/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2; -*- */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #ifndef mozilla_devtools_gtest_DevTools__ #define mozilla_devtools_gtest_DevTools__ #include #include "CoreDump.pb.h" #include "gmock/gmock.h" #include "gtest/gtest.h" #include "js/Principals.h" #include "js/UbiNode.h" #include "js/UniquePtr.h" #include "jsapi.h" #include "jspubtd.h" #include "mozilla/CycleCollectedJSContext.h" #include "mozilla/devtools/HeapSnapshot.h" #include "mozilla/dom/ChromeUtils.h" #include "nsCRTGlue.h" using namespace mozilla; using namespace mozilla::devtools; using namespace mozilla::dom; using namespace testing; // GTest fixture class that all of our tests derive from. struct DevTools : public ::testing::Test { bool _initialized; JSContext* cx; JS::Compartment* compartment; JS::Zone* zone; JS::PersistentRooted global; DevTools() : _initialized(false), cx(nullptr) {} virtual void SetUp() { MOZ_ASSERT(!_initialized); cx = getContext(); if (!cx) return; global.init(cx, createGlobal()); if (!global) return; JS::EnterRealm(cx, global); compartment = js::GetContextCompartment(cx); zone = js::GetContextZone(cx); _initialized = true; } JSContext* getContext() { return CycleCollectedJSContext::Get()->Context(); } static void reportError(JSContext* cx, const char* message, JSErrorReport* report) { fprintf(stderr, "%s:%u:%s\n", report->filename ? report->filename : "", (unsigned int)report->lineno, message); } static const JSClass* getGlobalClass() { static const JSClass globalClass = {"global", JSCLASS_GLOBAL_FLAGS, &JS::DefaultGlobalClassOps}; return &globalClass; } JSObject* createGlobal() { /* Create the global object. */ JS::RealmOptions options; return JS_NewGlobalObject(cx, getGlobalClass(), nullptr, JS::FireOnNewGlobalHook, options); } virtual void TearDown() { _initialized = false; if (global) { JS::LeaveRealm(cx, nullptr); global = nullptr; } } }; // Helper to define a test and ensure that the fixture is initialized properly. #define DEF_TEST(name, body) \ TEST_F(DevTools, name) { \ ASSERT_TRUE(_initialized); \ body \ } // Fake JS::ubi::Node implementation class MOZ_STACK_CLASS FakeNode { public: JS::ubi::EdgeVector edges; JS::Compartment* compartment; JS::Zone* zone; size_t size; explicit FakeNode() : edges(), compartment(nullptr), zone(nullptr), size(1) {} }; namespace JS { namespace ubi { template <> class Concrete : public Base { const char16_t* typeName() const override { return concreteTypeName; } js::UniquePtr edges(JSContext*, bool) const override { return js::UniquePtr(js_new(get().edges)); } Size size(mozilla::MallocSizeOf) const override { return get().size; } JS::Zone* zone() const override { return get().zone; } JS::Compartment* compartment() const override { return get().compartment; } protected: explicit Concrete(FakeNode* ptr) : Base(ptr) {} FakeNode& get() const { return *static_cast(ptr); } public: static const char16_t concreteTypeName[]; static void construct(void* storage, FakeNode* ptr) { new (storage) Concrete(ptr); } }; } // namespace ubi } // namespace JS inline void AddEdge(FakeNode& node, FakeNode& referent, const char16_t* edgeName = nullptr) { char16_t* ownedEdgeName = nullptr; if (edgeName) { ownedEdgeName = NS_xstrdup(edgeName); } JS::ubi::Edge edge(ownedEdgeName, &referent); ASSERT_TRUE(node.edges.append(std::move(edge))); } // Custom GMock Matchers // Use the testing namespace to avoid static analysis failures in the gmock // matcher classes that get generated from MATCHER_P macros. namespace testing { // Ensure that given node has the expected number of edges. MATCHER_P2(EdgesLength, cx, expectedLength, "") { auto edges = arg.edges(cx); if (!edges) return false; int actualLength = 0; for (; !edges->empty(); edges->popFront()) actualLength++; return Matcher(Eq(expectedLength)) .MatchAndExplain(actualLength, result_listener); } // Get the nth edge and match it with the given matcher. MATCHER_P3(Edge, cx, n, matcher, "") { auto edges = arg.edges(cx); if (!edges) return false; int i = 0; for (; !edges->empty(); edges->popFront()) { if (i == n) { return Matcher(matcher).MatchAndExplain( edges->front(), result_listener); } i++; } return false; } // Ensures that two char16_t* strings are equal. MATCHER_P(UTF16StrEq, str, "") { return NS_strcmp(arg, str) == 0; } MATCHER_P(UniqueUTF16StrEq, str, "") { return NS_strcmp(arg.get(), str) == 0; } MATCHER(UniqueIsNull, "") { return arg.get() == nullptr; } // Matches an edge whose referent is the node with the given id. MATCHER_P(EdgeTo, id, "") { return Matcher( Field(&DeserializedEdge::referent, id)) .MatchAndExplain(arg, result_listener); } } // namespace testing // A mock `Writer` class to be used with testing `WriteHeapGraph`. class MockWriter : public CoreDumpWriter { public: virtual ~MockWriter() override {} MOCK_METHOD2(writeNode, bool(const JS::ubi::Node&, CoreDumpWriter::EdgePolicy)); MOCK_METHOD1(writeMetadata, bool(uint64_t)); }; inline void ExpectWriteNode(MockWriter& writer, FakeNode& node) { EXPECT_CALL(writer, writeNode(Eq(JS::ubi::Node(&node)), _)) .Times(1) .WillOnce(Return(true)); } #endif // mozilla_devtools_gtest_DevTools__