blob: ae348be469cb08e84f0587eeaab9317bf6d18e0b [file] [log] [blame]
// Copyright (c) 2015 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 "net/third_party/quiche/src/spdy/core/priority_write_scheduler.h"
#include "net/third_party/quiche/src/spdy/core/spdy_protocol.h"
#include "net/third_party/quiche/src/spdy/core/spdy_test_utils.h"
#include "net/third_party/quiche/src/spdy/platform/api/spdy_test.h"
#include "net/third_party/quiche/src/spdy/platform/api/spdy_test_helpers.h"
namespace spdy {
namespace test {
template <typename StreamIdType>
class PriorityWriteSchedulerPeer {
public:
explicit PriorityWriteSchedulerPeer(
PriorityWriteScheduler<StreamIdType>* scheduler)
: scheduler_(scheduler) {}
size_t NumReadyStreams(SpdyPriority priority) const {
return scheduler_->priority_infos_[priority].ready_list.size();
}
private:
PriorityWriteScheduler<StreamIdType>* scheduler_;
};
namespace {
class PriorityWriteSchedulerTest : public ::testing::Test {
public:
PriorityWriteSchedulerTest() : peer_(&scheduler_) {}
PriorityWriteScheduler<SpdyStreamId> scheduler_;
PriorityWriteSchedulerPeer<SpdyStreamId> peer_;
};
TEST_F(PriorityWriteSchedulerTest, RegisterUnregisterStreams) {
EXPECT_FALSE(scheduler_.HasReadyStreams());
EXPECT_FALSE(scheduler_.StreamRegistered(1));
scheduler_.RegisterStream(1, SpdyStreamPrecedence(1));
EXPECT_TRUE(scheduler_.StreamRegistered(1));
// Root stream counts as already registered.
EXPECT_SPDY_BUG(
scheduler_.RegisterStream(kHttp2RootStreamId, SpdyStreamPrecedence(1)),
"Stream 0 already registered");
// Try redundant registrations.
EXPECT_SPDY_BUG(scheduler_.RegisterStream(1, SpdyStreamPrecedence(1)),
"Stream 1 already registered");
EXPECT_SPDY_BUG(scheduler_.RegisterStream(1, SpdyStreamPrecedence(2)),
"Stream 1 already registered");
scheduler_.RegisterStream(2, SpdyStreamPrecedence(3));
// Verify registration != ready.
EXPECT_FALSE(scheduler_.HasReadyStreams());
scheduler_.UnregisterStream(1);
scheduler_.UnregisterStream(2);
// Try redundant unregistration.
EXPECT_SPDY_BUG(scheduler_.UnregisterStream(1), "Stream 1 not registered");
EXPECT_SPDY_BUG(scheduler_.UnregisterStream(2), "Stream 2 not registered");
}
TEST_F(PriorityWriteSchedulerTest, RegisterStreamWithHttp2StreamDependency) {
EXPECT_FALSE(scheduler_.HasReadyStreams());
EXPECT_FALSE(scheduler_.StreamRegistered(1));
scheduler_.RegisterStream(
1, SpdyStreamPrecedence(kHttp2RootStreamId, 123, false));
EXPECT_TRUE(scheduler_.StreamRegistered(1));
EXPECT_TRUE(scheduler_.GetStreamPrecedence(1).is_spdy3_priority());
EXPECT_EQ(3, scheduler_.GetStreamPrecedence(1).spdy3_priority());
EXPECT_FALSE(scheduler_.HasReadyStreams());
EXPECT_SPDY_BUG(scheduler_.RegisterStream(
1, SpdyStreamPrecedence(kHttp2RootStreamId, 256, false)),
"Stream 1 already registered");
EXPECT_TRUE(scheduler_.GetStreamPrecedence(1).is_spdy3_priority());
EXPECT_EQ(3, scheduler_.GetStreamPrecedence(1).spdy3_priority());
// Registering stream with a non-existent parent stream is permissible, per
// b/15676312, but parent stream will always be reset to 0.
scheduler_.RegisterStream(2, SpdyStreamPrecedence(3, 123, false));
EXPECT_TRUE(scheduler_.StreamRegistered(2));
EXPECT_FALSE(scheduler_.StreamRegistered(3));
EXPECT_EQ(kHttp2RootStreamId, scheduler_.GetStreamPrecedence(2).parent_id());
}
TEST_F(PriorityWriteSchedulerTest, GetStreamPrecedence) {
// Unknown streams tolerated due to b/15676312. However, return lowest
// priority.
