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chromium / chromium / src.git / 66.0.3359.185 / . / third_party / WebKit / Source / platform / loader / fetch / ResourceLoadSchedulerTest.cpp
blob: 741bc329b2c15795b5170a88f26150a4b0a3b4fc [file] [log] [blame]
// Copyright 2017 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "platform/loader/fetch/ResourceLoadScheduler.h"
#include "platform/loader/testing/MockFetchContext.h"
#include "platform/runtime_enabled_features.h"
#include "platform/testing/TestingPlatformSupport.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace blink {
namespace {
class MockClient final : public GarbageCollectedFinalized<MockClient>,
public ResourceLoadSchedulerClient {
USING_GARBAGE_COLLECTED_MIXIN(MockClient);
public:
~MockClient() = default;
void Run() override {
EXPECT_FALSE(was_run_);
was_run_ = true;
}
bool WasRun() { return was_run_; }
void Trace(blink::Visitor* visitor) override {
ResourceLoadSchedulerClient::Trace(visitor);
}
private:
bool was_run_ = false;
};
class ResourceLoadSchedulerTest : public ::testing::Test {
public:
using ThrottleOption = ResourceLoadScheduler::ThrottleOption;
void SetUp() override {
DCHECK(RuntimeEnabledFeatures::ResourceLoadSchedulerEnabled());
scheduler_ = ResourceLoadScheduler::Create(
MockFetchContext::Create(MockFetchContext::kShouldNotLoadNewResource));
Scheduler()->SetOutstandingLimitForTesting(1);
}
void TearDown() override { Scheduler()->Shutdown(); }
ResourceLoadScheduler* Scheduler() { return scheduler_; }
bool Release(ResourceLoadScheduler::ClientId client) {
return Scheduler()->Release(
client, ResourceLoadScheduler::ReleaseOption::kReleaseOnly,
ResourceLoadScheduler::TrafficReportHints::InvalidInstance());
}
bool ReleaseAndSchedule(ResourceLoadScheduler::ClientId client) {
return Scheduler()->Release(
client, ResourceLoadScheduler::ReleaseOption::kReleaseAndSchedule,
ResourceLoadScheduler::TrafficReportHints::InvalidInstance());
}
private:
Persistent<ResourceLoadScheduler> scheduler_;
};
class RendererSideResourceSchedulerTest : public ::testing::Test {
public:
using ThrottleOption = ResourceLoadScheduler::ThrottleOption;
class TestingPlatformSupport : public ::blink::TestingPlatformSupport {
public:
bool IsRendererSideResourceSchedulerEnabled() const override {
return true;
}
};
void SetUp() override {
DCHECK(RuntimeEnabledFeatures::ResourceLoadSchedulerEnabled());
scheduler_ = ResourceLoadScheduler::Create(
MockFetchContext::Create(MockFetchContext::kShouldNotLoadNewResource));
Scheduler()->SetOutstandingLimitForTesting(1);
}
void TearDown() override { Scheduler()->Shutdown(); }
ResourceLoadScheduler* Scheduler() { return scheduler_; }
bool Release(ResourceLoadScheduler::ClientId client) {
return Scheduler()->Release(
client, ResourceLoadScheduler::ReleaseOption::kReleaseOnly,
ResourceLoadScheduler::TrafficReportHints::InvalidInstance());
}
private:
ScopedTestingPlatformSupport<TestingPlatformSupport>
testing_platform_support_;
Persistent<ResourceLoadScheduler> scheduler_;
};
TEST_F(ResourceLoadSchedulerTest, Bypass) {
// A request that disallows throttling should be ran synchronously.
MockClient* client1 = new MockClient;
ResourceLoadScheduler::ClientId id1 = ResourceLoadScheduler::kInvalidClientId;
Scheduler()->Request(client1, ThrottleOption::kCanNotBeThrottled,
ResourceLoadPriority::kMedium, 0 /* intra_priority */,
&id1);
EXPECT_NE(ResourceLoadScheduler::kInvalidClientId, id1);
EXPECT_TRUE(client1->WasRun());
// Another request that disallows throttling also should be ran even it makes
// the outstanding number reaches to the limit.
