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fuchsia / third_party / android / platform / frameworks / av / 7879fa986aba0570276adf4d1554d4813e85ec12 / . / media / codec2 / hidl / client / client.cpp
blob: 5ed54f1a24827aae0a451e2bf31dcfdbba8415af [file] [log] [blame]
/*
* Copyright 2018 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.
*/
//#define LOG_NDEBUG 0
#define LOG_TAG "Codec2Client"
#include <android-base/logging.h>
#include <codec2/hidl/client.h>
#include <deque>
#include <iterator>
#include <limits>
#include <map>
#include <mutex>
#include <sstream>
#include <thread>
#include <type_traits>
#include <vector>
#include <android-base/properties.h>
#include <bufferpool/ClientManager.h>
#include <cutils/native_handle.h>
#include <gui/bufferqueue/2.0/B2HGraphicBufferProducer.h>
#include <gui/bufferqueue/2.0/H2BGraphicBufferProducer.h>
#include <hidl/HidlSupport.h>
#include <android/hardware/media/bufferpool/2.0/IClientManager.h>
#include <android/hardware/media/c2/1.0/IComponent.h>
#include <android/hardware/media/c2/1.0/IComponentInterface.h>
#include <android/hardware/media/c2/1.0/IComponentListener.h>
#include <android/hardware/media/c2/1.0/IComponentStore.h>
#include <android/hardware/media/c2/1.0/IConfigurable.h>
#include <android/hidl/manager/1.2/IServiceManager.h>
#include <C2Debug.h>
#include <C2BufferPriv.h>
#include <C2PlatformSupport.h>
namespace android {
using ::android::hardware::hidl_vec;
using ::android::hardware::hidl_string;
using ::android::hardware::Return;
using ::android::hardware::Void;
using namespace ::android::hardware::media::c2::V1_0;
using namespace ::android::hardware::media::c2::V1_0::utils;
using namespace ::android::hardware::media::bufferpool::V2_0;
using namespace ::android::hardware::media::bufferpool::V2_0::implementation;
using HGraphicBufferProducer1 = ::android::hardware::graphics::bufferqueue::
V1_0::IGraphicBufferProducer;
using HGraphicBufferProducer2 = ::android::hardware::graphics::bufferqueue::
V2_0::IGraphicBufferProducer;
using B2HGraphicBufferProducer2 = ::android::hardware::graphics::bufferqueue::
V2_0::utils::B2HGraphicBufferProducer;
using H2BGraphicBufferProducer2 = ::android::hardware::graphics::bufferqueue::
V2_0::utils::H2BGraphicBufferProducer;
namespace /* unnamed */ {
// c2_status_t value that corresponds to hwbinder transaction failure.
constexpr c2_status_t C2_TRANSACTION_FAILED = C2_CORRUPTED;
// Searches for a name in GetServiceNames() and returns the index found. If the
// name is not found, the returned index will be equal to
// GetServiceNames().size().
size_t getServiceIndex(char const* name) {
std::vector<std::string> const& names = Codec2Client::GetServiceNames();
size_t i = 0;
for (; i < names.size(); ++i) {
if (name == names[i]) {
break;
}
}
return i;
}
} // unnamed namespace
// This class caches a Codec2Client object and its component traits. The client
// will be created the first time it is needed, and it can be refreshed if the
// service dies (by calling invalidate()). The first time listComponents() is
// called from the client, the result will be cached.
class Codec2Client::Cache {
// Cached client
std::shared_ptr<Codec2Client> mClient;
mutable std::mutex mClientMutex;
// Cached component traits
std::vector<C2Component::Traits> mTraits;
std::once_flag mTraitsInitializationFlag;
// The index of the service. This is based on GetServiceNames().
size_t mIndex;
// Called by s() exactly once to initialize the cache. The index must be a
// valid index into the vector returned by GetServiceNames(). Calling
// init(index) will associate the cache to the service with name
// GetServiceNames()[index].
void init(size_t index) {
mIndex = index;
}
public:
Cache() = default;
// Initializes mClient if needed, then returns mClient.
// If the service is unavailable but listed in the manifest, this function
// will block indefinitely.
std::shared_ptr<Codec2Client> getClient() {
std::scoped_lock lock{mClientMutex};
if (!mClient) {
mClient = Codec2Client::_CreateFromIndex(mIndex);
}
return mClient;
}
// Causes a subsequent call to getClient() to create a new client. This
// function should be called after the service dies.
//
// Note: This function is called only by ForAllServices().
void invalidate() {
std::scoped_lock lock{mClientMutex};
mClient = nullptr;
}
// Returns a list of traits for components supported by the service. This
// list is cached.
std::vector<C2Component::Traits> const& getTraits() {
std::call_once(mTraitsInitializationFlag, [this]() {
bool success{false};
// Spin until _listComponents() is successful.
while (true) {
std::shared_ptr<Codec2Client> client = getClient();
mTraits = client->_listComponents(&success);
if (success) {
break;
}
using namespace std::chrono_literals;
static constexpr auto kServiceRetryPeriod = 5s;
LOG(INFO) << "Failed to retrieve component traits from service "
"\"" << GetServiceNames()[mIndex] << "\". "
"Retrying...";
std::this_thread::sleep_for(kServiceRetryPeriod);
}
});
return mTraits;
}
// List() returns the list of all caches.