EXPECT_EQ(kV3LowestPriority,
scheduler_.GetStreamPrecedence(1).spdy3_priority());
scheduler_.RegisterStream(1, SpdyStreamPrecedence(3));
EXPECT_TRUE(scheduler_.GetStreamPrecedence(1).is_spdy3_priority());
EXPECT_EQ(3, scheduler_.GetStreamPrecedence(1).spdy3_priority());
// Redundant registration shouldn't change stream priority.
EXPECT_SPDY_BUG(scheduler_.RegisterStream(1, SpdyStreamPrecedence(4)),
"Stream 1 already registered");
EXPECT_EQ(3, scheduler_.GetStreamPrecedence(1).spdy3_priority());
scheduler_.UpdateStreamPrecedence(1, SpdyStreamPrecedence(5));
EXPECT_EQ(5, scheduler_.GetStreamPrecedence(1).spdy3_priority());
// Toggling ready state shouldn't change stream priority.
scheduler_.MarkStreamReady(1, true);
EXPECT_EQ(5, scheduler_.GetStreamPrecedence(1).spdy3_priority());
// Test changing priority of ready stream.
EXPECT_EQ(1u, peer_.NumReadyStreams(5));
scheduler_.UpdateStreamPrecedence(1, SpdyStreamPrecedence(6));
EXPECT_EQ(6, scheduler_.GetStreamPrecedence(1).spdy3_priority());
EXPECT_EQ(0u, peer_.NumReadyStreams(5));
EXPECT_EQ(1u, peer_.NumReadyStreams(6));
EXPECT_EQ(1u, scheduler_.PopNextReadyStream());
EXPECT_EQ(6, scheduler_.GetStreamPrecedence(1).spdy3_priority());
scheduler_.UnregisterStream(1);
EXPECT_EQ(kV3LowestPriority,
scheduler_.GetStreamPrecedence(1).spdy3_priority());
}
TEST_F(PriorityWriteSchedulerTest, PopNextReadyStreamAndPrecedence) {
scheduler_.RegisterStream(1, SpdyStreamPrecedence(3));
scheduler_.MarkStreamReady(1, true);
EXPECT_EQ(std::make_tuple(1u, SpdyStreamPrecedence(3)),
scheduler_.PopNextReadyStreamAndPrecedence());
scheduler_.UnregisterStream(1);
}
TEST_F(PriorityWriteSchedulerTest, UpdateStreamPrecedence) {
// For the moment, updating stream precedence on a non-registered stream
// should have no effect. In the future, it will lazily cause the stream to
// be registered (b/15676312).
EXPECT_EQ(kV3LowestPriority,
scheduler_.GetStreamPrecedence(3).spdy3_priority());
EXPECT_FALSE(scheduler_.StreamRegistered(3));
scheduler_.UpdateStreamPrecedence(3, SpdyStreamPrecedence(1));
EXPECT_FALSE(scheduler_.StreamRegistered(3));
EXPECT_EQ(kV3LowestPriority,
scheduler_.GetStreamPrecedence(3).spdy3_priority());
scheduler_.RegisterStream(3, SpdyStreamPrecedence(1));
EXPECT_EQ(1, scheduler_.GetStreamPrecedence(3).spdy3_priority());
scheduler_.UpdateStreamPrecedence(3, SpdyStreamPrecedence(2));
EXPECT_EQ(2, scheduler_.GetStreamPrecedence(3).spdy3_priority());
// Updating priority of stream to current priority value is valid, but has no
// effect.
