blob: d9d3d62e92e2c9bc09d42bacd40c2c399c55788b [file] [log] [blame]
/*
* Copyright (C) 2019 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 <android-base/file.h>
#include <android-base/logging.h>
#include <android-base/unique_fd.h>
#include <binder/ParcelFileDescriptor.h>
#include <gmock/gmock.h>
#include <gtest/gtest.h>
#include <utils/Log.h>
#include <utils/String16.h>
#include <chrono>
#include <future>
#include "IncrementalService.h"
#include "IncrementalServiceValidation.h"
#include "Metadata.pb.h"
#include "ServiceWrappers.h"
using namespace testing;
using namespace android::incremental;
using namespace std::literals;
using testing::_;
using testing::Invoke;
using testing::NiceMock;
#undef LOG_TAG
#define LOG_TAG "IncrementalServiceTest"
using namespace android::incfs;
using namespace android::content::pm;
using PerUidReadTimeouts = android::os::incremental::PerUidReadTimeouts;
namespace android::os::incremental {
class MockVoldService : public VoldServiceWrapper {
public:
MOCK_CONST_METHOD5(mountIncFs,
binder::Status(const std::string& backingPath, const std::string& targetDir,
int32_t flags, const std::string& sysfsName,
IncrementalFileSystemControlParcel* _aidl_return));
MOCK_CONST_METHOD1(unmountIncFs, binder::Status(const std::string& dir));
MOCK_CONST_METHOD2(bindMount,
binder::Status(const std::string& sourceDir, const std::string& argetDir));
MOCK_CONST_METHOD4(
setIncFsMountOptions,
binder::Status(const ::android::os::incremental::IncrementalFileSystemControlParcel&,
bool, bool, const std::string&));
void mountIncFsFails() {
ON_CALL(*this, mountIncFs(_, _, _, _, _))
.WillByDefault(
Return(binder::Status::fromExceptionCode(1, String8("failed to mount"))));
}
void mountIncFsInvalidControlParcel() {
ON_CALL(*this, mountIncFs(_, _, _, _, _))
.WillByDefault(Invoke(this, &MockVoldService::getInvalidControlParcel));
}
void mountIncFsSuccess() {
ON_CALL(*this, mountIncFs(_, _, _, _, _))
.WillByDefault(Invoke(this, &MockVoldService::incFsSuccess));
}
void bindMountFails() {
ON_CALL(*this, bindMount(_, _))
.WillByDefault(Return(
binder::Status::fromExceptionCode(1, String8("failed to bind-mount"))));
}
void bindMountSuccess() {
ON_CALL(*this, bindMount(_, _)).WillByDefault(Return(binder::Status::ok()));
}
void setIncFsMountOptionsFails() const {
ON_CALL(*this, setIncFsMountOptions(_, _, _, _))
.WillByDefault(Return(
binder::Status::fromExceptionCode(1, String8("failed to set options"))));
}
void setIncFsMountOptionsSuccess() {
ON_CALL(*this, setIncFsMountOptions(_, _, _, _))
.WillByDefault(Invoke(this, &MockVoldService::setIncFsMountOptionsOk));
}
binder::Status getInvalidControlParcel(const std::string& imagePath,
const std::string& targetDir, int32_t flags,
const std::string& sysfsName,
IncrementalFileSystemControlParcel* _aidl_return) {
_aidl_return = {};
return binder::Status::ok();
}
binder::Status incFsSuccess(const std::string& imagePath, const std::string& targetDir,
int32_t flags, const std::string& sysfsName,
IncrementalFileSystemControlParcel* _aidl_return) {
_aidl_return->pendingReads.reset(base::unique_fd(dup(STDIN_FILENO)));
_aidl_return->cmd.reset(base::unique_fd(dup(STDIN_FILENO)));
_aidl_return->log.reset(base::unique_fd(dup(STDIN_FILENO)));
return binder::Status::ok();
}
binder::Status setIncFsMountOptionsOk(
const ::android::os::incremental::IncrementalFileSystemControlParcel& control,
bool enableReadLogs, bool enableReadTimeouts, const std::string& sysfsName) {
mReadLogsEnabled = enableReadLogs;
mReadTimeoutsEnabled = enableReadTimeouts;
return binder::Status::ok();
}
bool readLogsEnabled() const { return mReadLogsEnabled; }
bool readTimeoutsEnabled() const { return mReadTimeoutsEnabled; }
private:
TemporaryFile cmdFile;
TemporaryFile logFile;
bool mReadLogsEnabled = false;
bool mReadTimeoutsEnabled = true;
};
class MockDataLoader : public IDataLoader {
public:
MockDataLoader() {
initializeCreateOk();
ON_CALL(*this, start(_)).WillByDefault(Invoke(this, &MockDataLoader::startOk));
ON_CALL(*this, stop(_)).WillByDefault(Invoke(this, &MockDataLoader::stopOk));
ON_CALL(*this, destroy(_)).WillByDefault(Invoke(this, &MockDataLoader::destroyOk));
ON_CALL(*this, prepareImage(_, _, _))
.WillByDefault(Invoke(this, &MockDataLoader::prepareImageOk));
}
IBinder* onAsBinder() override { return nullptr; }
MOCK_METHOD4(create,
binder::Status(int32_t id, const DataLoaderParamsParcel& params,
const FileSystemControlParcel& control,
const sp<IDataLoaderStatusListener>& listener));
MOCK_METHOD1(start, binder::Status(int32_t id));
MOCK_METHOD1(stop, binder::Status(int32_t id));
MOCK_METHOD1(destroy, binder::Status(int32_t id));
MOCK_METHOD3(prepareImage,
binder::Status(int32_t id, const std::vector<InstallationFileParcel>& addedFiles,
const std::vector<std::string>& removedFiles));
void initializeCreateOk() {
ON_CALL(*this, create(_, _, _, _)).WillByDefault(Invoke(this, &MockDataLoader::createOk));
}
void initializeCreateOkNoStatus() {
ON_CALL(*this, create(_, _, _, _))
.WillByDefault(Invoke(this, &MockDataLoader::createOkNoStatus));
}
binder::Status createOk(int32_t id, const content::pm::DataLoaderParamsParcel& params,
const content::pm::FileSystemControlParcel& control,
const sp<content::pm::IDataLoaderStatusListener>& listener) {
createOkNoStatus(id, params, control, listener);
reportStatus(id);
return binder::Status::ok();
}
binder::Status createOkNoStatus(int32_t id, const content::pm::DataLoaderParamsParcel& params,
const content::pm::FileSystemControlParcel& control,
const sp<content::pm::IDataLoaderStatusListener>& listener) {
mServiceConnector = control.service;
mListener = listener;
mStatus = IDataLoaderStatusListener::DATA_LOADER_CREATED;
return binder::Status::ok();
}
binder::Status startOk(int32_t id) {
setAndReportStatus(id, IDataLoaderStatusListener::DATA_LOADER_STARTED);
return binder::Status::ok();
}
binder::Status stopOk(int32_t id) {
setAndReportStatus(id, IDataLoaderStatusListener::DATA_LOADER_STOPPED);
return binder::Status::ok();
}
binder::Status destroyOk(int32_t id) {
setAndReportStatus(id, IDataLoaderStatusListener::DATA_LOADER_DESTROYED);
mListener = nullptr;
return binder::Status::ok();
}
binder::Status prepareImageOk(int32_t id,
const ::std::vector<content::pm::InstallationFileParcel>&,
const ::std::vector<::std::string>&) {
setAndReportStatus(id, IDataLoaderStatusListener::DATA_LOADER_IMAGE_READY);
return binder::Status::ok();
}
int32_t setStorageParams(bool enableReadLogs) {
int32_t result = -1;
EXPECT_NE(mServiceConnector.get(), nullptr);
EXPECT_TRUE(mServiceConnector->setStorageParams(enableReadLogs, &result).isOk());
return result;
}
int status() const { return mStatus; }
private:
void setAndReportStatus(int id, int status) {
mStatus = status;
reportStatus(id);
}
void reportStatus(int id) {
if (mListener) {
mListener->onStatusChanged(id, mStatus);
}
}
sp<IIncrementalServiceConnector> mServiceConnector;
sp<IDataLoaderStatusListener> mListener;
int mStatus = IDataLoaderStatusListener::DATA_LOADER_DESTROYED;
};
class MockDataLoaderManager : public DataLoaderManagerWrapper {
public:
MockDataLoaderManager(sp<IDataLoader> dataLoader) : mDataLoaderHolder(std::move(dataLoader)) {
EXPECT_TRUE(mDataLoaderHolder != nullptr);
}
MOCK_CONST_METHOD5(bindToDataLoader,
binder::Status(int32_t mountId, const DataLoaderParamsParcel& params,
int bindDelayMs,
const sp<IDataLoaderStatusListener>& listener,
bool* _aidl_return));
MOCK_CONST_METHOD2(getDataLoader,
binder::Status(int32_t mountId, sp<IDataLoader>* _aidl_return));
MOCK_CONST_METHOD1(unbindFromDataLoader, binder::Status(int32_t mountId));
void bindToDataLoaderSuccess() {
ON_CALL(*this, bindToDataLoader(_, _, _, _, _))
.WillByDefault(Invoke(this, &MockDataLoaderManager::bindToDataLoaderOk));
}
void bindToDataLoaderFails() {
ON_CALL(*this, bindToDataLoader(_, _, _, _, _))
.WillByDefault(Return(
(binder::Status::fromExceptionCode(1, String8("failed to prepare")))));
}
void getDataLoaderSuccess() {
ON_CALL(*this, getDataLoader(_, _))
.WillByDefault(Invoke(this, &MockDataLoaderManager::getDataLoaderOk));
}
void unbindFromDataLoaderSuccess() {
ON_CALL(*this, unbindFromDataLoader(_))
.WillByDefault(Invoke(this, &MockDataLoaderManager::unbindFromDataLoaderOk));
}
binder::Status bindToDataLoaderOk(int32_t mountId, const DataLoaderParamsParcel& params,
int bindDelayMs,
const sp<IDataLoaderStatusListener>& listener,
bool* _aidl_return) {
mId = mountId;
mListener = listener;
mDataLoader = mDataLoaderHolder;
mBindDelayMs = bindDelayMs;
*_aidl_return = true;
if (mListener) {
mListener->onStatusChanged(mId, IDataLoaderStatusListener::DATA_LOADER_BOUND);
}
return binder::Status::ok();
}
binder::Status bindToDataLoaderNotOkWithNoDelay(int32_t mountId,
const DataLoaderParamsParcel& params,
int bindDelayMs,
const sp<IDataLoaderStatusListener>& listener,
bool* _aidl_return) {
CHECK(bindDelayMs == 0) << bindDelayMs;
*_aidl_return = false;
return binder::Status::ok();
}
binder::Status bindToDataLoaderBindingWithNoDelay(int32_t mountId,
const DataLoaderParamsParcel& params,
int bindDelayMs,
const sp<IDataLoaderStatusListener>& listener,
bool* _aidl_return) {
CHECK(bindDelayMs == 0) << bindDelayMs;
*_aidl_return = true;
if (listener) {
listener->onStatusChanged(mId, IDataLoaderStatusListener::DATA_LOADER_BINDING);
}
return binder::Status::ok();
}
binder::Status bindToDataLoaderOkWithNoDelay(int32_t mountId,
const DataLoaderParamsParcel& params,
int bindDelayMs,
const sp<IDataLoaderStatusListener>& listener,
bool* _aidl_return) {
CHECK(bindDelayMs == 0) << bindDelayMs;
return bindToDataLoaderOk(mountId, params, bindDelayMs, listener, _aidl_return);
}
binder::Status bindToDataLoaderOkWith1sDelay(int32_t mountId,
const DataLoaderParamsParcel& params,
int bindDelayMs,
const sp<IDataLoaderStatusListener>& listener,
bool* _aidl_return) {
CHECK(100 * 9 <= bindDelayMs && bindDelayMs <= 100 * 11) << bindDelayMs;
return bindToDataLoaderOk(mountId, params, bindDelayMs, listener, _aidl_return);
}
binder::Status bindToDataLoaderOkWith10sDelay(int32_t mountId,
const DataLoaderParamsParcel& params,
int bindDelayMs,
const sp<IDataLoaderStatusListener>& listener,
bool* _aidl_return) {