static std::vector<Cache>& List() {
static std::vector<Cache> sCaches{[]() {
size_t numServices = GetServiceNames().size();
std::vector<Cache> caches(numServices);
for (size_t i = 0; i < numServices; ++i) {
caches[i].init(i);
}
return caches;
}()};
return sCaches;
}
};
// Codec2ConfigurableClient
const C2String& Codec2ConfigurableClient::getName() const {
return mName;
}
Codec2ConfigurableClient::Codec2ConfigurableClient(
const sp<IConfigurable>& base)
: mBase{base},
mName{[base]() -> C2String {
C2String outName;
Return<void> transStatus = base->getName(
[&outName](const hidl_string& name) {
outName = name.c_str();
});
return transStatus.isOk() ? outName : "";
}()} {
}
c2_status_t Codec2ConfigurableClient::query(
const std::vector<C2Param*> &stackParams,
const std::vector<C2Param::Index> &heapParamIndices,
c2_blocking_t mayBlock,
std::vector<std::unique_ptr<C2Param>>* const heapParams) const {
hidl_vec<ParamIndex> indices(
stackParams.size() + heapParamIndices.size());
size_t numIndices = 0;
for (C2Param* const& stackParam : stackParams) {
if (!stackParam) {
LOG(WARNING) << "query -- null stack param encountered.";
continue;
}
indices[numIndices++] = static_cast<ParamIndex>(stackParam->index());
}
size_t numStackIndices = numIndices;
for (const C2Param::Index& index : heapParamIndices) {
indices[numIndices++] =
static_cast<ParamIndex>(static_cast<uint32_t>(index));
}
indices.resize(numIndices);
if (heapParams) {
heapParams->reserve(heapParams->size() + numIndices);
}
c2_status_t status;
Return<void> transStatus = mBase->query(
indices,
mayBlock == C2_MAY_BLOCK,
[&status, &numStackIndices, &stackParams, heapParams](
Status s, const Params& p) {
status = static_cast<c2_status_t>(s);
if (status != C2_OK && status != C2_BAD_INDEX) {
LOG(DEBUG) << "query -- call failed: "
<< status << ".";
return;
}
std::vector<C2Param*> paramPointers;
if (!parseParamsBlob(&paramPointers, p)) {
LOG(ERROR) << "query -- error while parsing params.";
status = C2_CORRUPTED;
return;
}
size_t i = 0;
for (auto it = paramPointers.begin();
it != paramPointers.end(); ) {
C2Param* paramPointer = *it;
if (numStackIndices > 0) {
--numStackIndices;
if (!paramPointer) {
LOG(WARNING) << "query -- null stack param.";
++it;
continue;
}
for (; i < stackParams.size() && !stackParams[i]; ) {
++i;
}
if (i >= stackParams.size()) {
LOG(ERROR) << "query -- unexpected error.";
status = C2_CORRUPTED;
return;
}
if (stackParams[i]->index() != paramPointer->index()) {
LOG(WARNING) << "query -- param skipped: "
"index = "
<< stackParams[i]->index() << ".";
stackParams[i++]->invalidate();
continue;
}
if (!stackParams[i++]->updateFrom(*paramPointer)) {
LOG(WARNING) << "query -- param update failed: "
"index = "
<< paramPointer->index() << ".";
}
} else {
if (!paramPointer) {
LOG(WARNING) << "query -- null heap param.";
++it;
continue;
}
if (!heapParams) {
LOG(WARNING) << "query -- "
"unexpected extra stack param.";
} else {
heapParams->emplace_back(
C2Param::Copy(*paramPointer));
}
}
++it;
}
});
if (!transStatus.isOk()) {
LOG(ERROR) << "query -- transaction failed.";
return C2_TRANSACTION_FAILED;
}
return status;
}
c2_status_t Codec2ConfigurableClient::config(
const std::vector<C2Param*> &params,
c2_blocking_t mayBlock,
std::vector<std::unique_ptr<C2SettingResult>>* const failures) {
Params hidlParams;
if (!createParamsBlob(&hidlParams, params)) {
LOG(ERROR) << "config -- bad input.";
return C2_TRANSACTION_FAILED;
}
c2_status_t status;
Return<void> transStatus = mBase->config(
hidlParams,
mayBlock == C2_MAY_BLOCK,
[&status, &params, failures](
Status s,
const hidl_vec<SettingResult> f,
const Params& o) {
status = static_cast<c2_status_t>(s);
if (status != C2_OK && status != C2_BAD_INDEX) {
LOG(DEBUG) << "config -- call failed: "
<< status << ".";
}
size_t i = failures->size();
failures->resize(i + f.size());
for (const SettingResult& sf : f) {
if (!objcpy(&(*failures)[i++], sf)) {
LOG(ERROR) << "config -- "
<< "invalid SettingResult returned.";
return;
}
}
if (!updateParamsFromBlob(params, o)) {
LOG(ERROR) << "config -- "
<< "failed to parse returned params.";
status = C2_CORRUPTED;
}
});
if (!transStatus.isOk()) {
LOG(ERROR) << "config -- transaction failed.";
return C2_TRANSACTION_FAILED;
}
return status;
}
c2_status_t Codec2ConfigurableClient::querySupportedParams(
std::vector<std::shared_ptr<C2ParamDescriptor>>* const params) const {
// TODO: Cache and query properly!