scheduler_.UpdateStreamPrecedence(3, SpdyStreamPrecedence(2));
EXPECT_EQ(2, scheduler_.GetStreamPrecedence(3).spdy3_priority());
// Even though stream 4 is marked ready after stream 5, it should be returned
// first by PopNextReadyStream() since it has higher priority.
scheduler_.RegisterStream(4, SpdyStreamPrecedence(1));
scheduler_.MarkStreamReady(3, false); // priority 2
EXPECT_TRUE(scheduler_.IsStreamReady(3));
scheduler_.MarkStreamReady(4, false); // priority 1
EXPECT_TRUE(scheduler_.IsStreamReady(4));
EXPECT_EQ(4u, scheduler_.PopNextReadyStream());
EXPECT_FALSE(scheduler_.IsStreamReady(4));
EXPECT_EQ(3u, scheduler_.PopNextReadyStream());
EXPECT_FALSE(scheduler_.IsStreamReady(3));
// Verify that lowering priority of stream 4 causes it to be returned later
// by PopNextReadyStream().
scheduler_.MarkStreamReady(3, false); // priority 2
scheduler_.MarkStreamReady(4, false); // priority 1
scheduler_.UpdateStreamPrecedence(4, SpdyStreamPrecedence(3));
EXPECT_EQ(3u, scheduler_.PopNextReadyStream());
EXPECT_EQ(4u, scheduler_.PopNextReadyStream());
scheduler_.UnregisterStream(3);
}
TEST_F(PriorityWriteSchedulerTest,
UpdateStreamPrecedenceWithHttp2StreamDependency) {
// Unknown streams tolerated due to b/15676312, but should have no effect.
scheduler_.UpdateStreamPrecedence(3, SpdyStreamPrecedence(0, 100, false));
EXPECT_FALSE(scheduler_.StreamRegistered(3));
scheduler_.RegisterStream(3, SpdyStreamPrecedence(3));
scheduler_.UpdateStreamPrecedence(3, SpdyStreamPrecedence(0, 100, false));
EXPECT_TRUE(scheduler_.GetStreamPrecedence(3).is_spdy3_priority());
EXPECT_EQ(4, scheduler_.GetStreamPrecedence(3).spdy3_priority());
scheduler_.UnregisterStream(3);
scheduler_.UpdateStreamPrecedence(3, SpdyStreamPrecedence(0, 100, false));
EXPECT_FALSE(scheduler_.StreamRegistered(3));
}
TEST_F(PriorityWriteSchedulerTest, MarkStreamReadyBack) {
EXPECT_FALSE(scheduler_.HasReadyStreams());
EXPECT_SPDY_BUG(scheduler_.MarkStreamReady(1, false),
"Stream 1 not registered");
EXPECT_FALSE(scheduler_.HasReadyStreams());
EXPECT_SPDY_BUG(EXPECT_EQ(0u, scheduler_.PopNextReadyStream()),
"No ready streams available");
// Add a bunch of ready streams to tail of per-priority lists.
// Expected order: (P2) 4, (P3) 1, 2, 3, (P5) 5.
