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/*
* Copyright (C) 2017-2019 Apple Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS''
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
* THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
* THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "config.h"
#include "APICast.h"
#include "JSGlobalObjectInlines.h"
#include "MarkedJSValueRefArray.h"
#include <JavaScriptCore/JSContextRefPrivate.h>
#include <JavaScriptCore/JSObjectRefPrivate.h>
#include <JavaScriptCore/JavaScript.h>
#include <wtf/DataLog.h>
#include <wtf/Expected.h>
#include <wtf/Noncopyable.h>
#include <wtf/NumberOfCores.h>
#include <wtf/Vector.h>
#include <wtf/text/StringCommon.h>
#if PLATFORM(COCOA)
#include <wtf/cocoa/RuntimeApplicationChecksCocoa.h>
#endif
extern "C" void configureJSCForTesting();
extern "C" int testCAPIViaCpp(const char* filter);
extern "C" void JSSynchronousGarbageCollectForDebugging(JSContextRef);
class APIString {
WTF_MAKE_NONCOPYABLE(APIString);
public:
APIString(const char* string)
: m_string(JSStringCreateWithUTF8CString(string))
{
}
APIString(const String& string)
: APIString(string.utf8().data())
{
}
~APIString()
{
JSStringRelease(m_string);
}
operator JSStringRef() { return m_string; }
private:
JSStringRef m_string;
};
class APIContext {
WTF_MAKE_NONCOPYABLE(APIContext);
public:
APIContext()
: m_context(JSGlobalContextCreate(nullptr))
{
APIString print("print");
JSObjectRef printFunction = JSObjectMakeFunctionWithCallback(m_context, print, [] (JSContextRef ctx, JSObjectRef, JSObjectRef, size_t argumentCount, const JSValueRef arguments[], JSValueRef*) {
JSC::JSGlobalObject* globalObject = toJS(ctx);
for (unsigned i = 0; i < argumentCount; i++)
dataLog(toJS(globalObject, arguments[i]));
dataLogLn();
return JSValueMakeUndefined(ctx);
});
JSObjectSetProperty(m_context, JSContextGetGlobalObject(m_context), print, printFunction, kJSPropertyAttributeNone, nullptr);
}
~APIContext()
{
JSGlobalContextRelease(m_context);
}
operator JSGlobalContextRef() { return m_context; }
operator JSC::JSGlobalObject*() { return toJS(m_context); }
private:
JSGlobalContextRef m_context;
};
template<typename T>
class APIVector : protected Vector<T> {
using Base = Vector<T>;
public:
APIVector(APIContext& context)
: Base()
, m_context(context)
{
}
~APIVector()
{
for (auto& value : *this)
JSValueUnprotect(m_context, value);
}
using Vector<T>::operator[];
using Vector<T>::size;
using Vector<T>::begin;
using Vector<T>::end;
using typename Vector<T>::iterator;
void append(T value)
{
JSValueProtect(m_context, value);
Base::append(WTFMove(value));
}
private:
APIContext& m_context;
};
class TestAPI {
public:
int run(const char* filter);
void basicSymbol();
void symbolsTypeof();
void symbolsDescription();
void symbolsGetPropertyForKey();
void symbolsSetPropertyForKey();
void symbolsHasPropertyForKey();
void symbolsDeletePropertyForKey();
void promiseResolveTrue();
void promiseRejectTrue();
void promiseUnhandledRejection();
void promiseUnhandledRejectionFromUnhandledRejectionCallback();
void promiseEarlyHandledRejections();
void promiseDrainDoesNotEatExceptions();
void topCallFrameAccess();
void markedJSValueArrayAndGC();
void classDefinitionWithJSSubclass();
void proxyReturnedWithJSSubclassing();
void testJSObjectSetOnGlobalObjectSubclassDefinition();
int failed() const { return m_failed; }
private:
template<typename... Strings>
bool check(bool condition, Strings... message);
template<typename JSFunctor, typename APIFunctor>
void checkJSAndAPIMatch(const JSFunctor&, const APIFunctor&, const char* description);
// Helper methods.
using ScriptResult = Expected<JSValueRef, JSValueRef>;
ScriptResult evaluateScript(const char* script, JSObjectRef thisObject = nullptr);
template<typename... ArgumentTypes>
ScriptResult callFunction(const char* functionSource, ArgumentTypes... arguments);
template<typename... ArgumentTypes>
bool functionReturnsTrue(const char* functionSource, ArgumentTypes... arguments);
bool scriptResultIs(ScriptResult, JSValueRef);
// Ways to make sets of interesting things.
