public void defaultCase(Node node) {
if (node instanceof TQuotedName
|| node instanceof TFullIdentifier
|| node instanceof TIdentifier
|| node instanceof TStringConstant
|| node instanceof TIntegerConstant
|| node instanceof TFloatConstant
|| node instanceof TAtIdentifier) {
if (debug) G.v().out.println("Default case -pushing token:" + ((Token) node).getText());
String tokenString = ((Token) node).getText();
if (node instanceof TStringConstant || node instanceof TQuotedName) {
tokenString = tokenString.substring(1, tokenString.length() - 1);
}
if (node instanceof TIdentifier
|| node instanceof TFullIdentifier
|| node instanceof TQuotedName
|| node instanceof TStringConstant) {
try {
tokenString = StringTools.getUnEscapedStringOf(tokenString);
} catch (RuntimeException e) {
G.v().out.println(tokenString);
throw e;
}
}
mProductions.addLast(tokenString);
}
}
private void analyzeLocal(SootMethod method, Value value) {
Local l = (Local) value;
boolean objIsThreadLocal = tloa.isObjectThreadLocal(l, method);
if (objIsThreadLocal) {
G.v().out.println("[lg.tlo] LOCAL " + l.toString() + " is thread-local in method " + method);
} else {
G.v().out.println("[lg.tlo] LOCAL " + l.toString() + " is thread-shared in method " + method);
}
}
private void analyzeField(SootMethod method, Value value) {
FieldRef fr = (FieldRef) value;
boolean fieldIsThreadLocal = tloa.isObjectThreadLocal(fr, method);
if (fieldIsThreadLocal) {
G.v().out.println("[lg.tlo] FIELD " + fr.toString() + " is thread-local in method " + method);
} else {
G.v()
.out
.println("[lg.tlo] FIELD " + fr.toString() + " is thread-shared in method " + method);
}
}
public StronglyConnectedComponentsBV(BitVector typeVariableList, TypeResolverBV resolver)
throws TypeException {
this.resolver = resolver;
variables = typeVariableList;
black = new TreeSet();
finished = new LinkedList();
for (BitSetIterator i = variables.iterator(); i.hasNext(); ) {
TypeVariableBV var = resolver.typeVariableForId(i.next());
if (!black.contains(var)) {
black.add(var);
dfsg_visit(var);
}
}
black = new TreeSet();
for (Iterator i = finished.iterator(); i.hasNext(); ) {
TypeVariableBV var = (TypeVariableBV) i.next();
if (!black.contains(var)) {
current_tree = new LinkedList();
forest.add(current_tree);
black.add(var);
dfsgt_visit(var);
}
}
for (Iterator i = forest.iterator(); i.hasNext(); ) {
LinkedList list = (LinkedList) i.next();
TypeVariableBV previous = null;
StringBuffer s = null;
if (DEBUG) {
s = new StringBuffer("scc:\n");
}
for (Iterator j = list.iterator(); j.hasNext(); ) {
TypeVariableBV current = (TypeVariableBV) j.next();
if (DEBUG) {
s.append(" " + current + "\n");
}
if (previous == null) {
previous = current;
} else {
try {
previous = previous.union(current);
} catch (TypeException e) {
if (DEBUG) {
G.v().out.println(s);
}
throw e;
}
}
}
}
}
/**
* Instruments the runtime version of the program.
*
* @param mainclass
*/
public static void transformRuntimeVersion(String mainclass) {
PackManager.v().getPack("jtp").add(new Transform("jtp.intrumenter", SymbBodyPass.v()));
setOptions(mainclass, false);
Scene.v()
.setSootClassPath(
System.getProperty("sun.boot.class.path")
+ File.pathSeparator
+ System.getProperty("java.class.path"));
Scene.v().loadClassAndSupport(runtimeClass);
try {
// ** instrument runtime version
String outpath = getOutputDir();
String[] args1 = getArgs(mainclass, outpath);
soot.Main.main(args1);
System.err.println("***** Runtime version generated *****\n");
// reset soot parameters
soot.G.reset();
bbIdCounter = 0;
} catch (Exception e) {
System.err.println(">> Exception: " + e.getMessage());
e.printStackTrace();
}
}
public TypeNode(int id, Type type) {
this.id = id;
this.type = type;
if (DEBUG) {
G.v().out.println("creating node " + this);
}
}
public static void main(String[] args) {
soot.G
.v()
.PackManager()
.getPack("tag")
.add(new soot.Transform("tag.null", new NullTagAggregator()));
soot.Main.main(args);
}
private static void initializeSoot(Clazzes clazzes) {
soot.G.reset();
Options.v().set_output_format(Options.output_format_jimple);
Options.v().set_include_all(true);
Options.v().set_print_tags_in_output(true);
Options.v().set_allow_phantom_refs(true);
Options.v().set_keep_line_number(true);
Options.v().set_soot_classpath(getSootClasspath(clazzes));
/*
* Enable the use-original-names phase to merge local variables and
* verbose logging for debugging purposes only.
