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/*
* Copyright (c) 2017-present, Facebook, Inc.
*
* 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.annotation.ElementType;
import java.lang.annotation.Retention;
import java.lang.annotation.RetentionPolicy;
import java.lang.annotation.Target;
import java.util.Collections;
import java.util.HashMap;
import java.util.Map;
import android.support.annotation.UiThread;
import com.facebook.infer.annotation.Functional;
import com.facebook.infer.annotation.ReturnsOwnership;
import com.facebook.infer.annotation.SynchronizedCollection;
import com.facebook.infer.annotation.ThreadConfined;
import com.facebook.infer.annotation.ThreadSafe;
/** tests for classes and method annotations that are meaningful w.r.t thread-safety */
@Target(ElementType.METHOD)
@Retention(RetentionPolicy.CLASS)
@interface OnBind {
}
@Target(ElementType.METHOD)
@Retention(RetentionPolicy.CLASS)
@interface OnEvent {
}
@Target(ElementType.METHOD)
@Retention(RetentionPolicy.CLASS)
@interface OnMount {
}
@Target(ElementType.METHOD)
@Retention(RetentionPolicy.CLASS)
@interface OnUnbind {
}
@Target(ElementType.METHOD)
@Retention(RetentionPolicy.CLASS)
@interface OnUnmount {
}
@Target(ElementType.METHOD)
@Retention(RetentionPolicy.CLASS)
@interface MyThreadSafeAlias1 {
}
@Target(ElementType.METHOD)
@Retention(RetentionPolicy.CLASS)
@interface MyThreadSafeAlias2 {
}
@Target(ElementType.PARAMETER)
@Retention(RetentionPolicy.CLASS)
@interface InjectProp {
}
interface Interface {
@Functional Object functionalMethod();
@ReturnsOwnership Obj returnsOwnershipMethod();
}
@ThreadSafe(enableChecks = false)
class AssumedThreadSafe {
Object field;
public void writeOk() {
this.field = new Object();
}
}
// this annotation is defined as an alias for @ThreadSafe in .inferconfig
class ThreadSafeAlias {
Object field;
@MyThreadSafeAlias1
void threadSafeAliasBad1() {
this.field = new Object();
}
@MyThreadSafeAlias2
void threadSafeAliasBad2() {
this.field = new Object();
}
}
@ThreadSafe
class Annotations implements Interface {
Object f;
boolean b;
@UiThread
public void setF(Object newF) {
this.f = newF; // shouldn't report here
}
public void callSetFOnMethodOk(Annotations obj) {
obj.setF(new Object()); // or here
}
public void mutateOffUiThreadBad() {
this.f = new Object();
}
// anything annotated with OnEvent is modeled as running on the UI thread, should not warn
@OnEvent
public void onClick() {
this.f = new Object();
}
Confined con;
public void confinedCallerOk(){
con.foo();
}
public void writeFieldOfConfinedClassOk() {
con.x = 7;
}
@ThreadConfined(ThreadConfined.UI)
class Confined {
Integer x;
void foo(){
x = 22;
}
}
@ThreadConfined(ThreadConfined.ANY) Obj encapsulatedField;
public void mutateConfinedFieldDirectlyOk() {
this.encapsulatedField = new Obj();
}
public static void mutateConfinedFieldIndirectlyOk(Annotations a) {
a.encapsulatedField = new Obj();
}
public void mutateSubfieldOfConfinedBad() {
this.encapsulatedField.f = new Object();
}
Integer zz;
@ThreadConfined("some_custom_string")
public void threadConfinedMethodOk() {
this.f = new Object();
zz = 22;
}
public void read_from_non_confined_method_Bad(){
Integer i;
i = zz;
}
/* Like in RaceWithMainThread.java with assertMainThread() */
void conditional1_ok(boolean b){
if (b) {
write_on_main_thread_ok();
}
}
Integer ii;
@ThreadConfined(ThreadConfined.UI)
void write_on_main_thread_ok(){
ii = 22;
}
void conditional2_bad(boolean b){
if (b)
{
write_on_main_thread_ok();
} else {
ii = 99; // this might or might not run on the main thread; warn
}
}
@OnBind
public void onBindMethodOk() {
this.f = new Object();
}
public void read_off_UI_thread_Bad(){
Object o = f;
}
@OnMount
public void onMountMethodOk() {
this.f = new Object();
}
@OnUnmount
public void onUnmountMethodOk() {
this.f = new Object();
}
@OnUnbind
public void onUnbindMethodOk() {
this.f = new Object();
}
@ThreadSafe(enableChecks = false)