MockClient* client2 = new MockClient;
ResourceLoadScheduler::ClientId id2 = ResourceLoadScheduler::kInvalidClientId;
Scheduler()->Request(client2, ThrottleOption::kCanNotBeThrottled,
ResourceLoadPriority::kMedium, 0 /* intra_priority */,
&id2);
EXPECT_NE(ResourceLoadScheduler::kInvalidClientId, id2);
EXPECT_TRUE(client2->WasRun());
// Call Release() with different options just in case.
EXPECT_TRUE(Release(id1));
EXPECT_TRUE(ReleaseAndSchedule(id2));
// Should not succeed to call with the same ID twice.
EXPECT_FALSE(Release(id1));
// Should not succeed to call with the invalid ID or unused ID.
EXPECT_FALSE(Release(ResourceLoadScheduler::kInvalidClientId));
EXPECT_FALSE(Release(static_cast<ResourceLoadScheduler::ClientId>(774)));
}
TEST_F(ResourceLoadSchedulerTest, Throttled) {
// The first request should be ran synchronously.
MockClient* client1 = new MockClient;
ResourceLoadScheduler::ClientId id1 = ResourceLoadScheduler::kInvalidClientId;
Scheduler()->Request(client1, ThrottleOption::kCanBeThrottled,
ResourceLoadPriority::kMedium, 0 /* intra_priority */,
&id1);
EXPECT_NE(ResourceLoadScheduler::kInvalidClientId, id1);
EXPECT_TRUE(client1->WasRun());
// Another request should be throttled until the first request calls Release.
MockClient* client2 = new MockClient;
ResourceLoadScheduler::ClientId id2 = ResourceLoadScheduler::kInvalidClientId;
Scheduler()->Request(client2, ThrottleOption::kCanBeThrottled,
ResourceLoadPriority::kMedium, 0 /* intra_priority */,
&id2);
EXPECT_NE(ResourceLoadScheduler::kInvalidClientId, id2);
EXPECT_FALSE(client2->WasRun());
// Two more requests.
MockClient* client3 = new MockClient;
ResourceLoadScheduler::ClientId id3 = ResourceLoadScheduler::kInvalidClientId;
Scheduler()->Request(client3, ThrottleOption::kCanBeThrottled,
ResourceLoadPriority::kMedium, 0 /* intra_priority */,
&id3);
EXPECT_NE(ResourceLoadScheduler::kInvalidClientId, id3);
EXPECT_FALSE(client3->WasRun());
MockClient* client4 = new MockClient;
ResourceLoadScheduler::ClientId id4 = ResourceLoadScheduler::kInvalidClientId;
Scheduler()->Request(client4, ThrottleOption::kCanBeThrottled,
ResourceLoadPriority::kMedium, 0 /* intra_priority */,
&id4);
EXPECT_NE(ResourceLoadScheduler::kInvalidClientId, id4);
EXPECT_FALSE(client4->WasRun());
// Call Release() to run the second request.
EXPECT_TRUE(ReleaseAndSchedule(id1));
EXPECT_TRUE(client2->WasRun());
// Call Release() with kReleaseOnly should not run the third and the fourth
// requests.
EXPECT_TRUE(Release(id2));
EXPECT_FALSE(client3->WasRun());
EXPECT_FALSE(client4->WasRun());
// Should be able to call Release() for a client that hasn't run yet. This
// should run another scheduling to run the fourth request.
EXPECT_TRUE(ReleaseAndSchedule(id3));
EXPECT_TRUE(client4->WasRun());
}
TEST_F(ResourceLoadSchedulerTest, Unthrottle) {
// Push three requests.