*/
// Options.v().set_verbose(true);
// Options.v().setPhaseOption("jb", "use-original-names:true");
/*
* Disable the jb.dae phase (DeadAssignmentEliminator) since it removes
* LDC instructions which would have thrown a NoClassDefFoundError.
* TODO: Report this to soot as a bug?
*/
Options.v().setPhaseOption("jb.dae", "enabled:false");
/*
* Disable the jb.uce phase (UnreachableCodeEliminator) since it seems
* to remove try-catch blocks which catches a non-existing Throwable
* class. This should generate a NoClassDefFoundError at runtime but
* with the UCE in place no exception is thrown.
*/
Options.v().setPhaseOption("jb.uce", "enabled:false");
/*
* Enable jap.npc (NullPointerChecker) and jap.abc (ArrayBoundsChecker)
* phases in the annotation pack. The annotation pack is enabled by
* default but all its phases are disabled by default.
*/
Options.v().setPhaseOption("jap.npc", "enabled:true");
Options.v().setPhaseOption("jap.abc", "enabled:true");
/*
* Enable the jop (Jimple optimization) pack but disable all phases for
* now.
*/
Options.v().setPhaseOption("jop", "enabled:true");
Options.v().setPhaseOption("jop.cse", "enabled:false");
Options.v().setPhaseOption("jop.bcm", "enabled:false");
Options.v().setPhaseOption("jop.lcm", "enabled:false");
Options.v().setPhaseOption("jop.cp", "enabled:false");
Options.v().setPhaseOption("jop.cpf", "enabled:false");
Options.v().setPhaseOption("jop.cbf", "enabled:false");
Options.v().setPhaseOption("jop.dae", "enabled:false");
Options.v().setPhaseOption("jop.nce", "enabled:false");
Options.v().setPhaseOption("jop.uce1", "enabled:false");
Options.v().setPhaseOption("jop.ubf1", "enabled:false");
Options.v().setPhaseOption("jop.uce2", "enabled:false");
Options.v().setPhaseOption("jop.ubf2", "enabled:false");
Options.v().setPhaseOption("jop.ule", "enabled:false");
Scene.v().loadNecessaryClasses();
}
@Override
protected void runInternal() {
// don't print crap to screen!
G.v().out = new PrintStream(NullOutputStream.NULL_OUTPUT_STREAM);
Scene.v().loadDynamicClasses();
setSparkPointsToAnalysis();
// other passes can print crap now
G.v().out = System.out;
ptsProvider = (PAG) Scene.v().getPointsToAnalysis();
typeManager = ptsProvider.getTypeManager();
// cache the call graph
callGraph = Scene.v().getCallGraph();
createNewToAllocMap();
/*
for (SootMethod method : getReachableMethods()) {
Set<MethodOrMethodContext> mcs = getMethodContexts(method);
if (mcs.size() > 30)
System.out.println(method + " " + mcs.size());
}
*/
// dumpReachablesAndAllocNodes();
// dumpCallGraphReachablesCSV();
// dumpOutdegreesCSV();
if (Config.v().dumpPta) {
dumpPTA(Project.v().getOutputDir() + File.separator + "pta.txt");
}
if (Config.v().dumpCallGraph) {
// dumpCallGraph(Project.v().getOutputDir() + File.separator + "callgraph.dot");
String fileName = String.format("callgraph%d.txt", runCount++);
dumpTextGraph(Project.v().getOutputDir() + File.separator + fileName);
}
// System.out.println(SparkEvaluator.v().toString());
}
/**
* Performs the work that is required to construct any sort of <tt>UnitGraph</tt>.
