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/*
* Copyright (c) Facebook, Inc. and its affiliates.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
package codetoanalyze.java.checkers;
import java.lang.reflect.Constructor;
import java.lang.reflect.InvocationTargetException;
import java.util.ArrayList;
import javax.annotation.concurrent.ThreadSafe;
import javax.inject.Inject;
import javax.inject.Provider;
class Obj {
Object f;
Obj g;
}
interface CustomProvider<T> extends Provider<T> {
@Override
public T get();
}
@ThreadSafe
public class Ownership {
Obj field;
public Ownership() {}
public Ownership(Obj o) {
field = o;
}
// understand that ownership can be acquired via DI
@Inject
Ownership(Provider<Obj> objProvider) {
Obj owned = objProvider.get();
owned.f = new Object(); // should not report
}
@Inject
Ownership(CustomProvider<Obj> objProvider) {
Obj owned = objProvider.get();
owned.f = new Object(); // should not report
}
Obj mInjectedField1;
Obj mInjectedField2;
// because this constructor is meant to be called via DI, we assume that injectedField and other
// parameters passed to the constructor will always be freshly allocated
@Inject
Ownership(Obj injectedField1, Obj injectedField2) {
mInjectedField1 = injectedField1;
mInjectedField2 = injectedField2;
mInjectedField1.f = new Object(); // should not warn
mInjectedField2.f = new Object(); // should not warn
}
Ownership(Obj obj, Object o) {
obj.f = o; // not annotated @Inject; should warn
}
native void leakToAnotherThread(Object o);
public void escapeViaConstructorBad() {
Obj local = new Obj();
Ownership constructed = new Ownership(local);
local.f = new Object();
}
public void ownInOneBranchBad(Obj formal, boolean b) {
if (b) {
formal = new Obj();
}
// we might not own formal
formal.f = new Object();
}
public void reassignToFormalBad(Obj formal) {
Obj local = new Obj();
formal.g = local; // bad, we don't own formal
formal.g.f = new Object(); // ok; now that formal.g is reassigned to local, which we do own
}
public void ownedLocalOk() {
Obj local = new Obj();
local.f = new Object();
}
public Obj returnOwnedLocalOk() {
Obj local = new Obj();
local.f = new Object();
return local;
}
public void writeOwnedLocalThenEscapeOk() {
Obj local = new Obj();
local.f = new Object();
leakToAnotherThread(local);
}
public void ownInBranchesOk1(boolean b) {
Obj local;
if (b) {
local = new Obj();
local.f = new Object();
} else {
local = new Obj();
local.f = new Integer(0);
}
local.f = new Boolean(false);
}
public void ownedAccessPathOk() {
Obj local = new Obj();
local.g = new Obj();
local.g.f = new Object();
}
public void aliasOwnedLocalOk() {
Obj local = new Obj();
Obj alias = local;
alias.f = new Object();
local.f = new Object();
}
public void aliasOwnedLocalAccessPathOk() {
Obj local = new Obj();
local.g = new Obj();
Obj alias = local.g;
alias.f = new Object();
}
private void writeToFormal(Obj formal) {
formal.f = new Object();
}
private void callWriteToFormal(Obj formal) {
writeToFormal(formal);
}
private void setField(Obj o) {
this.field = o;
}
native Obj getMaybeUnownedObj();
// warn here even though this this is safe if `o` is owned at all call sites. because it's a
// public method, it's possible to use it in an unsafe way
public void writeToNotOwnedInCalleeBad1(Obj o) {
writeToFormal(o);
}
public void FN_writeToNotOwnedInCalleeBad2() {
Obj o = getMaybeUnownedObj();
writeToFormal(o);
}
public void writeToNotOwnedInCalleeBad3(Obj o) {
callWriteToFormal(o);
}
// assuming that we can't own the `this` object
public void cantOwnThisBad() {
setField(new Obj());
}
public void writeToOwnedInCalleeOk1() {
