use of soot.jimple.IdentityStmt in project soot by Sable.
the class AsmMethodSource method emitUnits.
private void emitUnits() {
AbstractInsnNode insn = instructions.getFirst();
ArrayDeque<LabelNode> labls = new ArrayDeque<LabelNode>();
while (insn != null) {
// Save the label to assign it to the next real unit
if (insn instanceof LabelNode)
labls.add((LabelNode) insn);
// Get the unit associated with the current instruction
Unit u = units.get(insn);
if (u == null) {
insn = insn.getNext();
continue;
}
emitUnits(u);
// If this is an exception handler, register the starting unit for it
{
IdentityStmt caughtEx = null;
if (u instanceof IdentityStmt)
caughtEx = (IdentityStmt) u;
else if (u instanceof UnitContainer)
caughtEx = getIdentityRefFromContrainer((UnitContainer) u);
if (insn instanceof LabelNode && caughtEx != null && caughtEx.getRightOp() instanceof CaughtExceptionRef) {
// We directly place this label
Collection<UnitBox> traps = trapHandlers.get((LabelNode) insn);
for (UnitBox ub : traps) ub.setUnit(caughtEx);
}
}
// Register this unit for all targets of the labels ending up at it
while (!labls.isEmpty()) {
LabelNode ln = labls.poll();
Collection<UnitBox> boxes = labels.get(ln);
if (boxes != null) {
for (UnitBox box : boxes) {
box.setUnit(u instanceof UnitContainer ? ((UnitContainer) u).getFirstUnit() : u);
}
}
}
insn = insn.getNext();
}
// Emit the inline exception handlers
for (LabelNode ln : this.inlineExceptionHandlers.keySet()) {
Unit handler = this.inlineExceptionHandlers.get(ln);
emitUnits(handler);
Collection<UnitBox> traps = trapHandlers.get(ln);
for (UnitBox ub : traps) ub.setUnit(handler);
// We need to jump to the original implementation
Unit targetUnit = units.get(ln);
GotoStmt gotoImpl = Jimple.v().newGotoStmt(targetUnit);
body.getUnits().add(gotoImpl);
}
/* set remaining labels & boxes to last unit of chain */
if (labls.isEmpty())
return;
Unit end = Jimple.v().newNopStmt();
body.getUnits().add(end);
while (!labls.isEmpty()) {
LabelNode ln = labls.poll();
Collection<UnitBox> boxes = labels.get(ln);
if (boxes != null) {
for (UnitBox box : boxes) box.setUnit(end);
}
}
}
use of soot.jimple.IdentityStmt in project soot by Sable.
the class MethodNodeFactory method handleStmt.
/**
* Adds the edges required for this statement to the graph.
*/
public final void handleStmt(Stmt s) {
// We only consider reflective class creation when it is enabled
if (s.containsInvokeExpr()) {
if (!pag.getCGOpts().types_for_invoke())
return;
InvokeExpr iexpr = s.getInvokeExpr();
if (iexpr instanceof VirtualInvokeExpr) {
if (!isReflectionNewInstance(iexpr))
return;
} else if (!(iexpr instanceof StaticInvokeExpr))
return;
}
s.apply(new AbstractStmtSwitch() {
@Override
public final void caseAssignStmt(AssignStmt as) {
Value l = as.getLeftOp();
Value r = as.getRightOp();
if (!(l.getType() instanceof RefLikeType))
return;
assert r.getType() instanceof RefLikeType : "Type mismatch in assignment " + as + " in method " + method.getSignature();
l.apply(MethodNodeFactory.this);
Node dest = getNode();
r.apply(MethodNodeFactory.this);
Node src = getNode();
if (l instanceof InstanceFieldRef) {
((InstanceFieldRef) l).getBase().apply(MethodNodeFactory.this);
pag.addDereference((VarNode) getNode());
}
if (r instanceof InstanceFieldRef) {
((InstanceFieldRef) r).getBase().apply(MethodNodeFactory.this);
pag.addDereference((VarNode) getNode());
} else if (r instanceof StaticFieldRef) {
StaticFieldRef sfr = (StaticFieldRef) r;
SootFieldRef s = sfr.getFieldRef();
if (pag.getOpts().empties_as_allocs()) {
if (s.declaringClass().getName().equals("java.util.Collections")) {
if (s.name().equals("EMPTY_SET")) {
src = pag.makeAllocNode(RefType.v("java.util.HashSet"), RefType.v("java.util.HashSet"), method);
} else if (s.name().equals("EMPTY_MAP")) {
src = pag.makeAllocNode(RefType.v("java.util.HashMap"), RefType.v("java.util.HashMap"), method);
} else if (s.name().equals("EMPTY_LIST")) {
src = pag.makeAllocNode(RefType.v("java.util.LinkedList"), RefType.v("java.util.LinkedList"), method);
}
} else if (s.declaringClass().getName().equals("java.util.Hashtable")) {
if (s.name().equals("emptyIterator")) {
src = pag.makeAllocNode(RefType.v("java.util.Hashtable$EmptyIterator"), RefType.v("java.util.Hashtable$EmptyIterator"), method);
} else if (s.name().equals("emptyEnumerator")) {
src = pag.makeAllocNode(RefType.v("java.util.Hashtable$EmptyEnumerator"), RefType.v("java.util.Hashtable$EmptyEnumerator"), method);
}
}
}
}