*
* @param body The body of the method for which to construct a control flow graph.
*/
protected UnitGraph(Body body) {
this.body = body;
unitChain = body.getUnits();
method = body.getMethod();
if (Options.v().verbose())
G.v()
.out
.println(
"[" + method.getName() + "] Constructing " + this.getClass().getName() + "...");
}
@Override
public void execute() throws MojoExecutionException {
G.reset();
String classpath = getCompileClasspath();
getLog().info(String.format("Using transform classpath: %s", classpath));
Options.v().set_soot_classpath(classpath);
Options.v().set_process_dir(asList(getProcessDirectory()));
Options.v().set_output_dir(getOutputDirectory());
SimulationTransform.main(null);
}
@BeforeClass
public static void initializeSoot() throws IOException {
soot.G.reset();
Options.v().set_output_format(Options.output_format_jimple);
Options.v().set_include_all(true);
Options.v().set_print_tags_in_output(true);
Options.v().set_allow_phantom_refs(true);
Options.v()
.set_soot_classpath(
System.getProperty("sun.boot.class.path")
+ ":"
+ System.getProperty("java.class.path"));
Scene.v().loadNecessaryClasses();
}
/**
* Traverse the statements in the given body, looking for aggregation possibilities; that is,
* given a def d and a use u, d has no other uses, u has no other defs, collapse d and u.
*
* <p>option: only-stack-locals; if this is true, only aggregate variables starting with $
*/
protected void internalTransform(Body b, String phaseName, Map<String, String> options) {
StmtBody body = (StmtBody) b;
boolean onlyStackVars = PhaseOptions.getBoolean(options, "only-stack-locals");
int aggregateCount = 1;
if (Options.v().time()) Timers.v().aggregationTimer.start();
boolean changed = false;
Map<ValueBox, Zone> boxToZone =
new HashMap<ValueBox, Zone>(body.getUnits().size() * 2 + 1, 0.7f);
// Determine the zone of every box
{
Zonation zonation = new Zonation(body);
for (Unit u : body.getUnits()) {
Zone zone = zonation.getZoneOf(u);
for (ValueBox box : u.getUseBoxes()) {
boxToZone.put(box, zone);
}
for (ValueBox box : u.getDefBoxes()) {
boxToZone.put(box, zone);
}
}
}
do {
if (Options.v().verbose())
G.v()
.out
.println(
"["
+ body.getMethod().getName()
+ "] Aggregating iteration "
+ aggregateCount
+ "...");
// body.printTo(new java.io.PrintWriter(G.v().out, true));
changed = internalAggregate(body, boxToZone, onlyStackVars);
aggregateCount++;
} while (changed);
if (Options.v().time()) Timers.v().aggregationTimer.end();
}
private boolean callEdgesReasonable() {
Set<VarNode> vars = contextSensitiveAssignEdges.keySet();
for (VarNode node : vars) {
ArraySet<AssignEdge> assigns = contextSensitiveAssignEdges.get(node);
for (AssignEdge edge : assigns) {
if (edge.isCallEdge()) {
if (edge.getCallSite() == null) {
G.v().out.println(edge + " is weird!!");
return false;
}
}
}
}
return true;
}
protected void print_cfg(Body body) {
DirectedGraph<Unit> graph = graphtype.buildGraph(body);
DotGraph canvas = graphtype.drawGraph(drawer, graph, body);
String methodname = body.getMethod().getSubSignature();
String filename = soot.SourceLocator.v().getOutputDir();
if (filename.length() > 0) {
filename = filename + java.io.File.separator;
}
filename =
filename + methodname.replace(java.io.File.separatorChar, '.') + DotGraph.DOT_EXTENSION;
G.v().out.println("Generate dot file in " + filename);
canvas.plot(filename);
}
protected Node[] lookup(Map<Object, Object> m, Object key) {