Obj o = new Obj();
writeToFormal(o);
}
public void writeToOwnedInCalleeIndirectOk1() {
Obj o = new Obj();
callWriteToFormal(o);
}
public void writeToOwnedInCalleeIndirectOk2() {
Obj o = new Obj();
o.g = new Obj();
callWriteToFormal(o.g);
}
public Obj ownershipCanBeInterproceduralOk() {
Obj local = returnOwnedLocalOk();
local.f = new Object();
return local;
}
public void mutateDoubleReturnOwnedOk() {
Obj owned = ownershipCanBeInterproceduralOk();
owned.g = new Obj();
}
Obj returnOwnedOrNull(boolean b) {
if (b) {
return null;
}
return new Obj();
}
public void mutateAfterNullCheckOK(boolean b) {
Obj o = returnOwnedOrNull(b);
if (o != null) {
o.f = new Object();
}
}
private void mutateIfNotNull(Obj o) {
if (o != null) {
o.f = new Object();
}
}
public void ownInCalleeViaNullOk() {
mutateIfNotNull(null);
}
public void notOwnedInCalleeBad(Obj o) {
mutateIfNotNull(o);
}
Obj id(Obj param) {
return param;
}
public void passOwnershipInIdFunctionOk() {
Obj owned = new Obj();
Obj shouldBeOwned = id(owned);
shouldBeOwned.f = new Object();
}
Obj id2(Obj param) {
return id(param);
}
public void passOwnershipInMultiLevelIdFunctionOk() {
Obj owned = new Obj();
Obj shouldBeOwned = id2(owned);
shouldBeOwned.f = new Object();
}
native boolean nondet();
public Obj returnConditionalOwnedInTwoBranches(Obj param) {
if (nondet()) {
return param;
}
return param;
}
public void returnConditionalOwnedInTwoBranchesOk() {
Obj owned = new Obj();
Obj shouldBeOwned = returnConditionalOwnedInTwoBranches(owned);
shouldBeOwned.f = new Object();
}
public Obj returnOwnedOrConditionalOwned(Obj param) {
if (nondet()) {
return param;
} else {
return new Obj();
}
}
public void ownedAfterCastOk() {
Object o = new Obj();
Obj owned = (Obj) o;
owned.f = new Object();
}
// TODO: need to handle multiple ownership attributes in order to get this one
public void ownAndConditionalOwnOk() {
Obj owned = new Obj();
Obj shouldBeOwned = returnOwnedOrConditionalOwned(owned);
shouldBeOwned.f = new Object();
}
public Obj twoDifferentConditionalOwns(Obj param1, Obj param2) {
if (nondet()) {
return param1;
} else {
return param2;
}
}
public void threadLocalOk(ThreadLocal<Obj> threadLocal) {
threadLocal.get().f = new Object();
}
// need to handle multiple ownership attributes in order to get this one
public void twoDifferentConditionalOwnsOk() {
Obj owned1 = new Obj();
Obj owned2 = new Obj();
Obj shouldBeOwned = twoDifferentConditionalOwns(owned1, owned2);
shouldBeOwned.f = new Object();
}
// we angelically assume that callees don't leak their arguments to another thread for now, so
// we'll miss this
public void FN_escapeThenWriteLocalBad() {
Obj local = new Obj();
leakToAnotherThread(local);
local.f = new Object();
}
private Obj leakThenReturn() {
Obj local = new Obj();
leakToAnotherThread(local);
return local;
}
// the summary for leakThenReturn should not say that the caller owns the return value
public void FN_mutateReturnedBad() {
Obj notOwned = leakThenReturn();
notOwned.f = new Object(); // should warn here
}
private void castThenCall(Obj o) {
Subclass s = (Subclass) o;
s.doWrite();
}
void castThenCallOk() {
Obj o = new Obj();
castThenCall(o);
}
void FN_castThenCallBad() {
Obj o = getMaybeUnownedObj();
castThenCall(o);
}
private Obj castThenReturn(Obj o) {
Subclass s = (Subclass) o;
return s;
}
void castThenReturnOk() {
Obj o = new Obj();
castThenReturn(o).f = new Object();
}
void FN_castThenReturnBad() {
Obj o = getMaybeUnownedObj();
castThenReturn(o).f = new Object();
}
void ownViaReflectionOk1() throws InstantiationException, IllegalAccessException {
Class<Obj> oClass = Obj.class;
Obj o = oClass.newInstance();