mpag.addInternalEdge(src, dest);
}
@Override
public final void caseReturnStmt(ReturnStmt rs) {
if (!(rs.getOp().getType() instanceof RefLikeType))
return;
rs.getOp().apply(MethodNodeFactory.this);
Node retNode = getNode();
mpag.addInternalEdge(retNode, caseRet());
}
@Override
public final void caseIdentityStmt(IdentityStmt is) {
if (!(is.getLeftOp().getType() instanceof RefLikeType))
return;
Value leftOp = is.getLeftOp();
Value rightOp = is.getRightOp();
leftOp.apply(MethodNodeFactory.this);
Node dest = getNode();
rightOp.apply(MethodNodeFactory.this);
Node src = getNode();
mpag.addInternalEdge(src, dest);
// in case library mode is activated add allocations to any
// possible type of this local and
// parameters of accessible methods
int libOption = pag.getCGOpts().library();
if (libOption != CGOptions.library_disabled && (accessibilityOracle.isAccessible(method))) {
if (rightOp instanceof IdentityRef) {
Type rt = rightOp.getType();
rt.apply(new SparkLibraryHelper(pag, src, method));
}
}
}
@Override
public final void caseThrowStmt(ThrowStmt ts) {
ts.getOp().apply(MethodNodeFactory.this);
mpag.addOutEdge(getNode(), pag.nodeFactory().caseThrow());
}
});
}
use of soot.jimple.IdentityStmt in project soot by Sable.
the class Util method findLastIdentityUnit.
/**
* A new "normal" statement cannot be inserted in the middle of special
* "identity statements" (a = @parameter or b = @this in Jimple).
*
* This method returns the last "identity statement" of the method.
* @param b
* @param s
* @return
*/
public static Unit findLastIdentityUnit(Body b, Stmt s) {
Unit u2 = s;
Unit u1 = s;
while (u1 instanceof IdentityStmt) {
u2 = u1;
u1 = b.getUnits().getSuccOf(u1);
}
return u2;
}
use of soot.jimple.IdentityStmt in project soot by Sable.
the class DalvikTyper method assignType.
@Override
public void assignType(final Body b) {
// Debug.printDbg("assignTypes: before: \n", b);
constraints.clear();
localObjList.clear();
final Set<Unit> todoUnits = new HashSet<Unit>();
// put constraints:
for (Unit u : b.getUnits()) {
StmtSwitch ss = new StmtSwitch() {
@Override
public void caseBreakpointStmt(BreakpointStmt stmt) {
// nothing
}
@Override
public void caseInvokeStmt(InvokeStmt stmt) {
// add constraint
DalvikTyper.v().setInvokeType(stmt.getInvokeExpr());
}
@Override
public void caseAssignStmt(AssignStmt stmt) {
// add constraint
Value l = stmt.getLeftOp();
Value r = stmt.getRightOp();
// size in new array expression is of tye integer
if (r instanceof NewArrayExpr) {
NewArrayExpr nae = (NewArrayExpr) r;
ValueBox sb = nae.getSizeBox();
if (sb.getValue() instanceof Local) {
DalvikTyper.v().setType(sb, IntType.v(), true);
}
}
// array index is of type integer
if (stmt.containsArrayRef()) {
ArrayRef ar = stmt.getArrayRef();
ValueBox sb = ar.getIndexBox();
if (sb.getValue() instanceof Local) {
DalvikTyper.v().setType(sb, IntType.v(), true);
}
}
if (l instanceof Local && r instanceof Local) {
DalvikTyper.v().addConstraint(stmt.getLeftOpBox(), stmt.getRightOpBox());
return;
}
if (stmt.containsInvokeExpr()) {
DalvikTyper.v().setInvokeType(stmt.getInvokeExpr());
}
if (r instanceof Local) {
// l NOT local
Type leftType = stmt.getLeftOp().getType();
if (l instanceof ArrayRef && leftType instanceof UnknownType) {
// find type later
todoUnits.add(stmt);
return;
}
DalvikTyper.v().setType(stmt.getRightOpBox(), leftType, true);
return;
}
if (l instanceof Local) {
if (r instanceof UntypedConstant)
return;
for (Tag t : stmt.getTags()) {
if (r instanceof CastExpr) {
// do not check tag, since the tag is for the operand of the cast
break;
}
// Debug.printDbg("assign stmt tag: ", stmt, t);
if (t instanceof IntOpTag) {
checkExpr(r, IntType.v());
DalvikTyper.v().setType(stmt.getLeftOpBox(), IntType.v(), false);
return;
} else if (t instanceof FloatOpTag) {
checkExpr(r, FloatType.v());
DalvikTyper.v().setType(stmt.getLeftOpBox(), FloatType.v(), false);
return;
} else if (t instanceof DoubleOpTag) {
checkExpr(r, DoubleType.v());
DalvikTyper.v().setType(stmt.getLeftOpBox(), DoubleType.v(), false);
return;
} else if (t instanceof LongOpTag) {
checkExpr(r, LongType.v());
DalvikTyper.v().setType(stmt.getLeftOpBox(), LongType.v(), false);
return;
}
}
Type rightType = stmt.getRightOp().getType();
if (r instanceof ArrayRef && rightType instanceof UnknownType) {
// find type later
todoUnits.add(stmt);
return;
} else if (r instanceof CastExpr) {
CastExpr ce = (CastExpr) r;
Type castType = ce.getCastType();
if (castType instanceof PrimType) {
