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Unified Diff: gpu/command_buffer/service/scheduler_unittest.cc

Issue 2814843002: gpu: GPU service scheduler. (Closed)
Patch Set: enum -> enum class Created 3 years, 7 months ago
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Index: gpu/command_buffer/service/scheduler_unittest.cc
diff --git a/gpu/command_buffer/service/scheduler_unittest.cc b/gpu/command_buffer/service/scheduler_unittest.cc
new file mode 100644
index 0000000000000000000000000000000000000000..dec174ab0008a20818cf83b73df8dcc46d1b0d3e
--- /dev/null
+++ b/gpu/command_buffer/service/scheduler_unittest.cc
@@ -0,0 +1,327 @@
+// Copyright (c) 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 "gpu/command_buffer/service/scheduler.h"
+
+#include <algorithm>
+
+#include "base/bind.h"
+#include "base/memory/ptr_util.h"
+#include "base/test/test_simple_task_runner.h"
+#include "gpu/command_buffer/service/sync_point_manager.h"
+#include "testing/gtest/include/gtest/gtest.h"
+
+namespace gpu {
+namespace {
+
+template <typename T>
+void RunFunctor(T functor) {
+ functor();
+}
+
+template <typename T>
+base::OnceClosure GetClosure(T functor) {
+ return base::BindOnce(&RunFunctor<T>, functor);
+}
+
+class SchedulerTest : public testing::Test {
+ public:
+ SchedulerTest()
+ : task_runner_(new base::TestSimpleTaskRunner()),
+ sync_point_manager_(new SyncPointManager),
+ scheduler_(new Scheduler(task_runner_, sync_point_manager_.get())) {}
+
+ protected:
+ base::TestSimpleTaskRunner* task_runner() const { return task_runner_.get(); }
+
+ SyncPointManager* sync_point_manager() const {
+ return sync_point_manager_.get();
+ }
+
+ Scheduler* scheduler() const { return scheduler_.get(); }
+
+ private:
+ scoped_refptr<base::TestSimpleTaskRunner> task_runner_;
+ std::unique_ptr<SyncPointManager> sync_point_manager_;
+ std::unique_ptr<Scheduler> scheduler_;
+};
+
+TEST_F(SchedulerTest, ScheduledTasksRunInOrder) {
+ SequenceId sequence_id =
+ scheduler()->CreateSequence(SchedulingPriority::kNormal);
+
+ bool ran1 = false;
+ scheduler()->ScheduleTask(sequence_id, GetClosure([&] { ran1 = true; }),
+ std::vector<SyncToken>());
+
+ bool ran2 = false;
+ scheduler()->ScheduleTask(sequence_id, GetClosure([&] { ran2 = true; }),
+ std::vector<SyncToken>());
+
+ task_runner()->RunPendingTasks();
+ EXPECT_TRUE(ran1);
+
+ task_runner()->RunPendingTasks();
+ EXPECT_TRUE(ran2);
+}
+
+TEST_F(SchedulerTest, ContinuedTasksRunFirst) {
+ SequenceId sequence_id =
+ scheduler()->CreateSequence(SchedulingPriority::kNormal);
+
+ bool ran1 = false;
+ bool continued1 = false;
+ scheduler()->ScheduleTask(sequence_id, GetClosure([&] {
+ scheduler()->ContinueTask(
+ sequence_id,
+ GetClosure([&] { continued1 = true; }));
+ ran1 = true;
+ }),
+ std::vector<SyncToken>());
+
+ bool ran2 = false;
+ scheduler()->ScheduleTask(sequence_id, GetClosure([&] { ran2 = true; }),
+ std::vector<SyncToken>());
+
+ task_runner()->RunPendingTasks();
+ EXPECT_TRUE(ran1);
+ EXPECT_FALSE(continued1);
+ EXPECT_FALSE(ran2);
+
+ task_runner()->RunPendingTasks();
+ EXPECT_TRUE(continued1);
+ EXPECT_FALSE(ran2);
+
+ task_runner()->RunPendingTasks();
+ EXPECT_TRUE(ran2);
+}
+
+TEST_F(SchedulerTest, SequencesRunInPriorityOrder) {
+ SequenceId sequence_id1 =
+ scheduler()->CreateSequence(SchedulingPriority::kLowest);
+ bool ran1 = false;
+ scheduler()->ScheduleTask(sequence_id1, GetClosure([&] { ran1 = true; }),
+ std::vector<SyncToken>());
+
+ SequenceId sequence_id2 =
+ scheduler()->CreateSequence(SchedulingPriority::kNormal);
+ bool ran2 = false;
+ scheduler()->ScheduleTask(sequence_id2, GetClosure([&] { ran2 = true; }),
