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hardware_interfaces/audio/aidl/common/tests/streamworker_tests.cpp
Mikhail Naganov 48e2e8fe49 audio: Implement setting name and priority in StreamWorker 
Audio threads need to be able to set their priority.
Also, traditionally these worker threads set a custom
thread name. Implement this functionality in StreamWorker.

Since initialization steps can fail, implement simple
error reporting via a string field `mError`. The state
of the string field replaces the dedicated `ERROR` worker
state.

Bug: 205884982
Test: atest libaudioaidlcommon_test --iterations
Merged-In: Ie9ab94922d47f277a4993a90b478a2fa76657923
Change-Id: Ie9ab94922d47f277a4993a90b478a2fa76657923
(cherry picked from commit e9e0f7c0f5)
2022-08-26 02:43:37 +00:00

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/*
* Copyright (C) 2022 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <pthread.h>
#include <sched.h>
#include <unistd.h>
#include <atomic>
#include <StreamWorker.h>
#include <gtest/gtest.h>
#define LOG_TAG "StreamWorker_Test"
#include <log/log.h>
struct TestStream {
std::atomic<bool> error = false;
};
class TestWorker : public StreamWorker<TestWorker> {
public:
// Use nullptr to test error reporting from the worker thread.
explicit TestWorker(TestStream* stream) : mStream(stream) {}
size_t getWorkerCycles() const { return mWorkerCycles; }
int getPriority() const { return mPriority; }
bool hasWorkerCycleCalled() const { return mWorkerCycles != 0; }
bool hasNoWorkerCycleCalled(useconds_t usec) {
const size_t cyclesBefore = mWorkerCycles;
usleep(usec);
return mWorkerCycles == cyclesBefore;
}
std::string workerInit() { return mStream != nullptr ? "" : "Expected error"; }
bool workerCycle() {
mPriority = getpriority(PRIO_PROCESS, 0);
do {
mWorkerCycles++;
} while (mWorkerCycles == 0);
return !mStream->error;
}
private:
TestStream* const mStream;
std::atomic<size_t> mWorkerCycles = 0;
std::atomic<int> mPriority = ANDROID_PRIORITY_DEFAULT;
};
// The parameter specifies whether an extra call to 'stop' is made at the end.
class StreamWorkerInvalidTest : public testing::TestWithParam<bool> {
public:
StreamWorkerInvalidTest() : StreamWorkerInvalidTest(nullptr) {}
void TearDown() override {
if (GetParam()) {
worker.stop();
}
}
protected:
StreamWorkerInvalidTest(TestStream* stream) : testing::TestWithParam<bool>(), worker(stream) {}
TestWorker worker;
};
TEST_P(StreamWorkerInvalidTest, Uninitialized) {
EXPECT_FALSE(worker.hasWorkerCycleCalled());
EXPECT_FALSE(worker.hasError());
}
TEST_P(StreamWorkerInvalidTest, UninitializedPauseIgnored) {
EXPECT_FALSE(worker.hasError());
worker.pause();
EXPECT_FALSE(worker.hasError());
}
TEST_P(StreamWorkerInvalidTest, UninitializedResumeIgnored) {
EXPECT_FALSE(worker.hasError());
worker.resume();
EXPECT_FALSE(worker.hasError());
}
TEST_P(StreamWorkerInvalidTest, Start) {
EXPECT_FALSE(worker.start());
EXPECT_FALSE(worker.hasWorkerCycleCalled());
EXPECT_TRUE(worker.hasError());
}
TEST_P(StreamWorkerInvalidTest, PauseIgnored) {
EXPECT_FALSE(worker.start());
EXPECT_TRUE(worker.hasError());
worker.pause();
EXPECT_TRUE(worker.hasError());
}
TEST_P(StreamWorkerInvalidTest, ResumeIgnored) {
EXPECT_FALSE(worker.start());
EXPECT_TRUE(worker.hasError());
worker.resume();
EXPECT_TRUE(worker.hasError());
}
INSTANTIATE_TEST_SUITE_P(StreamWorkerInvalid, StreamWorkerInvalidTest, testing::Bool());
class StreamWorkerTest : public StreamWorkerInvalidTest {
public:
StreamWorkerTest() : StreamWorkerInvalidTest(&stream) {}
protected:
TestStream stream;
};
static constexpr unsigned kWorkerIdleCheckTime = 50 * 1000;