APIVector<JSObjectRef> interestingObjects();
APIVector<JSValueRef> interestingKeys();
int m_failed { 0 };
APIContext context;
};
TestAPI::ScriptResult TestAPI::evaluateScript(const char* script, JSObjectRef thisObject)
{
APIString scriptAPIString(script);
JSValueRef exception = nullptr;
JSValueRef result = JSEvaluateScript(context, scriptAPIString, thisObject, nullptr, 0, &exception);
if (exception)
return Unexpected<JSValueRef>(exception);
return ScriptResult(result);
}
template<typename... ArgumentTypes>
TestAPI::ScriptResult TestAPI::callFunction(const char* functionSource, ArgumentTypes... arguments)
{
JSValueRef function;
{
ScriptResult functionResult = evaluateScript(functionSource);
if (!functionResult)
return functionResult;
function = functionResult.value();
}
JSValueRef exception = nullptr;
if (JSObjectRef functionObject = JSValueToObject(context, function, &exception)) {
JSValueRef args[sizeof...(arguments)] { arguments... };
JSValueRef result = JSObjectCallAsFunction(context, functionObject, functionObject, sizeof...(arguments), args, &exception);
if (!exception)
return ScriptResult(result);
}
RELEASE_ASSERT(exception);
return Unexpected<JSValueRef>(exception);
}
#if COMPILER(MSVC)
template<>
TestAPI::ScriptResult TestAPI::callFunction(const char* functionSource)
{
JSValueRef function;
{
ScriptResult functionResult = evaluateScript(functionSource);
if (!functionResult)
return functionResult;
function = functionResult.value();
}
JSValueRef exception = nullptr;
if (JSObjectRef functionObject = JSValueToObject(context, function, &exception)) {
JSValueRef result = JSObjectCallAsFunction(context, functionObject, functionObject, 0, nullptr, &exception);
if (!exception)
return ScriptResult(result);
}
RELEASE_ASSERT(exception);
return Unexpected<JSValueRef>(exception);
}
#endif
template<typename... ArgumentTypes>
bool TestAPI::functionReturnsTrue(const char* functionSource, ArgumentTypes... arguments)
{
JSValueRef trueValue = JSValueMakeBoolean(context, true);
ScriptResult result = callFunction(functionSource, arguments...);
if (!result)
return false;
return JSValueIsStrictEqual(context, trueValue, result.value());
}
bool TestAPI::scriptResultIs(ScriptResult result, JSValueRef value)
{
if (!result)
return false;
return JSValueIsStrictEqual(context, result.value(), value);
}
template<typename... Strings>
bool TestAPI::check(bool condition, Strings... messages)
{
if (!condition) {
dataLogLn(messages..., ": FAILED");
m_failed++;
} else
dataLogLn(messages..., ": PASSED");
return condition;
}
template<typename JSFunctor, typename APIFunctor>
void TestAPI::checkJSAndAPIMatch(const JSFunctor& jsFunctor, const APIFunctor& apiFunctor, const char* description)
{
JSValueRef exception = nullptr;
JSValueRef result = apiFunctor(&exception);
ScriptResult jsResult = jsFunctor();
if (!jsResult) {
check(exception, "JS and API calls should both throw an exception while ", description);
check(functionReturnsTrue("(function(a, b) { return a.constructor === b.constructor; })", exception, jsResult.error()), "JS and API calls should both throw the same exception while ", description);
} else {
check(!exception, "JS and API calls should both not throw an exception while ", description);
check(JSValueIsStrictEqual(context, result, jsResult.value()), "JS result and API calls should return the same value while ", description);
}
}
APIVector<JSObjectRef> TestAPI::interestingObjects()
{
APIVector<JSObjectRef> result(context);
JSObjectRef array = JSValueToObject(context, evaluateScript(
"[{}, [], { [Symbol.iterator]: 1 }, new Date(), new String('str'), new Map(), new Set(), new WeakMap(), new WeakSet(), new Error(), new Number(42), new Boolean(), { get length() { throw new Error(); } }];").value(), nullptr);
APIString lengthString("length");