// check incoming primitive type
for (Tag t : stmt.getTags()) {
// Debug.printDbg("assign primitive type from stmt tag: ", stmt, t);
if (t instanceof IntOpTag) {
DalvikTyper.v().setType(ce.getOpBox(), IntType.v(), false);
return;
} else if (t instanceof FloatOpTag) {
DalvikTyper.v().setType(ce.getOpBox(), FloatType.v(), false);
return;
} else if (t instanceof DoubleOpTag) {
DalvikTyper.v().setType(ce.getOpBox(), DoubleType.v(), false);
return;
} else if (t instanceof LongOpTag) {
DalvikTyper.v().setType(ce.getOpBox(), LongType.v(), false);
return;
}
}
} else {
// incoming type is object
DalvikTyper.v().setType(ce.getOpBox(), RefType.v("java.lang.Object"), false);
}
}
DalvikTyper.v().setType(stmt.getLeftOpBox(), rightType, false);
return;
}
}
@Override
public void caseIdentityStmt(IdentityStmt stmt) {
DalvikTyper.v().setType(stmt.getLeftOpBox(), stmt.getRightOp().getType(), false);
}
@Override
public void caseEnterMonitorStmt(EnterMonitorStmt stmt) {
// add constraint
DalvikTyper.v().setType(stmt.getOpBox(), RefType.v("java.lang.Object"), true);
}
@Override
public void caseExitMonitorStmt(ExitMonitorStmt stmt) {
// add constraint
DalvikTyper.v().setType(stmt.getOpBox(), RefType.v("java.lang.Object"), true);
}
@Override
public void caseGotoStmt(GotoStmt stmt) {
// nothing
}
@Override
public void caseIfStmt(IfStmt stmt) {
// add constraint
Value c = stmt.getCondition();
if (c instanceof BinopExpr) {
BinopExpr bo = (BinopExpr) c;
Value op1 = bo.getOp1();
Value op2 = bo.getOp2();
if (op1 instanceof Local && op2 instanceof Local) {
DalvikTyper.v().addConstraint(bo.getOp1Box(), bo.getOp2Box());
}
}
}
@Override
public void caseLookupSwitchStmt(LookupSwitchStmt stmt) {
// add constraint
DalvikTyper.v().setType(stmt.getKeyBox(), IntType.v(), true);
}
@Override
public void caseNopStmt(NopStmt stmt) {
// nothing
}
@Override
public void caseRetStmt(RetStmt stmt) {
// nothing
}
@Override
public void caseReturnStmt(ReturnStmt stmt) {
// add constraint
DalvikTyper.v().setType(stmt.getOpBox(), b.getMethod().getReturnType(), true);
}
@Override
public void caseReturnVoidStmt(ReturnVoidStmt stmt) {
// nothing
}
@Override
public void caseTableSwitchStmt(TableSwitchStmt stmt) {
// add constraint
DalvikTyper.v().setType(stmt.getKeyBox(), IntType.v(), true);
}
@Override
public void caseThrowStmt(ThrowStmt stmt) {
// add constraint
DalvikTyper.v().setType(stmt.getOpBox(), RefType.v("java.lang.Object"), true);
}
@Override
public void defaultCase(Object obj) {
throw new RuntimeException("error: unknown statement: " + obj);
}
};
u.apply(ss);
}
// <com.admob.android.ads.q: void a(android.os.Bundle,java.lang.String,java.lang.Object)>
if (!todoUnits.isEmpty()) {
// propagate array types
UnitGraph ug = new ExceptionalUnitGraph(b);
SimpleLocalDefs sld = new SimpleLocalDefs(ug);
SimpleLocalUses slu = new SimpleLocalUses(b, sld);
for (Unit u : b.getUnits()) {
if (u instanceof DefinitionStmt) {
// Debug.printDbg("U: ", u);
DefinitionStmt ass = (DefinitionStmt) u;
Value r = ass.getRightOp();
if (r instanceof UntypedConstant)
continue;
Type rType = r.getType();
if (rType instanceof ArrayType && ass.getLeftOp() instanceof Local) {
// Debug.printDbg("propagate-array: checking ", u);
// propagate array type through aliases
Set<Unit> done = new HashSet<Unit>();
Set<DefinitionStmt> toDo = new HashSet<DefinitionStmt>();
toDo.add(ass);
while (!toDo.isEmpty()) {
DefinitionStmt currentUnit = toDo.iterator().next();
if (done.contains(currentUnit)) {
toDo.remove(currentUnit);
continue;
}
done.add(currentUnit);
for (UnitValueBoxPair uvbp : slu.getUsesOf(currentUnit)) {
Unit use = uvbp.unit;
Value l2 = null;
Value r2 = null;
if (use instanceof AssignStmt) {
AssignStmt ass2 = (AssignStmt) use;
l2 = ass2.getLeftOp();
r2 = ass2.getRightOp();
if (!(l2 instanceof Local) || !(r2 instanceof Local || r2 instanceof ArrayRef)) {
// Debug.printDbg("propagate-array: skipping ", use);
continue;
}
Type newType = null;
if (r2 instanceof Local) {
List<LocalObj> lobjs = local2Obj.get(r2);
newType = lobjs.get(0).t;
} else if (r2 instanceof ArrayRef) {
ArrayRef ar = (ArrayRef) r2;
// skip if use is in index
if (ar.getIndex() == currentUnit.getLeftOp()) {
// Debug.printDbg("skipping since local is used as index...");
continue;
}
Local arBase = (Local) ar.getBase();
List<LocalObj> lobjs = local2Obj.get(arBase);
Type baseT = lobjs.get(0).t;
if (baseT.toString().equals(("java.lang.Object"))) {
// look for an array type, because an TTT[] is also an Object...