Object valueList = m.get(key);
if (valueList == null) {
return EMPTY_NODE_ARRAY;
}
if (valueList instanceof Set) {
try {
m.put(key, valueList = ((Set) valueList).toArray(EMPTY_NODE_ARRAY));
} catch (Exception e) {
for (Iterator it = ((Set) valueList).iterator(); it.hasNext(); ) {
G.v().out.println(" " + it.next());
}
throw new RuntimeException(" " + valueList + e);
}
}
Node[] ret = (Node[]) valueList;
return ret;
}
private static void usage() {
G.v()
.out
.println(
"Usage:\n"
+ " java soot.util.CFGViewer [soot options] [CFGViewer options] [class[:method]]...\n\n"
+ " CFGViewer options:\n"
+ " (When specifying the value for an '=' option, you only\n"
+ " need to type enough characters to specify the choice\n"
+ " unambiguously, and case is ignored.)\n"
+ "\n"
+ " --alt-classpath PATH :\n"
+ " specifies the classpath from which to load classes\n"
+ " that implement graph types whose names begin with 'Alt'.\n"
+ " --graph={"
+ CFGGraphType.help(0, 70, " ".length())
+ "} :\n"
+ " show the specified type of graph.\n"
+ " Defaults to "
+ defaultGraph
+ ".\n"
+ " --ir={"
+ CFGIntermediateRep.help(0, 70, " ".length())
+ "} :\n"
+ " create the CFG from the specified intermediate\n"
+ " representation. Defaults to "
+ defaultIR
+ ".\n"
+ " --brief :\n"
+ " label nodes with the unit or block index,\n"
+ " instead of the text of their statements.\n"
+ " --multipages :\n"
+ " produce dot file output for multiple 8.5x11\" pages.\n"
+ " By default, a single page is produced.\n"
+ " --help :\n"
+ " print this message.\n"
+ "\n"
+ " Particularly relevant soot options (see \"soot --help\" for details):\n"
+ " --soot-class-path PATH\n"
+ " --show-exception-dests\n"
+ " --throw-analysis {pedantic|unit}\n"
+ " --omit-excepting-unit-edges\n"
+ " --trim-cfgs\n");
}
protected void internalTransform(Body body, String phaseName, Map options) {
if (Options.v().verbose())
G.v().out.println("[" + body.getMethod().getName() + "] Tightening trap boundaries...");
Chain trapChain = body.getTraps();
Chain unitChain = body.getUnits();
if (trapChain.size() > 0) {
ExceptionalUnitGraph graph = new ExceptionalUnitGraph(body);
for (Iterator trapIt = trapChain.iterator(); trapIt.hasNext(); ) {
Trap trap = (Trap) trapIt.next();
Unit firstTrappedUnit = trap.getBeginUnit();
Unit firstTrappedThrower = null;
Unit firstUntrappedUnit = trap.getEndUnit();
Unit lastTrappedUnit = (Unit) unitChain.getPredOf(firstUntrappedUnit);
Unit lastTrappedThrower = null;
for (Unit u = firstTrappedUnit;
u != null && u != firstUntrappedUnit;
u = (Unit) unitChain.getSuccOf(u)) {
if (mightThrowTo(graph, u, trap)) {
firstTrappedThrower = u;
break;
}
}
if (firstTrappedThrower != null) {
for (Unit u = lastTrappedUnit; u != null; u = (Unit) unitChain.getPredOf(u)) {
if (mightThrowTo(graph, u, trap)) {
lastTrappedThrower = u;
break;
}
}
}
if (firstTrappedThrower != null && firstTrappedUnit != firstTrappedThrower) {
trap.setBeginUnit(firstTrappedThrower);
}
if (lastTrappedThrower == null) {
lastTrappedThrower = firstTrappedUnit;
}
if (lastTrappedUnit != lastTrappedThrower) {
trap.setEndUnit((Unit) unitChain.getSuccOf(lastTrappedThrower));
}
}
}
}
/**
* Computes the analysis given a UnitGraph computed from a method body. It is recommended that a
* ExceptionalUnitGraph (or similar) be provided for correct results in the case of exceptional
* control flow.
*
* @param g a graph on which to compute the analysis.
