = ""; RAnalFunction *fcn = r_anal_get_fcn_in(core_->anal, addr, 0); if (fcn) { ret = cmd("afcc @ " + QString(fcn->name)); return ret.toInt(); } else { return 0; } } int CutterCore::getFcnSize(ut64 addr) { CORE_LOCK(); QString ret = ""; QString tmp_ret = ""; RAnalFunction *fcn = r_anal_get_fcn_in(core_->anal, addr, 0); if (fcn) { tmp_ret = cmd("afi~size[1] " + QString(fcn->name)); ret = tmp_ret.split("\n")[0]; return ret.toInt() / 10; } else { return 0; } } 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->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, "_"); } QString CutterCore::cmd(const QString &str) { CORE_LOCK(); RVA offset = core_->offset; QByteArray cmd = str.toUtf8(); char *res = r_core_cmd_str(this->core_, cmd.constData()); QString o = QString(res ? res : ""); r_mem_free(res); if (offset != core_->offset) { emit seekChanged(core_->offset); // switch from graph to disassembly if there is no function if (this->cmd("afi.").trimmed().isEmpty() && memoryWidgetPriority == MemoryWidgetType::Graph) { memoryWidgetPriority = MemoryWidgetType::Disassembly; } triggerRaisePrioritizedMemoryWidget(); } return o; } QJsonDocument CutterCore::cmdj(const QString &str) { CORE_LOCK(); QByteArray cmd = str.toUtf8(); char *res = r_core_cmd_str(this->core_, cmd.constData()); QString resString = QString(res); if (resString.isEmpty()) { r_mem_free(res); return QJsonDocument(); } QJsonParseError jsonError; QJsonDocument doc = res ? QJsonDocument::fromJson(resString.toUtf8(), &jsonError) : QJsonDocument(); if (jsonError.error != QJsonParseError::NoError) { eprintf("Failed to parse JSON: %s\n", jsonError.errorString().toLocal8Bit().constData()); eprintf("%s\n", resString.toLocal8Bit().constData()); } r_mem_free(res); return doc; } bool CutterCore::loadFile(QString path, uint64_t loadaddr, uint64_t mapaddr, bool rw, int va, int idx, bool loadbin, const QString &forceBinPlugin) { Q_UNUSED(loadaddr); Q_UNUSED(idx); CORE_LOCK(); RCoreFile *f; if (va == 0 || va == 2) r_config_set_i(core_->config, "io.va", va); f = r_core_file_open(core_, path.toUtf8().constData(), rw ? (R_IO_READ | R_IO_WRITE) : R_IO_READ, 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) { if (va == 1) { if (!r_core_bin_load(core_, path.toUtf8().constData(), UT64_MAX)) { eprintf("CANNOT GET RBIN INFO\n"); } } else { if (!r_core_bin_load(core_, path.toUtf8().constData(), UT64_MAX)) { 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(), loadaddr); r_bin_select_idx(core_->bin, NULL, idx); } #endif } else { // Not loading RBin info coz va = false } setDefaultCPU(); r_core_hash_load(core_, path.toUtf8().constData()); fflush(stdout); return true; } void CutterCore::analyze(int level, QList advanced) { CORE_LOCK(); /* * Levels * Nivel 1: aaa * Nivel 2: aaaa */ if (level == 1) { r_core_cmd0(core_, "aaa"); } else if (level == 2) { r_core_cmd0(core_, "aaaa"); } else if (level == 3) { foreach (QString option, advanced) { r_core_cmd0(core_, option.toStdString().c_str()); } } } void CutterCore::renameFunction(QString old_name, QString new_name) { cmd("afn " + new_name + " " + old_name); emit functionRenamed(old_name, new_name); } void CutterCore::renameFlag(QString old_name, QString new_name) { cmd("fr " + old_name + " " + new_name); emit flagsChanged(); } void CutterCore::setComment(RVA addr, const QString &cmt) { cmd("CCu base64:" + cmt.toLocal8Bit().toBase64() + " @ " + QString::number(addr)); emit commentsChanged(); } void CutterCore::delComment(ut64 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::seek(QString