CHECK(100 * 9 * 9 <= bindDelayMs && bindDelayMs <= 100 * 11 * 11) << bindDelayMs;
return bindToDataLoaderOk(mountId, params, bindDelayMs, listener, _aidl_return);
}
binder::Status bindToDataLoaderOkWith100sDelay(int32_t mountId,
const DataLoaderParamsParcel& params,
int bindDelayMs,
const sp<IDataLoaderStatusListener>& listener,
bool* _aidl_return) {
CHECK(100 * 9 * 9 * 9 < bindDelayMs && bindDelayMs < 100 * 11 * 11 * 11) << bindDelayMs;
return bindToDataLoaderOk(mountId, params, bindDelayMs, listener, _aidl_return);
}
binder::Status bindToDataLoaderOkWith1000sDelay(int32_t mountId,
const DataLoaderParamsParcel& params,
int bindDelayMs,
const sp<IDataLoaderStatusListener>& listener,
bool* _aidl_return) {
CHECK(100 * 9 * 9 * 9 * 9 < bindDelayMs && bindDelayMs < 100 * 11 * 11 * 11 * 11)
<< bindDelayMs;
return bindToDataLoaderOk(mountId, params, bindDelayMs, listener, _aidl_return);
}
binder::Status bindToDataLoaderOkWith10000sDelay(int32_t mountId,
const DataLoaderParamsParcel& params,
int bindDelayMs,
const sp<IDataLoaderStatusListener>& listener,
bool* _aidl_return) {
CHECK(100 * 9 * 9 * 9 * 9 * 9 < bindDelayMs && bindDelayMs < 100 * 11 * 11 * 11 * 11 * 11)
<< bindDelayMs;
return bindToDataLoaderOk(mountId, params, bindDelayMs, listener, _aidl_return);
}
binder::Status getDataLoaderOk(int32_t mountId, sp<IDataLoader>* _aidl_return) {
*_aidl_return = mDataLoader;
return binder::Status::ok();
}
void setDataLoaderStatusCreated() {
mListener->onStatusChanged(mId, IDataLoaderStatusListener::DATA_LOADER_CREATED);
}
void setDataLoaderStatusStarted() {
mListener->onStatusChanged(mId, IDataLoaderStatusListener::DATA_LOADER_STARTED);
}
void setDataLoaderStatusDestroyed() {
mListener->onStatusChanged(mId, IDataLoaderStatusListener::DATA_LOADER_DESTROYED);
}
void setDataLoaderStatusUnavailable() {
mListener->onStatusChanged(mId, IDataLoaderStatusListener::DATA_LOADER_UNAVAILABLE);
}
void setDataLoaderStatusUnrecoverable() {
mListener->onStatusChanged(mId, IDataLoaderStatusListener::DATA_LOADER_UNRECOVERABLE);
}
binder::Status unbindFromDataLoaderOk(int32_t id) {
mBindDelayMs = -1;
if (mDataLoader) {
if (auto status = mDataLoader->destroy(id); !status.isOk()) {
return status;
}
mDataLoader = nullptr;
} else if (mListener) {
mListener->onStatusChanged(id, IDataLoaderStatusListener::DATA_LOADER_DESTROYED);
}
return binder::Status::ok();
}
int bindDelayMs() const { return mBindDelayMs; }
private:
int mId = -1;
int mBindDelayMs = -1;
sp<IDataLoaderStatusListener> mListener;
sp<IDataLoader> mDataLoader;
sp<IDataLoader> mDataLoaderHolder;
};
class MockIncFs : public IncFsWrapper {
public:
MOCK_CONST_METHOD0(features, Features());
MOCK_CONST_METHOD1(listExistingMounts, void(const ExistingMountCallback& cb));
MOCK_CONST_METHOD1(openMount, Control(std::string_view path));
MOCK_CONST_METHOD4(createControl,
Control(IncFsFd cmd, IncFsFd pendingReads, IncFsFd logs,
IncFsFd blocksWritten));
MOCK_CONST_METHOD5(makeFile,
ErrorCode(const Control& control, std::string_view path, int mode, FileId id,
NewFileParams params));
MOCK_CONST_METHOD4(makeMappedFile,
ErrorCode(const Control& control, std::string_view path, int mode,
NewMappedFileParams params));
MOCK_CONST_METHOD3(makeDir, ErrorCode(const Control& control, std::string_view path, int mode));
MOCK_CONST_METHOD3(makeDirs,
ErrorCode(const Control& control, std::string_view path, int mode));
MOCK_CONST_METHOD2(getMetadata, RawMetadata(const Control& control, FileId fileid));
MOCK_CONST_METHOD2(getMetadata, RawMetadata(const Control& control, std::string_view path));
MOCK_CONST_METHOD2(getFileId, FileId(const Control& control, std::string_view path));
MOCK_CONST_METHOD2(countFilledBlocks,
std::pair<IncFsBlockIndex, IncFsBlockIndex>(const Control& control,
std::string_view path));
MOCK_CONST_METHOD2(isFileFullyLoaded,
incfs::LoadingState(const Control& control, std::string_view path));
MOCK_CONST_METHOD2(isFileFullyLoaded, incfs::LoadingState(const Control& control, FileId id));
MOCK_CONST_METHOD1(isEverythingFullyLoaded, incfs::LoadingState(const Control& control));
MOCK_CONST_METHOD3(link,
ErrorCode(const Control& control, std::string_view from,
std::string_view to));
MOCK_CONST_METHOD2(unlink, ErrorCode(const Control& control, std::string_view path));
MOCK_CONST_METHOD2(openForSpecialOps, UniqueFd(const Control& control, FileId id));
MOCK_CONST_METHOD1(writeBlocks, ErrorCode(std::span<const DataBlock> blocks));
MOCK_CONST_METHOD3(reserveSpace, ErrorCode(const Control& control, FileId id, IncFsSize size));
MOCK_CONST_METHOD3(waitForPendingReads,
WaitResult(const Control& control, std::chrono::milliseconds timeout,
std::vector<incfs::ReadInfoWithUid>* pendingReadsBuffer));
MOCK_CONST_METHOD2(setUidReadTimeouts,
ErrorCode(const Control& control,
const std::vector<PerUidReadTimeouts>& perUidReadTimeouts));
MOCK_CONST_METHOD2(forEachFile, ErrorCode(const Control& control, FileCallback cb));
MOCK_CONST_METHOD2(forEachIncompleteFile, ErrorCode(const Control& control, FileCallback cb));
MOCK_CONST_METHOD1(getMetrics, std::optional<Metrics>(std::string_view path));
MOCK_CONST_METHOD1(getLastReadError, std::optional<LastReadError>(const Control& control));
MockIncFs() {
ON_CALL(*this, listExistingMounts(_)).WillByDefault(Return());
ON_CALL(*this, reserveSpace(_, _, _)).WillByDefault(Return(0));
}
void makeFileFails() { ON_CALL(*this, makeFile(_, _, _, _, _)).WillByDefault(Return(-1)); }
void makeFileSuccess() { ON_CALL(*this, makeFile(_, _, _, _, _)).WillByDefault(Return(0)); }
void countFilledBlocksSuccess() {
ON_CALL(*this, countFilledBlocks(_, _)).WillByDefault(Return(std::make_pair(1, 2)));
}
void countFilledBlocksFullyLoaded() {
ON_CALL(*this, countFilledBlocks(_, _)).WillByDefault(Return(std::make_pair(10000, 10000)));
}
void countFilledBlocksFails() {
ON_CALL(*this, countFilledBlocks(_, _)).WillByDefault(Return(std::make_pair(-1, -1)));
}
void countFilledBlocksEmpty() {
ON_CALL(*this, countFilledBlocks(_, _)).WillByDefault(Return(std::make_pair(0, 0)));
}
void openMountSuccess() {
ON_CALL(*this, openMount(_)).WillByDefault(Invoke(this, &MockIncFs::openMountForHealth));
}
// 1000ms
void waitForPendingReadsSuccess(uint64_t ts = 0) {
ON_CALL(*this, waitForPendingReads(_, _, _))
.WillByDefault(
Invoke([ts](const Control& control, std::chrono::milliseconds timeout,
std::vector<incfs::ReadInfoWithUid>* pendingReadsBuffer) {
pendingReadsBuffer->push_back({.bootClockTsUs = ts});
return android::incfs::WaitResult::HaveData;
}));
}
void waitForPendingReadsTimeout() {
ON_CALL(*this, waitForPendingReads(_, _, _))
.WillByDefault(Return(android::incfs::WaitResult::Timeout));
}
static constexpr auto kPendingReadsFd = 42;
Control openMountForHealth(std::string_view) {
return UniqueControl(IncFs_CreateControl(-1, kPendingReadsFd, -1, -1));
}
RawMetadata getMountInfoMetadata(const Control& control, std::string_view path) {
metadata::Mount m;
m.mutable_storage()->set_id(100);
m.mutable_loader()->set_package_name("com.test");
m.mutable_loader()->set_arguments("com.uri");
const auto metadata = m.SerializeAsString();
static_cast<void>(m.mutable_loader()->release_arguments());
static_cast<void>(m.mutable_loader()->release_package_name());
return {metadata.begin(), metadata.end()};
}
RawMetadata getStorageMetadata(const Control& control, std::string_view path) {
metadata::Storage st;
st.set_id(100);
auto metadata = st.SerializeAsString();
return {metadata.begin(), metadata.end()};
}
RawMetadata getBindPointMetadata(const Control& control, std::string_view path) {
metadata::BindPoint bp;
std::string destPath = "dest";
std::string srcPath = "src";
bp.set_storage_id(100);
bp.set_allocated_dest_path(&destPath);
bp.set_allocated_source_subdir(&srcPath);
const auto metadata = bp.SerializeAsString();
static_cast<void>(bp.release_source_subdir());
static_cast<void>(bp.release_dest_path());
return std::vector<char>(metadata.begin(), metadata.end());
}
};
class MockAppOpsManager : public AppOpsManagerWrapper {
public:
MOCK_CONST_METHOD3(checkPermission, binder::Status(const char*, const char*, const char*));
MOCK_METHOD3(startWatchingMode, void(int32_t, const String16&, const sp<IAppOpsCallback>&));
MOCK_METHOD1(stopWatchingMode, void(const sp<IAppOpsCallback>&));
void checkPermissionSuccess() {
ON_CALL(*this, checkPermission(_, _, _)).WillByDefault(Return(android::incremental::Ok()));
}
void checkPermissionNoCrossUsers() {
ON_CALL(*this,
checkPermission("android.permission.LOADER_USAGE_STATS",
"android:loader_usage_stats", _))
.WillByDefault(Return(android::incremental::Ok()));
ON_CALL(*this, checkPermission("android.permission.INTERACT_ACROSS_USERS", nullptr, _))
.WillByDefault(
Return(android::incremental::Exception(binder::Status::EX_SECURITY, {})));
}
void checkPermissionFails() {
ON_CALL(*this, checkPermission(_, _, _))
.WillByDefault(
Return(android::incremental::Exception(binder::Status::EX_SECURITY, {})));
}
void initializeStartWatchingMode() {
ON_CALL(*this, startWatchingMode(_, _, _))
.WillByDefault(Invoke(this, &MockAppOpsManager::storeCallback));
}
void storeCallback(int32_t, const String16&, const sp<IAppOpsCallback>& cb) {
mStoredCallback = cb;
}
sp<IAppOpsCallback> mStoredCallback;
};
class MockJniWrapper : public JniWrapper {
public:
MOCK_CONST_METHOD0(initializeForCurrentThread, void());
MockJniWrapper() { EXPECT_CALL(*this, initializeForCurrentThread()).Times(2); }
};
class MockLooperWrapper : public LooperWrapper {
public:
MOCK_METHOD5(addFd, int(int, int, int, android::Looper_callbackFunc, void*));
MOCK_METHOD1(removeFd, int(int));
MOCK_METHOD0(wake, void());
MOCK_METHOD1(pollAll, int(int));
MockLooperWrapper() {
ON_CALL(*this, addFd(_, _, _, _, _))
.WillByDefault(Invoke(this, &MockLooperWrapper::storeCallback));
ON_CALL(*this, removeFd(_)).WillByDefault(Invoke(this, &MockLooperWrapper::clearCallback));
ON_CALL(*this, pollAll(_)).WillByDefault(Invoke(this, &MockLooperWrapper::wait10Ms));
}
int storeCallback(int, int, int, android::Looper_callbackFunc callback, void* data) {
mCallback = callback;
mCallbackData = data;
return 0;
}
int clearCallback(int) {
mCallback = nullptr;
mCallbackData = nullptr;
return 0;
}
int wait10Ms(int) {
// This is called from a loop in runCmdLooper.