unsigned length = JSValueToNumber(context, JSObjectGetProperty(context, array, lengthString, nullptr), nullptr);
for (unsigned i = 0; i < length; i++) {
JSObjectRef object = JSValueToObject(context, JSObjectGetPropertyAtIndex(context, array, i, nullptr), nullptr);
ASSERT(object);
result.append(object);
}
return result;
}
APIVector<JSValueRef> TestAPI::interestingKeys()
{
APIVector<JSValueRef> result(context);
JSObjectRef array = JSValueToObject(context, evaluateScript("[{}, [], 1, Symbol.iterator, 'length']").value(), nullptr);
APIString lengthString("length");
unsigned length = JSValueToNumber(context, JSObjectGetProperty(context, array, lengthString, nullptr), nullptr);
for (unsigned i = 0; i < length; i++) {
JSValueRef value = JSObjectGetPropertyAtIndex(context, array, i, nullptr);
ASSERT(value);
result.append(value);
}
return result;
}
static const char* isSymbolFunction = "(function isSymbol(symbol) { return typeof(symbol) === 'symbol'; })";
static const char* getSymbolDescription = "(function getSymbolDescription(symbol) { return symbol.description; })";
static const char* getFunction = "(function get(object, key) { return object[key]; })";
static const char* setFunction = "(function set(object, key, value) { object[key] = value; })";
void TestAPI::basicSymbol()
{
// Can't call Symbol as a constructor since it's not subclassable.
auto result = evaluateScript("Symbol('dope');");
check(JSValueGetType(context, result.value()) == kJSTypeSymbol, "dope get type is a symbol");
check(JSValueIsSymbol(context, result.value()), "dope is a symbol");
}
void TestAPI::symbolsTypeof()
{
{
JSValueRef symbol = JSValueMakeSymbol(context, nullptr);
check(functionReturnsTrue(isSymbolFunction, symbol), "JSValueMakeSymbol makes a symbol value");
}
{
APIString description("dope");
JSValueRef symbol = JSValueMakeSymbol(context, description);
check(functionReturnsTrue(isSymbolFunction, symbol), "JSValueMakeSymbol makes a symbol value");
}
}
void TestAPI::symbolsDescription()
{
{
JSValueRef symbol = JSValueMakeSymbol(context, nullptr);
auto result = callFunction(getSymbolDescription, symbol);
check(JSValueIsStrictEqual(context, result.value(), JSValueMakeUndefined(context)), "JSValueMakeSymbol with nullptr description produces a symbol value without description");
}
{
APIString description("dope");
JSValueRef symbol = JSValueMakeSymbol(context, description);
auto result = callFunction(getSymbolDescription, symbol);
check(JSValueIsStrictEqual(context, result.value(), JSValueMakeString(context, description)), "JSValueMakeSymbol with description string produces a symbol value with description");
}
}
void TestAPI::symbolsGetPropertyForKey()
{
auto objects = interestingObjects();
auto keys = interestingKeys();
for (auto& object : objects) {
dataLogLn("\nnext object: ", toJS(context, object));
for (auto& key : keys) {
dataLogLn("Using key: ", toJS(context, key));
checkJSAndAPIMatch(
[&] {
return callFunction(getFunction, object, key);
}, [&] (JSValueRef* exception) {
return JSObjectGetPropertyForKey(context, object, key, exception);
}, "checking get property keys");
}
}
}
void TestAPI::symbolsSetPropertyForKey()
{
auto jsObjects = interestingObjects();
auto apiObjects = interestingObjects();
auto keys = interestingKeys();
JSValueRef theAnswer = JSValueMakeNumber(context, 42);
for (size_t i = 0; i < jsObjects.size(); i++) {
for (auto& key : keys) {
JSObjectRef jsObject = jsObjects[i];
JSObjectRef apiObject = apiObjects[i];
checkJSAndAPIMatch(
[&] {
return callFunction(setFunction, jsObject, key, theAnswer);
} , [&] (JSValueRef* exception) {
JSObjectSetPropertyForKey(context, apiObject, key, theAnswer, kJSPropertyAttributeNone, exception);
return JSValueMakeUndefined(context);
}, "setting property keys to the answer");
// Check get is the same on API object.
