services/vr/bufferhubd/producer_channel.cpp - third_party/android/platform/frameworks/native - Git at Google

 #include "producer_channel.h"

 #include <log/log.h>
 #include <sync/sync.h>
 #include <sys/poll.h>
 #include <utils/Trace.h>

 #include <algorithm>
 #include <atomic>
 #include <thread>

 #include <private/dvr/bufferhub_rpc.h>
 #include "consumer_channel.h"

 using android::pdx::BorrowedHandle;
 using android::pdx::ErrorStatus;
 using android::pdx::Message;
 using android::pdx::RemoteChannelHandle;
 using android::pdx::Status;
 using android::pdx::rpc::BufferWrapper;
 using android::pdx::rpc::DispatchRemoteMethod;
 using android::pdx::rpc::WrapBuffer;

 namespace android {
 namespace dvr {

 ProducerChannel::ProducerChannel(BufferHubService* service, int channel_id,
                                  uint32_t width, uint32_t height,
                                  uint32_t layer_count, uint32_t format,
                                  uint64_t usage, size_t meta_size_bytes,
                                  int* error)
     : BufferHubChannel(service, channel_id, channel_id, kProducerType),
       pending_consumers_(0),
       producer_owns_(true),
       meta_size_bytes_(meta_size_bytes),
       meta_(meta_size_bytes ? new uint8_t[meta_size_bytes] : nullptr) {
   const int ret = buffer_.Alloc(width, height, layer_count, format, usage);
   if (ret < 0) {
     ALOGE("ProducerChannel::ProducerChannel: Failed to allocate buffer: %s",
           strerror(-ret));
     *error = ret;
     return;
   }

   // Success.
   *error = 0;
 }

 Status<std::shared_ptr<ProducerChannel>> ProducerChannel::Create(
     BufferHubService* service, int channel_id, uint32_t width, uint32_t height,
     uint32_t layer_count, uint32_t format, uint64_t usage,
     size_t meta_size_bytes) {
   int error;
   std::shared_ptr<ProducerChannel> producer(
       new ProducerChannel(service, channel_id, width, height, layer_count,
                           format, usage, meta_size_bytes, &error));
   if (error < 0)
     return ErrorStatus(-error);
   else
     return {std::move(producer)};
 }

 ProducerChannel::~ProducerChannel() {
   ALOGD_IF(TRACE,
            "ProducerChannel::~ProducerChannel: channel_id=%d buffer_id=%d",
            channel_id(), buffer_id());
   for (auto consumer : consumer_channels_)
     consumer->OnProducerClosed();
 }

 BufferHubChannel::BufferInfo ProducerChannel::GetBufferInfo() const {
   return BufferInfo(buffer_id(), consumer_channels_.size(), buffer_.width(),
                     buffer_.height(), buffer_.layer_count(), buffer_.format(),
                     buffer_.usage(), name_);
 }

 void ProducerChannel::HandleImpulse(Message& message) {
   ATRACE_NAME("ProducerChannel::HandleImpulse");
   switch (message.GetOp()) {
     case BufferHubRPC::ProducerGain::Opcode:
       OnProducerGain(message);
       break;
   }
 }

 bool ProducerChannel::HandleMessage(Message& message) {
   ATRACE_NAME("ProducerChannel::HandleMessage");
   switch (message.GetOp()) {
     case BufferHubRPC::GetBuffer::Opcode:
       DispatchRemoteMethod<BufferHubRPC::GetBuffer>(
           *this, &ProducerChannel::OnGetBuffer, message);
       return true;

     case BufferHubRPC::NewConsumer::Opcode:
       DispatchRemoteMethod<BufferHubRPC::NewConsumer>(
           *this, &ProducerChannel::OnNewConsumer, message);
       return true;

     case BufferHubRPC::ProducerPost::Opcode:
       DispatchRemoteMethod<BufferHubRPC::ProducerPost>(
           *this, &ProducerChannel::OnProducerPost, message);
       return true;