// Sleeping for 10ms only to avoid busy looping.
std::this_thread::sleep_for(10ms);
return 0;
}
android::Looper_callbackFunc mCallback = nullptr;
void* mCallbackData = nullptr;
};
class MockTimedQueueWrapper : public TimedQueueWrapper {
public:
MOCK_METHOD3(addJob, void(MountId, Milliseconds, Job));
MOCK_METHOD1(removeJobs, void(MountId));
MOCK_METHOD0(stop, void());
MockTimedQueueWrapper() {
ON_CALL(*this, addJob(_, _, _))
.WillByDefault(Invoke(this, &MockTimedQueueWrapper::storeJob));
ON_CALL(*this, removeJobs(_)).WillByDefault(Invoke(this, &MockTimedQueueWrapper::clearJob));
}
void storeJob(MountId id, Milliseconds after, Job what) {
mId = id;
mAfter = after;
mWhat = std::move(what);
}
void clearJob(MountId id) {
if (mId == id) {
mAfter = {};
mWhat = {};
}
}
MountId mId = -1;
Milliseconds mAfter;
Job mWhat;
};
class MockFsWrapper : public FsWrapper {
public:
MOCK_CONST_METHOD2(listFilesRecursive, void(std::string_view, FileCallback));
void hasNoFile() { ON_CALL(*this, listFilesRecursive(_, _)).WillByDefault(Return()); }
void hasFiles() {
ON_CALL(*this, listFilesRecursive(_, _))
.WillByDefault(Invoke(this, &MockFsWrapper::fakeFiles));
}
void fakeFiles(std::string_view directoryPath, FileCallback onFile) {
for (auto file : {"base.apk", "split.apk", "lib/a.so"}) {
if (!onFile(file)) break;
}
}
};
class MockClockWrapper : public ClockWrapper {
public:
MOCK_CONST_METHOD0(now, TimePoint());
void start() { ON_CALL(*this, now()).WillByDefault(Invoke(this, &MockClockWrapper::getClock)); }
template <class Delta>
void advance(Delta delta) {
mClock += delta;
}
void advanceMs(int deltaMs) { mClock += std::chrono::milliseconds(deltaMs); }
TimePoint getClock() const { return mClock; }
std::optional<timespec> getClockMono() const {
const auto nsSinceEpoch =
std::chrono::duration_cast<std::chrono::nanoseconds>(mClock.time_since_epoch())
.count();
timespec ts = {.tv_sec = static_cast<time_t>(nsSinceEpoch / 1000000000LL),
.tv_nsec = static_cast<long>(nsSinceEpoch % 1000000000LL)};
return ts;
}
TimePoint mClock = Clock::now();
};
class MockStorageHealthListener : public os::incremental::BnStorageHealthListener {
public:
MOCK_METHOD2(onHealthStatus, binder::Status(int32_t storageId, int32_t status));
MockStorageHealthListener() {
ON_CALL(*this, onHealthStatus(_, _))
.WillByDefault(Invoke(this, &MockStorageHealthListener::storeStorageIdAndStatus));
}
binder::Status storeStorageIdAndStatus(int32_t storageId, int32_t status) {
mStorageId = storageId;
mStatus = status;
return binder::Status::ok();
}
int32_t mStorageId = -1;
int32_t mStatus = -1;
};
class MockStorageLoadingProgressListener : public IStorageLoadingProgressListener {
public:
MockStorageLoadingProgressListener() = default;
MOCK_METHOD2(onStorageLoadingProgressChanged,
binder::Status(int32_t storageId, float progress));
MOCK_METHOD0(onAsBinder, IBinder*());
};
class MockServiceManager : public ServiceManagerWrapper {
public:
MockServiceManager(std::unique_ptr<MockVoldService> vold,
std::unique_ptr<MockDataLoaderManager> dataLoaderManager,
std::unique_ptr<MockIncFs> incfs,
std::unique_ptr<MockAppOpsManager> appOpsManager,
std::unique_ptr<MockJniWrapper> jni,
std::unique_ptr<MockLooperWrapper> looper,
std::unique_ptr<MockTimedQueueWrapper> timedQueue,
std::unique_ptr<MockTimedQueueWrapper> progressUpdateJobQueue,
std::unique_ptr<MockFsWrapper> fs, std::unique_ptr<MockClockWrapper> clock)
: mVold(std::move(vold)),
mDataLoaderManager(std::move(dataLoaderManager)),
mIncFs(std::move(incfs)),
mAppOpsManager(std::move(appOpsManager)),
mJni(std::move(jni)),
mLooper(std::move(looper)),
mTimedQueue(std::move(timedQueue)),
mProgressUpdateJobQueue(std::move(progressUpdateJobQueue)),
mFs(std::move(fs)),
mClock(std::move(clock)) {}
std::unique_ptr<VoldServiceWrapper> getVoldService() final { return std::move(mVold); }
std::unique_ptr<DataLoaderManagerWrapper> getDataLoaderManager() final {
return std::move(mDataLoaderManager);
}
std::unique_ptr<IncFsWrapper> getIncFs() final { return std::move(mIncFs); }
std::unique_ptr<AppOpsManagerWrapper> getAppOpsManager() final {
return std::move(mAppOpsManager);
}
std::unique_ptr<JniWrapper> getJni() final { return std::move(mJni); }
std::unique_ptr<LooperWrapper> getLooper() final { return std::move(mLooper); }
std::unique_ptr<TimedQueueWrapper> getTimedQueue() final { return std::move(mTimedQueue); }
std::unique_ptr<TimedQueueWrapper> getProgressUpdateJobQueue() final {
return std::move(mProgressUpdateJobQueue);
}
std::unique_ptr<FsWrapper> getFs() final { return std::move(mFs); }
std::unique_ptr<ClockWrapper> getClock() final { return std::move(mClock); }
private:
std::unique_ptr<MockVoldService> mVold;
std::unique_ptr<MockDataLoaderManager> mDataLoaderManager;
std::unique_ptr<MockIncFs> mIncFs;
std::unique_ptr<MockAppOpsManager> mAppOpsManager;
std::unique_ptr<MockJniWrapper> mJni;
std::unique_ptr<MockLooperWrapper> mLooper;
std::unique_ptr<MockTimedQueueWrapper> mTimedQueue;
std::unique_ptr<MockTimedQueueWrapper> mProgressUpdateJobQueue;
std::unique_ptr<MockFsWrapper> mFs;
std::unique_ptr<MockClockWrapper> mClock;
};
// --- IncrementalServiceTest ---
class IncrementalServiceTest : public testing::Test {
public:
void SetUp() override {
auto vold = std::make_unique<NiceMock<MockVoldService>>();
mVold = vold.get();
sp<NiceMock<MockDataLoader>> dataLoader{new NiceMock<MockDataLoader>};
mDataLoader = dataLoader.get();
auto dataloaderManager = std::make_unique<NiceMock<MockDataLoaderManager>>(dataLoader);
mDataLoaderManager = dataloaderManager.get();
auto incFs = std::make_unique<NiceMock<MockIncFs>>();
mIncFs = incFs.get();
auto appOps = std::make_unique<NiceMock<MockAppOpsManager>>();
mAppOpsManager = appOps.get();
auto jni = std::make_unique<NiceMock<MockJniWrapper>>();
mJni = jni.get();
auto looper = std::make_unique<NiceMock<MockLooperWrapper>>();
mLooper = looper.get();
auto timedQueue = std::make_unique<NiceMock<MockTimedQueueWrapper>>();
mTimedQueue = timedQueue.get();
auto progressUpdateJobQueue = std::make_unique<NiceMock<MockTimedQueueWrapper>>();
mProgressUpdateJobQueue = progressUpdateJobQueue.get();
auto fs = std::make_unique<NiceMock<MockFsWrapper>>();
mFs = fs.get();
auto clock = std::make_unique<NiceMock<MockClockWrapper>>();
mClock = clock.get();
mIncrementalService = std::make_unique<
IncrementalService>(MockServiceManager(std::move(vold),
std::move(dataloaderManager),
std::move(incFs), std::move(appOps),
std::move(jni), std::move(looper),
std::move(timedQueue),
std::move(progressUpdateJobQueue),
std::move(fs), std::move(clock)),
mRootDir.path);
mDataLoaderParcel.packageName = "com.test";
mDataLoaderParcel.arguments = "uri";
mDataLoaderManager->unbindFromDataLoaderSuccess();
mIncrementalService->onSystemReady();
mClock->start();
setupSuccess();
}
void setUpExistingMountDir(const std::string& rootDir) {
const auto dir = rootDir + "/dir1";
const auto mountDir = dir + "/mount";
const auto backingDir = dir + "/backing_store";
const auto storageDir = mountDir + "/st0";
ASSERT_EQ(0, mkdir(dir.c_str(), 0755));
ASSERT_EQ(0, mkdir(mountDir.c_str(), 0755));
ASSERT_EQ(0, mkdir(backingDir.c_str(), 0755));
ASSERT_EQ(0, mkdir(storageDir.c_str(), 0755));
const auto mountInfoFile = rootDir + "/dir1/mount/.info";
const auto mountPointsFile = rootDir + "/dir1/mount/.mountpoint.abcd";
ASSERT_TRUE(base::WriteStringToFile("info", mountInfoFile));
ASSERT_TRUE(base::WriteStringToFile("mounts", mountPointsFile));
ON_CALL(*mIncFs, getMetadata(_, std::string_view(mountInfoFile)))
.WillByDefault(Invoke(mIncFs, &MockIncFs::getMountInfoMetadata));
ON_CALL(*mIncFs, getMetadata(_, std::string_view(mountPointsFile)))
.WillByDefault(Invoke(mIncFs, &MockIncFs::getBindPointMetadata));
ON_CALL(*mIncFs, getMetadata(_, std::string_view(rootDir + "/dir1/mount/st0")))
.WillByDefault(Invoke(mIncFs, &MockIncFs::getStorageMetadata));
}
void setupSuccess() {
mVold->mountIncFsSuccess();
mIncFs->makeFileSuccess();
mVold->bindMountSuccess();
mDataLoaderManager->bindToDataLoaderSuccess();
mDataLoaderManager->getDataLoaderSuccess();
}
void checkHealthMetrics(int storageId, long expectedMillisSinceOldestPendingRead,
int expectedStorageHealthStatusCode) {
android::os::PersistableBundle result{};
mIncrementalService->getMetrics(storageId, &result);
ASSERT_EQ(6, (int)result.size());
int64_t millisSinceOldestPendingRead = -1;
ASSERT_TRUE(result.getLong(String16(BnIncrementalService::
METRICS_MILLIS_SINCE_OLDEST_PENDING_READ()
.c_str()),
&millisSinceOldestPendingRead));
// Allow 10ms.
