/** * 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(); }
// This method is deprecated. Use soot.util.JasminOutputStream instead. public void writeXXXDeprecated(SootClass cl, String outputDir) { String outputDirWithSep = ""; if (!outputDir.equals("")) outputDirWithSep = outputDir + fileSeparator; try { File tempFile = new File(outputDirWithSep + cl.getName() + ".jasmin"); FileOutputStream streamOut = new FileOutputStream(tempFile); PrintWriter writerOut = new PrintWriter(new EscapedWriter(new OutputStreamWriter(streamOut))); if (cl.containsBafBody()) new soot.baf.JasminClass(cl).print(writerOut); else new soot.jimple.JasminClass(cl).print(writerOut); writerOut.close(); if (Options.v().time()) Timers.v().assembleJasminTimer.start(); // Invoke jasmin { String[] args; if (outputDir.equals("")) { args = new String[1]; args[0] = cl.getName() + ".jasmin"; } else { args = new String[3]; args[0] = "-d"; args[1] = outputDir; args[2] = outputDirWithSep + cl.getName() + ".jasmin"; } jasmin.Main.main(args); } tempFile.delete(); if (Options.v().time()) Timers.v().assembleJasminTimer.end(); } catch (IOException e) { throw new RuntimeException("Could not produce new classfile! (" + e + ")"); } }
/** * 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(); }
SimpleLiveLocalsAnalysis(UnitGraph g) { super(g); if (Options.v().time()) Timers.v().liveSetupTimer.start(); emptySet = new ArraySparseSet(); // Create kill sets. { unitToKillSet = new HashMap<Unit, FlowSet>(g.size() * 2 + 1, 0.7f); Iterator unitIt = g.iterator(); while (unitIt.hasNext()) { Unit s = (Unit) unitIt.next(); FlowSet killSet = emptySet.clone(); Iterator boxIt = s.getDefBoxes().iterator(); while (boxIt.hasNext()) { ValueBox box = (ValueBox) boxIt.next(); if (box.getValue() instanceof Local) killSet.add(box.getValue(), killSet); } unitToKillSet.put(s, killSet); } } // Create generate sets { unitToGenerateSet = new HashMap<Unit, FlowSet>(g.size() * 2 + 1, 0.7f); Iterator unitIt = g.iterator(); while (unitIt.hasNext()) { Unit s = (Unit) unitIt.next(); FlowSet genSet = emptySet.clone(); Iterator boxIt = s.getUseBoxes().iterator(); while (boxIt.hasNext()) { ValueBox box = (ValueBox) boxIt.next(); if (box.getValue() instanceof Local) genSet.add(box.getValue(), genSet); } unitToGenerateSet.put(s, genSet); } } if (Options.v().time()) Timers.v().liveSetupTimer.end(); if (Options.v().time()) Timers.v().liveAnalysisTimer.start(); doAnalysis(); if (Options.v().time()) Timers.v().liveAnalysisTimer.end(); }
/** * 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); } } }
public void printTo(SootClass cl, PrintWriter out) { // add jimple line number tags setJimpleLnNum(1); // Print class name + modifiers { StringTokenizer st = new StringTokenizer(Modifier.toString(cl.getModifiers())); while (st.hasMoreTokens()) { String tok = (String) st.nextToken(); if (cl.isInterface() && tok.equals("abstract")) continue; out.print(tok + " "); } String classPrefix = ""; if (!cl.isInterface()) { classPrefix = classPrefix + " class"; classPrefix = classPrefix.trim(); } out.print(classPrefix + " " + Scene.v().quotedNameOf(cl.getName()) + ""); } // Print extension { if (cl.hasSuperclass()) out.print(" extends " + Scene.v().quotedNameOf(cl.getSuperclass().getName()) + ""); } // Print interfaces { Iterator interfaceIt = cl.getInterfaces().iterator(); if (interfaceIt.hasNext()) { out.print(" implements "); out.print("" + Scene.v().quotedNameOf(((SootClass) interfaceIt.next()).getName()) + ""); while (interfaceIt.hasNext()) { out.print(","); out.print(" " + Scene.v().quotedNameOf(((SootClass) interfaceIt.next()).getName()) + ""); } } } out.println(); incJimpleLnNum(); /* if (!addJimpleLn()) { Iterator clTagsIt = cl.getTags().iterator(); while (clTagsIt.hasNext()) { final Tag t = (Tag)clTagsIt.next(); out.println(t); } }*/ out.println("{"); incJimpleLnNum(); if (Options.v().print_tags_in_output()) { Iterator cTagIterator = cl.getTags().iterator(); while (cTagIterator.hasNext()) { Tag t = (Tag) cTagIterator.next(); out.print("/*"); out.print(t.toString()); out.println("*/"); } } // Print fields { Iterator fieldIt = cl.getFields().iterator(); if (fieldIt.hasNext()) { while (fieldIt.hasNext()) { SootField f = (SootField) fieldIt.next(); if (f.isPhantom()) continue; if (Options.v().print_tags_in_output()) { Iterator fTagIterator = f.getTags().iterator(); while (fTagIterator.hasNext()) { Tag t = (Tag) fTagIterator.next(); out.print("/*"); out.print(t.toString()); out.println("*/"); } } out.println(" " + f.getDeclaration() + ";"); if (addJimpleLn()) { setJimpleLnNum(addJimpleLnTags(getJimpleLnNum(), f)); } // incJimpleLnNum(); } } } // Print methods { Iterator methodIt = cl.methodIterator(); if (methodIt.hasNext()) { if (cl.getMethodCount() != 0) { out.println(); incJimpleLnNum(); } while (methodIt.hasNext()) { SootMethod method = (SootMethod) methodIt.next(); if (method.isPhantom()) continue; if (!Modifier.isAbstract(method.getModifiers()) && !Modifier.isNative(method.getModifiers())) { if (!method.hasActiveBody()) throw new RuntimeException("method " + method.getName() + " has no active body!"); else if (Options.v().print_tags_in_output()) { Iterator mTagIterator = method.getTags().iterator(); while (mTagIterator.hasNext()) { Tag t = (Tag) mTagIterator.next(); out.print("/*"); out.print(t.toString()); out.println("*/"); } } printTo(method.getActiveBody(), out); if (methodIt.hasNext()) { out.println(); incJimpleLnNum(); } } else { if (Options.v().print_tags_in_output()) { Iterator mTagIterator = method.getTags().iterator(); while (mTagIterator.hasNext()) { Tag t = (Tag) mTagIterator.next(); out.print("/*"); out.print(t.toString()); out.println("*/"); } } out.print(" "); out.print(method.getDeclaration()); out.println(";"); incJimpleLnNum(); if (methodIt.hasNext()) { out.println(); incJimpleLnNum(); } } } } } out.println("}"); incJimpleLnNum(); }
/** Prints the given <code>JimpleBody</code> to the specified <code>PrintWriter</code>. */ private void printStatementsInBody( Body body, java.io.PrintWriter out, LabeledUnitPrinter up, UnitGraph unitGraph) { Chain units = body.getUnits(); Iterator unitIt = units.iterator(); Unit currentStmt = null, previousStmt; while (unitIt.hasNext()) { previousStmt = currentStmt; currentStmt = (Unit) unitIt.next(); // Print appropriate header. { // Put an empty line if the previous node was a branch node, the current node is a join node // or the previous statement does not have body statement as a successor, or if // body statement has a label on it if (currentStmt != units.getFirst()) { if (unitGraph.getSuccsOf(previousStmt).size() != 1 || unitGraph.getPredsOf(currentStmt).size() != 1 || up.labels().containsKey(currentStmt)) { up.newline(); } else { // Or if the previous node does not have body statement as a successor. List succs = unitGraph.getSuccsOf(previousStmt); if (succs.get(0) != currentStmt) { up.newline(); } } } if (up.labels().containsKey(currentStmt)) { up.unitRef(currentStmt, true); up.literal(":"); up.newline(); } if (up.references().containsKey(currentStmt)) { up.unitRef(currentStmt, false); } } up.startUnit(currentStmt); currentStmt.toString(up); up.endUnit(currentStmt); up.literal(";"); up.newline(); // only print them if not generating attributes files // because they mess up line number // if (!addJimpleLn()) { if (Options.v().print_tags_in_output()) { Iterator tagIterator = currentStmt.getTags().iterator(); while (tagIterator.hasNext()) { Tag t = (Tag) tagIterator.next(); up.noIndent(); up.literal("/*"); up.literal(t.toString()); up.literal("*/"); up.newline(); } /*Iterator udIt = currentStmt.getUseAndDefBoxes().iterator(); while (udIt.hasNext()) { ValueBox temp = (ValueBox)udIt.next(); Iterator vbtags = temp.getTags().iterator(); while (vbtags.hasNext()) { Tag t = (Tag) vbtags.next(); up.noIndent(); up.literal("VB Tag: "+t.toString()); up.newline(); } }*/ } } out.print(up.toString()); if (addJimpleLn()) { setJimpleLnNum(up.getPositionTagger().getEndLn()); } // Print out exceptions { Iterator trapIt = body.getTraps().iterator(); if (trapIt.hasNext()) { out.println(); incJimpleLnNum(); } while (trapIt.hasNext()) { Trap trap = (Trap) trapIt.next(); out.println( " catch " + Scene.v().quotedNameOf(trap.getException().getName()) + " from " + up.labels().get(trap.getBeginUnit()) + " to " + up.labels().get(trap.getEndUnit()) + " with " + up.labels().get(trap.getHandlerUnit()) + ";"); incJimpleLnNum(); } } }