checkJSAndAPIMatch(
[&] {
return callFunction(getFunction, apiObject, key);
}, [&] (JSValueRef* exception) {
return JSObjectGetPropertyForKey(context, apiObject, key, exception);
}, "getting property keys from API objects");
// Check get is the same on respective objects.
checkJSAndAPIMatch(
[&] {
return callFunction(getFunction, jsObject, key);
}, [&] (JSValueRef* exception) {
return JSObjectGetPropertyForKey(context, apiObject, key, exception);
}, "getting property keys from respective objects");
}
}
}
void TestAPI::symbolsHasPropertyForKey()
{
const char* hasFunction = "(function has(object, key) { return key in object; })";
auto objects = interestingObjects();
auto keys = interestingKeys();
JSValueRef theAnswer = JSValueMakeNumber(context, 42);
for (auto& object : objects) {
dataLogLn("\nNext object: ", toJS(context, object));
for (auto& key : keys) {
dataLogLn("Using key: ", toJS(context, key));
checkJSAndAPIMatch(
[&] {
return callFunction(hasFunction, object, key);
}, [&] (JSValueRef* exception) {
return JSValueMakeBoolean(context, JSObjectHasPropertyForKey(context, object, key, exception));
}, "checking has property keys unset");
check(!!callFunction(setFunction, object, key, theAnswer), "set property to the answer");
checkJSAndAPIMatch(
[&] {
return callFunction(hasFunction, object, key);
}, [&] (JSValueRef* exception) {
return JSValueMakeBoolean(context, JSObjectHasPropertyForKey(context, object, key, exception));
}, "checking has property keys set");
}
}
}
void TestAPI::symbolsDeletePropertyForKey()
{
const char* deleteFunction = "(function del(object, key) { return delete object[key]; })";
auto objects = interestingObjects();
auto keys = interestingKeys();
JSValueRef theAnswer = JSValueMakeNumber(context, 42);
for (auto& object : objects) {
dataLogLn("\nNext object: ", toJS(context, object));
for (auto& key : keys) {
dataLogLn("Using key: ", toJS(context, key));
checkJSAndAPIMatch(
[&] {
return callFunction(deleteFunction, object, key);
}, [&] (JSValueRef* exception) {
return JSValueMakeBoolean(context, JSObjectDeletePropertyForKey(context, object, key, exception));
}, "checking has property keys unset");
check(!!callFunction(setFunction, object, key, theAnswer), "set property to the answer");
checkJSAndAPIMatch(
[&] {
return callFunction(deleteFunction, object, key);
}, [&] (JSValueRef* exception) {
return JSValueMakeBoolean(context, JSObjectDeletePropertyForKey(context, object, key, exception));
}, "checking has property keys set");
}
}
}
void TestAPI::promiseResolveTrue()
{
JSObjectRef resolve;
JSObjectRef reject;
JSValueRef exception = nullptr;
JSObjectRef promise = JSObjectMakeDeferredPromise(context, &resolve, &reject, &exception);
check(!exception, "No exception should be thrown creating a deferred promise");
// Ugh, we don't have any C API that takes blocks... so we do this hack to capture the runner.