     case BufferHubRPC::ProducerGain::Opcode:
       DispatchRemoteMethod<BufferHubRPC::ProducerGain>(
           *this, &ProducerChannel::OnProducerGain, message);
       return true;

     case BufferHubRPC::ProducerMakePersistent::Opcode:
       DispatchRemoteMethod<BufferHubRPC::ProducerMakePersistent>(
           *this, &ProducerChannel::OnProducerMakePersistent, message);
       return true;

     case BufferHubRPC::ProducerRemovePersistence::Opcode:
       DispatchRemoteMethod<BufferHubRPC::ProducerRemovePersistence>(
           *this, &ProducerChannel::OnRemovePersistence, message);
       return true;

     default:
       return false;
   }
 }

 Status<NativeBufferHandle<BorrowedHandle>> ProducerChannel::OnGetBuffer(
     Message& /*message*/) {
   ATRACE_NAME("ProducerChannel::OnGetBuffer");
   ALOGD_IF(TRACE, "ProducerChannel::OnGetBuffer: buffer=%d", buffer_id());
   return {NativeBufferHandle<BorrowedHandle>(buffer_, buffer_id())};
 }

 Status<RemoteChannelHandle> ProducerChannel::CreateConsumer(Message& message) {
   ATRACE_NAME("ProducerChannel::CreateConsumer");
   ALOGD_IF(TRACE, "ProducerChannel::CreateConsumer: buffer_id=%d", buffer_id());

   int channel_id;
   auto status = message.PushChannel(0, nullptr, &channel_id);
   if (!status) {
     ALOGE(
         "ProducerChannel::CreateConsumer: Failed to push consumer channel: %s",
         status.GetErrorMessage().c_str());
     return ErrorStatus(ENOMEM);
   }

   auto consumer = std::make_shared<ConsumerChannel>(
       service(), buffer_id(), channel_id, shared_from_this());
   const auto channel_status = service()->SetChannel(channel_id, consumer);
   if (!channel_status) {
     ALOGE(
         "ProducerChannel::CreateConsumer: failed to set new consumer channel: "
         "%s",
         channel_status.GetErrorMessage().c_str());
     return ErrorStatus(ENOMEM);
   }

   if (!producer_owns_) {
     // Signal the new consumer when adding it to a posted producer.
     if (consumer->OnProducerPosted())
       pending_consumers_++;
   }

   return {status.take()};
 }

 Status<RemoteChannelHandle> ProducerChannel::OnNewConsumer(Message& message) {
   ATRACE_NAME("ProducerChannel::OnNewConsumer");
   ALOGD_IF(TRACE, "ProducerChannel::OnNewConsumer: buffer_id=%d", buffer_id());
   return CreateConsumer(message);
 }

 Status<void> ProducerChannel::OnProducerPost(
     Message&, LocalFence acquire_fence,
     BufferWrapper<std::vector<std::uint8_t>> metadata) {
   ATRACE_NAME("ProducerChannel::OnProducerPost");
   ALOGD_IF(TRACE, "ProducerChannel::OnProducerPost: buffer_id=%d", buffer_id());
   if (!producer_owns_) {
     ALOGE("ProducerChannel::OnProducerPost: Not in gained state!");
     return ErrorStatus(EBUSY);
   }

   if (meta_size_bytes_ != metadata.size()) {
     ALOGD_IF(TRACE,
              "ProducerChannel::OnProducerPost: Expected meta_size_bytes=%zu "
              "got size=%zu",
              meta_size_bytes_, metadata.size());
     return ErrorStatus(EINVAL);
   }

   std::copy(metadata.begin(), metadata.end(), meta_.get());
   post_fence_ = std::move(acquire_fence);
   producer_owns_ = false;