ArrayType aTypeOtherThanObject = null;
for (LocalObj lo : local2Obj.get(arBase)) {
if (lo.t instanceof ArrayType) {
aTypeOtherThanObject = (ArrayType) lo.t;
}
}
if (aTypeOtherThanObject == null) {
throw new RuntimeException("error: did not found array type for base " + arBase + " " + local2Obj.get(arBase) + " \n " + b);
}
baseT = aTypeOtherThanObject;
}
ArrayType at = (ArrayType) baseT;
newType = at.getElementType();
} else {
throw new RuntimeException("error: expected Local or ArrayRef. Got " + r2);
}
toDo.add((DefinitionStmt) use);
DalvikTyper.v().setType(ass2.getLeftOpBox(), newType, true);
}
}
}
}
}
}
for (Unit u : todoUnits) {
// Debug.printDbg("todo unit: ", u);
}
while (!todoUnits.isEmpty()) {
Unit u = todoUnits.iterator().next();
if (!(u instanceof AssignStmt)) {
throw new RuntimeException("error: expecting assign stmt. Got " + u);
}
AssignStmt ass = (AssignStmt) u;
Value l = ass.getLeftOp();
Value r = ass.getRightOp();
ArrayRef ar = null;
Local loc = null;
if (l instanceof ArrayRef) {
ar = (ArrayRef) l;
loc = (Local) r;
} else if (r instanceof ArrayRef) {
ar = (ArrayRef) r;
loc = (Local) l;
} else {
throw new RuntimeException("error: expecting an array ref. Got " + u);
}
Local baselocal = (Local) ar.getBase();
if (!local2Obj.containsKey(baselocal)) {
// Debug.printDbg("b: ", b.getMethod(), " \n", b);
throw new RuntimeException("oups");
}
Type baseT = local2Obj.get(baselocal).get(0).t;
if (baseT.toString().equals(("java.lang.Object"))) {
// look for an array type, because an TTT[] is also an Object...
ArrayType aTypeOtherThanObject = null;
for (LocalObj lo : local2Obj.get(baselocal)) {
if (lo.t instanceof ArrayType) {
aTypeOtherThanObject = (ArrayType) lo.t;
}
}
if (aTypeOtherThanObject == null) {
throw new RuntimeException("did not found array type for base " + baselocal + " " + local2Obj.get(baselocal) + " \n " + b);
}
baseT = aTypeOtherThanObject;
}
ArrayType basetype = (ArrayType) baseT;
// Debug.printDbg("v: ", ar, " base:", ar.getBase(), " base type: ", basetype, " type: ", ar.getType());
Type t = basetype.getElementType();
if (t instanceof UnknownType) {
todoUnits.add(u);
continue;
} else {
DalvikTyper.v().setType(ar == l ? ass.getRightOpBox() : ass.getLeftOpBox(), t, true);
todoUnits.remove(u);
}
}
// throw new RuntimeException("ouppppp");
}
// Debug.printDbg(IDalvikTyper.DEBUG, "list of constraints:");
List<ValueBox> vbList = b.getUseAndDefBoxes();
// clear constraints after local splitting and dead code eliminator
List<Constraint> toRemove = new ArrayList<Constraint>();
for (Constraint c : constraints) {
if (!vbList.contains(c.l)) {
// Debug.printDbg(IDalvikTyper.DEBUG, "warning: ", c.l, " not in locals! removing...");
toRemove.add(c);
continue;
}
if (!vbList.contains(c.r)) {
// Debug.printDbg(IDalvikTyper.DEBUG, "warning: ", c.r, " not in locals! removing...");
toRemove.add(c);
continue;
}
}
for (Constraint c : toRemove) constraints.remove(c);
// keep only valid locals
for (LocalObj lo : localObjList) {
if (!vbList.contains(lo.vb)) {
// Debug.printDbg(IDalvikTyper.DEBUG, " -- removing vb: ", lo.vb, " with type ", lo.t);
continue;
}
Local l = lo.getLocal();
Type t = lo.t;
if (localTemp.contains(l) && lo.isUse) {
// Debug.printDbg(IDalvikTyper.DEBUG, " /!\\ def already added for local ", l, "! for vb: ", lo.vb);
} else {
// Debug.printDbg(IDalvikTyper.DEBUG, " * add type ", t, " to local ", l, " for vb: ", lo.vb);
localTemp.add(l);
typed.put(lo.vb, t);
}
}
for (ValueBox vb : typed.keySet()) {
if (vb.getValue() instanceof Local) {
Local l = (Local) vb.getValue();
localTyped.put(l, typed.get(vb));
}
}
for (Constraint c : constraints) // Debug.printDbg(IDalvikTyper.DEBUG, " -> constraint: ", c);
for (ValueBox vb : typed.keySet()) {
// Debug.printDbg(IDalvikTyper.DEBUG, " typed: ", vb, " -> ", typed.get(vb));
}