static TestAPI* tester = this;
static bool passedTrueCalled = false;
APIString trueString("passedTrue");
auto passedTrue = [](JSContextRef ctx, JSObjectRef, JSObjectRef, size_t argumentCount, const JSValueRef arguments[], JSValueRef*) -> JSValueRef {
tester->check(argumentCount && JSValueIsStrictEqual(ctx, arguments[0], JSValueMakeBoolean(ctx, true)), "function should have been called back with true");
passedTrueCalled = true;
return JSValueMakeUndefined(ctx);
};
APIString thenString("then");
JSValueRef thenFunction = JSObjectGetProperty(context, promise, thenString, &exception);
check(!exception && thenFunction && JSValueIsObject(context, thenFunction), "Promise should have a then object property");
JSValueRef passedTrueFunction = JSObjectMakeFunctionWithCallback(context, trueString, passedTrue);
JSObjectCallAsFunction(context, const_cast<JSObjectRef>(thenFunction), promise, 1, &passedTrueFunction, &exception);
check(!exception, "No exception should be thrown setting up callback");
auto trueValue = JSValueMakeBoolean(context, true);
JSObjectCallAsFunction(context, resolve, resolve, 1, &trueValue, &exception);
check(!exception, "No exception should be thrown resolving promise");
check(passedTrueCalled, "then response function should have been called.");
}
void TestAPI::promiseRejectTrue()
{
JSObjectRef resolve;
JSObjectRef reject;
JSValueRef exception = nullptr;
JSObjectRef promise = JSObjectMakeDeferredPromise(context, &resolve, &reject, &exception);
check(!exception, "No exception should be thrown creating a deferred promise");
// Ugh, we don't have any C API that takes blocks... so we do this hack to capture the runner.
static TestAPI* tester = this;
static bool passedTrueCalled = false;
APIString trueString("passedTrue");
auto passedTrue = [](JSContextRef ctx, JSObjectRef, JSObjectRef, size_t argumentCount, const JSValueRef arguments[], JSValueRef*) -> JSValueRef {
tester->check(argumentCount && JSValueIsStrictEqual(ctx, arguments[0], JSValueMakeBoolean(ctx, true)), "function should have been called back with true");
passedTrueCalled = true;
return JSValueMakeUndefined(ctx);
};
APIString catchString("catch");
JSValueRef catchFunction = JSObjectGetProperty(context, promise, catchString, &exception);
check(!exception && catchFunction && JSValueIsObject(context, catchFunction), "Promise should have a catch object property");
JSValueRef passedTrueFunction = JSObjectMakeFunctionWithCallback(context, trueString, passedTrue);
JSObjectCallAsFunction(context, const_cast<JSObjectRef>(catchFunction), promise, 1, &passedTrueFunction, &exception);
check(!exception, "No exception should be thrown setting up callback");
auto trueValue = JSValueMakeBoolean(context, true);
JSObjectCallAsFunction(context, reject, reject, 1, &trueValue, &exception);
check(!exception, "No exception should be thrown rejecting promise");
check(passedTrueCalled, "catch response function should have been called.");
}
void TestAPI::promiseUnhandledRejection()
{
JSObjectRef reject = nullptr;
JSValueRef exception = nullptr;
static auto promise = JSObjectMakeDeferredPromise(context, nullptr, &reject, &exception);
check(!exception, "creating a (reject-only) deferred promise should not throw");
static auto reason = JSValueMakeString(context, APIString("reason"));
static TestAPI* tester = this;
static bool callbackCalled = false;