TEST_P(StreamWorkerTest, Uninitialized) {
EXPECT_FALSE(worker.hasWorkerCycleCalled());
EXPECT_FALSE(worker.hasError());
}
TEST_P(StreamWorkerTest, Start) {
ASSERT_TRUE(worker.start());
worker.waitForAtLeastOneCycle();
EXPECT_FALSE(worker.hasError());
}
TEST_P(StreamWorkerTest, WorkerError) {
ASSERT_TRUE(worker.start());
stream.error = true;
worker.waitForAtLeastOneCycle();
EXPECT_TRUE(worker.hasError());
EXPECT_TRUE(worker.hasNoWorkerCycleCalled(kWorkerIdleCheckTime));
}
TEST_P(StreamWorkerTest, PauseResume) {
ASSERT_TRUE(worker.start());
worker.waitForAtLeastOneCycle();
EXPECT_FALSE(worker.hasError());
worker.pause();
EXPECT_TRUE(worker.hasNoWorkerCycleCalled(kWorkerIdleCheckTime));
EXPECT_FALSE(worker.hasError());
const size_t workerCyclesBefore = worker.getWorkerCycles();
worker.resume();
// 'resume' is synchronous and returns after the worker has looped at least once.
EXPECT_GT(worker.getWorkerCycles(), workerCyclesBefore);
EXPECT_FALSE(worker.hasError());
}
TEST_P(StreamWorkerTest, StopPaused) {
ASSERT_TRUE(worker.start());
worker.waitForAtLeastOneCycle();
EXPECT_FALSE(worker.hasError());
worker.pause();
worker.stop();
EXPECT_FALSE(worker.hasError());
}
TEST_P(StreamWorkerTest, PauseAfterErrorIgnored) {
ASSERT_TRUE(worker.start());
stream.error = true;
worker.waitForAtLeastOneCycle();
EXPECT_TRUE(worker.hasError());
worker.pause();
EXPECT_TRUE(worker.hasNoWorkerCycleCalled(kWorkerIdleCheckTime));
EXPECT_TRUE(worker.hasError());
}
TEST_P(StreamWorkerTest, ResumeAfterErrorIgnored) {
ASSERT_TRUE(worker.start());
stream.error = true;
worker.waitForAtLeastOneCycle();
EXPECT_TRUE(worker.hasError());
worker.resume();
EXPECT_TRUE(worker.hasNoWorkerCycleCalled(kWorkerIdleCheckTime));
EXPECT_TRUE(worker.hasError());
}
TEST_P(StreamWorkerTest, WorkerErrorOnResume) {
ASSERT_TRUE(worker.start());
worker.waitForAtLeastOneCycle();
EXPECT_FALSE(worker.hasError());
worker.pause();
EXPECT_FALSE(worker.hasError());
stream.error = true;
EXPECT_FALSE(worker.hasError());
worker.resume();
worker.waitForAtLeastOneCycle();
EXPECT_TRUE(worker.hasError());
EXPECT_TRUE(worker.hasNoWorkerCycleCalled(kWorkerIdleCheckTime));
}
TEST_P(StreamWorkerTest, WaitForAtLeastOneCycle) {
ASSERT_TRUE(worker.start());
const size_t workerCyclesBefore = worker.getWorkerCycles();
EXPECT_TRUE(worker.waitForAtLeastOneCycle());
EXPECT_GT(worker.getWorkerCycles(), workerCyclesBefore);
}
TEST_P(StreamWorkerTest, WaitForAtLeastOneCycleError) {
ASSERT_TRUE(worker.start());
stream.error = true;
EXPECT_FALSE(worker.waitForAtLeastOneCycle());
}
TEST_P(StreamWorkerTest, MutexDoesNotBlockWorker) {
ASSERT_TRUE(worker.start());
const size_t workerCyclesBefore = worker.getWorkerCycles();
worker.testLockUnlockMutex(true);
while (worker.getWorkerCycles() == workerCyclesBefore) {
usleep(kWorkerIdleCheckTime);
}
worker.testLockUnlockMutex(false);
worker.waitForAtLeastOneCycle();
EXPECT_FALSE(worker.hasError());
}
TEST_P(StreamWorkerTest, ThreadName) {
const std::string workerName = "TestWorker";
ASSERT_TRUE(worker.start(workerName)) << worker.getError();
char nameBuf[128];
ASSERT_EQ(0, pthread_getname_np(worker.testGetThreadNativeHandle(), nameBuf, sizeof(nameBuf)));
EXPECT_EQ(workerName, nameBuf);
}
TEST_P(StreamWorkerTest, ThreadPriority) {
const int priority = ANDROID_PRIORITY_LOWEST;
ASSERT_TRUE(worker.start("", priority)) << worker.getError();
worker.waitForAtLeastOneCycle();
EXPECT_EQ(priority, worker.getPriority());
}
INSTANTIATE_TEST_SUITE_P(StreamWorker, StreamWorkerTest, testing::Bool());
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