for (Local l : localTyped.keySet()) {
// Debug.printDbg(IDalvikTyper.DEBUG, " localTyped: ", l, " -> ", localTyped.get(l));
}
while (!constraints.isEmpty()) {
boolean update = false;
for (Constraint c : constraints) {
// Debug.printDbg(IDalvikTyper.DEBUG, "current constraint: ", c);
Value l = c.l.getValue();
Value r = c.r.getValue();
if (l instanceof Local && r instanceof Constant) {
Constant cst = (Constant) r;
if (!localTyped.containsKey(l))
continue;
Type lt = localTyped.get(l);
// Debug.printDbg(IDalvikTyper.DEBUG, "would like to set type ", lt, " to constant: ", c);
Value newValue = null;
if (lt instanceof IntType || lt instanceof BooleanType || lt instanceof ShortType || lt instanceof CharType || lt instanceof ByteType) {
UntypedIntOrFloatConstant uf = (UntypedIntOrFloatConstant) cst;
newValue = uf.toIntConstant();
} else if (lt instanceof FloatType) {
UntypedIntOrFloatConstant uf = (UntypedIntOrFloatConstant) cst;
newValue = uf.toFloatConstant();
} else if (lt instanceof DoubleType) {
UntypedLongOrDoubleConstant ud = (UntypedLongOrDoubleConstant) cst;
newValue = ud.toDoubleConstant();
} else if (lt instanceof LongType) {
UntypedLongOrDoubleConstant ud = (UntypedLongOrDoubleConstant) cst;
newValue = ud.toLongConstant();
} else {
if (cst instanceof UntypedIntOrFloatConstant && ((UntypedIntOrFloatConstant) cst).value == 0) {
newValue = NullConstant.v();
// Debug.printDbg("new null constant for constraint ", c, " with l type: ", localTyped.get(l));
} else {
throw new RuntimeException("unknow type for constance: " + lt);
}
}
c.r.setValue(newValue);
// Debug.printDbg(IDalvikTyper.DEBUG, "remove constraint: ", c);
constraints.remove(c);
update = true;
break;
} else if (l instanceof Local && r instanceof Local) {
Local leftLocal = (Local) l;
Local rightLocal = (Local) r;
if (localTyped.containsKey(leftLocal)) {
Type leftLocalType = localTyped.get(leftLocal);
if (!localTyped.containsKey(rightLocal)) {
// Debug.printDbg(IDalvikTyper.DEBUG, "set type ", leftLocalType, " to local ", rightLocal);
rightLocal.setType(leftLocalType);
setLocalTyped(rightLocal, leftLocalType);
}
// Debug.printDbg(IDalvikTyper.DEBUG, "remove constraint: ", c);
constraints.remove(c);
update = true;
break;
} else if (localTyped.containsKey(rightLocal)) {
Type rightLocalType = localTyped.get(rightLocal);
if (!localTyped.containsKey(leftLocal)) {
// Debug.printDbg(IDalvikTyper.DEBUG, "set type ", rightLocalType, " to local ", leftLocal);
leftLocal.setType(rightLocalType);
setLocalTyped(leftLocal, rightLocalType);
}
// Debug.printDbg(IDalvikTyper.DEBUG, "remove constraint: ", c);
constraints.remove(c);
update = true;
break;
}
} else if (l instanceof ArrayRef && r instanceof Local) {
Local rightLocal = (Local) r;
ArrayRef ar = (ArrayRef) l;
Local base = (Local) ar.getBase();
// Debug.printDbg(IDalvikTyper.DEBUG, "index: ", ar.getIndex());
if (localTyped.containsKey(base)) {
Type t = localTyped.get(base);
// Debug.printDbg(IDalvikTyper.DEBUG, "type of local1: ", t, " ", t.getClass());
Type elementType = null;
if (t instanceof ArrayType) {
ArrayType at = (ArrayType) t;
elementType = at.getArrayElementType();
} else {
continue;
}
if (!localTyped.containsKey(rightLocal)) {
// Debug.printDbg(IDalvikTyper.DEBUG, "set type ", elementType, " to local ", r);
rightLocal.setType(elementType);
setLocalTyped(rightLocal, elementType);
}
// Debug.printDbg(IDalvikTyper.DEBUG, "remove constraint: ", c);
constraints.remove(c);
update = true;
break;
}
} else if (l instanceof Local && r instanceof ArrayRef) {
Local leftLocal = (Local) l;
ArrayRef ar = (ArrayRef) r;
Local base = (Local) ar.getBase();
if (localTyped.containsKey(base)) {
Type t = localTyped.get(base);
// Debug.printDbg(IDalvikTyper.DEBUG, "type of local2: ", t, " ", t.getClass());
Type elementType = null;