scheduler_.RegisterStream(1, SpdyStreamPrecedence(3));
scheduler_.MarkStreamReady(1, false);
EXPECT_TRUE(scheduler_.HasReadyStreams());
scheduler_.RegisterStream(2, SpdyStreamPrecedence(3));
scheduler_.MarkStreamReady(2, false);
scheduler_.RegisterStream(3, SpdyStreamPrecedence(3));
scheduler_.MarkStreamReady(3, false);
scheduler_.RegisterStream(4, SpdyStreamPrecedence(2));
scheduler_.MarkStreamReady(4, false);
scheduler_.RegisterStream(5, SpdyStreamPrecedence(5));
scheduler_.MarkStreamReady(5, false);
EXPECT_EQ(4u, scheduler_.PopNextReadyStream());
EXPECT_EQ(1u, scheduler_.PopNextReadyStream());
EXPECT_EQ(2u, scheduler_.PopNextReadyStream());
EXPECT_EQ(3u, scheduler_.PopNextReadyStream());
EXPECT_EQ(5u, scheduler_.PopNextReadyStream());
EXPECT_SPDY_BUG(EXPECT_EQ(0u, scheduler_.PopNextReadyStream()),
"No ready streams available");
}
TEST_F(PriorityWriteSchedulerTest, MarkStreamReadyFront) {
EXPECT_FALSE(scheduler_.HasReadyStreams());
EXPECT_SPDY_BUG(scheduler_.MarkStreamReady(1, true),
"Stream 1 not registered");
EXPECT_FALSE(scheduler_.HasReadyStreams());
EXPECT_SPDY_BUG(EXPECT_EQ(0u, scheduler_.PopNextReadyStream()),
"No ready streams available");
// Add a bunch of ready streams to head of per-priority lists.
// Expected order: (P2) 4, (P3) 3, 2, 1, (P5) 5
scheduler_.RegisterStream(1, SpdyStreamPrecedence(3));
scheduler_.MarkStreamReady(1, true);
EXPECT_TRUE(scheduler_.HasReadyStreams());
scheduler_.RegisterStream(2, SpdyStreamPrecedence(3));
scheduler_.MarkStreamReady(2, true);
scheduler_.RegisterStream(3, SpdyStreamPrecedence(3));
scheduler_.MarkStreamReady(3, true);
scheduler_.RegisterStream(4, SpdyStreamPrecedence(2));
scheduler_.MarkStreamReady(4, true);
scheduler_.RegisterStream(5, SpdyStreamPrecedence(5));
scheduler_.MarkStreamReady(5, true);
EXPECT_EQ(4u, scheduler_.PopNextReadyStream());
EXPECT_EQ(3u, scheduler_.PopNextReadyStream());
EXPECT_EQ(2u, scheduler_.PopNextReadyStream());
EXPECT_EQ(1u, scheduler_.PopNextReadyStream());
EXPECT_EQ(5u, scheduler_.PopNextReadyStream());
EXPECT_SPDY_BUG(EXPECT_EQ(0u, scheduler_.PopNextReadyStream()),
"No ready streams available");
}
TEST_F(PriorityWriteSchedulerTest, MarkStreamReadyBackAndFront) {
scheduler_.RegisterStream(1, SpdyStreamPrecedence(4));
scheduler_.RegisterStream(2, SpdyStreamPrecedence(3));
scheduler_.RegisterStream(3, SpdyStreamPrecedence(3));
scheduler_.RegisterStream(4, SpdyStreamPrecedence(3));
scheduler_.RegisterStream(5, SpdyStreamPrecedence(4));
scheduler_.RegisterStream(6, SpdyStreamPrecedence(1));
// Add a bunch of ready streams to per-priority lists, with variety of adding
// at head and tail.
// Expected order: (P1) 6, (P3) 4, 2, 3, (P4) 1, 5
scheduler_.MarkStreamReady(1, true);
scheduler_.MarkStreamReady(2, true);
scheduler_.MarkStreamReady(3, false);
scheduler_.MarkStreamReady(4, true);
scheduler_.MarkStreamReady(5, false);
scheduler_.MarkStreamReady(6, true);
EXPECT_EQ(6u, scheduler_.PopNextReadyStream());
EXPECT_EQ(4u, scheduler_.PopNextReadyStream());
EXPECT_EQ(2u, scheduler_.PopNextReadyStream());
EXPECT_EQ(3u, scheduler_.PopNextReadyStream());
EXPECT_EQ(1u, scheduler_.PopNextReadyStream());
EXPECT_EQ(5u, scheduler_.PopNextReadyStream());
EXPECT_SPDY_BUG(EXPECT_EQ(0u, scheduler_.PopNextReadyStream()),
"No ready streams available");
}
TEST_F(PriorityWriteSchedulerTest, MarkStreamNotReady) {
// Verify ready state reflected in NumReadyStreams().
scheduler_.RegisterStream(1, SpdyStreamPrecedence(1));
EXPECT_EQ(0u, scheduler_.NumReadyStreams());
scheduler_.MarkStreamReady(1, false);
EXPECT_EQ(1u, scheduler_.NumReadyStreams());
scheduler_.MarkStreamNotReady(1);
EXPECT_EQ(0u, scheduler_.NumReadyStreams());
// Empty pop should fail.