c2_status_t status;
Return<void> transStatus = mBase->querySupportedParams(
std::numeric_limits<uint32_t>::min(),
std::numeric_limits<uint32_t>::max(),
[&status, params](
Status s,
const hidl_vec<ParamDescriptor>& p) {
status = static_cast<c2_status_t>(s);
if (status != C2_OK) {
LOG(DEBUG) << "querySupportedParams -- call failed: "
<< status << ".";
return;
}
size_t i = params->size();
params->resize(i + p.size());
for (const ParamDescriptor& sp : p) {
if (!objcpy(&(*params)[i++], sp)) {
LOG(ERROR) << "querySupportedParams -- "
<< "invalid returned ParamDescriptor.";
return;
}
}
});
if (!transStatus.isOk()) {
LOG(ERROR) << "querySupportedParams -- transaction failed.";
return C2_TRANSACTION_FAILED;
}
return status;
}
c2_status_t Codec2ConfigurableClient::querySupportedValues(
std::vector<C2FieldSupportedValuesQuery>& fields,
c2_blocking_t mayBlock) const {
hidl_vec<FieldSupportedValuesQuery> inFields(fields.size());
for (size_t i = 0; i < fields.size(); ++i) {
if (!objcpy(&inFields[i], fields[i])) {
LOG(ERROR) << "querySupportedValues -- bad input";
return C2_TRANSACTION_FAILED;
}
}
c2_status_t status;
Return<void> transStatus = mBase->querySupportedValues(
inFields,
mayBlock == C2_MAY_BLOCK,
[&status, &inFields, &fields](
Status s,
const hidl_vec<FieldSupportedValuesQueryResult>& r) {
status = static_cast<c2_status_t>(s);
if (status != C2_OK) {
LOG(DEBUG) << "querySupportedValues -- call failed: "
<< status << ".";
return;
}
if (r.size() != fields.size()) {
LOG(ERROR) << "querySupportedValues -- "
"input and output lists "
"have different sizes.";
status = C2_CORRUPTED;
return;
}
for (size_t i = 0; i < fields.size(); ++i) {
if (!objcpy(&fields[i], inFields[i], r[i])) {
LOG(ERROR) << "querySupportedValues -- "
"invalid returned value.";
status = C2_CORRUPTED;
return;
}
}
});
if (!transStatus.isOk()) {
LOG(ERROR) << "querySupportedValues -- transaction failed.";
return C2_TRANSACTION_FAILED;
}
return status;
}
// Codec2Client::Component::HidlListener
struct Codec2Client::Component::HidlListener : public IComponentListener {
std::weak_ptr<Component> component;
std::weak_ptr<Listener> base;
virtual Return<void> onWorkDone(const WorkBundle& workBundle) override {
std::list<std::unique_ptr<C2Work>> workItems;
if (!objcpy(&workItems, workBundle)) {
LOG(DEBUG) << "onWorkDone -- received corrupted WorkBundle.";
return Void();
}
// release input buffers potentially held by the component from queue
std::shared_ptr<Codec2Client::Component> strongComponent =
component.lock();
if (strongComponent) {
strongComponent->handleOnWorkDone(workItems);
}
if (std::shared_ptr<Codec2Client::Listener> listener = base.lock()) {
listener->onWorkDone(component, workItems);
} else {
LOG(DEBUG) << "onWorkDone -- listener died.";
}
return Void();
}
virtual Return<void> onTripped(
const hidl_vec<SettingResult>& settingResults) override {
std::vector<std::shared_ptr<C2SettingResult>> c2SettingResults(
settingResults.size());
for (size_t i = 0; i < settingResults.size(); ++i) {
std::unique_ptr<C2SettingResult> c2SettingResult;
if (!objcpy(&c2SettingResult, settingResults[i])) {
LOG(DEBUG) << "onTripped -- received corrupted SettingResult.";
return Void();
}
c2SettingResults[i] = std::move(c2SettingResult);
}
if (std::shared_ptr<Codec2Client::Listener> listener = base.lock()) {
listener->onTripped(component, c2SettingResults);
} else {
LOG(DEBUG) << "onTripped -- listener died.";
}
return Void();
}
virtual Return<void> onError(Status s, uint32_t errorCode) override {
LOG(DEBUG) << "onError --"
<< " status = " << s
<< ", errorCode = " << errorCode
<< ".";
if (std::shared_ptr<Listener> listener = base.lock()) {
listener->onError(component, s == Status::OK ?
errorCode : static_cast<c2_status_t>(s));
} else {
LOG(DEBUG) << "onError -- listener died.";
}
return Void();
}
virtual Return<void> onFramesRendered(
const hidl_vec<RenderedFrame>& renderedFrames) override {
std::shared_ptr<Listener> listener = base.lock();
if (!listener) {
LOG(DEBUG) << "onFramesRendered -- listener died.";
return Void();
}
for (const RenderedFrame& renderedFrame : renderedFrames) {
listener->onFrameRendered(
renderedFrame.bufferQueueId,
renderedFrame.slotId,
renderedFrame.timestampNs);
}
return Void();
}
virtual Return<void> onInputBuffersReleased(
const hidl_vec<InputBuffer>& inputBuffers) override {
std::shared_ptr<Listener> listener = base.lock();
if (!listener) {
LOG(DEBUG) << "onInputBuffersReleased -- listener died.";
return Void();
}
for (const InputBuffer& inputBuffer : inputBuffers) {
LOG(VERBOSE) << "onInputBuffersReleased --"
" received death notification of"
" input buffer:"
" frameIndex = " << inputBuffer.frameIndex
<< ", bufferIndex = " << inputBuffer.arrayIndex
<< ".";
listener->onInputBufferDone(
inputBuffer.frameIndex, inputBuffer.arrayIndex);
}
return Void();
}
};
// Codec2Client
Codec2Client::Codec2Client(const sp<IComponentStore>& base,
size_t serviceIndex)
: Configurable{
[base]() -> sp<IConfigurable> {
Return<sp<IConfigurable>> transResult =
base->getConfigurable();
return transResult.isOk() ?