if (t instanceof ArrayType) {
ArrayType at = (ArrayType) t;
elementType = at.getArrayElementType();
} else {
continue;
}
if (!localTyped.containsKey(leftLocal)) {
// Debug.printDbg(IDalvikTyper.DEBUG, "set type ", elementType, " to local ", l);
leftLocal.setType(elementType);
setLocalTyped(leftLocal, elementType);
}
// Debug.printDbg(IDalvikTyper.DEBUG, "remove constraint: ", c);
constraints.remove(c);
update = true;
break;
}
} else {
throw new RuntimeException("error: do not handling this kind of constraint: " + c);
}
}
if (!update)
break;
}
for (Unit u : b.getUnits()) {
if (!(u instanceof AssignStmt))
continue;
AssignStmt ass = (AssignStmt) u;
if (!(ass.getLeftOp() instanceof Local))
continue;
if (!(ass.getRightOp() instanceof UntypedConstant))
continue;
UntypedConstant uc = (UntypedConstant) ass.getRightOp();
ass.setRightOp(uc.defineType(localTyped.get(ass.getLeftOp())));
}
//
for (Constraint c : constraints) {
// Debug.printDbg(IDalvikTyper.DEBUG, "current constraint: ", c);
Value l = c.l.getValue();
Value r = c.r.getValue();
if (l instanceof Local && r instanceof Constant) {
if (r instanceof UntypedIntOrFloatConstant) {
UntypedIntOrFloatConstant cst = (UntypedIntOrFloatConstant) r;
Value newValue = null;
if (cst.value != 0) {
// Debug.printDbg(IDalvikTyper.DEBUG, "[untyped constaints] set type int to non zero constant: ", c, " = ", cst.value);
newValue = cst.toIntConstant();
} else {
// check if used in cast, just in case...
for (Unit u : b.getUnits()) {
for (ValueBox vb1 : u.getUseBoxes()) {
Value v1 = vb1.getValue();
if (v1 == l) {
// Debug.printDbg("local used in ", u);
if (u instanceof AssignStmt) {
AssignStmt a = (AssignStmt) u;
Value right = a.getRightOp();
if (right instanceof CastExpr) {
newValue = NullConstant.v();
} else {
newValue = cst.toIntConstant();
}
} else if (u instanceof IfStmt) {
// TODO check this better
newValue = cst.toIntConstant();
}
}
}
}
}
if (newValue == null) {
throw new RuntimeException("error: no type found for local: " + l);
}
c.r.setValue(newValue);
} else if (r instanceof UntypedLongOrDoubleConstant) {
// Debug.printDbg(IDalvikTyper.DEBUG, "[untyped constaints] set type long to constant: ", c);
Value newValue = ((UntypedLongOrDoubleConstant) r).toLongConstant();
c.r.setValue(newValue);
}
}
}
// fix untypedconstants which have flown to an array index
for (Unit u : b.getUnits()) {
StmtSwitch sw = new StmtSwitch() {
@Override
public void caseBreakpointStmt(BreakpointStmt stmt) {
// TODO Auto-generated method stub
}
@Override
public void caseInvokeStmt(InvokeStmt stmt) {
changeUntypedConstantsInInvoke(stmt.getInvokeExpr());
}
@Override
public void caseAssignStmt(AssignStmt stmt) {
if (stmt.getRightOp() instanceof NewArrayExpr) {
NewArrayExpr nae = (NewArrayExpr) stmt.getRightOp();
if (nae.getSize() instanceof UntypedConstant) {
UntypedIntOrFloatConstant uc = (UntypedIntOrFloatConstant) nae.getSize();
nae.setSize(uc.defineType(IntType.v()));
}
} else if (stmt.getRightOp() instanceof UntypedConstant) {
UntypedConstant uc = (UntypedConstant) stmt.getRightOp();
Value l = stmt.getLeftOp();
Type lType = null;
if (l instanceof ArrayRef) {
ArrayRef ar = (ArrayRef) l;
Local baseLocal = (Local) ar.getBase();
ArrayType arrayType = (ArrayType) localTyped.get(baseLocal);
lType = arrayType.getElementType();
} else {
lType = l.getType();
}
stmt.setRightOp(uc.defineType(lType));
} else if (stmt.getRightOp() instanceof InvokeExpr) {
changeUntypedConstantsInInvoke((InvokeExpr) stmt.getRightOp());
}
if (!stmt.containsArrayRef()) {
return;
}
ArrayRef ar = stmt.getArrayRef();
if ((ar.getIndex() instanceof UntypedConstant)) {
UntypedIntOrFloatConstant uc = (UntypedIntOrFloatConstant) ar.getIndex();
ar.setIndex(uc.toIntConstant());
}
if (stmt.getLeftOp() instanceof ArrayRef && stmt.getRightOp() instanceof UntypedConstant) {
