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hardware_interfaces/audio/aidl/common/tests/streamworker_tests.cpp
Mikhail Naganov 705297317b audio: Add 'join' method to StreamWorker 
This is intended for use in tests where the worker
just executes some actions and then exits by itself.
Use of 'join' instead of 'stop' ensures that the
worker goes through all actions.

Bug: 205884982
Test: atest libaudioaidlcommon_test
Change-Id: I8a9f4f0bb786ee606e3b63a9847f414119716a7d
2022-10-20 01:21:01 +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 <sys/resource.h>
#include <unistd.h>
#include <atomic>
#include <StreamWorker.h>
#include <gtest/gtest.h>
#define LOG_TAG "StreamWorker_Test"
#include <log/log.h>
using android::hardware::audio::common::StreamLogic;
using android::hardware::audio::common::StreamWorker;
class TestWorkerLogic : public StreamLogic {
public:
struct Stream {
void setErrorStatus() { status = Status::ABORT; }
void setStopStatus() { status = Status::EXIT; }
std::atomic<Status> status = Status::CONTINUE;
};
// Use nullptr to test error reporting from the worker thread.
explicit TestWorkerLogic(Stream* 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;
}
protected:
// StreamLogic implementation
std::string init() override { return mStream != nullptr ? "" : "Expected error"; }
Status cycle() override {
mPriority = getpriority(PRIO_PROCESS, 0);
do {
mWorkerCycles++;
} while (mWorkerCycles == 0);
return mStream->status;
}
private:
Stream* const mStream;
std::atomic<size_t> mWorkerCycles = 0;
std::atomic<int> mPriority = ANDROID_PRIORITY_DEFAULT;
};
using TestWorker = StreamWorker<TestWorkerLogic>;
// 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(TestWorker::Stream* 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:
TestWorker::Stream 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());
EXPECT_TRUE(worker.waitForAtLeastOneCycle());
EXPECT_FALSE(worker.hasError());
}
TEST_P(StreamWorkerTest, StartStop) {
ASSERT_TRUE(worker.start());
EXPECT_TRUE(worker.waitForAtLeastOneCycle());
EXPECT_FALSE(worker.hasError());
worker.stop();
EXPECT_FALSE(worker.hasError());
}
TEST_P(StreamWorkerTest, WorkerExit) {
ASSERT_TRUE(worker.start());
stream.setStopStatus();
worker.waitForAtLeastOneCycle();
EXPECT_FALSE(worker.hasError());
EXPECT_TRUE(worker.hasNoWorkerCycleCalled(kWorkerIdleCheckTime));
}
TEST_P(StreamWorkerTest, WorkerJoin) {
ASSERT_TRUE(worker.start());
stream.setStopStatus();
worker.join();
EXPECT_FALSE(worker.hasError());
EXPECT_TRUE(worker.hasNoWorkerCycleCalled(kWorkerIdleCheckTime));
}
TEST_P(StreamWorkerTest, WorkerError) {
ASSERT_TRUE(worker.start());
stream.setErrorStatus();
worker.waitForAtLeastOneCycle();
EXPECT_TRUE(worker.hasError());
EXPECT_TRUE(worker.hasNoWorkerCycleCalled(kWorkerIdleCheckTime));
}
TEST_P(StreamWorkerTest, StopAfterError) {
ASSERT_TRUE(worker.start());
stream.setErrorStatus();
worker.waitForAtLeastOneCycle();
EXPECT_TRUE(worker.hasError());
EXPECT_TRUE(worker.hasNoWorkerCycleCalled(kWorkerIdleCheckTime));
worker.stop();
EXPECT_TRUE(worker.hasError());
}
TEST_P(StreamWorkerTest, PauseResume) {
ASSERT_TRUE(worker.start());
EXPECT_TRUE(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());
EXPECT_TRUE(worker.waitForAtLeastOneCycle());
EXPECT_FALSE(worker.hasError());
worker.pause();
worker.stop();
EXPECT_FALSE(worker.hasError());
}
TEST_P(StreamWorkerTest, PauseAfterErrorIgnored) {
ASSERT_TRUE(worker.start());
stream.setErrorStatus();
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.setErrorStatus();
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());
EXPECT_TRUE(worker.waitForAtLeastOneCycle());
EXPECT_FALSE(worker.hasError());
worker.pause();
EXPECT_FALSE(worker.hasError());
stream.setErrorStatus();
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.setErrorStatus();
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);
EXPECT_TRUE(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();
EXPECT_TRUE(worker.waitForAtLeastOneCycle());
EXPECT_EQ(priority, worker.getPriority());
}
INSTANTIATE_TEST_SUITE_P(StreamWorker, StreamWorkerTest, testing::Bool());
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