ASSERT_LE(expectedMillisSinceOldestPendingRead, millisSinceOldestPendingRead);
ASSERT_GE(expectedMillisSinceOldestPendingRead + 10, millisSinceOldestPendingRead);
int storageHealthStatusCode = -1;
ASSERT_TRUE(
result.getInt(String16(BnIncrementalService::METRICS_STORAGE_HEALTH_STATUS_CODE()
.c_str()),
&storageHealthStatusCode));
ASSERT_EQ(expectedStorageHealthStatusCode, storageHealthStatusCode);
int dataLoaderStatusCode = -1;
ASSERT_TRUE(result.getInt(String16(BnIncrementalService::METRICS_DATA_LOADER_STATUS_CODE()
.c_str()),
&dataLoaderStatusCode));
ASSERT_EQ(IDataLoaderStatusListener::DATA_LOADER_STARTED, dataLoaderStatusCode);
}
void checkBindingMetrics(int storageId, int64_t expectedMillisSinceLastDataLoaderBind,
int64_t expectedDataLoaderBindDelayMillis) {
android::os::PersistableBundle result{};
mIncrementalService->getMetrics(storageId, &result);
ASSERT_EQ(6, (int)result.size());
int dataLoaderStatus = -1;
ASSERT_TRUE(result.getInt(String16(BnIncrementalService::METRICS_DATA_LOADER_STATUS_CODE()
.c_str()),
&dataLoaderStatus));
ASSERT_EQ(IDataLoaderStatusListener::DATA_LOADER_STARTED, dataLoaderStatus);
int64_t millisSinceLastDataLoaderBind = -1;
ASSERT_TRUE(result.getLong(String16(BnIncrementalService::
METRICS_MILLIS_SINCE_LAST_DATA_LOADER_BIND()
.c_str()),
&millisSinceLastDataLoaderBind));
ASSERT_EQ(expectedMillisSinceLastDataLoaderBind, millisSinceLastDataLoaderBind);
int64_t dataLoaderBindDelayMillis = -1;
ASSERT_TRUE(
result.getLong(String16(
BnIncrementalService::METRICS_DATA_LOADER_BIND_DELAY_MILLIS()
.c_str()),
&dataLoaderBindDelayMillis));
ASSERT_EQ(expectedDataLoaderBindDelayMillis, dataLoaderBindDelayMillis);
}
protected:
NiceMock<MockVoldService>* mVold = nullptr;
NiceMock<MockIncFs>* mIncFs = nullptr;
NiceMock<MockDataLoaderManager>* mDataLoaderManager = nullptr;
NiceMock<MockAppOpsManager>* mAppOpsManager = nullptr;
NiceMock<MockJniWrapper>* mJni = nullptr;
NiceMock<MockLooperWrapper>* mLooper = nullptr;
NiceMock<MockTimedQueueWrapper>* mTimedQueue = nullptr;
NiceMock<MockTimedQueueWrapper>* mProgressUpdateJobQueue = nullptr;
NiceMock<MockFsWrapper>* mFs = nullptr;
NiceMock<MockClockWrapper>* mClock = nullptr;
NiceMock<MockDataLoader>* mDataLoader = nullptr;
std::unique_ptr<IncrementalService> mIncrementalService;
TemporaryDir mRootDir;
DataLoaderParamsParcel mDataLoaderParcel;
};
TEST_F(IncrementalServiceTest, testCreateStorageMountIncFsFails) {
mVold->mountIncFsFails();
EXPECT_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _)).Times(0);
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_LT(storageId, 0);
}
TEST_F(IncrementalServiceTest, testCreateStorageMountIncFsInvalidControlParcel) {
mVold->mountIncFsInvalidControlParcel();
EXPECT_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _)).Times(0);
EXPECT_CALL(*mDataLoaderManager, unbindFromDataLoader(_)).Times(0);
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_LT(storageId, 0);
}
TEST_F(IncrementalServiceTest, testCreateStorageMakeFileFails) {
mVold->mountIncFsSuccess();
mIncFs->makeFileFails();
EXPECT_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _)).Times(0);
EXPECT_CALL(*mDataLoaderManager, unbindFromDataLoader(_)).Times(0);
EXPECT_CALL(*mVold, unmountIncFs(_));
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_LT(storageId, 0);
}
TEST_F(IncrementalServiceTest, testCreateStorageBindMountFails) {
mVold->mountIncFsSuccess();
mIncFs->makeFileSuccess();
mVold->bindMountFails();
EXPECT_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _)).Times(0);
EXPECT_CALL(*mDataLoaderManager, unbindFromDataLoader(_)).Times(0);
EXPECT_CALL(*mVold, unmountIncFs(_));
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_LT(storageId, 0);
}
TEST_F(IncrementalServiceTest, testCreateStoragePrepareDataLoaderFails) {
mVold->mountIncFsSuccess();
mIncFs->makeFileSuccess();
mVold->bindMountSuccess();
mDataLoaderManager->bindToDataLoaderFails();
EXPECT_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _)).Times(1);
EXPECT_CALL(*mDataLoaderManager, unbindFromDataLoader(_)).Times(0);
EXPECT_CALL(*mDataLoader, create(_, _, _, _)).Times(0);
EXPECT_CALL(*mDataLoader, start(_)).Times(0);
EXPECT_CALL(*mDataLoader, destroy(_)).Times(0);
EXPECT_CALL(*mVold, unmountIncFs(_)).Times(2);
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_GE(storageId, 0);
mIncrementalService->startLoading(storageId, std::move(mDataLoaderParcel), {}, {}, {}, {});
}
TEST_F(IncrementalServiceTest, testDeleteStorageSuccess) {
EXPECT_CALL(*mDataLoader, create(_, _, _, _)).Times(1);
EXPECT_CALL(*mDataLoader, start(_)).Times(1);
EXPECT_CALL(*mDataLoader, destroy(_)).Times(1);
EXPECT_CALL(*mVold, unmountIncFs(_)).Times(2);
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_GE(storageId, 0);
mIncrementalService->startLoading(storageId, std::move(mDataLoaderParcel), {}, {}, {}, {});
mIncrementalService->deleteStorage(storageId);
}
TEST_F(IncrementalServiceTest, testDataLoaderDestroyedAndDelayed) {
EXPECT_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _)).Times(7);
EXPECT_CALL(*mDataLoaderManager, unbindFromDataLoader(_)).Times(1);
EXPECT_CALL(*mDataLoader, create(_, _, _, _)).Times(7);
EXPECT_CALL(*mDataLoader, start(_)).Times(7);
EXPECT_CALL(*mDataLoader, destroy(_)).Times(1);
EXPECT_CALL(*mVold, unmountIncFs(_)).Times(2);
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_GE(storageId, 0);
mIncrementalService->startLoading(storageId, std::move(mDataLoaderParcel), {}, {}, {}, {});
// Simulated crash/other connection breakage.
ON_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _))
.WillByDefault(Invoke(mDataLoaderManager,
&MockDataLoaderManager::bindToDataLoaderOkWith1sDelay));
checkBindingMetrics(storageId, 0, 0);
mClock->advanceMs(mDataLoaderManager->bindDelayMs());
checkBindingMetrics(storageId, 0, 0);
mDataLoaderManager->setDataLoaderStatusDestroyed();
ON_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _))
.WillByDefault(Invoke(mDataLoaderManager,
&MockDataLoaderManager::bindToDataLoaderOkWith10sDelay));
checkBindingMetrics(storageId, 0, mDataLoaderManager->bindDelayMs());
mClock->advanceMs(mDataLoaderManager->bindDelayMs());
checkBindingMetrics(storageId, mDataLoaderManager->bindDelayMs(),
mDataLoaderManager->bindDelayMs());
mDataLoaderManager->setDataLoaderStatusDestroyed();
ON_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _))
.WillByDefault(Invoke(mDataLoaderManager,
&MockDataLoaderManager::bindToDataLoaderOkWith100sDelay));
checkBindingMetrics(storageId, 0, mDataLoaderManager->bindDelayMs());
mClock->advanceMs(mDataLoaderManager->bindDelayMs());
checkBindingMetrics(storageId, mDataLoaderManager->bindDelayMs(),
mDataLoaderManager->bindDelayMs());
mDataLoaderManager->setDataLoaderStatusDestroyed();
ON_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _))
.WillByDefault(Invoke(mDataLoaderManager,
&MockDataLoaderManager::bindToDataLoaderOkWith1000sDelay));
checkBindingMetrics(storageId, 0, mDataLoaderManager->bindDelayMs());
mClock->advanceMs(mDataLoaderManager->bindDelayMs());
checkBindingMetrics(storageId, mDataLoaderManager->bindDelayMs(),
mDataLoaderManager->bindDelayMs());
mDataLoaderManager->setDataLoaderStatusDestroyed();
ON_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _))
.WillByDefault(Invoke(mDataLoaderManager,
&MockDataLoaderManager::bindToDataLoaderOkWith10000sDelay));
checkBindingMetrics(storageId, 0, mDataLoaderManager->bindDelayMs());
// Try the reduced delay, just in case.
mClock->advanceMs(mDataLoaderManager->bindDelayMs() / 2);
checkBindingMetrics(storageId, mDataLoaderManager->bindDelayMs() / 2,
mDataLoaderManager->bindDelayMs());
mDataLoaderManager->setDataLoaderStatusDestroyed();
ON_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _))
.WillByDefault(Invoke(mDataLoaderManager,
&MockDataLoaderManager::bindToDataLoaderOkWith10000sDelay));
checkBindingMetrics(storageId, 0, mDataLoaderManager->bindDelayMs());
mClock->advanceMs(mDataLoaderManager->bindDelayMs());
checkBindingMetrics(storageId, mDataLoaderManager->bindDelayMs(),
mDataLoaderManager->bindDelayMs());
mDataLoaderManager->setDataLoaderStatusDestroyed();
}
TEST_F(IncrementalServiceTest, testDataLoaderOnRestart) {
mIncFs->waitForPendingReadsSuccess();
mIncFs->openMountSuccess();
constexpr auto bindRetryInterval = 5s;
EXPECT_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _)).Times(11);
EXPECT_CALL(*mDataLoaderManager, unbindFromDataLoader(_)).Times(1);
EXPECT_CALL(*mDataLoader, create(_, _, _, _)).Times(7);
EXPECT_CALL(*mDataLoader, start(_)).Times(7);
EXPECT_CALL(*mDataLoader, destroy(_)).Times(1);
EXPECT_CALL(*mVold, unmountIncFs(_)).Times(2);
EXPECT_CALL(*mTimedQueue, addJob(_, _, _)).Times(4);
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_GE(storageId, 0);
// First binds to DataLoader fails... because it's restart.
ON_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _))
.WillByDefault(Invoke(mDataLoaderManager,
&MockDataLoaderManager::bindToDataLoaderNotOkWithNoDelay));
// Request DL start.
mIncrementalService->startLoading(storageId, std::move(mDataLoaderParcel), {}, {}, {}, {});
// Retry callback present.
ASSERT_EQ(storageId, mTimedQueue->mId);
ASSERT_EQ(mTimedQueue->mAfter, bindRetryInterval);
auto retryCallback = mTimedQueue->mWhat;
mTimedQueue->clearJob(storageId);
// Expecting the same bindToDataLoaderNotOkWithNoDelay call.
mClock->advance(5s);
retryCallback();
// Retry callback present.
ASSERT_EQ(storageId, mTimedQueue->mId);
ASSERT_EQ(mTimedQueue->mAfter, bindRetryInterval);
retryCallback = mTimedQueue->mWhat;
mTimedQueue->clearJob(storageId);
// Returning "binding" so that we can retry.
ON_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _))
.WillByDefault(Invoke(mDataLoaderManager,
&MockDataLoaderManager::bindToDataLoaderBindingWithNoDelay));
// Expecting bindToDataLoaderBindingWithNoDelay call.
mClock->advance(5s);
retryCallback();
// No retry callback.
ASSERT_EQ(mTimedQueue->mAfter, 0ms);
ASSERT_EQ(mTimedQueue->mWhat, nullptr);
// Should not change the bindToDataLoader call count
ASSERT_NE(nullptr, mLooper->mCallback);
ASSERT_NE(nullptr, mLooper->mCallbackData);
auto looperCb = mLooper->mCallback;
auto looperCbData = mLooper->mCallbackData;
looperCb(-1, -1, looperCbData);
// Expecting the same bindToDataLoaderBindingWithNoDelay call.
mClock->advance(5s);
// Use pending reads callback to trigger binding.
looperCb(-1, -1, looperCbData);
// No retry callback.
ASSERT_EQ(mTimedQueue->mAfter, 0ms);
ASSERT_EQ(mTimedQueue->mWhat, nullptr);
// Now we are out of 10m "retry" budget, let's finally bind.
ON_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _))
.WillByDefault(Invoke(mDataLoaderManager, &MockDataLoaderManager::bindToDataLoaderOk));
mClock->advance(11min);
// Use pending reads callback to trigger binding.
looperCb(-1, -1, looperCbData);
// No retry callback.
ASSERT_EQ(mTimedQueue->mAfter, 0ms);
ASSERT_EQ(mTimedQueue->mWhat, nullptr);
// And test the rest of the backoff.
// Simulated crash/other connection breakage.