static_cast<sp<IConfigurable>>(transResult) :
nullptr;
}()
},
mBase{base},
mServiceIndex{serviceIndex} {
Return<sp<IClientManager>> transResult = base->getPoolClientManager();
if (!transResult.isOk()) {
LOG(ERROR) << "getPoolClientManager -- transaction failed.";
} else {
mHostPoolManager = static_cast<sp<IClientManager>>(transResult);
}
}
sp<Codec2Client::Base> const& Codec2Client::getBase() const {
return mBase;
}
std::string const& Codec2Client::getServiceName() const {
return GetServiceNames()[mServiceIndex];
}
c2_status_t Codec2Client::createComponent(
const C2String& name,
const std::shared_ptr<Codec2Client::Listener>& listener,
std::shared_ptr<Codec2Client::Component>* const component) {
c2_status_t status;
sp<Component::HidlListener> hidlListener = new Component::HidlListener{};
hidlListener->base = listener;
Return<void> transStatus = mBase->createComponent(
name,
hidlListener,
ClientManager::getInstance(),
[&status, component, hidlListener](
Status s,
const sp<IComponent>& c) {
status = static_cast<c2_status_t>(s);
if (status != C2_OK) {
return;
}
*component = std::make_shared<Codec2Client::Component>(c);
hidlListener->component = *component;
});
if (!transStatus.isOk()) {
LOG(ERROR) << "createComponent(" << name.c_str()
<< ") -- transaction failed.";
return C2_TRANSACTION_FAILED;
} else if (status != C2_OK) {
LOG(ERROR) << "createComponent(" << name.c_str()
<< ") -- call failed: " << status << ".";
return status;
} else if (!*component) {
LOG(ERROR) << "createComponent(" << name.c_str()
<< ") -- null component.";
return C2_CORRUPTED;
}
status = (*component)->setDeathListener(*component, listener);
if (status != C2_OK) {
LOG(ERROR) << "createComponent(" << name.c_str()
<< ") -- failed to set up death listener: "
<< status << ".";
}
(*component)->mBufferPoolSender.setReceiver(mHostPoolManager);
return status;
}
c2_status_t Codec2Client::createInterface(
const C2String& name,
std::shared_ptr<Codec2Client::Interface>* const interface) {
c2_status_t status;
Return<void> transStatus = mBase->createInterface(
name,
[&status, interface](
Status s,
const sp<IComponentInterface>& i) {
status = static_cast<c2_status_t>(s);
if (status != C2_OK) {
return;
}
*interface = std::make_shared<Interface>(i);
});
if (!transStatus.isOk()) {
LOG(ERROR) << "createInterface(" << name.c_str()
<< ") -- transaction failed.";
return C2_TRANSACTION_FAILED;
} else if (status != C2_OK) {
LOG(ERROR) << "createComponent(" << name.c_str()
<< ") -- call failed: " << status << ".";
return status;
}
return status;
}
c2_status_t Codec2Client::createInputSurface(
std::shared_ptr<InputSurface>* const inputSurface) {
c2_status_t status;
Return<void> transStatus = mBase->createInputSurface(
[&status, inputSurface](
Status s,
const sp<IInputSurface>& i) {
status = static_cast<c2_status_t>(s);
if (status != C2_OK) {
return;
}
*inputSurface = std::make_shared<InputSurface>(i);
});
if (!transStatus.isOk()) {
LOG(ERROR) << "createInputSurface -- transaction failed.";
return C2_TRANSACTION_FAILED;
} else if (status != C2_OK) {
LOG(DEBUG) << "createInputSurface -- call failed: "
<< status << ".";
}
return status;
}
std::vector<C2Component::Traits> const& Codec2Client::listComponents() const {
return Cache::List()[mServiceIndex].getTraits();
}
std::vector<C2Component::Traits> Codec2Client::_listComponents(
bool* success) const {
std::vector<C2Component::Traits> traits;
std::string const& serviceName = getServiceName();
Return<void> transStatus = mBase->listComponents(
[&traits, &serviceName](Status s,
const hidl_vec<IComponentStore::ComponentTraits>& t) {
if (s != Status::OK) {
LOG(DEBUG) << "_listComponents -- call failed: "
<< static_cast<c2_status_t>(s) << ".";
return;
}
traits.resize(t.size());
for (size_t i = 0; i < t.size(); ++i) {
if (!objcpy(&traits[i], t[i])) {
LOG(ERROR) << "_listComponents -- corrupted output.";
return;
}
traits[i].owner = serviceName;
}
});
if (!transStatus.isOk()) {
LOG(ERROR) << "_listComponents -- transaction failed.";
*success = false;
} else {
*success = true;
}
return traits;
}
c2_status_t Codec2Client::copyBuffer(
const std::shared_ptr<C2Buffer>& src,
const std::shared_ptr<C2Buffer>& dst) {
// TODO: Implement?
(void)src;
(void)dst;
LOG(ERROR) << "copyBuffer not implemented";
return C2_OMITTED;
}
std::shared_ptr<C2ParamReflector>
Codec2Client::getParamReflector() {
// TODO: this is not meant to be exposed as C2ParamReflector on the client side; instead, it
// should reflect the HAL API.
struct SimpleParamReflector : public C2ParamReflector {
virtual std::unique_ptr<C2StructDescriptor> describe(C2Param::CoreIndex coreIndex) const {
hidl_vec<ParamIndex> indices(1);
indices[0] = static_cast<ParamIndex>(coreIndex.coreIndex());
std::unique_ptr<C2StructDescriptor> descriptor;
Return<void> transStatus = mBase->getStructDescriptors(
indices,
[&descriptor](
Status s,
const hidl_vec<StructDescriptor>& sd) {
c2_status_t status = static_cast<c2_status_t>(s);
if (status != C2_OK) {
LOG(DEBUG) << "SimpleParamReflector -- "
"getStructDescriptors() failed: "
<< status << ".";
descriptor.reset();
return;
}
if (sd.size() != 1) {
LOG(DEBUG) << "SimpleParamReflector -- "
"getStructDescriptors() "
"returned vector of size "
<< sd.size() << ". "
"It should be 1.";
descriptor.reset();
return;
}
if (!objcpy(&descriptor, sd[0])) {
LOG(DEBUG) << "SimpleParamReflector -- "
"getStructDescriptors() returned "
"corrupted data.";
descriptor.reset();
return;
}
});
return descriptor;
}
SimpleParamReflector(sp<Base> base)
: mBase(base) { }
sp<Base> mBase;
};
return std::make_shared<SimpleParamReflector>(mBase);
};
std::vector<std::string> const& Codec2Client::GetServiceNames() {
static std::vector<std::string> sServiceNames{[]() {
using ::android::hardware::media::c2::V1_0::IComponentStore;
using ::android::hidl::manager::V1_2::IServiceManager;
while (true) {
sp<IServiceManager> serviceManager = IServiceManager::getService();
CHECK(serviceManager) << "Hardware service manager is not running.";
// There are three categories of services based on names.