auto callback = [](JSContextRef ctx, JSObjectRef, JSObjectRef, size_t argumentCount, const JSValueRef arguments[], JSValueRef*) -> JSValueRef {
tester->check(argumentCount && JSValueIsStrictEqual(ctx, arguments[0], promise), "callback should receive rejected promise as first argument");
tester->check(argumentCount > 1 && JSValueIsStrictEqual(ctx, arguments[1], reason), "callback should receive rejection reason as second argument");
tester->check(argumentCount == 2, "callback should not receive a third argument");
callbackCalled = true;
return JSValueMakeUndefined(ctx);
};
auto callbackFunction = JSObjectMakeFunctionWithCallback(context, APIString("callback"), callback);
JSGlobalContextSetUnhandledRejectionCallback(context, callbackFunction, &exception);
check(!exception, "setting unhandled rejection callback should not throw");
JSObjectCallAsFunction(context, reject, reject, 1, &reason, &exception);
check(!exception && callbackCalled, "unhandled rejection callback should be called upon unhandled rejection");
}
void TestAPI::promiseUnhandledRejectionFromUnhandledRejectionCallback()
{
static JSObjectRef reject;
static JSValueRef exception = nullptr;
JSObjectMakeDeferredPromise(context, nullptr, &reject, &exception);
check(!exception, "creating a (reject-only) deferred promise should not throw");
static auto callbackCallCount = 0;
auto callback = [](JSContextRef ctx, JSObjectRef, JSObjectRef, size_t, const JSValueRef[], JSValueRef*) -> JSValueRef {
if (!callbackCallCount)
JSObjectCallAsFunction(ctx, reject, reject, 0, nullptr, &exception);
callbackCallCount++;
return JSValueMakeUndefined(ctx);
};
auto callbackFunction = JSObjectMakeFunctionWithCallback(context, APIString("callback"), callback);
JSGlobalContextSetUnhandledRejectionCallback(context, callbackFunction, &exception);
check(!exception, "setting unhandled rejection callback should not throw");
callFunction("(function () { Promise.reject(); })");
check(!exception && callbackCallCount == 2, "unhandled rejection from unhandled rejection callback should also trigger the callback");
}
void TestAPI::promiseEarlyHandledRejections()
{
JSValueRef exception = nullptr;
static bool callbackCalled = false;
auto callback = [](JSContextRef ctx, JSObjectRef, JSObjectRef, size_t, const JSValueRef[], JSValueRef*) -> JSValueRef {
callbackCalled = true;
return JSValueMakeUndefined(ctx);
};
auto callbackFunction = JSObjectMakeFunctionWithCallback(context, APIString("callback"), callback);
JSGlobalContextSetUnhandledRejectionCallback(context, callbackFunction, &exception);
check(!exception, "setting unhandled rejection callback should not throw");
callFunction("(function () { const p = Promise.reject(); p.catch(() => {}); })");
check(!callbackCalled, "unhandled rejection callback should not be called for synchronous early-handled rejection");
callFunction("(function () { const p = Promise.reject(); Promise.resolve().then(() => { p.catch(() => {}); }); })");
check(!callbackCalled, "unhandled rejection callback should not be called for asynchronous early-handled rejection");
}
void TestAPI::promiseDrainDoesNotEatExceptions()
{
#if PLATFORM(COCOA)
bool useLegacyDrain = false;
#if PLATFORM(MAC)
useLegacyDrain = applicationSDKVersion() < DYLD_MACOSX_VERSION_12_00;
#elif PLATFORM(WATCH)
// Don't check, JSC isn't API on watch anyway.