ON_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _))
.WillByDefault(Invoke(mDataLoaderManager,
&MockDataLoaderManager::bindToDataLoaderOkWith1sDelay));
mClock->advanceMs(mDataLoaderManager->bindDelayMs());
mDataLoaderManager->setDataLoaderStatusDestroyed();
ON_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _))
.WillByDefault(Invoke(mDataLoaderManager,
&MockDataLoaderManager::bindToDataLoaderOkWith10sDelay));
mClock->advanceMs(mDataLoaderManager->bindDelayMs());
mDataLoaderManager->setDataLoaderStatusDestroyed();
ON_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _))
.WillByDefault(Invoke(mDataLoaderManager,
&MockDataLoaderManager::bindToDataLoaderOkWith100sDelay));
mClock->advanceMs(mDataLoaderManager->bindDelayMs());
mDataLoaderManager->setDataLoaderStatusDestroyed();
ON_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _))
.WillByDefault(Invoke(mDataLoaderManager,
&MockDataLoaderManager::bindToDataLoaderOkWith1000sDelay));
mClock->advanceMs(mDataLoaderManager->bindDelayMs());
mDataLoaderManager->setDataLoaderStatusDestroyed();
ON_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _))
.WillByDefault(Invoke(mDataLoaderManager,
&MockDataLoaderManager::bindToDataLoaderOkWith10000sDelay));
mClock->advanceMs(mDataLoaderManager->bindDelayMs());
mDataLoaderManager->setDataLoaderStatusDestroyed();
ON_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _))
.WillByDefault(Invoke(mDataLoaderManager,
&MockDataLoaderManager::bindToDataLoaderOkWith10000sDelay));
mClock->advanceMs(mDataLoaderManager->bindDelayMs());
mDataLoaderManager->setDataLoaderStatusDestroyed();
}
TEST_F(IncrementalServiceTest, testStartDataLoaderCreate) {
mDataLoader->initializeCreateOkNoStatus();
EXPECT_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _)).Times(1);
EXPECT_CALL(*mDataLoaderManager, unbindFromDataLoader(_)).Times(1);
EXPECT_CALL(*mDataLoader, create(_, _, _, _)).Times(1);
EXPECT_CALL(*mDataLoader, start(_)).Times(1);
EXPECT_CALL(*mDataLoader, destroy(_)).Times(1);
EXPECT_CALL(*mVold, unmountIncFs(_)).Times(2);
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_GE(storageId, 0);
ASSERT_TRUE(mIncrementalService->startLoading(storageId, std::move(mDataLoaderParcel), {}, {},
{}, {}));
mDataLoaderManager->setDataLoaderStatusCreated();
mDataLoaderManager->setDataLoaderStatusStarted();
}
TEST_F(IncrementalServiceTest, testStartDataLoaderPendingStart) {
mDataLoader->initializeCreateOkNoStatus();
EXPECT_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _)).Times(1);
EXPECT_CALL(*mDataLoaderManager, unbindFromDataLoader(_)).Times(1);
EXPECT_CALL(*mDataLoader, create(_, _, _, _)).Times(1);
EXPECT_CALL(*mDataLoader, start(_)).Times(1);
EXPECT_CALL(*mDataLoader, destroy(_)).Times(1);
EXPECT_CALL(*mVold, unmountIncFs(_)).Times(2);
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_GE(storageId, 0);
ASSERT_TRUE(mIncrementalService->startLoading(storageId, std::move(mDataLoaderParcel), {}, {},
{}, {}));
mDataLoaderManager->setDataLoaderStatusCreated();
}
TEST_F(IncrementalServiceTest, testStartDataLoaderCreateUnavailable) {
mDataLoader->initializeCreateOkNoStatus();
EXPECT_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _)).Times(1);
EXPECT_CALL(*mDataLoaderManager, unbindFromDataLoader(_)).Times(1);
EXPECT_CALL(*mDataLoader, create(_, _, _, _)).Times(1);
EXPECT_CALL(*mDataLoader, start(_)).Times(0);
EXPECT_CALL(*mDataLoader, destroy(_)).Times(1);
EXPECT_CALL(*mVold, unmountIncFs(_)).Times(2);
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_GE(storageId, 0);
ASSERT_TRUE(mIncrementalService->startLoading(storageId, std::move(mDataLoaderParcel), {}, {},
{}, {}));
mDataLoaderManager->setDataLoaderStatusUnavailable();
}
TEST_F(IncrementalServiceTest, testStartDataLoaderCreateUnrecoverable) {
mDataLoader->initializeCreateOkNoStatus();
EXPECT_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _)).Times(1);
EXPECT_CALL(*mDataLoaderManager, unbindFromDataLoader(_)).Times(1);
EXPECT_CALL(*mDataLoader, create(_, _, _, _)).Times(1);
EXPECT_CALL(*mDataLoader, start(_)).Times(0);
EXPECT_CALL(*mDataLoader, destroy(_)).Times(1);
EXPECT_CALL(*mVold, unmountIncFs(_)).Times(2);
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_GE(storageId, 0);
ASSERT_TRUE(mIncrementalService->startLoading(storageId, std::move(mDataLoaderParcel), {}, {},
{}, {}));
mDataLoaderManager->setDataLoaderStatusUnrecoverable();
}
TEST_F(IncrementalServiceTest, testStartDataLoaderRecreateOnPendingReads) {
mIncFs->waitForPendingReadsSuccess();
mIncFs->openMountSuccess();
mDataLoader->initializeCreateOkNoStatus();
EXPECT_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _)).Times(2);
EXPECT_CALL(*mDataLoaderManager, unbindFromDataLoader(_)).Times(2);
EXPECT_CALL(*mDataLoader, create(_, _, _, _)).Times(2);
EXPECT_CALL(*mDataLoader, start(_)).Times(0);
EXPECT_CALL(*mDataLoader, destroy(_)).Times(2);
EXPECT_CALL(*mVold, unmountIncFs(_)).Times(2);
EXPECT_CALL(*mLooper, addFd(MockIncFs::kPendingReadsFd, _, _, _, _)).Times(1);
EXPECT_CALL(*mLooper, removeFd(MockIncFs::kPendingReadsFd)).Times(1);
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_GE(storageId, 0);
ASSERT_TRUE(mIncrementalService->startLoading(storageId, std::move(mDataLoaderParcel), {}, {},
{}, {}));
mDataLoaderManager->setDataLoaderStatusUnrecoverable();
// Timed callback present.
ASSERT_EQ(storageId, mTimedQueue->mId);
ASSERT_GE(mTimedQueue->mAfter, 10ms);
auto timedCallback = mTimedQueue->mWhat;
mTimedQueue->clearJob(storageId);
// First callback call to propagate unrecoverable.
timedCallback();
// And second call to trigger recreation.
ASSERT_NE(nullptr, mLooper->mCallback);
ASSERT_NE(nullptr, mLooper->mCallbackData);
mLooper->mCallback(-1, -1, mLooper->mCallbackData);
}
TEST_F(IncrementalServiceTest, testStartDataLoaderUnavailable) {
mIncFs->openMountSuccess();
mDataLoader->initializeCreateOkNoStatus();
EXPECT_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _)).Times(3);
EXPECT_CALL(*mDataLoaderManager, unbindFromDataLoader(_)).Times(3);
EXPECT_CALL(*mDataLoader, create(_, _, _, _)).Times(3);
EXPECT_CALL(*mDataLoader, start(_)).Times(1);
EXPECT_CALL(*mDataLoader, destroy(_)).Times(2);
EXPECT_CALL(*mVold, unmountIncFs(_)).Times(2);
EXPECT_CALL(*mLooper, addFd(MockIncFs::kPendingReadsFd, _, _, _, _)).Times(1);
EXPECT_CALL(*mLooper, removeFd(MockIncFs::kPendingReadsFd)).Times(1);
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_GE(storageId, 0);
ON_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _))
.WillByDefault(Invoke(mDataLoaderManager,
&MockDataLoaderManager::bindToDataLoaderOkWithNoDelay));
ASSERT_TRUE(mIncrementalService->startLoading(storageId, std::move(mDataLoaderParcel), {}, {},
{}, {}));
// Unavailable.
mDataLoaderManager->setDataLoaderStatusUnavailable();
// Timed callback present.
ASSERT_EQ(storageId, mTimedQueue->mId);
ASSERT_GE(mTimedQueue->mAfter, 10ms);
auto timedCallback = mTimedQueue->mWhat;
mTimedQueue->clearJob(storageId);
// Propagating unavailable and expecting it to trigger rebind with 1s retry delay.
ON_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _))
.WillByDefault(Invoke(mDataLoaderManager,
&MockDataLoaderManager::bindToDataLoaderOkWith1sDelay));
timedCallback();
// Unavailable #2.
mDataLoaderManager->setDataLoaderStatusUnavailable();
// Timed callback present.
ASSERT_EQ(storageId, mTimedQueue->mId);
ASSERT_GE(mTimedQueue->mAfter, 10ms);
timedCallback = mTimedQueue->mWhat;
mTimedQueue->clearJob(storageId);
// Propagating unavailable and expecting it to trigger rebind with 10s retry delay.
// This time succeed.
mDataLoader->initializeCreateOk();
ON_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _))
.WillByDefault(Invoke(mDataLoaderManager,
&MockDataLoaderManager::bindToDataLoaderOkWith10sDelay));
timedCallback();
}
TEST_F(IncrementalServiceTest, testStartDataLoaderUnhealthyStorage) {
mIncFs->openMountSuccess();
EXPECT_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _)).Times(1);
EXPECT_CALL(*mDataLoaderManager, unbindFromDataLoader(_)).Times(1);
EXPECT_CALL(*mDataLoader, create(_, _, _, _)).Times(1);
EXPECT_CALL(*mDataLoader, start(_)).Times(1);
EXPECT_CALL(*mDataLoader, destroy(_)).Times(1);
EXPECT_CALL(*mVold, unmountIncFs(_)).Times(2);
EXPECT_CALL(*mLooper, addFd(MockIncFs::kPendingReadsFd, _, _, _, _)).Times(2);
EXPECT_CALL(*mLooper, removeFd(MockIncFs::kPendingReadsFd)).Times(2);
EXPECT_CALL(*mTimedQueue, addJob(_, _, _)).Times(6);
sp<NiceMock<MockStorageHealthListener>> listener{new NiceMock<MockStorageHealthListener>};
NiceMock<MockStorageHealthListener>* listenerMock = listener.get();
EXPECT_CALL(*listenerMock, onHealthStatus(_, IStorageHealthListener::HEALTH_STATUS_OK))
.Times(2);
EXPECT_CALL(*listenerMock,
onHealthStatus(_, IStorageHealthListener::HEALTH_STATUS_READS_PENDING))
.Times(1);
EXPECT_CALL(*listenerMock, onHealthStatus(_, IStorageHealthListener::HEALTH_STATUS_BLOCKED))
.Times(1);
EXPECT_CALL(*listenerMock, onHealthStatus(_, IStorageHealthListener::HEALTH_STATUS_UNHEALTHY))
.Times(2);
StorageHealthCheckParams params;
params.blockedTimeoutMs = 10000;
params.unhealthyTimeoutMs = 20000;
params.unhealthyMonitoringMs = 30000;
using MS = std::chrono::milliseconds;
using MCS = std::chrono::microseconds;
const auto blockedTimeout = MS(params.blockedTimeoutMs);
const auto unhealthyTimeout = MS(params.unhealthyTimeoutMs);
const auto unhealthyMonitoring = MS(params.unhealthyMonitoringMs);
const uint64_t kFirstTimestampUs = 1000000000ll;
const uint64_t kBlockedTimestampUs =
kFirstTimestampUs - std::chrono::duration_cast<MCS>(blockedTimeout).count();
const uint64_t kUnhealthyTimestampUs =
kFirstTimestampUs - std::chrono::duration_cast<MCS>(unhealthyTimeout).count();
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_GE(storageId, 0);
mIncrementalService->startLoading(storageId, std::move(mDataLoaderParcel), {},
std::move(params), listener, {});
// Healthy state, registered for pending reads.
ASSERT_NE(nullptr, mLooper->mCallback);
ASSERT_NE(nullptr, mLooper->mCallbackData);
ASSERT_EQ(storageId, listener->mStorageId);
ASSERT_EQ(IStorageHealthListener::HEALTH_STATUS_OK, listener->mStatus);
checkHealthMetrics(storageId, 0, listener->mStatus);
// Looper/epoll callback.
mIncFs->waitForPendingReadsSuccess(kFirstTimestampUs);
mLooper->mCallback(-1, -1, mLooper->mCallbackData);
// Unregister from pending reads and wait.
ASSERT_EQ(nullptr, mLooper->mCallback);
ASSERT_EQ(nullptr, mLooper->mCallbackData);
ASSERT_EQ(storageId, listener->mStorageId);
ASSERT_EQ(IStorageHealthListener::HEALTH_STATUS_READS_PENDING, listener->mStatus);
// Timed callback present.
ASSERT_EQ(storageId, mTimedQueue->mId);
ASSERT_GE(mTimedQueue->mAfter, blockedTimeout);
auto timedCallback = mTimedQueue->mWhat;
mTimedQueue->clearJob(storageId);
// Timed job callback for blocked.
mIncFs->waitForPendingReadsSuccess(kBlockedTimestampUs);
timedCallback();
// Still not registered, and blocked.
ASSERT_EQ(nullptr, mLooper->mCallback);
ASSERT_EQ(nullptr, mLooper->mCallbackData);
ASSERT_EQ(storageId, listener->mStorageId);
ASSERT_EQ(IStorageHealthListener::HEALTH_STATUS_BLOCKED, listener->mStatus);
checkHealthMetrics(storageId, params.blockedTimeoutMs, listener->mStatus);
// Timed callback present.
ASSERT_EQ(storageId, mTimedQueue->mId);
ASSERT_GE(mTimedQueue->mAfter, 1000ms);
timedCallback = mTimedQueue->mWhat;
mTimedQueue->clearJob(storageId);
// Timed job callback for unhealthy.
mIncFs->waitForPendingReadsSuccess(kUnhealthyTimestampUs);
timedCallback();
// Still not registered, and blocked.
ASSERT_EQ(nullptr, mLooper->mCallback);
ASSERT_EQ(nullptr, mLooper->mCallbackData);
ASSERT_EQ(storageId, listener->mStorageId);
ASSERT_EQ(IStorageHealthListener::HEALTH_STATUS_UNHEALTHY, listener->mStatus);
checkHealthMetrics(storageId, params.unhealthyTimeoutMs, listener->mStatus);
// Timed callback present.
ASSERT_EQ(storageId, mTimedQueue->mId);
ASSERT_GE(mTimedQueue->mAfter, unhealthyMonitoring);
timedCallback = mTimedQueue->mWhat;
mTimedQueue->clearJob(storageId);
// One more unhealthy.
mIncFs->waitForPendingReadsSuccess(kUnhealthyTimestampUs);
timedCallback();
// Still not registered, and blocked.
ASSERT_EQ(nullptr, mLooper->mCallback);
ASSERT_EQ(nullptr, mLooper->mCallbackData);
ASSERT_EQ(storageId, listener->mStorageId);
ASSERT_EQ(IStorageHealthListener::HEALTH_STATUS_UNHEALTHY, listener->mStatus);
checkHealthMetrics(storageId, params.unhealthyTimeoutMs, listener->mStatus);
// Timed callback present.