public void assumeThreadSafeOk() {
this.f = new Object();
}
@Functional native Object returnFunctional1();
@Functional Object returnFunctional2() { return null; }
// marked @Functional in interface
@Override public Object functionalMethod() { return null; }
Object mAssignToFunctional;
public Object functionalOk1() {
if (mAssignToFunctional == null) {
mAssignToFunctional = returnFunctional1();
}
return mAssignToFunctional;
}
public Object functionalOk2() {
if (mAssignToFunctional == null) {
mAssignToFunctional = returnFunctional2();
}
return mAssignToFunctional;
}
public Object functionalOk3() {
if (mAssignToFunctional == null) {
mAssignToFunctional = functionalMethod();
}
return mAssignToFunctional;
}
@Functional native double returnDouble();
@Functional native long returnLong();
double mDouble;
long mLong;
int mInt1;
int mInt2;
public int functionalAcrossUnboxingAndCast1Ok() {
if (b) {
mInt1 = (int) returnDouble();
}
return 0;
}
public int functionalAcrossUnboxingAndCast2Ok() {
if (b) {
mInt2 = (int) returnLong();
}
return 0;
}
// writes to doubles are not atomic on all platforms, so this is not a benign race
public double functionalDoubleBad() {
if (b) {
mDouble = returnDouble();
}
return 0.0;
}
// writes to longs are not atomic on all platforms, so this is not a benign race
public long functionaLongBad() {
if (b) {
mLong = returnLong();
}
return 2;
}
Boolean mBoxedBool;
@Functional native boolean returnBool();
public boolean functionalAcrossBoxingOk() {
if (b) {
mBoxedBool = returnBool();
}
return b;
}
boolean mBool;
@Functional native Boolean returnBoxedBool();
boolean mBool2;
public boolean FP_functionalAcrossUnboxingOk() {
if (b) {
mBool2 = returnBoxedBool();
}
return b;
}
Long mBoxedLong;
@Functional native Long returnBoxedLong();
public int functionalBoxedLongOk() {
if (b) {
mBoxedLong = returnBoxedLong();
}
return 22;
}
long mLong2;
public int functionalAcrossUnboxingLongBad() {
if (b) {
mLong2 = returnBoxedLong();
}
return 2;
}
long mBoxedLong2;
public int FP_functionalAcrossBoxingLongOk() {
if (b) {
mBoxedLong2 = returnLong();
}
return 2;
}
public boolean propagateFunctional() {
return returnBool();
}
// show that we can handle indirect returns of procedures marked @Functional
public void propagateFunctionalOk() {
boolean returnedFunctional = propagateFunctional();
mBool = returnedFunctional;
}
@Functional native int returnInt();
int mInt;
public void functionalAcrossLogicalOpsOk() {
boolean functionalBool = returnBool();
int functionalInt = returnInt();
boolean propagated = functionalBool && true || 2 < returnInt() && 3 == functionalInt;
mBool = propagated;
}
public void functionalAcrossArithmeticOpsOk() {
int functional = returnInt();
int propagated = functional + 1 - returnInt() * 7 % 2;
mInt = functional;
}
native int returnNonFunctionalInt();
public void functionalAndNonfunctionalBad() {
mInt = returnNonFunctionalInt() + returnInt();
}
@ReturnsOwnership native Obj returnsOwned();
@Override
public native Obj returnsOwnershipMethod(); // marked @ReturnsOwnership in interface
void mutateAnnotatedOwnedOk() {
Obj owned = returnsOwned();
owned.f = new Object();
}
void mutateAnnotatedOverrideOwnedOk() {
Obj owned = returnsOwnershipMethod();
owned.f = new Object();
}
public void writeToAssumedThreadSafeClassOk(AssumedThreadSafe c) {
c.writeOk();
}
@SynchronizedCollection
private final Map<Object,Object> mSynchronizedMap = Collections.synchronizedMap(new HashMap());
public void synchronizedMapOk1() {
mSynchronizedMap.put(new Object(), new Object());
}
public void synchronizedMapOk2(Annotations a) {
a.mSynchronizedMap.put(new Object(), new Object());
}
public void injectPropOk(@InjectProp Obj o) {
o.f = 7;
}
}
@UiThread
@ThreadSafe
class AllMethodsOnUiThread {
int f;
void fooOk() {
f = 5;
}
int bar() {
return f;
}
}
class ExtendsClassOnUiThread extends AllMethodsOnUiThread {
@Override
void fooOk() {
f = 9;
}
@Override
int bar() {
return super.bar();
}
}