static void run(Compass::Parameters params, Compass::OutputObject* output) { // CompassAnalyses::CycleDetection::Traversal(params, output).run(Compass::projectPrerequisite.getProject()); SgBinaryComposite* binary = isSgBinaryComposite(Compass::projectPrerequisite.getProject()->get_fileList()[0]); SgAsmGenericFile* file = binary != NULL ? binary->get_binaryFile() : NULL; if (file==NULL) return; CompassAnalyses::CycleDetection::Traversal checker(params, output); checker.init(Compass::binDataFlowPrerequisite.getGraph()); bool interprocedural = false; RoseBin_DataFlowAnalysis* dfanalysis = Compass::binDataFlowPrerequisite.getBinDataFlowInfo(); vector<SgGraphNode*> rootNodes; dfanalysis->getRootNodes(rootNodes); dfanalysis->init(); dfanalysis->traverseGraph(rootNodes, &checker, interprocedural); }
void InterruptAnalysis::test(SgNode* fileA, SgNode* fileB) { RoseBin_Graph* graph=NULL; ROSE_ASSERT(isSgProject(fileA)); SgBinaryComposite* binary = isSgBinaryComposite(isSgProject(fileA)->get_fileList()[0]); SgAsmGenericFile* file = binary != NULL ? binary->get_binaryFile() : NULL; ROSE_ASSERT(file); // VirtualBinCFG::AuxiliaryInformation* info = new VirtualBinCFG::AuxiliaryInformation(file); // call graph analysis ******************************************************* bool dot=true; bool forward=true; bool edges=true; bool mergedEdges=true; bool interprocedural=false; string dfgFileName = "dfg.dot"; graph= new RoseBin_DotGraph(); if (dot==false) { dfgFileName = "dfg.gml"; graph= new RoseBin_GMLGraph(); } // GraphAlgorithms* algo = new GraphAlgorithms(info); SgAsmInterpretation* interp = SageInterface::getMainInterpretation(file); RoseBin_DataFlowAnalysis* dfanalysis = new RoseBin_DataFlowAnalysis(interp->get_global_block(), forward, new RoseObj(), g_algo); ROSE_ASSERT(dfanalysis); dfanalysis->init(interprocedural, edges); dfanalysis->run(graph, dfgFileName, mergedEdges); vector<SgGraphNode*> rootNodes; dfanalysis->getRootNodes(rootNodes); dfanalysis->init(); init(graph); dfanalysis->traverseGraph(rootNodes, this, interprocedural); }
int main(int argc, char** argv) { if (!containsArgument(argc, argv, "-checkAST") && !containsArgument(argc, argv, "-checkGraph") && !containsArgument(argc, argv, "-printTree") && !containsArgument(argc, argv, "-callgraph") && !containsArgument(argc, argv, "-cfa") && !containsArgument(argc, argv, "-dfa") ) {argc = 1;} if (argc < 2) { fprintf(stderr, "Usage: %s executableName [OPTIONS]\n", argv[0]); cout << "\nOPTIONS: " <<endl; cout << "-checkAST - run all checkers on binary AST. " << endl; cout << "-checkGraph - run all checkers on dataflow graph. " << endl; cout << "-printTree - create dot file of AST. " << endl; cout << "-callgraph - perform callgraph analysis and print callgraph.dot file. " << endl; cout << "-cfa - perform control flow analysis and print cfg.dot file. " << endl; cout << "-dfa - perform dataflow flow analysis and print dfg.dot file. " << endl; cout << "-inter - perform dataflow analysis interprocedurally (default intraprocedural). " << endl; cout << "-backward - perform backward analysis (default forward). " << endl; cout << "-gml - all graphs (except AST) are saved as gml files (default dot). " << endl; cout << "-mergeedges - aggregate edges between same nodes. " << endl; cout << "-noedges - do not print edges into dot or gml file (only nodes). " << endl; return 1; } string execName = argv[1]; lt_dlinit(); // this is our test case input, we will assert on the data from this file test = false; if (execName=="buffer2.bin") { //cerr << "running test case on buffer2.bin !! " << endl << endl; test = true; } // create out folder string filenameDir="out"; mode_t mode = S_IRWXU | S_IRWXG | S_IROTH | S_IXOTH; mkdir(filenameDir.c_str(), mode); std::ofstream myfile; bool interprocedural = false; if (containsArgument(argc, argv, "-inter")) { interprocedural = true; } bool forward = true; if (containsArgument(argc, argv, "-backward")) { forward = false; } bool dot = true; if (containsArgument(argc, argv, "-gml")) { dot = false; } bool mergedEdges = false; if (containsArgument(argc, argv, "-mergeedges")) { mergedEdges = true; } bool edges = true; if (containsArgument(argc, argv, "-noedges")) { edges = false; } RoseBin_Def::RoseAssemblyLanguage = RoseBin_Def::x86; //fprintf(stderr, "Starting binCompass frontend...