   // Signal any interested consumers. If there are none, automatically release
   // the buffer.
   pending_consumers_ = 0;
   for (auto consumer : consumer_channels_) {
     if (consumer->OnProducerPosted())
       pending_consumers_++;
   }
   if (pending_consumers_ == 0)
     SignalAvailable();
   ALOGD_IF(TRACE, "ProducerChannel::OnProducerPost: %d pending consumers",
            pending_consumers_);

   return {};
 }

 Status<LocalFence> ProducerChannel::OnProducerGain(Message& /*message*/) {
   ATRACE_NAME("ProducerChannel::OnGain");
   ALOGD_IF(TRACE, "ProducerChannel::OnGain: buffer_id=%d", buffer_id());
   if (producer_owns_) {
     ALOGE("ProducerChanneL::OnGain: Already in gained state: channel=%d",
           channel_id());
     return ErrorStatus(EALREADY);
   }

   // There are still pending consumers, return busy.
   if (pending_consumers_ > 0)
     return ErrorStatus(EBUSY);

   ClearAvailable();
   producer_owns_ = true;
   post_fence_.close();
   return {std::move(returned_fence_)};
 }

 Status<std::pair<BorrowedFence, BufferWrapper<std::uint8_t*>>>
 ProducerChannel::OnConsumerAcquire(Message& /*message*/,
                                    std::size_t metadata_size) {
   ATRACE_NAME("ProducerChannel::OnConsumerAcquire");
   ALOGD_IF(TRACE, "ProducerChannel::OnConsumerAcquire: buffer_id=%d",
            buffer_id());
   if (producer_owns_) {
     ALOGE("ProducerChannel::OnConsumerAcquire: Not in posted state!");
     return ErrorStatus(EBUSY);
   }

   // Return a borrowed fd to avoid unnecessary duplication of the underlying fd.
   // Serialization just needs to read the handle.
   if (metadata_size == 0)
     return {std::make_pair(post_fence_.borrow(),
                            WrapBuffer<std::uint8_t>(nullptr, 0))};
   else
     return {std::make_pair(post_fence_.borrow(),
                            WrapBuffer(meta_.get(), meta_size_bytes_))};
 }

 Status<void> ProducerChannel::OnConsumerRelease(Message&,
                                                 LocalFence release_fence) {
   ATRACE_NAME("ProducerChannel::OnConsumerRelease");
   ALOGD_IF(TRACE, "ProducerChannel::OnConsumerRelease: buffer_id=%d",
            buffer_id());
   if (producer_owns_) {
     ALOGE("ProducerChannel::OnConsumerRelease: Not in acquired state!");
     return ErrorStatus(EBUSY);
   }

   // Attempt to merge the fences if necessary.
   if (release_fence) {
     if (returned_fence_) {
       LocalFence merged_fence(sync_merge("bufferhub_merged",
                                          returned_fence_.get_fd(),
                                          release_fence.get_fd()));
       const int error = errno;
       if (!merged_fence) {
         ALOGE("ProducerChannel::OnConsumerRelease: Failed to merge fences: %s",
               strerror(error));
         return ErrorStatus(error);
       }
       returned_fence_ = std::move(merged_fence);
     } else {
       returned_fence_ = std::move(release_fence);
     }
   }

   OnConsumerIgnored();
   return {};
 }

 void ProducerChannel::OnConsumerIgnored() {
   if (!--pending_consumers_)
     SignalAvailable();
   ALOGD_IF(TRACE,
            "ProducerChannel::OnConsumerIgnored: buffer_id=%d %d consumers left",
            buffer_id(), pending_consumers_);
 }

 Status<void> ProducerChannel::OnProducerMakePersistent(Message& message,
                                                        const std::string& name,
                                                        int user_id,
                                                        int group_id) {
   ATRACE_NAME("ProducerChannel::OnProducerMakePersistent");
   ALOGD_IF(TRACE,
            "ProducerChannel::OnProducerMakePersistent: buffer_id=%d name=%s "
            "user_id=%d group_id=%d",
            buffer_id(), name.c_str(), user_id, group_id);

   if (name.empty() || (user_id < 0 && user_id != kNoCheckId) ||
       (group_id < 0 && group_id != kNoCheckId)) {
     return ErrorStatus(EINVAL);
   }

   // Try to add this buffer with the requested name.
   if (service()->AddNamedBuffer(name, std::static_pointer_cast<ProducerChannel>(
                                           shared_from_this()))) {
     // If successful, set the requested permissions.