std::vector<std::string> defaultNames; // Prefixed with "default"
std::vector<std::string> vendorNames; // Prefixed with "vendor"
std::vector<std::string> otherNames; // Others
Return<void> transResult;
transResult = serviceManager->listManifestByInterface(
IComponentStore::descriptor,
[&defaultNames, &vendorNames, &otherNames](
hidl_vec<hidl_string> const& instanceNames) {
for (hidl_string const& instanceName : instanceNames) {
char const* name = instanceName.c_str();
if (strncmp(name, "default", 7) == 0) {
defaultNames.emplace_back(name);
} else if (strncmp(name, "vendor", 6) == 0) {
vendorNames.emplace_back(name);
} else {
otherNames.emplace_back(name);
}
}
});
if (transResult.isOk()) {
// Sort service names in each category.
std::sort(defaultNames.begin(), defaultNames.end());
std::sort(vendorNames.begin(), vendorNames.end());
std::sort(otherNames.begin(), otherNames.end());
// Concatenate the three lists in this order: default, vendor,
// other.
std::vector<std::string>& names = defaultNames;
names.reserve(names.size() + vendorNames.size() + otherNames.size());
names.insert(names.end(),
std::make_move_iterator(vendorNames.begin()),
std::make_move_iterator(vendorNames.end()));
names.insert(names.end(),
std::make_move_iterator(otherNames.begin()),
std::make_move_iterator(otherNames.end()));
// Summarize to logcat.
if (names.empty()) {
LOG(INFO) << "No Codec2 services declared in the manifest.";
} else {
std::stringstream stringOutput;
stringOutput << "Available Codec2 services:";
for (std::string const& name : names) {
stringOutput << " \"" << name << "\"";
}
LOG(INFO) << stringOutput.str();
}
return names;
}
LOG(ERROR) << "Could not retrieve the list of service instances of "
<< IComponentStore::descriptor
<< ". Retrying...";
}
}()};
return sServiceNames;
}
std::shared_ptr<Codec2Client> Codec2Client::CreateFromService(
const char* name) {
size_t index = getServiceIndex(name);
return index == GetServiceNames().size() ?
nullptr : _CreateFromIndex(index);
}
std::vector<std::shared_ptr<Codec2Client>> Codec2Client::
CreateFromAllServices() {
std::vector<std::shared_ptr<Codec2Client>> clients(
GetServiceNames().size());
for (size_t i = GetServiceNames().size(); i > 0; ) {
--i;
clients[i] = _CreateFromIndex(i);
}
return clients;
}
std::shared_ptr<Codec2Client> Codec2Client::_CreateFromIndex(size_t index) {
std::string const& name = GetServiceNames()[index];
LOG(INFO) << "Creating a Codec2 client to service \"" << name << "\"";
sp<Base> baseStore = Base::getService(name);
CHECK(baseStore) << "Codec2 service \"" << name << "\""
" inaccessible for unknown reasons.";
LOG(INFO) << "Client to Codec2 service \"" << name << "\" created";
return std::make_shared<Codec2Client>(baseStore, index);
}
c2_status_t Codec2Client::ForAllServices(
const std::string &key,
std::function<c2_status_t(const std::shared_ptr<Codec2Client>&)>
predicate) {
c2_status_t status = C2_NO_INIT; // no IComponentStores present
// Cache the mapping key -> index of Codec2Client in Cache::List().
static std::mutex key2IndexMutex;
static std::map<std::string, size_t> key2Index;
// By default try all stores. However, try the last known client first. If
// the last known client fails, retry once. We do this by pushing the last
// known client in front of the list of all clients.