\n"); SgProject* project = frontend(argc,argv); ROSE_ASSERT (project != NULL); SgBinaryComposite* binary = isSgBinaryComposite(project->get_fileList()[0]); SgAsmGenericFile* file = binary != NULL ? binary->get_binaryFile() : NULL; // const SgAsmInterpretationPtrList& interps = file->get_interpretations(); //ROSE_ASSERT (interps.size() == 1); //SgAsmInterpretation* interp = interps[0]; SgAsmInterpretation* interp = SageInterface::getMainInterpretation(file); if (containsArgument(argc, argv, "-printTree")) { //fprintf(stderr, "Printing AST... _binary_tree.dot\n"); string filename="_binary_tree.dot"; AST_BIN_Traversal* trav = new AST_BIN_Traversal(); trav->run(interp->get_global_block(), filename); if (test) { int instrnr = trav->getNrOfInstructions(); //cerr << " Instructions written to file: " << instrnr << endl; ROSE_ASSERT(instrnr==861); } } RoseBin_Graph* graph; VirtualBinCFG::AuxiliaryInformation* info = new VirtualBinCFG::AuxiliaryInformation(file); std::map<int,std::set<SgAsmFunction*> > components; GraphAlgorithms* algo = new GraphAlgorithms(info); // call graph analysis ******************************************************* if (containsArgument(argc, argv, "-callgraph")) { //cerr << " creating call graph ... " << endl; graph= new RoseBin_DotGraph(); string callFileName = "callgraph.dot"; if (dot==false) { callFileName = "callgraph.gml"; graph= new RoseBin_GMLGraph(); } RoseBin_CallGraphAnalysis* callanalysis = new RoseBin_CallGraphAnalysis(interp->get_global_block(), new RoseObj(), algo); callanalysis->run(graph, callFileName, !mergedEdges); callanalysis->getConnectedComponents(components); if (test) { //cerr << " nr of nodes visited in callanalysis : " << callanalysis->nodesVisited() << endl; ROSE_ASSERT(callanalysis->nodesVisited()==10); //cerr << " nr of edges visited in callanalysis : " << callanalysis->edgesVisited() << endl; ROSE_ASSERT(callanalysis->edgesVisited()==9); } } if (containsArgument(argc, argv, "-printTree")) { //fprintf(stderr, "Printing AST... _binary_tree2.dot\n"); string filename="_binary_tree2.dot"; AST_BIN_Traversal* trav = new AST_BIN_Traversal(); trav->run(interp->get_global_block(), filename); if (test) { int instrnr = trav->getNrOfInstructions(); //cerr << " Instructions written to file: " << instrnr << endl; ROSE_ASSERT(instrnr==861); } } // control flow analysis ******************************************************* if (containsArgument(argc, argv, "-cfa")) { string cfgFileName = "cfg.dot"; graph= new RoseBin_DotGraph(); if (dot==false) { cfgFileName = "cfg.gml"; graph= new RoseBin_GMLGraph(); } RoseBin_ControlFlowAnalysis* cfganalysis = new RoseBin_ControlFlowAnalysis(interp->get_global_block(), forward, new RoseObj(), edges, algo); cfganalysis->run(graph, cfgFileName, mergedEdges); #if 1 std::map<int,std::set<SgAsmFunction*> >::const_iterator comps = components.begin(); //set<std::string> partialCFG; for (;comps!=components.end();++comps) { set<std::string> partialCFG; int nr = comps->first; //cerr << " found the following component " << nr << endl; std::set<SgAsmFunction*> funcs = comps->second; std::set<SgAsmFunction*>::const_iterator it = funcs.begin(); for (;it!