     // A value of zero indicates that the ids from the sending process should be
     // used.
     if (user_id == kUseCallerId)
       user_id = message.GetEffectiveUserId();
     if (group_id == kUseCallerId)
       group_id = message.GetEffectiveGroupId();

     owner_user_id_ = user_id;
     owner_group_id_ = group_id;
     name_ = name;
     return {};
   } else {
     // Otherwise a buffer with that name already exists.
     return ErrorStatus(EALREADY);
   }
 }

 Status<void> ProducerChannel::OnRemovePersistence(Message&) {
   if (service()->RemoveNamedBuffer(*this))
     return {};
   else
     return ErrorStatus(ENOENT);
 }

 void ProducerChannel::AddConsumer(ConsumerChannel* channel) {
   consumer_channels_.push_back(channel);
 }

 void ProducerChannel::RemoveConsumer(ConsumerChannel* channel) {
   consumer_channels_.erase(
       std::find(consumer_channels_.begin(), consumer_channels_.end(), channel));
 }

 // Returns true if either the user or group ids match the owning ids or both
 // owning ids are not set, in which case access control does not apply.
 bool ProducerChannel::CheckAccess(int euid, int egid) {
   const bool no_check =
       owner_user_id_ == kNoCheckId && owner_group_id_ == kNoCheckId;
   const bool euid_check = euid == owner_user_id_ || euid == kRootId;
   const bool egid_check = egid == owner_group_id_ || egid == kRootId;
   return no_check || euid_check || egid_check;
 }

 // Returns true if the given parameters match the underlying buffer parameters.
 bool ProducerChannel::CheckParameters(uint32_t width, uint32_t height,
                                       uint32_t layer_count, uint32_t format,
                                       uint64_t usage, size_t meta_size_bytes) {
   return meta_size_bytes == meta_size_bytes_ && buffer_.width() == width &&
          buffer_.height() == height && buffer_.layer_count() == layer_count &&
          buffer_.format() == format && buffer_.usage() == usage;
 }

 }  // namespace dvr
 }  // namespace android
	#include "producer_channel.h"

	#include <log/log.h>
	#include <sync/sync.h>
	#include <sys/poll.h>
	#include <utils/Trace.h>

	#include <algorithm>
	#include <atomic>
	#include <thread>

	#include <private/dvr/bufferhub_rpc.h>
	#include "consumer_channel.h"

	using android::pdx::BorrowedHandle;
	using android::pdx::ErrorStatus;
	using android::pdx::Message;
	using android::pdx::RemoteChannelHandle;
	using android::pdx::Status;
	using android::pdx::rpc::BufferWrapper;
	using android::pdx::rpc::DispatchRemoteMethod;
	using android::pdx::rpc::WrapBuffer;

	namespace android {
	namespace dvr {

	ProducerChannel::ProducerChannel(BufferHubService* service, int channel_id,
	uint32_t width, uint32_t height,
	uint32_t layer_count, uint32_t format,
	uint64_t usage, size_t meta_size_bytes,
	int* error)
	: BufferHubChannel(service, channel_id, channel_id, kProducerType),
	pending_consumers_(0),
	producer_owns_(true),
	meta_size_bytes_(meta_size_bytes),
	meta_(meta_size_bytes ? new uint8_t[meta_size_bytes] : nullptr) {
	const int ret = buffer_.Alloc(width, height, layer_count, format, usage);
	if (ret < 0) {
	ALOGE("ProducerChannel::ProducerChannel: Failed to allocate buffer: %s",
	strerror(-ret));
	*error = ret;
	return;
	}

	// Success.
	*error = 0;
	}

	Status<std::shared_ptr<ProducerChannel>> ProducerChannel::Create(
	BufferHubService* service, int channel_id, uint32_t width, uint32_t height,
	uint32_t layer_count, uint32_t format, uint64_t usage,
	size_t meta_size_bytes) {
	int error;
	std::shared_ptr<ProducerChannel> producer(
	new ProducerChannel(service, channel_id, width, height, layer_count,
	format, usage, meta_size_bytes, &error));
	if (error < 0)
	return ErrorStatus(-error);
	else
	return {std::move(producer)};
	}