addr) { // 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(); cmd(QString("s %1").arg(addr)); // cmd already does emit seekChanged(core_->offset); } void CutterCore::seek(ut64 offset) { seek(QString::number(offset)); } void CutterCore::seekPrev() { cmd("s-"); } void CutterCore::seekNext() { cmd("s+"); } RVA CutterCore::prevOpAddr(RVA startAddr, int count) { CORE_LOCK(); RVA prev; if (!r_core_prevop_addr(core_, startAddr, count, &prev)) { prev = startAddr - count; } return prev; } RVA CutterCore::nextOpAddr(RVA startAddr, int count) { CORE_LOCK(); QJsonArray array = Core()->cmdj("pdj " + QString::number(count) + "@" + 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; } bool CutterCore::tryFile(QString path, bool rw) { CORE_LOCK(); RCoreFile *cf; int flags = R_IO_READ; if (rw) flags |= R_IO_WRITE; cf = r_core_file_open(this->core_, path.toUtf8().constData(), flags, 0LL); if (!cf) { eprintf("QRCore::tryFile: Cannot open file?\n"); return false; } bool is_writable = false; if (cf->core && cf->core->io && cf->core->io->desc) { is_writable = cf->core->io->desc->flags & R_IO_WRITE; } // if rbin works, tell entry0, and symbols (main, constructor, ..) r_core_file_close (this->core_, cf); sdb_bool_set(DB, "try.is_writable", is_writable, 0); sdb_set(DB, "try.filetype", "elf.i386", 0); sdb_set(DB, "try.filename", path.toUtf8().constData(), 0); return true; } ut64 CutterCore::math(const QString &expr) { CORE_LOCK(); return r_num_math(this->core_ ? this->core_->num : NULL, expr.toUtf8().constData()); } int CutterCore::fcnCyclomaticComplexity(ut64 addr) { CORE_LOCK(); RAnalFunction *fcn = r_anal_get_fcn_at(core_->anal, addr, addr); if (fcn) return r_anal_fcn_cc(fcn); return 0; } int CutterCore::fcnBasicBlockCount(ut64 addr) { CORE_LOCK(); //RAnalFunction *fcn = r_anal_get_fcn_at (core_->anal, addr, addr); RAnalFunction *fcn = r_anal_get_fcn_in(core_->anal, addr, 0); if (fcn) { return r_list_length(fcn->bbs); } return 0; } int CutterCore::fcnEndBbs(RVA addr) { CORE_LOCK(); RAnalFunction *fcn = r_anal_get_fcn_in(core_->anal, addr, 0); if (fcn) { QString tmp = this->cmd("afi @ " + QString::number(addr) + " ~end-bbs").split("\n")[0]; if (tmp.contains(":")) { QString endbbs = tmp.split(": ")[1]; return endbbs.toInt(); } } return 0; } QString CutterCore::itoa(ut64 num, int rdx) { return QString::number(num, rdx); } 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::resetDefaultAsmOptions() { // TODO Merge with Configuration.cpp setConfig("asm.esil", Config()->getAsmESIL()); setConfig("asm.pseudo", Config()->getAsmPseudo()); setConfig("asm.offset", Config()->getAsmOffset()); setConfig("asm.describe", Config()->getAsmDescribe()); setConfig("asm.stackptr", Config()->getAsmStackPointer()); setConfig("asm.bytes", Config()->getAsmBytes()); setConfig("asm.bytespace", Config()->getAsmBytespace()); setConfig("asm.lbytes", Config()->getAsmLBytes()); setConfig("asm.syntax", Config()->getAsmSyntax()); setConfig("asm.ucase", Config()->getAsmUppercase()); setConfig("asm.bbline", Config()->getAsmBBLine()); setConfig("asm.capitalize", Config()->getAsmCapitalize()); setConfig("asm.varsub", Config()->getAsmVarsub()); setConfig("asm.varsub_only", Config()->getAsmVarsubOnly()); } void