ASSERT_EQ(storageId, mTimedQueue->mId);
ASSERT_GE(mTimedQueue->mAfter, unhealthyMonitoring);
timedCallback = mTimedQueue->mWhat;
mTimedQueue->clearJob(storageId);
// And now healthy.
mIncFs->waitForPendingReadsTimeout();
timedCallback();
// Healthy state, registered for pending reads.
ASSERT_NE(nullptr, mLooper->mCallback);
ASSERT_NE(nullptr, mLooper->mCallbackData);
ASSERT_EQ(storageId, listener->mStorageId);
ASSERT_EQ(IStorageHealthListener::HEALTH_STATUS_OK, listener->mStatus);
checkHealthMetrics(storageId, 0, listener->mStatus);
}
TEST_F(IncrementalServiceTest, testSetIncFsMountOptionsSuccess) {
mVold->setIncFsMountOptionsSuccess();
mAppOpsManager->checkPermissionSuccess();
EXPECT_CALL(*mDataLoaderManager, unbindFromDataLoader(_));
EXPECT_CALL(*mVold, unmountIncFs(_)).Times(2);
// on startLoading
EXPECT_CALL(*mVold, setIncFsMountOptions(_, false, _, _)).Times(1);
// We are calling setIncFsMountOptions(true).
EXPECT_CALL(*mVold, setIncFsMountOptions(_, true, _, _)).Times(1);
// After setIncFsMountOptions succeeded expecting to start watching.
EXPECT_CALL(*mAppOpsManager, startWatchingMode(_, _, _)).Times(1);
// Not expecting callback removal.
EXPECT_CALL(*mAppOpsManager, stopWatchingMode(_)).Times(0);
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_GE(storageId, 0);
ASSERT_TRUE(mIncrementalService->startLoading(storageId, std::move(mDataLoaderParcel), {}, {},
{}, {}));
ASSERT_GE(mDataLoader->setStorageParams(true), 0);
}
TEST_F(IncrementalServiceTest, testSetIncFsMountOptionsSuccessAndDisabled) {
mVold->setIncFsMountOptionsSuccess();
mAppOpsManager->checkPermissionSuccess();
EXPECT_CALL(*mDataLoaderManager, unbindFromDataLoader(_));
EXPECT_CALL(*mVold, unmountIncFs(_)).Times(2);
// Enabling and then disabling readlogs.
EXPECT_CALL(*mVold, setIncFsMountOptions(_, true, _, _)).Times(1);
EXPECT_CALL(*mVold, setIncFsMountOptions(_, false, _, _)).Times(2);
// After setIncFsMountOptions succeeded expecting to start watching.
EXPECT_CALL(*mAppOpsManager, startWatchingMode(_, _, _)).Times(1);
// Not expecting callback removal.
EXPECT_CALL(*mAppOpsManager, stopWatchingMode(_)).Times(0);
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_GE(storageId, 0);
ASSERT_TRUE(mIncrementalService->startLoading(storageId, std::move(mDataLoaderParcel), {}, {},
{}, {}));
ASSERT_GE(mDataLoader->setStorageParams(true), 0);
// Now disable.
mIncrementalService->disallowReadLogs(storageId);
ASSERT_EQ(mDataLoader->setStorageParams(true), -EPERM);
}
TEST_F(IncrementalServiceTest, testSetIncFsMountOptionsSuccessAndTimedOut) {
mVold->setIncFsMountOptionsSuccess();
mAppOpsManager->checkPermissionSuccess();
const auto readLogsMaxInterval = 2h;
EXPECT_CALL(*mDataLoaderManager, unbindFromDataLoader(_));
EXPECT_CALL(*mVold, unmountIncFs(_)).Times(2);
// Enabling and then disabling readlogs.
EXPECT_CALL(*mVold, setIncFsMountOptions(_, true, _, _)).Times(2);
EXPECT_CALL(*mVold, setIncFsMountOptions(_, false, _, _)).Times(2);
// After setIncFsMountOptions succeeded expecting to start watching.
EXPECT_CALL(*mAppOpsManager, startWatchingMode(_, _, _)).Times(1);
// Not expecting callback removal.
EXPECT_CALL(*mAppOpsManager, stopWatchingMode(_)).Times(0);
EXPECT_CALL(*mTimedQueue, addJob(_, _, _)).Times(2);
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_GE(storageId, 0);
ASSERT_TRUE(mIncrementalService->startLoading(storageId, std::move(mDataLoaderParcel), {}, {},
{}, {}));
// Disable readlogs callback present.
ASSERT_EQ(storageId, mTimedQueue->mId);
ASSERT_EQ(mTimedQueue->mAfter, readLogsMaxInterval);
auto callback = mTimedQueue->mWhat;
mTimedQueue->clearJob(storageId);
ASSERT_GE(mDataLoader->setStorageParams(true), 0);
// Now advance clock for 1hr.
mClock->advance(1h);
ASSERT_GE(mDataLoader->setStorageParams(true), 0);
// Now call the timed callback, it should turn off the readlogs.
callback();
// Now advance clock for 2hrs.
mClock->advance(readLogsMaxInterval);
ASSERT_EQ(mDataLoader->setStorageParams(true), -EPERM);
}
TEST_F(IncrementalServiceTest, testSetIncFsMountOptionsSuccessAndNoTimedOutForSystem) {
mVold->setIncFsMountOptionsSuccess();
mAppOpsManager->checkPermissionSuccess();
const auto readLogsMaxInterval = 2h;
EXPECT_CALL(*mDataLoaderManager, unbindFromDataLoader(_));
EXPECT_CALL(*mVold, unmountIncFs(_)).Times(2);
// Enabling and then disabling readlogs.
EXPECT_CALL(*mVold, setIncFsMountOptions(_, true, _, _)).Times(3);
EXPECT_CALL(*mVold, setIncFsMountOptions(_, false, _, _)).Times(1);
// After setIncFsMountOptions succeeded expecting to start watching.
EXPECT_CALL(*mAppOpsManager, startWatchingMode(_, _, _)).Times(1);
// Not expecting callback removal.
EXPECT_CALL(*mAppOpsManager, stopWatchingMode(_)).Times(0);
EXPECT_CALL(*mTimedQueue, addJob(_, _, _)).Times(2);
// System data loader.
mDataLoaderParcel.packageName = "android";
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_GE(storageId, 0);
ASSERT_TRUE(mIncrementalService->startLoading(storageId, std::move(mDataLoaderParcel), {}, {},
{}, {}));
// IfsState callback.
auto callback = mTimedQueue->mWhat;
mTimedQueue->clearJob(storageId);
ASSERT_GE(mDataLoader->setStorageParams(true), 0);
// Now advance clock for 1hr.
mClock->advance(1h);
ASSERT_GE(mDataLoader->setStorageParams(true), 0);
// Now advance clock for 2hrs.
mClock->advance(readLogsMaxInterval);
// IfsStorage callback should not affect anything.
callback();
ASSERT_EQ(mDataLoader->setStorageParams(true), 0);
}
TEST_F(IncrementalServiceTest, testSetIncFsMountOptionsSuccessAndNewInstall) {
mVold->setIncFsMountOptionsSuccess();
mAppOpsManager->checkPermissionSuccess();
const auto readLogsMaxInterval = 2h;
EXPECT_CALL(*mDataLoaderManager, unbindFromDataLoader(_)).Times(2);
EXPECT_CALL(*mVold, unmountIncFs(_)).Times(2);
// Enabling and then disabling readlogs.
EXPECT_CALL(*mVold, setIncFsMountOptions(_, true, _, _)).Times(5);
EXPECT_CALL(*mVold, setIncFsMountOptions(_, false, _, _)).Times(3);
// After setIncFsMountOptions succeeded expecting to start watching.
EXPECT_CALL(*mAppOpsManager, startWatchingMode(_, _, _)).Times(1);
// Not expecting callback removal.
EXPECT_CALL(*mAppOpsManager, stopWatchingMode(_)).Times(0);
EXPECT_CALL(*mTimedQueue, addJob(_, _, _)).Times(4);
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_GE(storageId, 0);
// Before install - long timeouts.
ASSERT_TRUE(mVold->readTimeoutsEnabled());
auto dataLoaderParcel = mDataLoaderParcel;
ASSERT_TRUE(mIncrementalService->startLoading(storageId, std::move(dataLoaderParcel), {}, {},
{}, {}));
// During install - short timeouts.
ASSERT_FALSE(mVold->readTimeoutsEnabled());
// Disable readlogs callback present.
ASSERT_EQ(storageId, mTimedQueue->mId);
ASSERT_EQ(mTimedQueue->mAfter, readLogsMaxInterval);
auto callback = mTimedQueue->mWhat;
mTimedQueue->clearJob(storageId);
ASSERT_GE(mDataLoader->setStorageParams(true), 0);
// Now advance clock for 1.5hrs.
mClock->advance(90min);
ASSERT_GE(mDataLoader->setStorageParams(true), 0);
mIncrementalService->onInstallationComplete(storageId);
// After install - long timeouts.
ASSERT_TRUE(mVold->readTimeoutsEnabled());
// New installation.
ASSERT_TRUE(mIncrementalService->startLoading(storageId, std::move(mDataLoaderParcel), {}, {},
{}, {}));
// New installation - short timeouts.
ASSERT_FALSE(mVold->readTimeoutsEnabled());
// New callback present.
ASSERT_EQ(storageId, mTimedQueue->mId);
ASSERT_EQ(mTimedQueue->mAfter, readLogsMaxInterval);
auto callback2 = mTimedQueue->mWhat;
mTimedQueue->clearJob(storageId);
// Old callback should not disable readlogs (setIncFsMountOptions should be called only once).
callback();
// Advance clock for another 1.5hrs.
mClock->advance(90min);
// Still success even it's 3hrs past first install.
ASSERT_GE(mDataLoader->setStorageParams(true), 0);
// New one should disable.
callback2();
// And timeout.
mClock->advance(90min);
ASSERT_EQ(mDataLoader->setStorageParams(true), -EPERM);
mIncrementalService->onInstallationComplete(storageId);
// After install - long timeouts.
ASSERT_TRUE(mVold->readTimeoutsEnabled());
}
TEST_F(IncrementalServiceTest, testSetIncFsMountOptionsSuccessAndPermissionChanged) {
mVold->setIncFsMountOptionsSuccess();
mAppOpsManager->checkPermissionSuccess();
mAppOpsManager->initializeStartWatchingMode();
EXPECT_CALL(*mDataLoaderManager, unbindFromDataLoader(_));
EXPECT_CALL(*mVold, unmountIncFs(_)).Times(2);
// We are calling setIncFsMountOptions(true).
EXPECT_CALL(*mVold, setIncFsMountOptions(_, true, _, _)).Times(1);
// setIncFsMountOptions(false) is called on the callback.
EXPECT_CALL(*mVold, setIncFsMountOptions(_, false, _, _)).Times(2);
// After setIncFsMountOptions succeeded expecting to start watching.
EXPECT_CALL(*mAppOpsManager, startWatchingMode(_, _, _)).Times(1);
// After callback is called, disable read logs and remove callback.
EXPECT_CALL(*mAppOpsManager, stopWatchingMode(_)).Times(1);
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_GE(storageId, 0);
ASSERT_TRUE(mIncrementalService->startLoading(storageId, std::move(mDataLoaderParcel), {}, {},
{}, {}));
ASSERT_GE(mDataLoader->setStorageParams(true), 0);
ASSERT_NE(nullptr, mAppOpsManager->mStoredCallback.get());
mAppOpsManager->mStoredCallback->opChanged(0, {});
}
TEST_F(IncrementalServiceTest, testSetIncFsMountOptionsCheckPermissionFails) {
mAppOpsManager->checkPermissionFails();
EXPECT_CALL(*mDataLoaderManager, unbindFromDataLoader(_));
EXPECT_CALL(*mVold, unmountIncFs(_)).Times(2);
// checkPermission fails, no calls to set opitions, start or stop WatchingMode.
EXPECT_CALL(*mVold, setIncFsMountOptions(_, true, _, _)).Times(0);
EXPECT_CALL(*mVold, setIncFsMountOptions(_, false, _, _)).Times(1);
EXPECT_CALL(*mAppOpsManager, startWatchingMode(_, _, _)).Times(0);
EXPECT_CALL(*mAppOpsManager, stopWatchingMode(_)).Times(0);
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_GE(storageId, 0);
ASSERT_TRUE(mIncrementalService->startLoading(storageId, std::move(mDataLoaderParcel), {}, {},
{}, {}));
ASSERT_LT(mDataLoader->setStorageParams(true), 0);
}
TEST_F(IncrementalServiceTest, testSetIncFsMountOptionsCheckPermissionNoCrossUsers) {
mAppOpsManager->checkPermissionNoCrossUsers();
EXPECT_CALL(*mDataLoaderManager, unbindFromDataLoader(_));
EXPECT_CALL(*mVold, unmountIncFs(_)).Times(2);
// checkPermission fails, no calls to set opitions, start or stop WatchingMode.