#elif PLATFORM(IOS_FAMILY)
useLegacyDrain = applicationSDKVersion() < DYLD_IOS_VERSION_15_0;
#else
#error "Unsupported Cocoa Platform"
#endif
if (useLegacyDrain)
return;
#endif
ScriptResult result = callFunction("(function() { Promise.resolve().then(() => { throw 2; }); throw 1; })");
check(!result, "function should throw an error");
check(JSValueIsNumber(context, result.error()) && JSValueToNumber(context, result.error(), nullptr) == 1, "exception payload should have been 1");
}
void TestAPI::topCallFrameAccess()
{
{
JSObjectRef function = JSValueToObject(context, evaluateScript("(function () { })").value(), nullptr);
APIString argumentsString("arguments");
auto arguments = JSObjectGetProperty(context, function, argumentsString, nullptr);
check(JSValueIsNull(context, arguments), "vm.topCallFrame access from C++ world should use nullptr internally for arguments");
}
{
JSObjectRef arguments = JSValueToObject(context, evaluateScript("(function ok(v) { return ok.arguments; })(42)").value(), nullptr);
check(!JSValueIsNull(context, arguments), "vm.topCallFrame is materialized and we found the caller function's arguments");
}
{
JSObjectRef function = JSValueToObject(context, evaluateScript("(function () { })").value(), nullptr);
APIString callerString("caller");
auto caller = JSObjectGetProperty(context, function, callerString, nullptr);
check(JSValueIsNull(context, caller), "vm.topCallFrame access from C++ world should use nullptr internally for caller");
}
{
JSObjectRef caller = JSValueToObject(context, evaluateScript("(function () { return (function ok(v) { return ok.caller; })(42); })()").value(), nullptr);
check(!JSValueIsNull(context, caller), "vm.topCallFrame is materialized and we found the caller function's caller");
}
{
JSObjectRef caller = JSValueToObject(context, evaluateScript("(function ok(v) { return ok.caller; })(42)").value(), nullptr);
check(JSValueIsNull(context, caller), "vm.topCallFrame is materialized and we found the caller function's caller, but the caller is global code");
}
}
void TestAPI::markedJSValueArrayAndGC()
{
auto testMarkedJSValueArray = [&] (unsigned count) {
auto* globalObject = toJS(context);
JSC::JSLockHolder locker(globalObject->vm());
JSC::MarkedJSValueRefArray values(context, count);
for (unsigned index = 0; index < count; ++index) {
JSValueRef string = JSValueMakeString(context, APIString(makeString("Prefix", index)));
values[index] = string;
}
JSSynchronousGarbageCollectForDebugging(context);
bool ok = true;
for (unsigned index = 0; index < count; ++index) {
JSValueRef string = JSValueMakeString(context, APIString(makeString("Prefix", index)));
if (!JSValueIsStrictEqual(context, values[index], string))
ok = false;
}
check(ok, "Held JSString should be alive and correct.");
};
testMarkedJSValueArray(4);
testMarkedJSValueArray(1000);
}
void TestAPI::classDefinitionWithJSSubclass()
{
const static JSClassDefinition definition = kJSClassDefinitionEmpty;
static JSClassRef jsClass = JSClassCreate(&definition);
auto constructor = [] (JSContextRef ctx, JSObjectRef, size_t, const JSValueRef*, JSValueRef*) -> JSObjectRef {
return JSObjectMake(ctx, jsClass, nullptr);
};
JSObjectRef Superclass = JSObjectMakeConstructor(context, jsClass, constructor);
ScriptResult result = callFunction("(function (Superclass) { class Subclass extends Superclass { method() { return 'value'; } }; return new Subclass(); })", Superclass);
check(!!result, "creating a subclass should not throw.");
check(JSValueIsObject(context, result.value()), "result of construction should have been an object.");
JSObjectRef subclass = const_cast<JSObjectRef>(result.value());
check(JSObjectHasProperty(context, subclass, APIString("method")), "subclass should have derived classes functions.");
check(functionReturnsTrue("(function (subclass, Superclass) { return subclass instanceof Superclass; })", subclass, Superclass), "JS subclass should instanceof the Superclass");
JSClassRelease(jsClass);
}
void TestAPI::proxyReturnedWithJSSubclassing()
{