std::deque<size_t> indices;
for (size_t index = Cache::List().size(); index > 0; ) {
indices.push_front(--index);
}
bool wasMapped = false;
{
std::scoped_lock lock{key2IndexMutex};
auto it = key2Index.find(key);
if (it != key2Index.end()) {
indices.push_front(it->second);
wasMapped = true;
}
}
for (size_t index : indices) {
Cache& cache = Cache::List()[index];
std::shared_ptr<Codec2Client> client{cache.getClient()};
if (client) {
status = predicate(client);
if (status == C2_OK) {
std::scoped_lock lock{key2IndexMutex};
key2Index[key] = index; // update last known client index
return C2_OK;
}
}
if (wasMapped) {
LOG(INFO) << "Could not find \"" << key << "\""
" in the last instance. Retrying...";
wasMapped = false;
cache.invalidate();
}
}
return status; // return the last status from a valid client
}
std::shared_ptr<Codec2Client::Component>
Codec2Client::CreateComponentByName(
const char* componentName,
const std::shared_ptr<Listener>& listener,
std::shared_ptr<Codec2Client>* owner) {
std::shared_ptr<Component> component;
c2_status_t status = ForAllServices(
componentName,
[owner, &component, componentName, &listener](
const std::shared_ptr<Codec2Client> &client)
-> c2_status_t {
c2_status_t status = client->createComponent(componentName,
listener,
&component);
if (status == C2_OK) {
if (owner) {
*owner = client;
}
} else if (status != C2_NOT_FOUND) {
LOG(DEBUG) << "IComponentStore("
<< client->getServiceName()
<< ")::createComponent(\"" << componentName
<< "\") returned status = "
<< status << ".";
}
return status;
});
if (status != C2_OK) {
LOG(DEBUG) << "Could not create component \"" << componentName << "\". "
"Status = " << status << ".";
}
return component;
}
std::shared_ptr<Codec2Client::Interface>
Codec2Client::CreateInterfaceByName(
const char* interfaceName,
std::shared_ptr<Codec2Client>* owner) {
std::shared_ptr<Interface> interface;
c2_status_t status = ForAllServices(
interfaceName,
[owner, &interface, interfaceName](
const std::shared_ptr<Codec2Client> &client)
-> c2_status_t {
c2_status_t status = client->createInterface(interfaceName,
&interface);
if (status == C2_OK) {
if (owner) {
*owner = client;
}
} else if (status != C2_NOT_FOUND) {
LOG(DEBUG) << "IComponentStore("
<< client->getServiceName()
<< ")::createInterface(\"" << interfaceName
<< "\") returned status = "
<< status << ".";
}
return status;
});
if (status != C2_OK) {
LOG(DEBUG) << "Could not create interface \"" << interfaceName << "\". "
"Status = " << status << ".";
}
return interface;
}
std::vector<C2Component::Traits> const& Codec2Client::ListComponents() {
static std::vector<C2Component::Traits> sList{[]() {
std::vector<C2Component::Traits> list;
for (Cache& cache : Cache::List()) {
std::vector<C2Component::Traits> const& traits = cache.getTraits();
list.insert(list.end(), traits.begin(), traits.end());
}
return list;
}()};
return sList;
}
std::shared_ptr<Codec2Client::InputSurface> Codec2Client::CreateInputSurface(
char const* serviceName) {
int32_t inputSurfaceSetting = ::android::base::GetIntProperty(
"debug.stagefright.c2inputsurface", int32_t(0));
if (inputSurfaceSetting <= 0) {
return nullptr;
}
size_t index = GetServiceNames().size();
if (serviceName) {
index = getServiceIndex(serviceName);
if (index == GetServiceNames().size()) {
LOG(DEBUG) << "CreateInputSurface -- invalid service name: \""
<< serviceName << "\"";
}
}
std::shared_ptr<Codec2Client::InputSurface> inputSurface;
if (index != GetServiceNames().size()) {
std::shared_ptr<Codec2Client> client = Cache::List()[index].getClient();
if (client->createInputSurface(&inputSurface) == C2_OK) {
return inputSurface;
}
}
LOG(INFO) << "CreateInputSurface -- attempting to create an input surface "
"from all services...";
for (Cache& cache : Cache::List()) {
std::shared_ptr<Codec2Client> client = cache.getClient();
if (client->createInputSurface(&inputSurface) == C2_OK) {
LOG(INFO) << "CreateInputSurface -- input surface obtained from "
"service \"" << client->getServiceName() << "\"";
return inputSurface;
}
}
LOG(WARNING) << "CreateInputSurface -- failed to create an input surface "
"from all services";
return nullptr;
}
// Codec2Client::Listener
Codec2Client::Listener::~Listener() {
}
// Codec2Client::Interface
Codec2Client::Interface::Interface(const sp<Base>& base)
: Configurable{
[base]() -> sp<IConfigurable> {
Return<sp<IConfigurable>> transResult =
base->getConfigurable();
return transResult.isOk() ?
static_cast<sp<IConfigurable>>(transResult) :
nullptr;
}()
},
mBase{base} {
}
// Codec2Client::Component
Codec2Client::Component::Component(const sp<Base>& base)
: Configurable{
[base]() -> sp<IConfigurable> {
Return<sp<IComponentInterface>> transResult1 =
base->getInterface();
if (!transResult1.isOk()) {
return nullptr;
}
Return<sp<IConfigurable>> transResult2 =
static_cast<sp<IComponentInterface>>(transResult1)->
getConfigurable();
return transResult2.isOk() ?
static_cast<sp<IConfigurable>>(transResult2) :
nullptr;
}()
},
mBase{base},
mBufferPoolSender{nullptr} {
}
Codec2Client::Component::~Component() {
}
c2_status_t Codec2Client::Component::createBlockPool(
C2Allocator::id_t id,
C2BlockPool::local_id_t* blockPoolId,
std::shared_ptr<Codec2Client::Configurable>* configurable) {
c2_status_t status;
Return<void> transStatus = mBase->createBlockPool(
static_cast<uint32_t>(id),
[&status, blockPoolId, configurable](
Status s,
uint64_t pId,
const sp<IConfigurable>& c) {
status = static_cast<c2_status_t>(s);
configurable->reset();
if (status != C2_OK) {
LOG(DEBUG) << "createBlockPool -- call failed: "
<< status << ".";
return;
}
*blockPoolId = static_cast<C2BlockPool::local_id_t>(pId);
*configurable = std::make_shared<Configurable>(c);
});
if (!transStatus.isOk()) {
LOG(ERROR) << "createBlockPool -- transaction failed.";
return C2_TRANSACTION_FAILED;
}
return status;
}
c2_status_t Codec2Client::Component::destroyBlockPool(
C2BlockPool::local_id_t localId) {
Return<Status> transResult = mBase->destroyBlockPool(
static_cast<uint64_t>(localId));
if (!transResult.isOk()) {
LOG(ERROR) << "destroyBlockPool -- transaction failed.";
return C2_TRANSACTION_FAILED;
}
return static_cast<c2_status_t>(static_cast<Status>(transResult));
}
void Codec2Client::Component::handleOnWorkDone(
const std::list<std::unique_ptr<C2Work>> &workItems) {
// Output bufferqueue-based blocks' lifetime management
mOutputBufferQueue.holdBufferQueueBlocks(workItems);
}
c2_status_t Codec2Client::Component::queue(
std::list<std::unique_ptr<C2Work>>* const items) {
WorkBundle workBundle;
if (!objcpy(&workBundle, *items, &mBufferPoolSender)) {
LOG(ERROR) << "queue -- bad input.";
return C2_TRANSACTION_FAILED;
}
Return<Status> transStatus = mBase->queue(workBundle);
if (!transStatus.isOk()) {
LOG(ERROR) << "queue -- transaction failed.";
return C2_TRANSACTION_FAILED;
}
c2_status_t status =
static_cast<c2_status_t>(static_cast<Status>(transStatus));
if (status != C2_OK) {
LOG(DEBUG) << "queue -- call failed: " << status << ".";
}
return status;
}
c2_status_t Codec2Client::Component::flush(
C2Component::flush_mode_t mode,
std::list<std::unique_ptr<C2Work>>* const flushedWork) {
(void)mode; // Flush mode isn't supported in HIDL yet.