EXPECT_SPDY_BUG(EXPECT_EQ(0u, scheduler_.PopNextReadyStream()),
"No ready streams available");
// Tolerate redundant marking of a stream as not ready.
scheduler_.MarkStreamNotReady(1);
EXPECT_EQ(0u, scheduler_.NumReadyStreams());
// Should only be able to mark registered streams.
EXPECT_SPDY_BUG(scheduler_.MarkStreamNotReady(3), "Stream 3 not registered");
}
TEST_F(PriorityWriteSchedulerTest, UnregisterRemovesStream) {
scheduler_.RegisterStream(3, SpdyStreamPrecedence(4));
scheduler_.MarkStreamReady(3, false);
EXPECT_EQ(1u, scheduler_.NumReadyStreams());
// Unregistering a stream should remove it from set of ready streams.
scheduler_.UnregisterStream(3);
EXPECT_EQ(0u, scheduler_.NumReadyStreams());
EXPECT_SPDY_BUG(EXPECT_EQ(0u, scheduler_.PopNextReadyStream()),
"No ready streams available");
}
TEST_F(PriorityWriteSchedulerTest, ShouldYield) {
scheduler_.RegisterStream(1, SpdyStreamPrecedence(1));
scheduler_.RegisterStream(4, SpdyStreamPrecedence(4));
scheduler_.RegisterStream(5, SpdyStreamPrecedence(4));
scheduler_.RegisterStream(7, SpdyStreamPrecedence(7));
// Make sure we don't yield when the list is empty.
EXPECT_FALSE(scheduler_.ShouldYield(1));
// Add a low priority stream.
scheduler_.MarkStreamReady(4, false);
// 4 should not yield to itself.
EXPECT_FALSE(scheduler_.ShouldYield(4));
// 7 should yield as 4 is blocked and a higher priority.
EXPECT_TRUE(scheduler_.ShouldYield(7));
// 5 should yield to 4 as they are the same priority.
EXPECT_TRUE(scheduler_.ShouldYield(5));
// 1 should not yield as 1 is higher priority.
EXPECT_FALSE(scheduler_.ShouldYield(1));
// Add a second stream in that priority class.
scheduler_.MarkStreamReady(5, false);
// 4 and 5 are both blocked, but 4 is at the front so should not yield.
EXPECT_FALSE(scheduler_.ShouldYield(4));
EXPECT_TRUE(scheduler_.ShouldYield(5));
}
TEST_F(PriorityWriteSchedulerTest, GetLatestEventWithPrecedence) {
EXPECT_SPDY_BUG(scheduler_.RecordStreamEventTime(3, 5),
"Stream 3 not registered");
EXPECT_SPDY_BUG(EXPECT_EQ(0, scheduler_.GetLatestEventWithPrecedence(4)),
"Stream 4 not registered");
for (int i = 1; i < 5; ++i) {
scheduler_.RegisterStream(i, SpdyStreamPrecedence(i));
}
for (int i = 1; i < 5; ++i) {
EXPECT_EQ(0, scheduler_.GetLatestEventWithPrecedence(i));
}
for (int i = 1; i < 5; ++i) {
scheduler_.RecordStreamEventTime(i, i * 100);
}
for (int i = 1; i < 5; ++i) {
EXPECT_EQ((i - 1) * 100, scheduler_.GetLatestEventWithPrecedence(i));
}
}
} // namespace
} // namespace test
} // namespace spdy