	ProducerChannel::~ProducerChannel() {
	ALOGD_IF(TRACE,
	"ProducerChannel::~ProducerChannel: channel_id=%d buffer_id=%d",
	channel_id(), buffer_id());
	for (auto consumer : consumer_channels_)
	consumer->OnProducerClosed();
	}

	BufferHubChannel::BufferInfo ProducerChannel::GetBufferInfo() const {
	return BufferInfo(buffer_id(), consumer_channels_.size(), buffer_.width(),
	buffer_.height(), buffer_.layer_count(), buffer_.format(),
	buffer_.usage(), name_);
	}

	void ProducerChannel::HandleImpulse(Message& message) {
	ATRACE_NAME("ProducerChannel::HandleImpulse");
	switch (message.GetOp()) {
	case BufferHubRPC::ProducerGain::Opcode:
	OnProducerGain(message);
	break;
	}
	}

	bool ProducerChannel::HandleMessage(Message& message) {
	ATRACE_NAME("ProducerChannel::HandleMessage");
	switch (message.GetOp()) {
	case BufferHubRPC::GetBuffer::Opcode:
	DispatchRemoteMethod<BufferHubRPC::GetBuffer>(
	*this, &ProducerChannel::OnGetBuffer, message);
	return true;

	case BufferHubRPC::NewConsumer::Opcode:
	DispatchRemoteMethod<BufferHubRPC::NewConsumer>(
	*this, &ProducerChannel::OnNewConsumer, message);
	return true;

	case BufferHubRPC::ProducerPost::Opcode:
	DispatchRemoteMethod<BufferHubRPC::ProducerPost>(
	*this, &ProducerChannel::OnProducerPost, message);
	return true;

	case BufferHubRPC::ProducerGain::Opcode:
	DispatchRemoteMethod<BufferHubRPC::ProducerGain>(
	*this, &ProducerChannel::OnProducerGain, message);
	return true;

	case BufferHubRPC::ProducerMakePersistent::Opcode:
	DispatchRemoteMethod<BufferHubRPC::ProducerMakePersistent>(
	*this, &ProducerChannel::OnProducerMakePersistent, message);
	return true;

	case BufferHubRPC::ProducerRemovePersistence::Opcode:
	DispatchRemoteMethod<BufferHubRPC::ProducerRemovePersistence>(
	*this, &ProducerChannel::OnRemovePersistence, message);
	return true;

	default:
	return false;
	}
	}

	Status<NativeBufferHandle<BorrowedHandle>> ProducerChannel::OnGetBuffer(
	Message& /message/) {
	ATRACE_NAME("ProducerChannel::OnGetBuffer");
	ALOGD_IF(TRACE, "ProducerChannel::OnGetBuffer: buffer=%d", buffer_id());
	return {NativeBufferHandle<BorrowedHandle>(buffer_, buffer_id())};
	}

	Status<RemoteChannelHandle> ProducerChannel::CreateConsumer(Message& message) {
	ATRACE_NAME("ProducerChannel::CreateConsumer");
	ALOGD_IF(TRACE, "ProducerChannel::CreateConsumer: buffer_id=%d", buffer_id());

	int channel_id;
	auto status = message.PushChannel(0, nullptr, &channel_id);
	if (!status) {
	ALOGE(
	"ProducerChannel::CreateConsumer: Failed to push consumer channel: %s",
	status.GetErrorMessage().c_str());
	return ErrorStatus(ENOMEM);
	}

	auto consumer = std::make_shared<ConsumerChannel>(
	service(), buffer_id(), channel_id, shared_from_this());
	const auto channel_status = service()->SetChannel(channel_id, consumer);
	if (!channel_status) {
	ALOGE(
	"ProducerChannel::CreateConsumer: failed to set new consumer channel: "
	"%s",
	channel_status.GetErrorMessage().c_str());
	return ErrorStatus(ENOMEM);
	}

	if (!producer_owns_) {
	// Signal the new consumer when adding it to a posted producer.
	if (consumer->OnProducerPosted())
	pending_consumers_++;
	}

	return {status.take()};
	}

	Status<RemoteChannelHandle> ProducerChannel::OnNewConsumer(Message& message) {
	ATRACE_NAME("ProducerChannel::OnNewConsumer");
	ALOGD_IF(TRACE, "ProducerChannel::OnNewConsumer: buffer_id=%d", buffer_id());
	return CreateConsumer(message);
	}