MockClient* client1 = new MockClient;
ResourceLoadScheduler::ClientId id1 = ResourceLoadScheduler::kInvalidClientId;
Scheduler()->Request(client1, ThrottleOption::kCanBeThrottled,
ResourceLoadPriority::kMedium, 0 /* intra_priority */,
&id1);
EXPECT_NE(ResourceLoadScheduler::kInvalidClientId, id1);
EXPECT_TRUE(client1->WasRun());
MockClient* client2 = new MockClient;
ResourceLoadScheduler::ClientId id2 = ResourceLoadScheduler::kInvalidClientId;
Scheduler()->Request(client2, ThrottleOption::kCanBeThrottled,
ResourceLoadPriority::kMedium, 0 /* intra_priority */,
&id2);
EXPECT_NE(ResourceLoadScheduler::kInvalidClientId, id2);
EXPECT_FALSE(client2->WasRun());
MockClient* client3 = new MockClient;
ResourceLoadScheduler::ClientId id3 = ResourceLoadScheduler::kInvalidClientId;
Scheduler()->Request(client3, ThrottleOption::kCanBeThrottled,
ResourceLoadPriority::kMedium, 0 /* intra_priority */,
&id3);
EXPECT_NE(ResourceLoadScheduler::kInvalidClientId, id3);
EXPECT_FALSE(client3->WasRun());
// Allows to pass all requests.
Scheduler()->SetOutstandingLimitForTesting(3);
EXPECT_TRUE(client2->WasRun());
EXPECT_TRUE(client3->WasRun());
// Release all.
EXPECT_TRUE(Release(id3));
EXPECT_TRUE(Release(id2));
EXPECT_TRUE(Release(id1));
}
TEST_F(ResourceLoadSchedulerTest, Stopped) {
// Push three requests.
MockClient* client1 = new MockClient;
ResourceLoadScheduler::ClientId id1 = ResourceLoadScheduler::kInvalidClientId;
Scheduler()->Request(client1, ThrottleOption::kCanBeThrottled,
ResourceLoadPriority::kMedium, 0 /* intra_priority */,
&id1);
EXPECT_NE(ResourceLoadScheduler::kInvalidClientId, id1);
EXPECT_TRUE(client1->WasRun());
MockClient* client2 = new MockClient;
ResourceLoadScheduler::ClientId id2 = ResourceLoadScheduler::kInvalidClientId;
Scheduler()->Request(client2, ThrottleOption::kCanBeThrottled,
ResourceLoadPriority::kMedium, 0 /* intra_priority */,
&id2);
EXPECT_NE(ResourceLoadScheduler::kInvalidClientId, id2);
EXPECT_FALSE(client2->WasRun());
MockClient* client3 = new MockClient;
ResourceLoadScheduler::ClientId id3 = ResourceLoadScheduler::kInvalidClientId;
Scheduler()->Request(client3, ThrottleOption::kCanBeThrottled,
ResourceLoadPriority::kMedium, 0 /* intra_priority */,
&id3);
EXPECT_NE(ResourceLoadScheduler::kInvalidClientId, id3);
EXPECT_FALSE(client3->WasRun());
// Setting outstanding_limit_ to 0 in ThrottlingState::kStopped, prevents
// further requests.
Scheduler()->SetOutstandingLimitForTesting(0);
EXPECT_FALSE(client2->WasRun());
EXPECT_FALSE(client3->WasRun());
// Calling Release() still does not run the second request.
EXPECT_TRUE(ReleaseAndSchedule(id1));
EXPECT_FALSE(client2->WasRun());
EXPECT_FALSE(client3->WasRun());
// Release all.
EXPECT_TRUE(Release(id3));
EXPECT_TRUE(Release(id2));
}
TEST_F(ResourceLoadSchedulerTest, PriotrityIsNotConsidered) {
// Push three requests.