UntypedConstant uc = (UntypedConstant) stmt.getRightOp();
Local baseLocal = (Local) stmt.getArrayRef().getBase();
ArrayType lType = (ArrayType) localTyped.get(baseLocal);
Type elemType = lType.getElementType();
stmt.setRightOp(uc.defineType(elemType));
}
}
@Override
public void caseIdentityStmt(IdentityStmt stmt) {
// TODO Auto-generated method stub
}
@Override
public void caseEnterMonitorStmt(EnterMonitorStmt stmt) {
// TODO Auto-generated method stub
}
@Override
public void caseExitMonitorStmt(ExitMonitorStmt stmt) {
// TODO Auto-generated method stub
}
@Override
public void caseGotoStmt(GotoStmt stmt) {
// TODO Auto-generated method stub
}
@Override
public void caseIfStmt(IfStmt stmt) {
Value c = stmt.getCondition();
if (c instanceof BinopExpr) {
BinopExpr be = (BinopExpr) c;
Value op1 = be.getOp1();
Value op2 = be.getOp2();
if (op1 instanceof UntypedConstant || op2 instanceof UntypedConstant) {
if (op1 instanceof Local) {
Type t = localTyped.get(op1);
// Debug.printDbg("if op1 type: ", t);
UntypedConstant uc = (UntypedConstant) op2;
be.setOp2(uc.defineType(t));
} else if (op2 instanceof Local) {
Type t = localTyped.get(op2);
// Debug.printDbg("if op2 type: ", t);
UntypedConstant uc = (UntypedConstant) op1;
be.setOp1(uc.defineType(t));
} else if (op1 instanceof UntypedConstant && op2 instanceof UntypedConstant) {
if (op1 instanceof UntypedIntOrFloatConstant && op2 instanceof UntypedIntOrFloatConstant) {
UntypedIntOrFloatConstant uc1 = (UntypedIntOrFloatConstant) op1;
UntypedIntOrFloatConstant uc2 = (UntypedIntOrFloatConstant) op2;
// to int or float, it does not matter
be.setOp1(uc1.toIntConstant());
be.setOp2(uc2.toIntConstant());
} else if (op1 instanceof UntypedLongOrDoubleConstant && op2 instanceof UntypedLongOrDoubleConstant) {
UntypedLongOrDoubleConstant uc1 = (UntypedLongOrDoubleConstant) op1;
UntypedLongOrDoubleConstant uc2 = (UntypedLongOrDoubleConstant) op2;
// to long or double, it does not matter
be.setOp1(uc1.toLongConstant());
be.setOp2(uc2.toLongConstant());
} else {
throw new RuntimeException("error: expected same type of untyped constants. Got " + stmt);
}
} else if (op1 instanceof UntypedConstant || op2 instanceof UntypedConstant) {
if (op1 instanceof UntypedConstant) {
UntypedConstant uc = (UntypedConstant) op1;
be.setOp1(uc.defineType(op2.getType()));
} else if (op2 instanceof UntypedConstant) {
UntypedConstant uc = (UntypedConstant) op2;
be.setOp2(uc.defineType(op1.getType()));
}
} else {
throw new RuntimeException("error: expected local/untyped untyped/local or untyped/untyped. Got " + stmt);
}
}
} else if (c instanceof UnopExpr) {
} else {
throw new RuntimeException("error: expected binop or unop. Got " + stmt);
}
}
@Override
public void caseLookupSwitchStmt(LookupSwitchStmt stmt) {
// TODO Auto-generated method stub
}
@Override
public void caseNopStmt(NopStmt stmt) {
// TODO Auto-generated method stub
}
@Override
public void caseRetStmt(RetStmt stmt) {
// TODO Auto-generated method stub
}
@Override
public void caseReturnStmt(ReturnStmt stmt) {
if (stmt.getOp() instanceof UntypedConstant) {
UntypedConstant uc = (UntypedConstant) stmt.getOp();
Type type = b.getMethod().getReturnType();
stmt.setOp(uc.defineType(type));
}
}
@Override
public void caseReturnVoidStmt(ReturnVoidStmt stmt) {
// TODO Auto-generated method stub
}
@Override
public void caseTableSwitchStmt(TableSwitchStmt stmt) {
// TODO Auto-generated method stub
}
@Override
public void caseThrowStmt(ThrowStmt stmt) {
// TODO Auto-generated method stub
}
@Override
public void defaultCase(Object obj) {
// TODO Auto-generated method stub
}
};
u.apply(sw);
}
// fix untyped constants remaining
// Debug.printDbg("assignTypes: after: \n", b);
}
use of soot.jimple.IdentityStmt in project soot by Sable.
the class Validate method validateArrays.