* @see ExceptionalUnitGraph
*/
public SimpleLiveLocals(UnitGraph graph) {
if (Options.v().time()) Timers.v().liveTimer.start();
if (Options.v().verbose())
G.v()
.out
.println(
"["
+ graph.getBody().getMethod().getName()
+ "] Constructing SimpleLiveLocals...");
SimpleLiveLocalsAnalysis analysis = new SimpleLiveLocalsAnalysis(graph);
if (Options.v().time()) Timers.v().livePostTimer.start();
// Build unitToLocals map
{
unitToLocalsAfter = new HashMap<Unit, List>(graph.size() * 2 + 1, 0.7f);
unitToLocalsBefore = new HashMap<Unit, List>(graph.size() * 2 + 1, 0.7f);
Iterator unitIt = graph.iterator();
while (unitIt.hasNext()) {
Unit s = (Unit) unitIt.next();
FlowSet set = (FlowSet) analysis.getFlowBefore(s);
unitToLocalsBefore.put(s, Collections.unmodifiableList(set.toList()));
set = (FlowSet) analysis.getFlowAfter(s);
unitToLocalsAfter.put(s, Collections.unmodifiableList(set.toList()));
}
}
if (Options.v().time()) Timers.v().livePostTimer.end();
if (Options.v().time()) Timers.v().liveTimer.end();
}
protected void internalTransform(String phaseName, Map options) {
if (Options.v().verbose())
G.v().out.println("Transforming all classes in the Scene to Shimple...");
// *** FIXME: Add debug output to indicate which class/method is being shimplified.
// *** FIXME: Is ShimpleTransformer the right solution? The call graph may deem
// some classes unreachable.
Iterator classesIt = Scene.v().getClasses().iterator();
while (classesIt.hasNext()) {
SootClass sClass = (SootClass) classesIt.next();
if (sClass.isPhantom()) continue;
Iterator methodsIt = sClass.getMethods().iterator();
while (methodsIt.hasNext()) {
SootMethod method = (SootMethod) methodsIt.next();
if (!method.isConcrete()) continue;
if (method.hasActiveBody()) {
Body body = method.getActiveBody();
ShimpleBody sBody = null;
if (body instanceof ShimpleBody) {
sBody = (ShimpleBody) body;
if (!sBody.isSSA()) sBody.rebuild();
} else {
sBody = Shimple.v().newBody(body);
}
method.setActiveBody(sBody);
} else {
MethodSource ms = new ShimpleMethodSource(method.getSource());
method.setSource(ms);
}
}
}
}
/*
file =
modifier* file_type class_name extends_clause? implements_clause? file_body;
*/
public void inAFile(AFile node) {
if (debug) G.v().out.println("reading class " + node.getClassName());
}
public static Aggregator v() {
return G.v().soot_jimple_toolkits_base_Aggregator();
}
/**
* This method pushes all newExpr down to be the stmt directly before every invoke of the init
* only if they are in the types list
*/
public void internalTransform(Body b, String phaseName, Map options) {
JimpleBody body = (JimpleBody) b;
if (Options.v().verbose())
G.v().out.println("[" + body.getMethod().getName() + "] Folding Jimple constructors...");
Chain units = body.getUnits();
List<Unit> stmtList = new ArrayList<Unit>();
stmtList.addAll(units);
Iterator<Unit> it = stmtList.iterator();
Iterator<Unit> nextStmtIt = stmtList.iterator();
// start ahead one
nextStmtIt.next();
SmartLocalDefs localDefs = SmartLocalDefsPool.v().getSmartLocalDefsFor(body);
UnitGraph graph = localDefs.getGraph();
LocalUses localUses = new SimpleLocalUses(graph, localDefs);
/* fold in NewExpr's with specialinvoke's */
while (it.hasNext()) {
Stmt s = (Stmt) it.next();
if (!(s instanceof AssignStmt)) continue;
/* this should be generalized to ArrayRefs */
// only deal with stmts that are an local = newExpr
Value lhs = ((AssignStmt) s).getLeftOp();
if (!(lhs instanceof Local)) continue;
Value rhs = ((AssignStmt) s).getRightOp();
if (!(rhs instanceof NewExpr)) continue;
// check if very next statement is invoke -->
// this indicates there is no control flow between
// new and invoke and should do nothing
if (nextStmtIt.hasNext()) {
Stmt next = (Stmt) nextStmtIt.next();
if (next instanceof InvokeStmt) {
InvokeStmt invoke = (InvokeStmt) next;