CutterCore::saveDefaultAsmOptions() { Config()->setAsmESIL(getConfigb("asm.esil")); Config()->setAsmPseudo(getConfigb("asm.pseudo")); Config()->setAsmOffset(getConfigb("asm.offset")); Config()->setAsmDescribe(getConfigb("asm.describe")); Config()->setAsmStackPointer(getConfigb("asm.stackptr")); Config()->setAsmBytes(getConfigb("asm.bytes")); Config()->setAsmBytespace(getConfigb("asm.bytespace")); Config()->setAsmLBytes(getConfigb("asm.lbytes")); Config()->setAsmSyntax(getConfig("asm.syntax")); Config()->setAsmUppercase(getConfigb("asm.ucase")); Config()->setAsmBBLine(getConfigb("asm.bbline")); Config()->setAsmCapitalize(getConfigb("asm.capitalize")); Config()->setAsmVarsub(getConfigb("asm.varsub")); Config()->setAsmVarsubOnly(getConfigb("asm.varsub_only")); } QString CutterCore::getConfig(const QString &k) { CORE_LOCK(); QByteArray key = k.toUtf8(); return QString(r_config_get(core_->config, key.constData())); } void CutterCore::setOptions(QString key) { Q_UNUSED(key); // va // lowercase // show bytes // att syntax // asm plugin // cpu type // anal plugin } void CutterCore::setCPU(QString arch, QString cpu, int bits, bool temporary) { setConfig("asm.arch", arch); setConfig("asm.cpu", cpu); setConfig("asm.bits", bits); if (!temporary) { default_arch = arch; default_cpu = cpu; default_bits = bits; } } void CutterCore::setDefaultCPU() { if (!default_arch.isEmpty()) setConfig("asm.arch", default_arch); if (!default_cpu.isEmpty()) setConfig("asm.cpu", default_cpu); if (default_bits) setConfig("asm.bits", QString::number(default_bits)); } 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)); } int CutterCore::get_size() { CORE_LOCK(); RBinObject *obj = r_bin_get_object(core_->bin); //return obj->size; return obj != nullptr ? obj->obj_size : 0; } ulong CutterCore::get_baddr() { CORE_LOCK(); ulong baddr = r_bin_get_baddr(core_->bin); return baddr; } QList> CutterCore::get_exec_sections() { QList> ret; QString text = cmd("S*~^S"); for (QString line : text.split("\n")) { QStringList fields = line.split(" "); if (fields.length() == 7) { if (fields[6].contains("x")) { QList tmp = QList(); tmp << fields[2]; tmp << fields[3]; tmp << fields[5]; ret << tmp; } } } return ret; } QString CutterCore::getOffsetInfo(QString addr) { return cmd("ao @ " + addr); } 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::getDecompiledCode(QString addr) { return cmd("pdc @ " + addr); } QString CutterCore::getFileInfo() { QString info = cmd("ij"); return info; } 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; } QString CutterCore::getSimpleGraph(QString function) { // New styles QString graph = "graph [bgcolor=invis, splines=polyline];"; QString node = "node [style=\"filled\" fillcolor=\"#4183D7\" shape=box fontname=\"Courier\" fontsize=\"8\" color=\"#4183D7\" fontcolor=\"white\"];"; QString arrow = "edge [arrowhead=\"normal\";]"; // Old styles QString old_graph = "graph [bgcolor=white fontsize=8 fontname=\"Courier\"];"; //QString old_node = "node [color=lightgray, style=filled shape=box];"; QString old_node = "node [fillcolor=gray style=filled shape=box];"; QString old_arrow = "edge [arrowhead=\"vee\"];"; QString dot = cmd("aga @ " + function).trimmed(); dot.replace(old_graph, graph); dot.replace(old_node, node); dot.replace(old_arrow, arrow); dot.replace("fillcolor=blue", "fillcolor=\"#EC644B\", color=\"#EC644B\""); return dot; } 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("asm.lines", false); // Intredazting... //setConfig("asm.linesright", "true"); //setConfig("asm.lineswidth", "15"); //setConfig("asm.functions", "false"); setConfig("hex.pairs", false); setConfig("asm.cmtflgrefs", false); setConfig("asm.cmtright", true); setConfig("asm.cmtcol", 70); setConfig("asm.xrefs", false); setConfig("asm.fcnlines", false); setConfig("asm.tabs", 