+ std::vector<SyncToken>());
+
+ SequenceId sequence_id3 =
+ scheduler()->CreateSequence(SchedulingPriority::kHighest);
+ bool ran3 = false;
+ scheduler()->ScheduleTask(sequence_id3, GetClosure([&] { ran3 = true; }),
+ std::vector<SyncToken>());
+
+ task_runner()->RunPendingTasks();
+ EXPECT_TRUE(ran3);
+
+ task_runner()->RunPendingTasks();
+ EXPECT_TRUE(ran2);
+
+ task_runner()->RunPendingTasks();
+ EXPECT_TRUE(ran1);
+}
+
+TEST_F(SchedulerTest, SequencesOfSamePriorityRunInOrder) {
+ SequenceId sequence_id1 =
+ scheduler()->CreateSequence(SchedulingPriority::kNormal);
+ bool ran1 = false;
+ scheduler()->ScheduleTask(sequence_id1, GetClosure([&] { ran1 = true; }),
+ std::vector<SyncToken>());
+
+ SequenceId sequence_id2 =
+ scheduler()->CreateSequence(SchedulingPriority::kNormal);
+ bool ran2 = false;
+ scheduler()->ScheduleTask(sequence_id2, GetClosure([&] { ran2 = true; }),
+ std::vector<SyncToken>());
+
+ SequenceId sequence_id3 =
+ scheduler()->CreateSequence(SchedulingPriority::kNormal);
+ bool ran3 = false;
+ scheduler()->ScheduleTask(sequence_id3, GetClosure([&] { ran3 = true; }),
+ std::vector<SyncToken>());
+
+ SequenceId sequence_id4 =
+ scheduler()->CreateSequence(SchedulingPriority::kNormal);
+ bool ran4 = false;
+ scheduler()->ScheduleTask(sequence_id4, GetClosure([&] { ran4 = true; }),
+ std::vector<SyncToken>());
+
+ task_runner()->RunPendingTasks();
+ EXPECT_TRUE(ran1);
+
+ task_runner()->RunPendingTasks();
+ EXPECT_TRUE(ran2);
+
+ task_runner()->RunPendingTasks();
+ EXPECT_TRUE(ran3);
+
+ task_runner()->RunPendingTasks();
+ EXPECT_TRUE(ran4);
+}
+
+TEST_F(SchedulerTest, SequenceWaitsForFence) {
+ SequenceId sequence_id1 =
+ scheduler()->CreateSequence(SchedulingPriority::kHighest);
+ SequenceId sequence_id2 =
+ scheduler()->CreateSequence(SchedulingPriority::kNormal);
+
+ CommandBufferNamespace namespace_id = CommandBufferNamespace::GPU_IO;
+ CommandBufferId command_buffer_id = CommandBufferId::FromUnsafeValue(1);
+
+ scoped_refptr<SyncPointClientState> release_state =
+ sync_point_manager()->CreateSyncPointClientState(
+ namespace_id, command_buffer_id, sequence_id2);
+
+ uint64_t release = 1;
+ bool ran2 = false;
+ scheduler()->ScheduleTask(sequence_id2, GetClosure([&] {
+ release_state->ReleaseFenceSync(release);
+ ran2 = true;
+ }),
+ std::vector<SyncToken>());
+
+ SyncToken sync_token(namespace_id, 0 /* extra_data_field */,
+ command_buffer_id, release);
+
+ bool ran1 = false;
+ scheduler()->ScheduleTask(sequence_id1, GetClosure([&] { ran1 = true; }),
+ {sync_token});
+
+ task_runner()->RunPendingTasks();
+ EXPECT_FALSE(ran1);
+ EXPECT_TRUE(ran2);
+ EXPECT_TRUE(sync_point_manager()->IsSyncTokenReleased(sync_token));
+
+ task_runner()->RunPendingTasks();
+ EXPECT_TRUE(ran1);
+}
+
+TEST_F(SchedulerTest, SequenceDoesNotWaitForInvalidFence) {
+ SequenceId sequence_id1 =
+ scheduler()->CreateSequence(SchedulingPriority::kNormal);
+
+ SequenceId sequence_id2 =
+ scheduler()->CreateSequence(SchedulingPriority::kNormal);
+ CommandBufferNamespace namespace_id = CommandBufferNamespace::GPU_IO;
+ CommandBufferId command_buffer_id = CommandBufferId::FromUnsafeValue(1);
+ scoped_refptr<SyncPointClientState> release_state =
+ sync_point_manager()->CreateSyncPointClientState(
+ namespace_id, command_buffer_id, sequence_id2);
+
+ uint64_t release = 1;
+ SyncToken sync_token(namespace_id, 0 /* extra_data_field */,
+ command_buffer_id, release);
+
+ bool ran1 = false;
+ scheduler()->ScheduleTask(sequence_id1, GetClosure([&] { ran1 = true; }),
+ {sync_token});
+
+ // Release task is scheduled after wait task so release is treated as non-
+ // existent.