public static void validateArrays(Body b) {
Set<DefinitionStmt> definitions = new HashSet<DefinitionStmt>();
Set<Unit> unitWithArrayRef = new HashSet<Unit>();
for (Unit u : b.getUnits()) {
if (u instanceof DefinitionStmt) {
DefinitionStmt s = (DefinitionStmt) u;
definitions.add(s);
}
List<ValueBox> uses = u.getUseBoxes();
for (ValueBox vb : uses) {
Value v = vb.getValue();
if (v instanceof ArrayRef) {
unitWithArrayRef.add(u);
}
}
}
final LocalDefs localDefs = LocalDefs.Factory.newLocalDefs(b, true);
Set<Unit> toReplace = new HashSet<Unit>();
for (Unit u : unitWithArrayRef) {
boolean ok = false;
List<ValueBox> uses = u.getUseBoxes();
for (ValueBox vb : uses) {
Value v = vb.getValue();
if (v instanceof ArrayRef) {
ArrayRef ar = (ArrayRef) v;
Local base = (Local) ar.getBase();
List<Unit> defs = localDefs.getDefsOfAt(base, u);
// add aliases
Set<Unit> alreadyHandled = new HashSet<Unit>();
while (true) {
boolean isMore = false;
for (Unit d : defs) {
if (alreadyHandled.contains(d))
continue;
if (d instanceof AssignStmt) {
AssignStmt ass = (AssignStmt) d;
Value r = ass.getRightOp();
if (r instanceof Local) {
defs.addAll(localDefs.getDefsOfAt((Local) r, d));
alreadyHandled.add(d);
isMore = true;
break;
} else if (r instanceof ArrayRef) {
ArrayRef arrayRef = (ArrayRef) r;
Local l = (Local) arrayRef.getBase();
defs.addAll(localDefs.getDefsOfAt(l, d));
alreadyHandled.add(d);
isMore = true;
break;
}
}
}
if (!isMore)
break;
}
// System.out.println("def size "+ defs.size());
for (Unit def : defs) {
// System.out.println("def u "+ def);
Value r = null;
if (def instanceof IdentityStmt) {
IdentityStmt idstmt = (IdentityStmt) def;
r = idstmt.getRightOp();
} else if (def instanceof AssignStmt) {
AssignStmt assStmt = (AssignStmt) def;
r = assStmt.getRightOp();
} else {
throw new RuntimeException("error: definition statement not an IdentityStmt nor an AssignStmt! " + def);
}
Type t = null;
if (r instanceof InvokeExpr) {
InvokeExpr ie = (InvokeExpr) r;
t = ie.getType();
// System.out.println("ie type: "+ t +" "+ t.getClass());
if (t instanceof ArrayType)
ok = true;
} else if (r instanceof FieldRef) {
FieldRef ref = (FieldRef) r;
t = ref.getType();
// System.out.println("fr type: "+ t +" "+ t.getClass());
if (t instanceof ArrayType)
ok = true;
} else if (r instanceof IdentityRef) {
IdentityRef ir = (IdentityRef) r;
t = ir.getType();
if (t instanceof ArrayType)
ok = true;
} else if (r instanceof CastExpr) {
CastExpr c = (CastExpr) r;
t = c.getType();
if (t instanceof ArrayType)
ok = true;
} else if (r instanceof ArrayRef) {
// we also check that this arrayref is correctly defined
} else if (r instanceof NewArrayExpr) {
ok = true;
} else if (r instanceof Local) {
} else if (r instanceof Constant) {
} else {
throw new RuntimeException("error: unknown right hand side of definition stmt " + def);
}
if (ok)
break;
}
if (ok)
break;
}
}
if (!ok) {
toReplace.add(u);
}
}
int i = 0;
for (Unit u : toReplace) {
System.out.println("warning: incorrect array def, replacing unit " + u);
// new object
RefType throwableType = RefType.v("java.lang.Throwable");
Local ttt = Jimple.v().newLocal("ttt_" + ++i, throwableType);
b.getLocals().add(ttt);
Value r = Jimple.v().newNewExpr(throwableType);
Unit initLocalUnit = Jimple.v().newAssignStmt(ttt, r);
// call <init> method with a string parameter for message
List<String> pTypes = new ArrayList<String>();
pTypes.add("java.lang.String");
boolean isStatic = false;
SootMethodRef mRef = Validate.makeMethodRef("java.lang.Throwable", "<init>", "", pTypes, isStatic);
List<Value> parameters = new ArrayList<Value>();
parameters.add(StringConstant.v("Soot updated this instruction"));
InvokeExpr ie = Jimple.v().newSpecialInvokeExpr(ttt, mRef, parameters);
Unit initMethod = Jimple.v().newInvokeStmt(ie);
// throw exception
Unit newUnit = Jimple.v().newThrowStmt(ttt);
// change instruction in body
b.getUnits().swapWith(u, newUnit);
b.getUnits().insertBefore(initMethod, newUnit);
b.getUnits().insertBefore(initLocalUnit, initMethod);
// Exception a = throw new Exception();
}
DeadAssignmentEliminator.v().transform(b);
UnusedLocalEliminator.v().transform(b);
NopEliminator.v().transform(b);
UnreachableCodeEliminator.v().transform(b);
}
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