c2_status_t status;
Return<void> transStatus = mBase->flush(
[&status, flushedWork](
Status s, const WorkBundle& wb) {
status = static_cast<c2_status_t>(s);
if (status != C2_OK) {
LOG(DEBUG) << "flush -- call failed: " << status << ".";
return;
}
if (!objcpy(flushedWork, wb)) {
status = C2_CORRUPTED;
} else {
status = C2_OK;
}
});
if (!transStatus.isOk()) {
LOG(ERROR) << "flush -- transaction failed.";
return C2_TRANSACTION_FAILED;
}
// Indices of flushed work items.
std::vector<uint64_t> flushedIndices;
for (const std::unique_ptr<C2Work> &work : *flushedWork) {
if (work) {
if (work->worklets.empty()
|| !work->worklets.back()
|| (work->worklets.back()->output.flags &
C2FrameData::FLAG_INCOMPLETE) == 0) {
// input is complete
flushedIndices.emplace_back(
work->input.ordinal.frameIndex.peeku());
}
}
}
// Output bufferqueue-based blocks' lifetime management
mOutputBufferQueue.holdBufferQueueBlocks(*flushedWork);
return status;
}
c2_status_t Codec2Client::Component::drain(C2Component::drain_mode_t mode) {
Return<Status> transStatus = mBase->drain(
mode == C2Component::DRAIN_COMPONENT_WITH_EOS);
if (!transStatus.isOk()) {
LOG(ERROR) << "drain -- transaction failed.";
return C2_TRANSACTION_FAILED;
}
c2_status_t status =
static_cast<c2_status_t>(static_cast<Status>(transStatus));
if (status != C2_OK) {
LOG(DEBUG) << "drain -- call failed: " << status << ".";
}
return status;
}
c2_status_t Codec2Client::Component::start() {
Return<Status> transStatus = mBase->start();
if (!transStatus.isOk()) {
LOG(ERROR) << "start -- transaction failed.";
return C2_TRANSACTION_FAILED;
}
c2_status_t status =
static_cast<c2_status_t>(static_cast<Status>(transStatus));
if (status != C2_OK) {
LOG(DEBUG) << "start -- call failed: " << status << ".";
}
return status;
}
c2_status_t Codec2Client::Component::stop() {
Return<Status> transStatus = mBase->stop();
if (!transStatus.isOk()) {
LOG(ERROR) << "stop -- transaction failed.";
return C2_TRANSACTION_FAILED;
}
c2_status_t status =
static_cast<c2_status_t>(static_cast<Status>(transStatus));
if (status != C2_OK) {
LOG(DEBUG) << "stop -- call failed: " << status << ".";
}
return status;
}
c2_status_t Codec2Client::Component::reset() {
Return<Status> transStatus = mBase->reset();
if (!transStatus.isOk()) {
LOG(ERROR) << "reset -- transaction failed.";
return C2_TRANSACTION_FAILED;
}
c2_status_t status =
static_cast<c2_status_t>(static_cast<Status>(transStatus));
if (status != C2_OK) {
LOG(DEBUG) << "reset -- call failed: " << status << ".";
}
return status;
}
c2_status_t Codec2Client::Component::release() {
Return<Status> transStatus = mBase->release();
if (!transStatus.isOk()) {
LOG(ERROR) << "release -- transaction failed.";
return C2_TRANSACTION_FAILED;
}
c2_status_t status =
static_cast<c2_status_t>(static_cast<Status>(transStatus));
if (status != C2_OK) {
LOG(DEBUG) << "release -- call failed: " << status << ".";
}
return status;
}
c2_status_t Codec2Client::Component::setOutputSurface(
C2BlockPool::local_id_t blockPoolId,
const sp<IGraphicBufferProducer>& surface,
uint32_t generation) {
uint64_t bqId = 0;
sp<IGraphicBufferProducer> nullIgbp;
sp<HGraphicBufferProducer2> nullHgbp;
sp<HGraphicBufferProducer2> igbp = surface ?
