c911f91b5b
Bug: v8:5402 Change-Id: Ifdbc61eb401160d03b98336292f1725d604e7f51 Reviewed-on: https://chromium-review.googlesource.com/c/1379936 Commit-Queue: Jakob Kummerow <jkummerow@chromium.org> Reviewed-by: Ulan Degenbaev <ulan@chromium.org> Reviewed-by: Jakob Gruber <jgruber@chromium.org> Reviewed-by: Andreas Haas <ahaas@chromium.org> Cr-Commit-Position: refs/heads/master@{#58283}
177 lines
5.9 KiB
C++
177 lines
5.9 KiB
C++
// Copyright 2018 the V8 project authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "src/microtask-queue.h"
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#include <algorithm>
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#include <functional>
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#include <memory>
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#include <vector>
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#include "src/heap/factory.h"
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#include "src/objects/foreign.h"
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#include "src/visitors.h"
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#include "test/unittests/test-utils.h"
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#include "testing/gtest/include/gtest/gtest.h"
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namespace v8 {
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namespace internal {
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using Closure = std::function<void()>;
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void RunStdFunction(void* data) {
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std::unique_ptr<Closure> f(static_cast<Closure*>(data));
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(*f)();
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}
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class MicrotaskQueueTest : public TestWithNativeContext {
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public:
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template <typename F>
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Handle<Microtask> NewMicrotask(F&& f) {
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Handle<Foreign> runner =
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factory()->NewForeign(reinterpret_cast<Address>(&RunStdFunction));
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Handle<Foreign> data = factory()->NewForeign(
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reinterpret_cast<Address>(new Closure(std::forward<F>(f))));
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return factory()->NewCallbackTask(runner, data);
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}
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void TearDown() override {
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isolate()->default_microtask_queue()->RunMicrotasks(isolate());
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}
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};
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class RecordingVisitor : public RootVisitor {
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public:
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RecordingVisitor() = default;
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~RecordingVisitor() override = default;
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void VisitRootPointers(Root root, const char* description,
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FullObjectSlot start, FullObjectSlot end) override {
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for (FullObjectSlot current = start; current != end; ++current) {
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visited_.push_back(*current);
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}
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}
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const std::vector<Object*>& visited() const { return visited_; }
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private:
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std::vector<Object*> visited_;
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};
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// Sanity check. Ensure a microtask is stored in a queue and run.
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TEST_F(MicrotaskQueueTest, EnqueueAndRun) {
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MicrotaskQueue* microtask_queue = isolate()->default_microtask_queue();
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ASSERT_TRUE(microtask_queue);
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bool ran = false;
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EXPECT_EQ(0, microtask_queue->capacity());
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EXPECT_EQ(0, microtask_queue->size());
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microtask_queue->EnqueueMicrotask(*NewMicrotask([&ran] {
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EXPECT_FALSE(ran);
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ran = true;
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}));
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EXPECT_EQ(MicrotaskQueue::kMinimumCapacity, microtask_queue->capacity());
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EXPECT_EQ(1, microtask_queue->size());
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microtask_queue->RunMicrotasks(isolate());
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EXPECT_TRUE(ran);
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EXPECT_EQ(0, microtask_queue->size());
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}
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// Check for a buffer growth.
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TEST_F(MicrotaskQueueTest, BufferGrowth) {
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MicrotaskQueue* microtask_queue = isolate()->default_microtask_queue();
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ASSERT_TRUE(microtask_queue);
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int count = 0;
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// Enqueue and flush the queue first to have non-zero |start_|.
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microtask_queue->EnqueueMicrotask(
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*NewMicrotask([&count] { EXPECT_EQ(0, count++); }));
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microtask_queue->RunMicrotasks(isolate());
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EXPECT_LT(0, microtask_queue->capacity());
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EXPECT_EQ(0, microtask_queue->size());
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EXPECT_EQ(1, microtask_queue->start());
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// Fill the queue with Microtasks.