const static JSClassDefinition definition = kJSClassDefinitionEmpty;
static JSClassRef jsClass = JSClassCreate(&definition);
static TestAPI& test = *this;
auto constructor = [] (JSContextRef ctx, JSObjectRef, size_t, const JSValueRef*, JSValueRef*) -> JSObjectRef {
ScriptResult result = test.callFunction("(function (object) { return new Proxy(object, { getPrototypeOf: () => { globalThis.triggeredProxy = true; return object.__proto__; }}); })", JSObjectMake(ctx, jsClass, nullptr));
test.check(!!result, "creating a proxy should not throw");
test.check(JSValueIsObject(ctx, result.value()), "result of proxy creation should have been an object.");
return const_cast<JSObjectRef>(result.value());
};
JSObjectRef Superclass = JSObjectMakeConstructor(context, jsClass, constructor);
ScriptResult result = callFunction("(function (Superclass) { class Subclass extends Superclass { method() { return 'value'; } }; return new Subclass(); })", Superclass);
check(!!result, "creating a subclass should not throw.");
check(JSValueIsObject(context, result.value()), "result of construction should have been an object.");
JSObjectRef subclass = const_cast<JSObjectRef>(result.value());
check(scriptResultIs(evaluateScript("globalThis.triggeredProxy"), JSValueMakeUndefined(context)), "creating a subclass should not have triggered the proxy");
check(functionReturnsTrue("(function (subclass, Superclass) { return subclass.__proto__ == Superclass.prototype; })", subclass, Superclass), "proxy's prototype should match Superclass.prototype");
}
void TestAPI::testJSObjectSetOnGlobalObjectSubclassDefinition()
{
JSClassDefinition globalClassDef = kJSClassDefinitionEmpty;
globalClassDef.className = "CustomGlobalClass";
JSClassRef globalClassRef = JSClassCreate(&globalClassDef);
JSContextRef context = JSGlobalContextCreate(globalClassRef);
JSObjectRef newObject = JSObjectMake(context, nullptr, nullptr);
JSObjectRef globalObject = JSContextGetGlobalObject(context);
APIString propertyName("myObject");
JSObjectSetProperty(context, globalObject, propertyName, newObject, 0, nullptr);
check(JSEvaluateScript(context, propertyName, globalObject, nullptr, 1, nullptr) == newObject, "Setting a property on a custom global object should set the property");
}
void configureJSCForTesting()
{
JSC::Config::configureForTesting();
}
#define RUN(test) do { \
if (!shouldRun(#test)) \
break; \
tasks.append( \
createSharedTask<void(TestAPI&)>( \
[&] (TestAPI& tester) { \
tester.test; \
dataLog(#test ": OK!\n"); \
})); \
} while (false)
int testCAPIViaCpp(const char* filter)
{
dataLogLn("Starting C-API tests in C++");
Deque<RefPtr<SharedTask<void(TestAPI&)>>> tasks;
auto shouldRun = [&] (const char* testName) -> bool {
return !filter || WTF::findIgnoringASCIICaseWithoutLength(testName, filter) != WTF::notFound;
};
RUN(topCallFrameAccess());
RUN(basicSymbol());
RUN(symbolsTypeof());
RUN(symbolsDescription());
RUN(symbolsGetPropertyForKey());
RUN(symbolsSetPropertyForKey());
RUN(symbolsHasPropertyForKey());
RUN(symbolsDeletePropertyForKey());
RUN(promiseResolveTrue());
RUN(promiseRejectTrue());
RUN(promiseUnhandledRejection());
RUN(promiseUnhandledRejectionFromUnhandledRejectionCallback());
RUN(promiseDrainDoesNotEatExceptions());
RUN(promiseEarlyHandledRejections());
RUN(markedJSValueArrayAndGC());
RUN(classDefinitionWithJSSubclass());
RUN(proxyReturnedWithJSSubclassing());
RUN(testJSObjectSetOnGlobalObjectSubclassDefinition());
if (tasks.isEmpty())
return 0;
Lock lock;
static Atomic<int> failed { 0 };
Vector<Ref<Thread>> threads;
for (unsigned i = filter ? 1 : WTF::numberOfProcessorCores(); i--;) {
threads.append(Thread::create(
"Testapi via C++ thread",
[&] () {
TestAPI tester;
for (;;) {
RefPtr<SharedTask<void(TestAPI&)>> task;
{
Locker locker { lock };
if (tasks.isEmpty())
break;
task = tasks.takeFirst();
}
task->run(tester);
}
failed.exchangeAdd(tester.failed());
}));
}
for (auto& thread : threads)
thread->waitForCompletion();
dataLogLn("C-API tests in C++ had ", failed.load(), " failures");
return failed.load();
}