if (invoke.getInvokeExpr() instanceof SpecialInvokeExpr) {
SpecialInvokeExpr invokeExpr = (SpecialInvokeExpr) invoke.getInvokeExpr();
if (invokeExpr.getBase() == lhs) {
break;
}
}
}
}
// check if new is in the types list - only process these
if (!types.contains(((NewExpr) rhs).getType())) continue;
List lu = localUses.getUsesOf(s);
Iterator luIter = lu.iterator();
boolean MadeNewInvokeExpr = false;
while (luIter.hasNext()) {
Unit use = ((UnitValueBoxPair) (luIter.next())).unit;
if (!(use instanceof InvokeStmt)) continue;
InvokeStmt is = (InvokeStmt) use;
if (!(is.getInvokeExpr() instanceof SpecialInvokeExpr)
|| lhs != ((SpecialInvokeExpr) is.getInvokeExpr()).getBase()) continue;
// make a new one here
AssignStmt constructStmt =
Jimple.v()
.newAssignStmt(((DefinitionStmt) s).getLeftOp(), ((DefinitionStmt) s).getRightOp());
constructStmt.setRightOp(Jimple.v().newNewExpr(((NewExpr) rhs).getBaseType()));
MadeNewInvokeExpr = true;
// redirect jumps
use.redirectJumpsToThisTo(constructStmt);
// insert new one here
units.insertBefore(constructStmt, use);
constructStmt.addTag(s.getTag("SourceLnPosTag"));
}
if (MadeNewInvokeExpr) {
units.remove(s);
}
}
}
/**
* Returns the single instance of <code>ThrowableSet.Manager</code>.
*
* @return Soot's <code>ThrowableSet.Manager</code>.
*/
public static Manager v() {
return G.v().soot_toolkits_exceptions_ThrowableSet_Manager();
}
public static LineNumberAdder v() {
return G.v().soot_jimple_toolkits_annotation_LineNumberAdder();
}
@Override
public Object execute(ExecutionEvent event) throws ExecutionException {
// TODO: this wrapping try is for debug only. Remove later.
final int TIMES = 10;
List<Long> runsTimer = new ArrayList<Long>(TIMES);
for (int i = 0; i < TIMES; i++) {
long startTimer = System.currentTimeMillis();
try {
ISelection selection = HandlerUtil.getCurrentSelectionChecked(event);
Shell shell = HandlerUtil.getActiveShellChecked(event);
if (!(selection instanceof ITextSelection))
throw new ExecutionException("Not a text selection");
IFile textSelectionFile =
(IFile)
HandlerUtil.getActiveEditorChecked(event).getEditorInput().getAdapter(IFile.class);
ITextSelection textSelection = (ITextSelection) selection;
SelectionNodesVisitor selectionNodesVisitor = new SelectionNodesVisitor(textSelection);
ICompilationUnit compilationUnit = JavaCore.createCompilationUnitFrom(textSelectionFile);
ASTParser parser = ASTParser.newParser(AST.JLS3);
parser.setSource(compilationUnit);
parser.setKind(ASTParser.K_COMPILATION_UNIT);
parser.setResolveBindings(true);
CompilationUnit jdtCompilationUnit = (CompilationUnit) parser.createAST(null);
jdtCompilationUnit.accept(selectionNodesVisitor);
Set<ASTNode> selectionNodes = selectionNodesVisitor.getNodes();
System.out.println("Selection" + selectionNodes);
IFeatureExtracter extracter = CIDEFeatureExtracterFactory.getInstance().newExtracter();
String correspondentClasspath =
MethodDeclarationSootMethodBridge.getCorrespondentClasspath(textSelectionFile);
SootManager.configure(correspondentClasspath);
MethodDeclaration methodDeclaration =
MethodDeclarationSootMethodBridge.getParentMethod(selectionNodes.iterator().next());
String declaringMethodClass =
methodDeclaration.resolveBinding().getDeclaringClass().getQualifiedName();
MethodDeclarationSootMethodBridge mdsm =
new MethodDeclarationSootMethodBridge(methodDeclaration);
SootMethod sootMethod =
SootManager.getMethodBySignature(
declaringMethodClass, mdsm.getSootMethodSubSignature());
Body body = sootMethod.retrieveActiveBody();
Collection<Unit> unitsInSelection =
ASTNodeUnitBridge.getUnitsFromLines(
ASTNodeUnitBridge.getLinesFromASTNodes(selectionNodes, jdtCompilationUnit), body);
if (unitsInSelection.isEmpty()) {
System.out.println("the selection doesn't map to any Soot Unit");
return null;