MockClient* client1 = new MockClient;
Scheduler()->SetOutstandingLimitForTesting(0);
ResourceLoadScheduler::ClientId id1 = ResourceLoadScheduler::kInvalidClientId;
Scheduler()->Request(client1, ThrottleOption::kCanBeThrottled,
ResourceLoadPriority::kLowest, 10 /* intra_priority */,
&id1);
EXPECT_NE(ResourceLoadScheduler::kInvalidClientId, id1);
MockClient* client2 = new MockClient;
ResourceLoadScheduler::ClientId id2 = ResourceLoadScheduler::kInvalidClientId;
Scheduler()->Request(client2, ThrottleOption::kCanBeThrottled,
ResourceLoadPriority::kLow, 1 /* intra_priority */,
&id2);
EXPECT_NE(ResourceLoadScheduler::kInvalidClientId, id2);
MockClient* client3 = new MockClient;
ResourceLoadScheduler::ClientId id3 = ResourceLoadScheduler::kInvalidClientId;
Scheduler()->Request(client3, ThrottleOption::kCanBeThrottled,
ResourceLoadPriority::kLow, 3 /* intra_priority */,
&id3);
EXPECT_NE(ResourceLoadScheduler::kInvalidClientId, id3);
EXPECT_FALSE(client1->WasRun());
EXPECT_FALSE(client2->WasRun());
EXPECT_FALSE(client3->WasRun());
Scheduler()->SetOutstandingLimitForTesting(1);
EXPECT_TRUE(client1->WasRun());
EXPECT_FALSE(client2->WasRun());
EXPECT_FALSE(client3->WasRun());
Scheduler()->SetOutstandingLimitForTesting(2);
EXPECT_TRUE(client1->WasRun());
EXPECT_TRUE(client2->WasRun());
EXPECT_FALSE(client3->WasRun());
// Release all.
EXPECT_TRUE(Release(id3));
EXPECT_TRUE(Release(id2));
EXPECT_TRUE(Release(id1));
}
TEST_F(RendererSideResourceSchedulerTest, PriorityIsConsidered) {
// Push three requests.
MockClient* client1 = new MockClient;
Scheduler()->SetOutstandingLimitForTesting(0);
ResourceLoadScheduler::ClientId id1 = ResourceLoadScheduler::kInvalidClientId;
Scheduler()->Request(client1, ThrottleOption::kCanBeThrottled,
ResourceLoadPriority::kLowest, 10 /* intra_priority */,
&id1);
EXPECT_NE(ResourceLoadScheduler::kInvalidClientId, id1);
MockClient* client2 = new MockClient;
ResourceLoadScheduler::ClientId id2 = ResourceLoadScheduler::kInvalidClientId;
Scheduler()->Request(client2, ThrottleOption::kCanBeThrottled,
ResourceLoadPriority::kLow, 1 /* intra_priority */,
&id2);
EXPECT_NE(ResourceLoadScheduler::kInvalidClientId, id2);
MockClient* client3 = new MockClient;
ResourceLoadScheduler::ClientId id3 = ResourceLoadScheduler::kInvalidClientId;
Scheduler()->Request(client3, ThrottleOption::kCanBeThrottled,
ResourceLoadPriority::kLow, 3 /* intra_priority */,
&id3);
EXPECT_NE(ResourceLoadScheduler::kInvalidClientId, id3);
MockClient* client4 = new MockClient;
ResourceLoadScheduler::ClientId id4 = ResourceLoadScheduler::kInvalidClientId;
Scheduler()->Request(client4, ThrottleOption::kCanBeThrottled,
ResourceLoadPriority::kHigh, 0 /* intra_priority */,
&id4);
EXPECT_NE(ResourceLoadScheduler::kInvalidClientId, id4);
EXPECT_FALSE(client1->WasRun());
EXPECT_FALSE(client2->WasRun());
EXPECT_FALSE(client3->WasRun());
EXPECT_TRUE(client4->WasRun());
Scheduler()->SetOutstandingLimitForTesting(1);
EXPECT_FALSE(client1->WasRun());
EXPECT_FALSE(client2->WasRun());
EXPECT_TRUE(client3->WasRun());
EXPECT_TRUE(client4->WasRun());
Scheduler()->SetOutstandingLimitForTesting(2);
EXPECT_FALSE(client1->WasRun());
EXPECT_TRUE(client2->WasRun());
EXPECT_TRUE(client3->WasRun());
EXPECT_TRUE(client4->WasRun());
// Release all.