EXPECT_CALL(*mVold, setIncFsMountOptions(_, true, _, _)).Times(0);
EXPECT_CALL(*mVold, setIncFsMountOptions(_, false, _, _)).Times(1);
EXPECT_CALL(*mAppOpsManager, startWatchingMode(_, _, _)).Times(0);
EXPECT_CALL(*mAppOpsManager, stopWatchingMode(_)).Times(0);
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_GE(storageId, 0);
ASSERT_TRUE(mIncrementalService->startLoading(storageId, std::move(mDataLoaderParcel), {}, {},
{}, {}));
ASSERT_LT(mDataLoader->setStorageParams(true), 0);
}
TEST_F(IncrementalServiceTest, testSetIncFsMountOptionsFails) {
mVold->setIncFsMountOptionsFails();
mAppOpsManager->checkPermissionSuccess();
EXPECT_CALL(*mDataLoaderManager, unbindFromDataLoader(_));
EXPECT_CALL(*mVold, unmountIncFs(_)).Times(2);
// We are calling setIncFsMountOptions.
EXPECT_CALL(*mVold, setIncFsMountOptions(_, true, _, _)).Times(1);
EXPECT_CALL(*mVold, setIncFsMountOptions(_, false, _, _)).Times(1);
// setIncFsMountOptions fails, no calls to start or stop WatchingMode.
EXPECT_CALL(*mAppOpsManager, startWatchingMode(_, _, _)).Times(0);
EXPECT_CALL(*mAppOpsManager, stopWatchingMode(_)).Times(0);
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_GE(storageId, 0);
ASSERT_TRUE(mIncrementalService->startLoading(storageId, std::move(mDataLoaderParcel), {}, {},
{}, {}));
ASSERT_LT(mDataLoader->setStorageParams(true), 0);
}
TEST_F(IncrementalServiceTest, testMakeDirectory) {
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
std::string dir_path("test");
// Expecting incfs to call makeDir on a path like:
// <root>/*/mount/<storage>/test
EXPECT_CALL(*mIncFs,
makeDir(_, Truly([&](std::string_view arg) {
return arg.starts_with(mRootDir.path) &&
arg.ends_with("/mount/st_1_0/" + dir_path);
}),
_));
auto res = mIncrementalService->makeDir(storageId, dir_path, 0555);
ASSERT_EQ(res, 0);
}
TEST_F(IncrementalServiceTest, testMakeDirectories) {
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
auto first = "first"sv;
auto second = "second"sv;
auto third = "third"sv;
auto dir_path = std::string(first) + "/" + std::string(second) + "/" + std::string(third);
EXPECT_CALL(*mIncFs,
makeDirs(_, Truly([&](std::string_view arg) {
return arg.starts_with(mRootDir.path) &&
arg.ends_with("/mount/st_1_0/" + dir_path);
}),
_));
auto res = mIncrementalService->makeDirs(storageId, dir_path, 0555);
ASSERT_EQ(res, 0);
}
TEST_F(IncrementalServiceTest, testIsFileFullyLoadedNoData) {
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
EXPECT_CALL(*mIncFs, isFileFullyLoaded(_, An<std::string_view>()))
.Times(1)
.WillOnce(Return(incfs::LoadingState::MissingBlocks));
ASSERT_GT((int)mIncrementalService->isFileFullyLoaded(storageId, "base.apk"), 0);
}
TEST_F(IncrementalServiceTest, testIsFileFullyLoadedError) {
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
EXPECT_CALL(*mIncFs, isFileFullyLoaded(_, An<std::string_view>()))
.Times(1)
.WillOnce(Return(incfs::LoadingState(-1)));
ASSERT_LT((int)mIncrementalService->isFileFullyLoaded(storageId, "base.apk"), 0);
}
TEST_F(IncrementalServiceTest, testIsFileFullyLoadedSuccess) {
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
EXPECT_CALL(*mIncFs, isFileFullyLoaded(_, An<std::string_view>()))
.Times(1)
.WillOnce(Return(incfs::LoadingState::Full));
ASSERT_EQ(0, (int)mIncrementalService->isFileFullyLoaded(storageId, "base.apk"));
}
TEST_F(IncrementalServiceTest, testGetLoadingProgressSuccessWithNoFile) {
mIncFs->countFilledBlocksSuccess();
mFs->hasNoFile();
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_EQ(1, mIncrementalService->getLoadingProgress(storageId).getProgress());
}
TEST_F(IncrementalServiceTest, testGetLoadingProgressFailsWithFailedRanges) {
mIncFs->countFilledBlocksFails();
mFs->hasFiles();
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
EXPECT_CALL(*mIncFs, countFilledBlocks(_, _)).Times(1);
ASSERT_EQ(-1, mIncrementalService->getLoadingProgress(storageId).getProgress());
}
TEST_F(IncrementalServiceTest, testGetLoadingProgressSuccessWithEmptyRanges) {
mIncFs->countFilledBlocksEmpty();
mFs->hasFiles();
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
EXPECT_CALL(*mIncFs, countFilledBlocks(_, _)).Times(3);
ASSERT_EQ(1, mIncrementalService->getLoadingProgress(storageId).getProgress());
}
TEST_F(IncrementalServiceTest, testGetLoadingProgressSuccess) {
mIncFs->countFilledBlocksSuccess();
mFs->hasFiles();
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
EXPECT_CALL(*mIncFs, countFilledBlocks(_, _)).Times(3);
ASSERT_EQ(0.5, mIncrementalService->getLoadingProgress(storageId).getProgress());
}
TEST_F(IncrementalServiceTest, testRegisterLoadingProgressListenerSuccess) {
mIncFs->countFilledBlocksSuccess();
mFs->hasFiles();
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
sp<NiceMock<MockStorageLoadingProgressListener>> listener{
new NiceMock<MockStorageLoadingProgressListener>};
NiceMock<MockStorageLoadingProgressListener>* listenerMock = listener.get();
EXPECT_CALL(*listenerMock, onStorageLoadingProgressChanged(_, _)).Times(2);
EXPECT_CALL(*mProgressUpdateJobQueue, addJob(_, _, _)).Times(2);
mIncrementalService->registerLoadingProgressListener(storageId, listener);
// Timed callback present.
ASSERT_EQ(storageId, mProgressUpdateJobQueue->mId);
ASSERT_EQ(mProgressUpdateJobQueue->mAfter, 1000ms);
auto timedCallback = mProgressUpdateJobQueue->mWhat;
timedCallback();
ASSERT_EQ(storageId, mProgressUpdateJobQueue->mId);
ASSERT_EQ(mProgressUpdateJobQueue->mAfter, 1000ms);
mIncrementalService->unregisterLoadingProgressListener(storageId);
ASSERT_EQ(mProgressUpdateJobQueue->mAfter, Milliseconds{});
}
TEST_F(IncrementalServiceTest, testRegisterLoadingProgressListenerFailsToGetProgress) {
mIncFs->countFilledBlocksFails();
mFs->hasFiles();
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
sp<NiceMock<MockStorageLoadingProgressListener>> listener{
new NiceMock<MockStorageLoadingProgressListener>};
NiceMock<MockStorageLoadingProgressListener>* listenerMock = listener.get();
EXPECT_CALL(*listenerMock, onStorageLoadingProgressChanged(_, _)).Times(0);
mIncrementalService->registerLoadingProgressListener(storageId, listener);
}
TEST_F(IncrementalServiceTest, testStartDataLoaderUnbindOnAllDone) {
mFs->hasFiles();
const auto stateUpdateInterval = 1s;
EXPECT_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _)).Times(1);
// No unbinding just yet.
EXPECT_CALL(*mDataLoaderManager, unbindFromDataLoader(_)).Times(0);
EXPECT_CALL(*mDataLoader, create(_, _, _, _)).Times(1);
EXPECT_CALL(*mDataLoader, start(_)).Times(1);
EXPECT_CALL(*mDataLoader, destroy(_)).Times(1);
EXPECT_CALL(*mVold, unmountIncFs(_)).Times(2);
// System data loader to get rid of readlog timeout callback.
mDataLoaderParcel.packageName = "android";
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_GE(storageId, 0);
ASSERT_TRUE(mIncrementalService->startLoading(storageId, std::move(mDataLoaderParcel), {}, {},
{}, {}));
// Started.
ASSERT_EQ(mDataLoader->status(), IDataLoaderStatusListener::DATA_LOADER_STARTED);
// IfsState callback present.
ASSERT_EQ(IncrementalService::kAllStoragesId, mTimedQueue->mId);
ASSERT_EQ(mTimedQueue->mAfter, stateUpdateInterval);
auto callback = mTimedQueue->mWhat;
mTimedQueue->clearJob(IncrementalService::kAllStoragesId);
// Not loaded yet.
EXPECT_CALL(*mIncFs, isEverythingFullyLoaded(_))
.WillOnce(Return(incfs::LoadingState::MissingBlocks));
// Send the callback, should not do anything.
callback();
// Still started.
ASSERT_EQ(mDataLoader->status(), IDataLoaderStatusListener::DATA_LOADER_STARTED);
// Still present.
ASSERT_EQ(IncrementalService::kAllStoragesId, mTimedQueue->mId);
ASSERT_EQ(mTimedQueue->mAfter, stateUpdateInterval);
callback = mTimedQueue->mWhat;
mTimedQueue->clearJob(IncrementalService::kAllStoragesId);
// Fully loaded.
EXPECT_CALL(*mIncFs, isEverythingFullyLoaded(_)).WillOnce(Return(incfs::LoadingState::Full));
// Expect the unbind.
EXPECT_CALL(*mDataLoaderManager, unbindFromDataLoader(_)).Times(1);
callback();
// Destroyed.
ASSERT_EQ(mDataLoader->status(), IDataLoaderStatusListener::DATA_LOADER_DESTROYED);
}
TEST_F(IncrementalServiceTest, testStartDataLoaderUnbindOnAllDoneWithReadlogs) {
mFs->hasFiles();
// Readlogs.
mVold->setIncFsMountOptionsSuccess();
mAppOpsManager->checkPermissionSuccess();
const auto stateUpdateInterval = 1s;
EXPECT_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _)).Times(1);
// No unbinding just yet.
EXPECT_CALL(*mDataLoaderManager, unbindFromDataLoader(_)).Times(0);
EXPECT_CALL(*mDataLoader, create(_, _, _, _)).Times(1);
EXPECT_CALL(*mDataLoader, start(_)).Times(1);
EXPECT_CALL(*mDataLoader, destroy(_)).Times(1);
EXPECT_CALL(*mVold, unmountIncFs(_)).Times(2);
// System data loader to get rid of readlog timeout callback.
mDataLoaderParcel.packageName = "android";
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_GE(storageId, 0);
ASSERT_TRUE(mIncrementalService->startLoading(storageId, std::move(mDataLoaderParcel), {}, {},
{}, {}));
// Started.
ASSERT_EQ(mDataLoader->status(), IDataLoaderStatusListener::DATA_LOADER_STARTED);
// IfsState callback present.
ASSERT_EQ(IncrementalService::kAllStoragesId, mTimedQueue->mId);
ASSERT_EQ(mTimedQueue->mAfter, stateUpdateInterval);
auto callback = mTimedQueue->mWhat;
mTimedQueue->clearJob(IncrementalService::kAllStoragesId);
// Not loaded yet.
EXPECT_CALL(*mIncFs, isEverythingFullyLoaded(_))
.WillOnce(Return(incfs::LoadingState::MissingBlocks));
// Send the callback, should not do anything.
callback();
// Still started.
ASSERT_EQ(mDataLoader->status(), IDataLoaderStatusListener::DATA_LOADER_STARTED);
// Still present.
ASSERT_EQ(IncrementalService::kAllStoragesId, mTimedQueue->mId);
ASSERT_EQ(mTimedQueue->mAfter, stateUpdateInterval);
callback = mTimedQueue->mWhat;
mTimedQueue->clearJob(IncrementalService::kAllStoragesId);
// Fully loaded.
EXPECT_CALL(*mIncFs, isEverythingFullyLoaded(_))
.WillOnce(Return(incfs::LoadingState::Full))
.WillOnce(Return(incfs::LoadingState::Full));
// But with readlogs.
ASSERT_GE(mDataLoader->setStorageParams(true), 0);
// Send the callback, still nothing.
callback();
// Still started.
ASSERT_EQ(mDataLoader->status(), IDataLoaderStatusListener::DATA_LOADER_STARTED);
// Still present.