surface->getHalInterface<HGraphicBufferProducer2>() : nullHgbp;
if (surface && !igbp) {
igbp = new B2HGraphicBufferProducer2(surface);
}
if (!surface) {
mOutputBufferQueue.configure(nullIgbp, generation, 0);
} else if (surface->getUniqueId(&bqId) != OK) {
LOG(ERROR) << "setOutputSurface -- "
"cannot obtain bufferqueue id.";
bqId = 0;
mOutputBufferQueue.configure(nullIgbp, generation, 0);
} else {
mOutputBufferQueue.configure(surface, generation, bqId);
}
ALOGD("generation remote change %u", generation);
Return<Status> transStatus = mBase->setOutputSurface(
static_cast<uint64_t>(blockPoolId),
bqId == 0 ? nullHgbp : igbp);
if (!transStatus.isOk()) {
LOG(ERROR) << "setOutputSurface -- transaction failed.";
return C2_TRANSACTION_FAILED;
}
c2_status_t status =
static_cast<c2_status_t>(static_cast<Status>(transStatus));
if (status != C2_OK) {
LOG(DEBUG) << "setOutputSurface -- call failed: " << status << ".";
}
return status;
}
status_t Codec2Client::Component::queueToOutputSurface(
const C2ConstGraphicBlock& block,
const QueueBufferInput& input,
QueueBufferOutput* output) {
return mOutputBufferQueue.outputBuffer(block, input, output);
}
c2_status_t Codec2Client::Component::connectToInputSurface(
const std::shared_ptr<InputSurface>& inputSurface,
std::shared_ptr<InputSurfaceConnection>* connection) {
c2_status_t status;
Return<void> transStatus = mBase->connectToInputSurface(
inputSurface->mBase,
[&status, connection](
Status s, const sp<IInputSurfaceConnection>& c) {
status = static_cast<c2_status_t>(s);
if (status != C2_OK) {
LOG(DEBUG) << "connectToInputSurface -- call failed: "
<< status << ".";
return;
}
*connection = std::make_shared<InputSurfaceConnection>(c);
});
if (!transStatus.isOk()) {
LOG(ERROR) << "connectToInputSurface -- transaction failed";
return C2_TRANSACTION_FAILED;
}
return status;
}
c2_status_t Codec2Client::Component::connectToOmxInputSurface(
const sp<HGraphicBufferProducer1>& producer,
const sp<HGraphicBufferSource>& source,
std::shared_ptr<InputSurfaceConnection>* connection) {
c2_status_t status;
Return<void> transStatus = mBase->connectToOmxInputSurface(
producer, source,
[&status, connection](
Status s, const sp<IInputSurfaceConnection>& c) {
status = static_cast<c2_status_t>(s);
if (status != C2_OK) {
LOG(DEBUG) << "connectToOmxInputSurface -- call failed: "
<< status << ".";
return;
}
*connection = std::make_shared<InputSurfaceConnection>(c);
});
if (!transStatus.isOk()) {
LOG(ERROR) << "connectToOmxInputSurface -- transaction failed.";
return C2_TRANSACTION_FAILED;
}
return status;
}
c2_status_t Codec2Client::Component::disconnectFromInputSurface() {
Return<Status> transStatus = mBase->disconnectFromInputSurface();
if (!transStatus.isOk()) {
LOG(ERROR) << "disconnectToInputSurface -- transaction failed.";
return C2_TRANSACTION_FAILED;
}
c2_status_t status =
static_cast<c2_status_t>(static_cast<Status>(transStatus));
if (status != C2_OK) {
LOG(DEBUG) << "disconnectFromInputSurface -- call failed: "
<< status << ".";
}
return status;
}
c2_status_t Codec2Client::Component::setDeathListener(
const std::shared_ptr<Component>& component,
const std::shared_ptr<Listener>& listener) {
struct HidlDeathRecipient : public hardware::hidl_death_recipient {
std::weak_ptr<Component> component;
std::weak_ptr<Listener> base;
virtual void serviceDied(
uint64_t /* cookie */,
const wp<::android::hidl::base::V1_0::IBase>& /* who */
) override {
if (std::shared_ptr<Codec2Client::Listener> listener = base.lock()) {
listener->onDeath(component);
} else {
LOG(DEBUG) << "onDeath -- listener died.";
}
}
};
sp<HidlDeathRecipient> deathRecipient = new HidlDeathRecipient();
deathRecipient->base = listener;
deathRecipient->component = component;
component->mDeathRecipient = deathRecipient;
Return<bool> transResult = component->mBase->linkToDeath(
component->mDeathRecipient, 0);
if (!transResult.isOk()) {
LOG(ERROR) << "setDeathListener -- linkToDeath() transaction failed.";
return C2_TRANSACTION_FAILED;
}
if (!static_cast<bool>(transResult)) {
LOG(DEBUG) << "setDeathListener -- linkToDeath() call failed.";
return C2_CORRUPTED;
}
return C2_OK;
}
// Codec2Client::InputSurface
Codec2Client::InputSurface::InputSurface(const sp<IInputSurface>& base)
: Configurable{
[base]() -> sp<IConfigurable> {
Return<sp<IConfigurable>> transResult =
base->getConfigurable();
return transResult.isOk() ?
static_cast<sp<IConfigurable>>(transResult) :
nullptr;
}()
},
mBase{base},
mGraphicBufferProducer{new
H2BGraphicBufferProducer2([base]() -> sp<HGraphicBufferProducer2> {
Return<sp<HGraphicBufferProducer2>> transResult =
base->getGraphicBufferProducer();
return transResult.isOk() ?
static_cast<sp<HGraphicBufferProducer2>>(transResult) :
nullptr;
}())} {
}
sp<IGraphicBufferProducer>
Codec2Client::InputSurface::getGraphicBufferProducer() const {
return mGraphicBufferProducer;
}
sp<IInputSurface> Codec2Client::InputSurface::getHalInterface() const {
return mBase;
}
// Codec2Client::InputSurfaceConnection
Codec2Client::InputSurfaceConnection::InputSurfaceConnection(
const sp<IInputSurfaceConnection>& base)
: Configurable{
[base]() -> sp<IConfigurable> {
Return<sp<IConfigurable>> transResult =
base->getConfigurable();
return transResult.isOk() ?
static_cast<sp<IConfigurable>>(transResult) :
nullptr;
}()
},
mBase{base} {
}
c2_status_t Codec2Client::InputSurfaceConnection::disconnect() {
Return<Status> transResult = mBase->disconnect();
return static_cast<c2_status_t>(static_cast<Status>(transResult));
}
} // namespace android