=funcs.end();++it) { SgAsmFunction* function = *it; string name = function->get_name(); name.append("_f"); //cerr << " binCompass CALLGRAPH ANALYSIS : found function : " << name << endl; partialCFG.insert(name); } string filename = "thomas"; filename.append(RoseBin_support::ToString(nr)); filename.append(".dot"); //cerr << " binCompass writing to file " << filename << endl; cfganalysis->printGraph(filename,partialCFG); } //cfganalysis->printGraph(filename,partialCFG); #endif #if 0 set<std::string> partialCFG; partialCFG.insert(" 80483c0_f"); partialCFG.insert(" 8048491_f"); partialCFG.insert(" 8048363_f"); partialCFG.insert(" 804828f_f"); cfganalysis->printGraph("thomas.dot",partialCFG); #endif if (test) { //cout << " cfa -- Number of nodes == " << cfganalysis->nodesVisited() << endl; //cout << " cfa -- Number of edges == " << cfganalysis->edgesVisited() << endl; //ROSE_ASSERT(cfganalysis->nodesVisited()==210); //ROSE_ASSERT(cfganalysis->edgesVisited()==234); ROSE_ASSERT(cfganalysis->nodesVisited()==237); ROSE_ASSERT(cfganalysis->edgesVisited()==261); } } if (containsArgument(argc, argv, "-printTree")) { //fprintf(stderr, "Printing AST... _binary_tree3.dot\n"); string filename="_binary_tree3.dot"; AST_BIN_Traversal* trav = new AST_BIN_Traversal(); trav->run(interp->get_global_block(), filename); if (test) { int instrnr = trav->getNrOfInstructions(); //cerr << " Instructions written to file: " << instrnr << endl; ROSE_ASSERT(instrnr==861); } } if (containsArgument(argc, argv, "-dfa")) { //cerr << " creating dataflow graph ... " << endl; string dfgFileName = "dfg.dot"; graph= new RoseBin_DotGraph(); if (dot==false) { dfgFileName = "dfg.gml"; graph= new RoseBin_GMLGraph(); } RoseBin_DataFlowAnalysis* dfanalysis = new RoseBin_DataFlowAnalysis(interp->get_global_block(), forward, new RoseObj(), algo); dfanalysis->init(interprocedural, edges); dfanalysis->run(graph, dfgFileName, mergedEdges); if (test) { #if 0 cout << " dfa -- Number of nodes == " << dfanalysis->nodesVisited() << endl; cout << " dfa -- Number of edges == " << dfanalysis->edgesVisited() << endl; cout << " dfa -- Number of memWrites == " << dfanalysis->nrOfMemoryWrites() << endl; cout << " dfa -- Number of regWrites == " << dfanalysis->nrOfRegisterWrites() << endl; cout << " dfa -- Number of definitions == " << dfanalysis->nrOfDefinitions() << endl; cout << " dfa -- Number of uses == " << dfanalysis->nrOfUses() << endl; #endif if (interprocedural) { ROSE_ASSERT(dfanalysis->nodesVisited()==237); ROSE_ASSERT(dfanalysis->edgesVisited()==284); ROSE_ASSERT(dfanalysis->nrOfMemoryWrites()==12); ROSE_ASSERT(dfanalysis->nrOfRegisterWrites()==36); ROSE_ASSERT(dfanalysis->nrOfDefinitions()==183); ROSE_ASSERT(dfanalysis->nrOfUses()==25); } else { ROSE_ASSERT(dfanalysis->nodesVisited()==237); ROSE_ASSERT(dfanalysis->edgesVisited()==287); ROSE_ASSERT(dfanalysis->nrOfMemoryWrites()==18); ROSE_ASSERT(dfanalysis->nrOfRegisterWrites()==77); ROSE_ASSERT(dfanalysis->nrOfDefinitions()==216); ROSE_ASSERT(dfanalysis->nrOfUses()==31); } } } if (containsArgument(argc, argv, "-checkAST") || containsArgument(argc, argv, "-checkGraph")) { // get a list of all checkers and traverse vector <BC_AnalysisInterface*> checkers; vector <BC_GraphAnalysisInterface*> graph_checkers; loadAnalysisFiles(checkers); vector <BC_AnalysisInterface*>::const_iterator it = checkers.begin(); for (;it!=checkers.end();it++) { BC_AnalysisInterface* asmf = *it; //cout << "\nRunning Binary Checker --- " << asmf->get_name() << endl; string filename = execName+"."+asmf->get_name(); unsigned int pos = filename.find_last_of("/"); if (filename.find_last_of("/")!