EXPECT_TRUE(Release(id4));
EXPECT_TRUE(Release(id3));
EXPECT_TRUE(Release(id2));
EXPECT_TRUE(Release(id1));
}
TEST_F(RendererSideResourceSchedulerTest, IsThrottablePriority) {
EXPECT_TRUE(
Scheduler()->IsThrottablePriority(ResourceLoadPriority::kVeryLow));
EXPECT_TRUE(Scheduler()->IsThrottablePriority(ResourceLoadPriority::kLow));
EXPECT_TRUE(Scheduler()->IsThrottablePriority(ResourceLoadPriority::kMedium));
EXPECT_FALSE(Scheduler()->IsThrottablePriority(ResourceLoadPriority::kHigh));
EXPECT_FALSE(
Scheduler()->IsThrottablePriority(ResourceLoadPriority::kVeryHigh));
Scheduler()->LoosenThrottlingPolicy();
EXPECT_TRUE(
Scheduler()->IsThrottablePriority(ResourceLoadPriority::kVeryLow));
EXPECT_TRUE(Scheduler()->IsThrottablePriority(ResourceLoadPriority::kLow));
EXPECT_TRUE(Scheduler()->IsThrottablePriority(ResourceLoadPriority::kMedium));
EXPECT_FALSE(Scheduler()->IsThrottablePriority(ResourceLoadPriority::kHigh));
EXPECT_FALSE(
Scheduler()->IsThrottablePriority(ResourceLoadPriority::kVeryHigh));
}
TEST_F(RendererSideResourceSchedulerTest, SetPriority) {
// Start with the normal scheduling policy.
Scheduler()->LoosenThrottlingPolicy();
// Push three requests.
MockClient* client1 = new MockClient;
Scheduler()->SetOutstandingLimitForTesting(0);
ResourceLoadScheduler::ClientId id1 = ResourceLoadScheduler::kInvalidClientId;
Scheduler()->Request(client1, ThrottleOption::kCanBeThrottled,
ResourceLoadPriority::kLowest, 0 /* intra_priority */,
&id1);
EXPECT_NE(ResourceLoadScheduler::kInvalidClientId, id1);
MockClient* client2 = new MockClient;
ResourceLoadScheduler::ClientId id2 = ResourceLoadScheduler::kInvalidClientId;
Scheduler()->Request(client2, ThrottleOption::kCanBeThrottled,
ResourceLoadPriority::kLow, 5 /* intra_priority */,
&id2);
EXPECT_NE(ResourceLoadScheduler::kInvalidClientId, id2);
MockClient* client3 = new MockClient;
ResourceLoadScheduler::ClientId id3 = ResourceLoadScheduler::kInvalidClientId;
Scheduler()->Request(client3, ThrottleOption::kCanBeThrottled,
ResourceLoadPriority::kLow, 10 /* intra_priority */,
&id3);
EXPECT_NE(ResourceLoadScheduler::kInvalidClientId, id3);
EXPECT_FALSE(client1->WasRun());
EXPECT_FALSE(client2->WasRun());
EXPECT_FALSE(client3->WasRun());
Scheduler()->SetPriority(id1, ResourceLoadPriority::kHigh, 0);
EXPECT_TRUE(client1->WasRun());
EXPECT_FALSE(client2->WasRun());
EXPECT_FALSE(client3->WasRun());
Scheduler()->SetPriority(id3, ResourceLoadPriority::kLow, 2);
EXPECT_TRUE(client1->WasRun());
EXPECT_FALSE(client2->WasRun());
EXPECT_FALSE(client3->WasRun());
Scheduler()->SetOutstandingLimitForTesting(2);
EXPECT_TRUE(client1->WasRun());
EXPECT_TRUE(client2->WasRun());
EXPECT_FALSE(client3->WasRun());
// Release all.