	Status<void> ProducerChannel::OnProducerPost(
	Message&, LocalFence acquire_fence,
	BufferWrapper<std::vector<std::uint8_t>> metadata) {
	ATRACE_NAME("ProducerChannel::OnProducerPost");
	ALOGD_IF(TRACE, "ProducerChannel::OnProducerPost: buffer_id=%d", buffer_id());
	if (!producer_owns_) {
	ALOGE("ProducerChannel::OnProducerPost: Not in gained state!");
	return ErrorStatus(EBUSY);
	}

	if (meta_size_bytes_ != metadata.size()) {
	ALOGD_IF(TRACE,
	"ProducerChannel::OnProducerPost: Expected meta_size_bytes=%zu "
	"got size=%zu",
	meta_size_bytes_, metadata.size());
	return ErrorStatus(EINVAL);
	}

	std::copy(metadata.begin(), metadata.end(), meta_.get());
	post_fence_ = std::move(acquire_fence);
	producer_owns_ = false;

	// Signal any interested consumers. If there are none, automatically release
	// the buffer.
	pending_consumers_ = 0;
	for (auto consumer : consumer_channels_) {
	if (consumer->OnProducerPosted())
	pending_consumers_++;
	}
	if (pending_consumers_ == 0)
	SignalAvailable();
	ALOGD_IF(TRACE, "ProducerChannel::OnProducerPost: %d pending consumers",
	pending_consumers_);

	return {};
	}

	Status<LocalFence> ProducerChannel::OnProducerGain(Message& /message/) {
	ATRACE_NAME("ProducerChannel::OnGain");
	ALOGD_IF(TRACE, "ProducerChannel::OnGain: buffer_id=%d", buffer_id());
	if (producer_owns_) {
	ALOGE("ProducerChanneL::OnGain: Already in gained state: channel=%d",
	channel_id());
	return ErrorStatus(EALREADY);
	}

	// There are still pending consumers, return busy.
	if (pending_consumers_ > 0)
	return ErrorStatus(EBUSY);

	ClearAvailable();
	producer_owns_ = true;
	post_fence_.close();
	return {std::move(returned_fence_)};
	}

	Status<std::pair<BorrowedFence, BufferWrapper<std::uint8_t*>>>
	ProducerChannel::OnConsumerAcquire(Message& /message/,
	std::size_t metadata_size) {
	ATRACE_NAME("ProducerChannel::OnConsumerAcquire");
	ALOGD_IF(TRACE, "ProducerChannel::OnConsumerAcquire: buffer_id=%d",
	buffer_id());
	if (producer_owns_) {
	ALOGE("ProducerChannel::OnConsumerAcquire: Not in posted state!");
	return ErrorStatus(EBUSY);
	}

	// Return a borrowed fd to avoid unnecessary duplication of the underlying fd.
	// Serialization just needs to read the handle.
	if (metadata_size == 0)
	return {std::make_pair(post_fence_.borrow(),
	WrapBuffer<std::uint8_t>(nullptr, 0))};
	else
	return {std::make_pair(post_fence_.borrow(),
	WrapBuffer(meta_.get(), meta_size_bytes_))};
	}

	Status<void> ProducerChannel::OnConsumerRelease(Message&,
	LocalFence release_fence) {
	ATRACE_NAME("ProducerChannel::OnConsumerRelease");
	ALOGD_IF(TRACE, "ProducerChannel::OnConsumerRelease: buffer_id=%d",
	buffer_id());
	if (producer_owns_) {
	ALOGE("ProducerChannel::OnConsumerRelease: Not in acquired state!");
	return ErrorStatus(EBUSY);
	}