5); setConfig("asm.tabsonce", true); setConfig("asm.tabsoff", 5); setConfig("asm.nbytes", 10); setConfig("asm.midflags", 2); //setConfig("asm.bbline", "true"); // asm.offset=false would break reading the offset in DisassemblyWidget // TODO: remove this when DisassemblyWidget::readDisassemblyOffset() allows it setConfig("asm.offset", true); setConfig("anal.hasnext", true); setConfig("asm.fcncalls", false); setConfig("asm.calls", false); setConfig("asm.lines.call", false); setConfig("asm.flgoff", true); setConfig("anal.autoname", true); // Highlight current node in graphviz setConfig("graph.gv.current", true); // Fucking pancake xD setConfig("cfg.fortunes.tts", false); // Experimenting with asm options //setConfig("asm.spacy", "true"); // We need to handle blank lines on scroll //setConfig("asm.section", "true"); // Breaks the disasm and navigation //setConfig("asm.invhex", "true"); // Needs further testing //setConfig("asm.flags", "false"); // Add with default true in future // Used by the HTML5 graph setConfig("http.cors", true); setConfig("http.sandbox", false); //config("http.port", "14170"); // Temporary fixes //setConfig("http.root","/usr/local/share/radare2/last/www"); //setConfig("http.root","/usr/local/radare2/osx/share/radare2/1.1.0-git/www"); //setConfig("bin.rawstr", "true"); // Colors setConfig("scr.color", false); setConfig("scr.truecolor", false); } QList CutterCore::getSeekHistory() { CORE_LOCK(); QList ret; QJsonArray jsonArray = cmdj("sj").array(); foreach (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("Plj").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::getAllFunctions() { CORE_LOCK(); QList ret; QJsonArray jsonArray = cmdj("aflj").array(); foreach (QJsonValue value, jsonArray) { QJsonObject jsonObject = value.toObject(); FunctionDescription function; function.offset = (RVA)jsonObject["offset"].toVariant().toULongLong(); function.size = (RVA)jsonObject["size"].toVariant().toULongLong(); function.name = jsonObject["name"].toString(); ret << function; } return ret; } QList CutterCore::getAllImports() { CORE_LOCK(); QList ret; QJsonArray importsArray = cmdj("iij").array(); foreach (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(); foreach (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::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() { CORE_LOCK(); RListIter *it; QList ret; RBinString *bs; if (core_ && core_->bin && core_->bin->cur && core_->bin->cur->o) { CutterRListForeach(core_->bin->cur->o->strings, it, RBinString, bs) { StringDescription str; str.vaddr = bs->vaddr; str.string = bs->string; ret << str; } } 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; QJsonArray sectionsArray = cmdj("Sj").array(); 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(); ret << section; } 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::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(); xref.from_str = Core()->cmd("fd " + xrefObject["from"].toString()).trimmed(); 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 " + xrefObject["to"].toString()).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::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())); setNotes(notes); } void CutterCore::saveProject(const QString &name) { cmd("Ps " + name); cmd("Pnj " + notes.toUtf8().toBase64()); emit projectSaved(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") ; } void CutterCore::setNotes(const QString ¬es) { this->notes = notes; emit notesChanged(this->notes); }