EXPECT_TRUE(Release(id3));
EXPECT_TRUE(Release(id2));
EXPECT_TRUE(Release(id1));
}
TEST_F(RendererSideResourceSchedulerTest, LoosenThrottlingPolicy) {
MockClient* client1 = new MockClient;
Scheduler()->SetOutstandingLimitForTesting(0, 0);
ResourceLoadScheduler::ClientId id1 = ResourceLoadScheduler::kInvalidClientId;
Scheduler()->Request(client1, ThrottleOption::kCanBeThrottled,
ResourceLoadPriority::kLowest, 0 /* intra_priority */,
&id1);
EXPECT_NE(ResourceLoadScheduler::kInvalidClientId, id1);
MockClient* client2 = new MockClient;
ResourceLoadScheduler::ClientId id2 = ResourceLoadScheduler::kInvalidClientId;
Scheduler()->Request(client2, ThrottleOption::kCanBeThrottled,
ResourceLoadPriority::kLowest, 0 /* intra_priority */,
&id2);
EXPECT_NE(ResourceLoadScheduler::kInvalidClientId, id2);
MockClient* client3 = new MockClient;
ResourceLoadScheduler::ClientId id3 = ResourceLoadScheduler::kInvalidClientId;
Scheduler()->Request(client3, ThrottleOption::kCanBeThrottled,
ResourceLoadPriority::kLowest, 0 /* intra_priority */,
&id3);
EXPECT_NE(ResourceLoadScheduler::kInvalidClientId, id3);
MockClient* client4 = new MockClient;
ResourceLoadScheduler::ClientId id4 = ResourceLoadScheduler::kInvalidClientId;
Scheduler()->Request(client4, ThrottleOption::kCanBeThrottled,
ResourceLoadPriority::kLowest, 0 /* intra_priority */,
&id4);
EXPECT_NE(ResourceLoadScheduler::kInvalidClientId, id4);
Scheduler()->SetPriority(id2, ResourceLoadPriority::kLow, 0);
Scheduler()->SetPriority(id3, ResourceLoadPriority::kLow, 0);
Scheduler()->SetPriority(id4, ResourceLoadPriority::kMedium, 0);
// As the policy is |kTight|, |kMedium| is throttled.
EXPECT_FALSE(client1->WasRun());
EXPECT_FALSE(client2->WasRun());
EXPECT_FALSE(client3->WasRun());
EXPECT_FALSE(client4->WasRun());
Scheduler()->SetOutstandingLimitForTesting(0, 2);
// MockFetchContext's initial scheduling policy is |kTight|, setting the
// outstanding limit for the normal mode doesn't take effect.
EXPECT_FALSE(client1->WasRun());
EXPECT_FALSE(client2->WasRun());
EXPECT_FALSE(client3->WasRun());
EXPECT_FALSE(client4->WasRun());
// Now let's tighten the limit again.
Scheduler()->SetOutstandingLimitForTesting(0, 0);
// ...and change the scheduling policy to |kNormal|.
Scheduler()->LoosenThrottlingPolicy();
EXPECT_FALSE(client1->WasRun());
EXPECT_FALSE(client2->WasRun());
EXPECT_FALSE(client3->WasRun());
EXPECT_FALSE(client4->WasRun());
Scheduler()->SetOutstandingLimitForTesting(0, 2);
EXPECT_FALSE(client1->WasRun());
EXPECT_TRUE(client2->WasRun());
EXPECT_FALSE(client3->WasRun());
EXPECT_TRUE(client4->WasRun());
// Release all.
EXPECT_TRUE(Release(id4));
EXPECT_TRUE(Release(id3));
EXPECT_TRUE(Release(id2));
EXPECT_TRUE(Release(id1));
}
} // namespace
} // namespace blink