ASSERT_EQ(IncrementalService::kAllStoragesId, mTimedQueue->mId);
ASSERT_EQ(mTimedQueue->mAfter, stateUpdateInterval);
callback = mTimedQueue->mWhat;
mTimedQueue->clearJob(IncrementalService::kAllStoragesId);
// Disable readlogs and expect the unbind.
EXPECT_CALL(*mDataLoaderManager, unbindFromDataLoader(_)).Times(1);
ASSERT_GE(mDataLoader->setStorageParams(false), 0);
callback();
// Destroyed.
ASSERT_EQ(mDataLoader->status(), IDataLoaderStatusListener::DATA_LOADER_DESTROYED);
}
static std::vector<PerUidReadTimeouts> createPerUidTimeouts(
std::initializer_list<std::tuple<int, int, int, int>> tuples) {
std::vector<PerUidReadTimeouts> result;
for (auto&& tuple : tuples) {
result.emplace_back();
auto& timeouts = result.back();
timeouts.uid = std::get<0>(tuple);
timeouts.minTimeUs = std::get<1>(tuple);
timeouts.minPendingTimeUs = std::get<2>(tuple);
timeouts.maxPendingTimeUs = std::get<3>(tuple);
}
return result;
}
static ErrorCode checkPerUidTimeouts(const Control& control,
const std::vector<PerUidReadTimeouts>& perUidReadTimeouts) {
std::vector<PerUidReadTimeouts> expected =
createPerUidTimeouts({{0, 1, 2, 3}, {1, 2, 3, 4}, {2, 3, 4, 100000000}});
EXPECT_EQ(expected, perUidReadTimeouts);
return 0;
}
static ErrorCode checkPerUidTimeoutsEmpty(
const Control& control, const std::vector<PerUidReadTimeouts>& perUidReadTimeouts) {
EXPECT_EQ(0u, perUidReadTimeouts.size());
return 0;
}
TEST_F(IncrementalServiceTest, testPerUidTimeoutsTooShort) {
EXPECT_CALL(*mDataLoaderManager, bindToDataLoader(_, _, _, _, _)).Times(1);
EXPECT_CALL(*mDataLoaderManager, unbindFromDataLoader(_)).Times(1);
EXPECT_CALL(*mDataLoader, create(_, _, _, _)).Times(1);
EXPECT_CALL(*mDataLoader, start(_)).Times(1);
EXPECT_CALL(*mDataLoader, destroy(_)).Times(1);
EXPECT_CALL(*mIncFs, setUidReadTimeouts(_, _)).Times(0);
EXPECT_CALL(*mTimedQueue, addJob(_, _, _)).Times(2);
EXPECT_CALL(*mVold, unmountIncFs(_)).Times(2);
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_GE(storageId, 0);
mIncrementalService->startLoading(storageId, std::move(mDataLoaderParcel), {}, {}, {},
createPerUidTimeouts(
{{0, 1, 2, 3}, {1, 2, 3, 4}, {2, 3, 4, 5}}));
}
TEST_F(IncrementalServiceTest, testPerUidTimeoutsSuccess) {
mVold->setIncFsMountOptionsSuccess();
mAppOpsManager->checkPermissionSuccess();
mFs->hasFiles();
EXPECT_CALL(*mIncFs, setUidReadTimeouts(_, _))
// First call.
.WillOnce(Invoke(&checkPerUidTimeouts))
// Fully loaded and no readlogs.
.WillOnce(Invoke(&checkPerUidTimeoutsEmpty));
EXPECT_CALL(*mTimedQueue, addJob(_, _, _)).Times(3);
// Loading storage.
EXPECT_CALL(*mIncFs, isEverythingFullyLoaded(_))
.WillOnce(Return(incfs::LoadingState::MissingBlocks))
.WillOnce(Return(incfs::LoadingState::MissingBlocks))
.WillOnce(Return(incfs::LoadingState::Full));
// Mark DataLoader as 'system' so that readlogs don't pollute the timed queue.
mDataLoaderParcel.packageName = "android";
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_GE(storageId, 0);
mIncrementalService->startLoading(storageId, std::move(mDataLoaderParcel), {}, {}, {},
createPerUidTimeouts(
{{0, 1, 2, 3}, {1, 2, 3, 4}, {2, 3, 4, 100000000}}));
{
// Timed callback present -> 0 progress.
ASSERT_EQ(IncrementalService::kAllStoragesId, mTimedQueue->mId);
ASSERT_GE(mTimedQueue->mAfter, std::chrono::seconds(1));
const auto timedCallback = mTimedQueue->mWhat;
mTimedQueue->clearJob(IncrementalService::kAllStoragesId);
// Call it again.
timedCallback();
}
{
// Still present -> some progress.
ASSERT_EQ(IncrementalService::kAllStoragesId, mTimedQueue->mId);
ASSERT_GE(mTimedQueue->mAfter, std::chrono::seconds(1));
const auto timedCallback = mTimedQueue->mWhat;
mTimedQueue->clearJob(IncrementalService::kAllStoragesId);
// Fully loaded but readlogs collection enabled.
ASSERT_GE(mDataLoader->setStorageParams(true), 0);
// Call it again.
timedCallback();
}
{
// Still present -> fully loaded + readlogs.
ASSERT_EQ(IncrementalService::kAllStoragesId, mTimedQueue->mId);
ASSERT_GE(mTimedQueue->mAfter, std::chrono::seconds(1));
const auto timedCallback = mTimedQueue->mWhat;
mTimedQueue->clearJob(IncrementalService::kAllStoragesId);
// Now disable readlogs.
ASSERT_GE(mDataLoader->setStorageParams(false), 0);
// Call it again.
timedCallback();
}
// No callbacks anymore -> fully loaded and no readlogs.
ASSERT_EQ(mTimedQueue->mAfter, Milliseconds());
}
TEST_F(IncrementalServiceTest, testInvalidMetricsQuery) {
const auto invalidStorageId = 100;
android::os::PersistableBundle result{};
mIncrementalService->getMetrics(invalidStorageId, &result);
int64_t expected = -1, value = -1;
ASSERT_FALSE(
result.getLong(String16(BnIncrementalService::METRICS_MILLIS_SINCE_OLDEST_PENDING_READ()
.c_str()),
&value));
ASSERT_EQ(expected, value);
ASSERT_TRUE(result.empty());
}
TEST_F(IncrementalServiceTest, testNoDataLoaderMetrics) {
mVold->setIncFsMountOptionsSuccess();
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_GE(storageId, 0);
android::os::PersistableBundle result{};
mIncrementalService->getMetrics(storageId, &result);
int64_t expected = -1, value = -1;
ASSERT_FALSE(
result.getLong(String16(BnIncrementalService::METRICS_MILLIS_SINCE_OLDEST_PENDING_READ()
.c_str()),
&value));
ASSERT_EQ(expected, value);
ASSERT_EQ(1, (int)result.size());
bool expectedReadLogsEnabled = false;
ASSERT_TRUE(
result.getBoolean(String16(BnIncrementalService::METRICS_READ_LOGS_ENABLED().c_str()),
&expectedReadLogsEnabled));
ASSERT_EQ(mVold->readLogsEnabled(), expectedReadLogsEnabled);
}
TEST_F(IncrementalServiceTest, testInvalidMetricsKeys) {
mVold->setIncFsMountOptionsSuccess();
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_GE(storageId, 0);
ASSERT_TRUE(mIncrementalService->startLoading(storageId, std::move(mDataLoaderParcel), {}, {},
{}, {}));
android::os::PersistableBundle result{};
mIncrementalService->getMetrics(storageId, &result);
int64_t expected = -1, value = -1;
ASSERT_FALSE(result.getLong(String16("invalid"), &value));
ASSERT_EQ(expected, value);
ASSERT_EQ(6, (int)result.size());
}
TEST_F(IncrementalServiceTest, testMetricsWithNoLastReadError) {
mVold->setIncFsMountOptionsSuccess();
ON_CALL(*mIncFs, getMetrics(_))
.WillByDefault(Return(Metrics{
.readsDelayedMin = 10,
.readsDelayedMinUs = 5000,
.readsDelayedPending = 10,
.readsDelayedPendingUs = 5000,
.readsFailedHashVerification = 10,
.readsFailedOther = 10,
.readsFailedTimedOut = 10,
}));
ON_CALL(*mIncFs, getLastReadError(_)).WillByDefault(Return(LastReadError{}));
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_GE(storageId, 0);
ASSERT_TRUE(mIncrementalService->startLoading(storageId, std::move(mDataLoaderParcel), {}, {},
{}, {}));
android::os::PersistableBundle result{};
mIncrementalService->getMetrics(storageId, &result);
ASSERT_EQ(9, (int)result.size());
int expectedtotalDelayedReads = 20, totalDelayedReads = -1;
ASSERT_TRUE(result.getInt(String16(BnIncrementalService::METRICS_TOTAL_DELAYED_READS().c_str()),
&totalDelayedReads));
ASSERT_EQ(expectedtotalDelayedReads, totalDelayedReads);
int expectedtotalFailedReads = 30, totalFailedReads = -1;
ASSERT_TRUE(result.getInt(String16(BnIncrementalService::METRICS_TOTAL_FAILED_READS().c_str()),
&totalFailedReads));
ASSERT_EQ(expectedtotalFailedReads, totalFailedReads);
int64_t expectedtotalDelayedReadsMillis = 10, totalDelayedReadsMillis = -1;
ASSERT_TRUE(result.getLong(String16(BnIncrementalService::METRICS_TOTAL_DELAYED_READS_MILLIS()
.c_str()),
&totalDelayedReadsMillis));
ASSERT_EQ(expectedtotalDelayedReadsMillis, totalDelayedReadsMillis);
int64_t expectedMillisSinceLastReadError = -1, millisSinceLastReadError = -1;
ASSERT_FALSE(
result.getLong(String16(BnIncrementalService::METRICS_MILLIS_SINCE_LAST_READ_ERROR()
.c_str()),
&millisSinceLastReadError));
ASSERT_EQ(expectedMillisSinceLastReadError, millisSinceLastReadError);
int expectedLastReadErrorNumber = -1, lastReadErrorNumber = -1;
ASSERT_FALSE(
result.getInt(String16(BnIncrementalService::METRICS_LAST_READ_ERROR_NUMBER().c_str()),
&lastReadErrorNumber));
ASSERT_EQ(expectedLastReadErrorNumber, lastReadErrorNumber);
int expectedLastReadUid = -1, lastReadErrorUid = -1;
ASSERT_FALSE(
result.getInt(String16(BnIncrementalService::METRICS_LAST_READ_ERROR_UID().c_str()),
&lastReadErrorUid));
ASSERT_EQ(expectedLastReadUid, lastReadErrorUid);
}
TEST_F(IncrementalServiceTest, testMetricsWithLastReadError) {
mVold->setIncFsMountOptionsSuccess();
ON_CALL(*mIncFs, getMetrics(_)).WillByDefault(Return(Metrics{}));
mClock->advanceMs(5);
const auto now = mClock->getClock();
ON_CALL(*mIncFs, getLastReadError(_))
.WillByDefault(Return(LastReadError{.timestampUs = static_cast<uint64_t>(
duration_cast<std::chrono::microseconds>(
now.time_since_epoch())
.count()),
.errorNo = static_cast<uint32_t>(-ETIME),
.uid = 20000}));
TemporaryDir tempDir;
int storageId =
mIncrementalService->createStorage(tempDir.path, mDataLoaderParcel,
IncrementalService::CreateOptions::CreateNew);
ASSERT_GE(storageId, 0);
ASSERT_TRUE(mIncrementalService->startLoading(storageId, std::move(mDataLoaderParcel), {}, {},
{}, {}));
mClock->advanceMs(10);
android::os::PersistableBundle result{};
mIncrementalService->getMetrics(storageId, &result);
ASSERT_EQ(12, (int)result.size());
int64_t expectedMillisSinceLastReadError = 10, millisSinceLastReadError = -1;
ASSERT_TRUE(result.getLong(String16(BnIncrementalService::METRICS_MILLIS_SINCE_LAST_READ_ERROR()
.c_str()),
&millisSinceLastReadError));
ASSERT_EQ(expectedMillisSinceLastReadError, millisSinceLastReadError);
int expectedLastReadErrorNumber = -ETIME, lastReadErrorNumber = -1;
ASSERT_TRUE(
result.getInt(String16(BnIncrementalService::METRICS_LAST_READ_ERROR_NUMBER().c_str()),
&lastReadErrorNumber));
ASSERT_EQ(expectedLastReadErrorNumber, lastReadErrorNumber);
int expectedLastReadUid = 20000, lastReadErrorUid = -1;
ASSERT_TRUE(result.getInt(String16(BnIncrementalService::METRICS_LAST_READ_ERROR_UID().c_str()),
&lastReadErrorUid));
ASSERT_EQ(expectedLastReadUid, lastReadErrorUid);
}
} // namespace android::os::incremental