o.f = new Object();
}
void ownViaReflectionOk2()
throws IllegalAccessException, InstantiationException, InvocationTargetException,
NoSuchMethodException {
Class<Obj> oClass = Obj.class;
Constructor<Obj> oConstructor = oClass.getConstructor();
Obj o = oConstructor.newInstance();
o.f = new Object();
}
void ownInSkippedCodeOk() {
SkippedClass c = SkippedClass.returnOwned();
c.f = new Object();
}
void cloningAquiresOwnershipOk() {
Ownership ow;
try {
ow = (Ownership) this.clone();
ow.field = null;
} catch (CloneNotSupportedException e) {
}
}
static MyObj global;
// would need escape analysis to detect this
void FN_storeInGlobalAndWriteBad() {
MyObj x = new MyObj();
synchronized (Ownership.class) {
global = x;
}
x.data = 5;
}
int readGlobalBad() {
return global.data;
}
public void writeOwnedWithExceptionOk() {
Obj options = returnOwnedWithException();
options.f = new Object();
}
private Obj returnOwnedWithException() {
Obj options = new Obj();
if (options.f == null) {
throw new IllegalArgumentException();
}
return options;
}
// not propagating ownership to access path rooted in formal
public void notPropagatingOwnershipToAccessPathRootedAtFormalBad(Obj m) {
m.g = new Obj();
}
// not propagating ownership to unowned local access path
public void notPropagatingOwnershipToUnownedLocalAccessPathBad() {
Obj m;
synchronized (this) {
m = field;
}
m.g = new Obj();
}
// propagating ownership to owned access path
public void propagatingOwnershipToOwnedAccessPathOk() {
Obj m = new Obj();
m.g = new Obj();
m.g.g = new Obj();
m.g.g.g = new Obj();
}
private void reassignParamToOwned(Obj o) {
o = new Obj();
o.f = null; // we know the reassigned o is owned, mutating is ok
}
Obj unownedField1;
void reassignParamToOwnedOk() {
reassignParamToOwned(this.unownedField1); // ok even though this.unownedField1 isn't owned
}
Obj unownedField2;
private void reassignParamToUnowned(Obj o) {
o = this.unownedField2;
o.f = null; // don't know that this.unownedField2 is owned
}
void FN_reassignParamToUnownedBad() {
reassignParamToUnowned(new Obj()); // although o is owned here, it gets reassigned in the callee
}
void ownedViaLocalAliasOk() {
Obj owned = new Obj();
Obj alias = owned;
alias.f = null;
owned.f = new Object();
}
private void ownedViaParamAlias(Obj o) {
Obj alias = o;
alias.f = null; // ok if o is owned in caller
o.f = new Object(); // ok if alias is owned in
}
public void ownedViaAliasOk() {
Obj owned = new Obj();
ownedViaParamAlias(owned);
}
Obj unownedField3;
private void ownedViaThisAlias() {
Ownership alias = this;
alias.unownedField3 = null; // ok if this owned in caller
this.unownedField3 = new Obj(); // also ok if this is owned in caller
}
public static void ownedViaThisAliasOk() {
Ownership owned = new Ownership();
owned.ownedViaThisAlias();
}
boolean nondet;
private void conditionalAlias(Obj o1, Obj o2) {
Obj alias;
if (nondet) {
alias = o1;
} else {
alias = o2;
}
alias.f = null; // ok if both o1 and o2 are owned
}
void conditionalAliasOk() {
conditionalAlias(new Obj(), new Obj());
}
void FN_conditionalAliasBad(Obj unowned) {
conditionalAlias(new Obj(), unowned);
}
}
class MyObj {
int data;
}
class Subclass extends Obj {
public void doWrite() {
f = new Object();
}
}
@ThreadSafe
class OtherObj {
private OtherObj(Obj o) {
o.f = new Object();
}
void mutateInConstructorOk() {
new OtherObj(new Obj());
}
}
@ThreadSafe
class ContainerOwnership {
ContainerOwnership() {
ArrayList<MyObj> children = new ArrayList<MyObj>();
setFirstOk(children);
}
private void setFirstOk(ArrayList<MyObj> children) {
MyObj obj = children.get(0);
if (obj == null) {
obj = new MyObj();
}
obj.data = 10;
}
}