+ bool ran2 = false;
+ scheduler()->ScheduleTask(sequence_id2, GetClosure([&] {
+ release_state->ReleaseFenceSync(release);
+ ran2 = true;
+ }),
+ std::vector<SyncToken>());
+
+ task_runner()->RunPendingTasks();
+ EXPECT_TRUE(ran1);
+ EXPECT_FALSE(ran2);
+ EXPECT_FALSE(sync_point_manager()->IsSyncTokenReleased(sync_token));
+
+ task_runner()->RunPendingTasks();
+ EXPECT_TRUE(ran2);
+ EXPECT_TRUE(sync_point_manager()->IsSyncTokenReleased(sync_token));
+}
+
+TEST_F(SchedulerTest, ReleaseSequenceIsPrioritized) {
+ SequenceId sequence_id1 =
+ scheduler()->CreateSequence(SchedulingPriority::kNormal);
+
+ bool ran1 = false;
+ scheduler()->ScheduleTask(sequence_id1, GetClosure([&] { ran1 = true; }),
+ std::vector<SyncToken>());
+
+ SequenceId sequence_id2 =
+ scheduler()->CreateSequence(SchedulingPriority::kLowest);
+ CommandBufferNamespace namespace_id = CommandBufferNamespace::GPU_IO;
+ CommandBufferId command_buffer_id = CommandBufferId::FromUnsafeValue(1);
+ scoped_refptr<SyncPointClientState> release_state =
+ sync_point_manager()->CreateSyncPointClientState(
+ namespace_id, command_buffer_id, sequence_id2);
+
+ uint64_t release = 1;
+ bool ran2 = false;
+ scheduler()->ScheduleTask(sequence_id2, GetClosure([&] {
+ release_state->ReleaseFenceSync(release);
+ ran2 = true;
+ }),
+ std::vector<SyncToken>());
+
+ bool ran3 = false;
+ SyncToken sync_token(namespace_id, 0 /* extra_data_field */,
+ command_buffer_id, release);
+ SequenceId sequence_id3 =
+ scheduler()->CreateSequence(SchedulingPriority::kHighest);
+ scheduler()->ScheduleTask(sequence_id3, GetClosure([&] { ran3 = true; }),
+ {sync_token});
+
+ task_runner()->RunPendingTasks();
+ EXPECT_FALSE(ran1);
+ EXPECT_TRUE(ran2);
+ EXPECT_FALSE(ran3);
+ EXPECT_TRUE(sync_point_manager()->IsSyncTokenReleased(sync_token));
+
+ task_runner()->RunPendingTasks();
+ EXPECT_FALSE(ran1);
+ EXPECT_TRUE(ran3);
+
+ task_runner()->RunPendingTasks();
+ EXPECT_TRUE(ran1);
+}
+
+TEST_F(SchedulerTest, ReleaseSequenceShouldYield) {
+ SequenceId sequence_id1 =
+ scheduler()->CreateSequence(SchedulingPriority::kLowest);
+ CommandBufferNamespace namespace_id = CommandBufferNamespace::GPU_IO;
+ CommandBufferId command_buffer_id = CommandBufferId::FromUnsafeValue(1);
+ scoped_refptr<SyncPointClientState> release_state =
+ sync_point_manager()->CreateSyncPointClientState(
+ namespace_id, command_buffer_id, sequence_id1);
+
+ uint64_t release = 1;
+ bool ran1 = false;
+ scheduler()->ScheduleTask(
+ sequence_id1, GetClosure([&] {
+ EXPECT_FALSE(scheduler()->ShouldYield(sequence_id1));
+ release_state->ReleaseFenceSync(release);
+ EXPECT_TRUE(scheduler()->ShouldYield(sequence_id1));
+ ran1 = true;
+ }),
+ std::vector<SyncToken>());
+
+ bool ran2 = false;
+ SyncToken sync_token(namespace_id, 0 /* extra_data_field */,
+ command_buffer_id, release);
+ SequenceId sequence_id2 =
+ scheduler()->CreateSequence(SchedulingPriority::kHighest);
+ scheduler()->ScheduleTask(sequence_id2, GetClosure([&] { ran2 = true; }),
+ {sync_token});
+
+ task_runner()->RunPendingTasks();
+ EXPECT_TRUE(ran1);
+ EXPECT_FALSE(ran2);
+ EXPECT_TRUE(sync_point_manager()->IsSyncTokenReleased(sync_token));
+
+ task_runner()->RunPendingTasks();
+ EXPECT_TRUE(ran2);
+}
+
+} // namespace
+} // namespace gpu

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