=string::npos && (pos+1)<filename.length()) filename = filename.substr(pos+1, filename.length()); filename = "out/"+filename+".out"; //cerr << "Writing file : " << filename << endl; myfile.open(filename.c_str()); asmf->init(interp->get_global_block()); asmf->traverse(interp->get_global_block(), preorder); asmf->finish(interp->get_global_block()); string output = asmf->get_output(); myfile << output << " \n"; myfile.close(); } if (containsArgument(argc, argv, "-checkGraph")) { loadGraphAnalysisFiles(graph_checkers); //cerr << "\n ---------------- preparing to run DataFlowAnalysis (-checkGraph)" << endl; string dfgFileName = "dfg.dot"; graph= new RoseBin_DotGraph(); if (dot==false) { dfgFileName = "dfg.gml"; graph= new RoseBin_GMLGraph(); } RoseBin_ControlFlowAnalysis* cfganalysis = new RoseBin_ControlFlowAnalysis(interp->get_global_block(), forward, new RoseObj(), edges, algo); cfganalysis->run(graph, dfgFileName, mergedEdges); if (test) { //cerr << " cfa -- Number of nodes == " << cfganalysis->nodesVisited() << endl; //cerr << " cfa -- Number of edges == " << cfganalysis->edgesVisited() << endl; ROSE_ASSERT(cfganalysis->nodesVisited()==237); ROSE_ASSERT(cfganalysis->edgesVisited()==261); } rose_graph_integer_node_hash_map nodes = graph->get_node_index_to_node_map(); //cerr << "CFG (-checkGraph) finished ----- Graph nr of nodes : " << nodes.size() << endl; ROSE_ASSERT(nodes.size()>0); RoseBin_DataFlowAnalysis* dfanalysis = new RoseBin_DataFlowAnalysis(interp->get_global_block(), forward, new RoseObj(), algo); //dfanalysis->init(interprocedural, edges,graph); dfanalysis->init(interprocedural, edges); dfanalysis->run(graph, dfgFileName, mergedEdges); //cerr << "DFG (-checkGraph) finished ----- Graph nr of nodes : " << nodes.size() << endl; vector<SgGraphNode*> rootNodes; dfanalysis->getRootNodes(rootNodes); //SgGraphNode* root1 = rootNodes[0]; //rootNodes.clear(); //rootNodes.push_back(root1); vector <BC_GraphAnalysisInterface*>::const_iterator it2 = graph_checkers.begin(); #if 0 cerr << "\n ---------------- running graph checkers : " << graph_checkers.size() << " rootNodes size : " << rootNodes.size() << " interprocedural : " << RoseBin_support::resBool(interprocedural) << endl; cout << "\n ---------------- running graph checkers : " << graph_checkers.size() << " rootNodes size : " << rootNodes.size() << " interprocedural : " << RoseBin_support::resBool(interprocedural) << endl; cerr << "Graph : " << nodes.size() << endl; #endif for (;it2!=graph_checkers.end();it2++) { BC_GraphAnalysisInterface* asmf = *it2; ROSE_ASSERT(asmf); //cerr << "\nRunning Binary Graph Checker --- " << asmf->get_name() << " " << " roots : " << // rootNodes.size() << endl; // tps 04/23/08 -- fixme: this code was broken when I added the testcase -- needs to be fixed dfanalysis->init(); asmf->init(graph); dfanalysis->traverseGraph(rootNodes, asmf, interprocedural); } } } unparseAsmStatementToFile("unparsed.s", interp->get_global_block()); lt_dlexit(); return 0; }
int main(int argc, char** argv) { SgProject* project = frontend(argc,argv); ROSE_ASSERT (project != NULL); RoseBin_Def::RoseAssemblyLanguage = RoseBin_Def::x86; #if 1 SgBinaryComposite* binary = isSgBinaryComposite(project->get_fileList()[0]); SgAsmGenericFile* file = binary != NULL ? binary->get_binaryFile() : NULL; ROSE_ASSERT (file != NULL); const SgAsmInterpretationPtrList& interps = binary->get_interpretations()->get_interpretations(); ROSE_ASSERT (!interps.empty()); SgAsmInterpretation* interp = interps.back(); SgAsmBlock* global_block = interp->get_global_block(); ROSE_ASSERT (global_block != NULL); // RoseBin_unparse* unparser = new RoseBin_unparse(); // RoseBin_support::setUnparseVisitor(unparser->getVisitor()); // Build the DOT file representing the AST (in color) cout << " writing _binary_tree ... " << endl; string filename="_binary_tree.dot"; AST_BIN_Traversal* trav = new AST_BIN_Traversal(); trav->run(global_block, filename); // control flow analysis ******************************************************* cout << " creating control flow graph ... " << endl; bool forward = true; bool edges = true; bool mergedEdges = false; VirtualBinCFG::AuxiliaryInformation* info = new VirtualBinCFG::AuxiliaryInformation(project); RoseBin_DotGraph* dotGraph = new RoseBin_DotGraph(); RoseBin_GMLGraph* gmlGraph = new RoseBin_GMLGraph(); const char* cfgFileName = "cfg.dot"; GraphAlgorithms* algo = new GraphAlgorithms(info); RoseBin_ControlFlowAnalysis* cfganalysis = new RoseBin_ControlFlowAnalysis(global_block, forward, new RoseObj(), edges, algo); cfganalysis->run(dotGraph, cfgFileName, mergedEdges); // call graph analysis ******************************************************* cout << " creating call graph ... " << endl; const char* callFileName = "callgraph.gml"; forward = true; RoseBin_CallGraphAnalysis* callanalysis = new RoseBin_CallGraphAnalysis(global_block, new RoseObj(), algo); // Building a GML file for the call graph callanalysis->run(gmlGraph, callFileName, !mergedEdges); // Building a DOT file for the call graph // callFileName = "callgraph.dot"; // callanalysis->run(dotGraph, callFileName); // dataflow analysis ******************************************************* cout << " creating dataflow graph ... " << endl; string dfgFileName = "dfg.dot"; forward = true; bool printEdges = true; bool interprocedural = true; RoseBin_DataFlowAnalysis* dfanalysis = new RoseBin_DataFlowAnalysis(global_block, forward, new RoseObj(), algo); dfanalysis->init(interprocedural, printEdges); // Building a DOT file for the data-flow graph dfanalysis->run(dotGraph, dfgFileName, mergedEdges); #endif // Unparse the output to test the unparser... return backend(project); }
void InterruptAnalysis::run(SgNode* fileA, SgNode* fileB) { BinQGUI *instance = QROSE::cbData<BinQGUI *>(); if (isSgProject(fileA)==NULL) { cerr << "This is not a valid file for this analysis!" << endl; QString res = QString("This is not a valid file for this analysis"); instance->analysisResult->append(res); return; } RoseBin_Graph* graph=NULL; ROSE_ASSERT(isSgProject(fileA)); SgBinaryComposite* binary = isSgBinaryComposite(isSgProject(fileA)->get_fileList()[0]); SgAsmGenericFile* file = binary != NULL ? binary->get_binaryFile() : NULL; ROSE_ASSERT(file); // VirtualBinCFG::AuxiliaryInformation* info = new VirtualBinCFG::AuxiliaryInformation(file); // call graph analysis ******************************************************* instance->analysisTab->setCurrentIndex(1); ROSE_ASSERT(instance->analysisTab); instance->analysisTab->setCurrentIndex(1); QString res = QString("Creating dataflow graph "); instance->analysisResult->append(res); bool dot=true; bool forward=true; bool edges=true; bool mergedEdges=true; bool interprocedural=false; string dfgFileName = "dfg.dot"; graph= new RoseBin_DotGraph(); if (dot==false) { dfgFileName = "dfg.gml"; graph= new RoseBin_GMLGraph(); } // GraphAlgorithms* algo = new GraphAlgorithms(info); SgAsmInterpretation* interp = SageInterface::getMainInterpretation(file); RoseBin_DataFlowAnalysis* dfanalysis = new RoseBin_DataFlowAnalysis(interp->get_global_block(), forward, new RoseObj(), g_algo); ROSE_ASSERT(dfanalysis); dfanalysis->init(interprocedural, edges); dfanalysis->run(graph, dfgFileName, mergedEdges); res = QString("nr of nodes visited %1. nr of edges visited %2. ") .arg(dfanalysis->nodesVisited()) .arg(dfanalysis->edgesVisited()); instance->analysisResult->append(res); res = QString("Running InterruptAnalysis detection... "); instance->analysisResult->append(res); vector<SgGraphNode*> rootNodes; dfanalysis->getRootNodes(rootNodes); res = QString("Graph has Rootnodes : %1 ") .arg(rootNodes.size()); instance->analysisResult->append(res); dfanalysis->init(); res = QString("Initializing ... "); instance->analysisResult->append(res); init(graph); res = QString("Traversing ... "); instance->analysisResult->append(res); dfanalysis->traverseGraph(rootNodes, this, interprocedural); res = QString("Done. "); instance->analysisResult->append(res); }