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for (int i = 1; i <= MicrotaskQueue::kMinimumCapacity; ++i) {
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microtask_queue->EnqueueMicrotask(
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*NewMicrotask([&count, i] { EXPECT_EQ(i, count++); }));
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}
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EXPECT_EQ(MicrotaskQueue::kMinimumCapacity, microtask_queue->capacity());
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EXPECT_EQ(MicrotaskQueue::kMinimumCapacity, microtask_queue->size());
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// Add another to grow the ring buffer.
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microtask_queue->EnqueueMicrotask(*NewMicrotask(
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[&] { EXPECT_EQ(MicrotaskQueue::kMinimumCapacity + 1, count++); }));
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EXPECT_LT(MicrotaskQueue::kMinimumCapacity, microtask_queue->capacity());
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EXPECT_EQ(MicrotaskQueue::kMinimumCapacity + 1, microtask_queue->size());
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// Run all pending Microtasks to ensure they run in the proper order.
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microtask_queue->RunMicrotasks(isolate());
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EXPECT_EQ(MicrotaskQueue::kMinimumCapacity + 2, count);
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}
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// MicrotaskQueue instances form a doubly linked list.
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TEST_F(MicrotaskQueueTest, InstanceChain) {
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MicrotaskQueue* default_mtq = isolate()->default_microtask_queue();
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ASSERT_TRUE(default_mtq);
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EXPECT_EQ(default_mtq, default_mtq->next());
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EXPECT_EQ(default_mtq, default_mtq->prev());
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// Create two instances, and check their connection.
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// The list contains all instances in the creation order, and the next of the
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// last instance is the first instance:
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// default_mtq -> mtq1 -> mtq2 -> default_mtq.
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std::unique_ptr<MicrotaskQueue> mtq1 = MicrotaskQueue::New(isolate());
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std::unique_ptr<MicrotaskQueue> mtq2 = MicrotaskQueue::New(isolate());
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EXPECT_EQ(default_mtq->next(), mtq1.get());
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EXPECT_EQ(mtq1->next(), mtq2.get());
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EXPECT_EQ(mtq2->next(), default_mtq);
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EXPECT_EQ(default_mtq, mtq1->prev());
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EXPECT_EQ(mtq1.get(), mtq2->prev());
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EXPECT_EQ(mtq2.get(), default_mtq->prev());
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// Deleted item should be also removed from the list.
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mtq1 = nullptr;
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EXPECT_EQ(default_mtq->next(), mtq2.get());
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EXPECT_EQ(mtq2->next(), default_mtq);
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EXPECT_EQ(default_mtq, mtq2->prev());
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EXPECT_EQ(mtq2.get(), default_mtq->prev());
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}
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// Pending Microtasks in MicrotaskQueues are strong roots. Ensure they are
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// visited exactly once.
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TEST_F(MicrotaskQueueTest, VisitRoot) {
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MicrotaskQueue* microtask_queue = isolate()->default_microtask_queue();
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ASSERT_TRUE(microtask_queue);
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// Ensure that the ring buffer has separate in-use region.
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for (int i = 0; i < MicrotaskQueue::kMinimumCapacity / 2 + 1; ++i) {
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microtask_queue->EnqueueMicrotask(*NewMicrotask([] {}));
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}
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microtask_queue->RunMicrotasks(isolate());
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std::vector<Object*> expected;
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for (int i = 0; i < MicrotaskQueue::kMinimumCapacity / 2 + 1; ++i) {
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Handle<Microtask> microtask = NewMicrotask([] {});
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expected.push_back(*microtask);
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microtask_queue->EnqueueMicrotask(*microtask);
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}
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EXPECT_GT(microtask_queue->start() + microtask_queue->size(),
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microtask_queue->capacity());
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RecordingVisitor visitor;
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microtask_queue->IterateMicrotasks(&visitor);
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std::vector<Object*> actual = visitor.visited();
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std::sort(expected.begin(), expected.end());
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std::sort(actual.begin(), actual.end());
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EXPECT_EQ(expected, actual);
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}
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} // namespace internal
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} // namespace v8
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