}
FeatureModelInstrumentorTransformer instrumentorTransformer =
new FeatureModelInstrumentorTransformer(extracter, correspondentClasspath);
instrumentorTransformer.transform2(body, correspondentClasspath);
FeatureTag<Set<String>> bodyFeatureTag =
(FeatureTag<Set<String>>) body.getTag("FeatureTag");
BriefUnitGraph bodyGraph = new BriefUnitGraph(body);
LiftedReachingDefinitions reachingDefinitions =
new LiftedReachingDefinitions(bodyGraph, bodyFeatureTag.getFeatures());
reachingDefinitions.execute();
Map<Pair<Unit, Set<String>>, Set<Unit>> createProvidesConfigMap =
createProvidesConfigMap(unitsInSelection, reachingDefinitions, body);
System.out.println(createProvidesConfigMap);
String message = createMessage(createProvidesConfigMap);
// EmergentPopup.pop(shell, message);
} catch (Exception ex) {
ex.printStackTrace();
} finally {
G.v().reset();
}
long estimatedTime = System.currentTimeMillis() - startTimer;
runsTimer.add(estimatedTime);
}
System.out.println(runsTimer);
return null;
}
public static NullType v() {
return G.v().soot_NullType();
}
private NumericConstant getArrayElement(Number element, DexBody body, int arrayRegister) {
List<DexlibAbstractInstruction> instructions = body.instructionsBefore(this);
Set<Integer> usedRegisters = new HashSet<Integer>();
usedRegisters.add(arrayRegister);
Type elementType = null;
Outer:
for (DexlibAbstractInstruction i : instructions) {
if (usedRegisters.isEmpty()) break;
for (int reg : usedRegisters)
if (i instanceof NewArrayInstruction) {
NewArrayInstruction newArrayInstruction = (NewArrayInstruction) i;
Instruction22c instruction22c = (Instruction22c) newArrayInstruction.instruction;
if (instruction22c.getRegisterA() == reg) {
ArrayType arrayType =
(ArrayType) DexType.toSoot((TypeReference) instruction22c.getReference());
elementType = arrayType.getElementType();
break Outer;
}
}
// // look for obsolete registers
// for (int reg : usedRegisters) {
// if (i.overridesRegister(reg)) {
// usedRegisters.remove(reg);
// break; // there can't be more than one obsolete
// }
// }
// look for new registers
for (int reg : usedRegisters) {
int newRegister = i.movesToRegister(reg);
if (newRegister != -1) {
usedRegisters.add(newRegister);
usedRegisters.remove(reg);
break; // there can't be more than one new
}
}
}
if (elementType == null) {
// throw new InternalError("Unable to find array type to type array elements!");
G.v()
.out
.println(
"Warning: Unable to find array type to type array elements! Array was not defined! (obfuscated bytecode?)");
return null;
}
NumericConstant value;
if (elementType instanceof BooleanType) {
value = IntConstant.v(element.intValue());
IntConstant ic = (IntConstant) value;
if (!(ic.value == 0 || ic.value == 1)) {
throw new RuntimeException("ERROR: Invalid value for boolean: " + value);
}
} else if (elementType instanceof ByteType) {
value = IntConstant.v(element.byteValue());
} else if (elementType instanceof CharType || elementType instanceof ShortType) {
value = IntConstant.v(element.shortValue());
} else if (elementType instanceof DoubleType) {
value = DoubleConstant.v(Double.longBitsToDouble(element.longValue()));
} else if (elementType instanceof FloatType) {
value = FloatConstant.v(Float.intBitsToFloat(element.intValue()));
} else if (elementType instanceof IntType) {
value = IntConstant.v(element.intValue());
} else if (elementType instanceof LongType) {
value = LongConstant.v(element.longValue());
} else {
throw new RuntimeException(
"Invalid Array Type occured in FillArrayDataInstruction: " + elementType);
}
Debug.printDbg("array element: ", value);
return value;
}
public static ShimpleTransformer v() {
return G.v().soot_shimple_ShimpleTransformer();
}
public static DavaStaticBlockCleaner v() {
return G.v().soot_dava_DavaStaticBlockCleaner();
}