	// Attempt to merge the fences if necessary.
	if (release_fence) {
	if (returned_fence_) {
	LocalFence merged_fence(sync_merge("bufferhub_merged",
	returned_fence_.get_fd(),
	release_fence.get_fd()));
	const int error = errno;
	if (!merged_fence) {
	ALOGE("ProducerChannel::OnConsumerRelease: Failed to merge fences: %s",
	strerror(error));
	return ErrorStatus(error);
	}
	returned_fence_ = std::move(merged_fence);
	} else {
	returned_fence_ = std::move(release_fence);
	}
	}

	OnConsumerIgnored();
	return {};
	}

	void ProducerChannel::OnConsumerIgnored() {
	if (!--pending_consumers_)
	SignalAvailable();
	ALOGD_IF(TRACE,
	"ProducerChannel::OnConsumerIgnored: buffer_id=%d %d consumers left",
	buffer_id(), pending_consumers_);
	}

	Status<void> ProducerChannel::OnProducerMakePersistent(Message& message,
	const std::string& name,
	int user_id,
	int group_id) {
	ATRACE_NAME("ProducerChannel::OnProducerMakePersistent");
	ALOGD_IF(TRACE,
	"ProducerChannel::OnProducerMakePersistent: buffer_id=%d name=%s "
	"user_id=%d group_id=%d",
	buffer_id(), name.c_str(), user_id, group_id);

	if (name.empty() \|\| (user_id < 0 && user_id != kNoCheckId) \|\|
	(group_id < 0 && group_id != kNoCheckId)) {
	return ErrorStatus(EINVAL);
	}

	// Try to add this buffer with the requested name.
	if (service()->AddNamedBuffer(name, std::static_pointer_cast<ProducerChannel>(
	shared_from_this()))) {
	// If successful, set the requested permissions.

	// A value of zero indicates that the ids from the sending process should be
	// used.
	if (user_id == kUseCallerId)
	user_id = message.GetEffectiveUserId();
	if (group_id == kUseCallerId)
	group_id = message.GetEffectiveGroupId();

	owner_user_id_ = user_id;
	owner_group_id_ = group_id;
	name_ = name;
	return {};
	} else {
	// Otherwise a buffer with that name already exists.
	return ErrorStatus(EALREADY);
	}
	}

	Status<void> ProducerChannel::OnRemovePersistence(Message&) {
	if (service()->RemoveNamedBuffer(*this))
	return {};
	else
	return ErrorStatus(ENOENT);
	}

	void ProducerChannel::AddConsumer(ConsumerChannel* channel) {
	consumer_channels_.push_back(channel);
	}

	void ProducerChannel::RemoveConsumer(ConsumerChannel* channel) {
	consumer_channels_.erase(
	std::find(consumer_channels_.begin(), consumer_channels_.end(), channel));
	}

	// Returns true if either the user or group ids match the owning ids or both
	// owning ids are not set, in which case access control does not apply.
	bool ProducerChannel::CheckAccess(int euid, int egid) {
	const bool no_check =
	owner_user_id_ == kNoCheckId && owner_group_id_ == kNoCheckId;
	const bool euid_check = euid == owner_user_id_ \|\| euid == kRootId;
	const bool egid_check = egid == owner_group_id_ \|\| egid == kRootId;
	return no_check \|\| euid_check \|\| egid_check;
	}

	// Returns true if the given parameters match the underlying buffer parameters.
	bool ProducerChannel::CheckParameters(uint32_t width, uint32_t height,
	uint32_t layer_count, uint32_t format,
	uint64_t usage, size_t meta_size_bytes) {
	return meta_size_bytes == meta_size_bytes_ && buffer_.width() == width &&
	buffer_.height() == height && buffer_.layer_count() == layer_count &&
	buffer_.format() == format && buffer_.usage() == usage;
	}

	} // namespace dvr
	} // namespace android