#include "display_surface.h"
#include <private/android_filesystem_config.h>
#include <utils/Trace.h>
#include <private/dvr/trusted_uids.h>
#include "display_service.h"
#include "hardware_composer.h"
#define LOCAL_TRACE 1
using android::dvr::display::DisplayProtocol;
using android::pdx::BorrowedChannelHandle;
using android::pdx::ErrorStatus;
using android::pdx::LocalChannelHandle;
using android::pdx::LocalHandle;
using android::pdx::Message;
using android::pdx::RemoteChannelHandle;
using android::pdx::Status;
using android::pdx::rpc::DispatchRemoteMethod;
using android::pdx::rpc::IfAnyOf;
namespace android {
namespace dvr {
DisplaySurface::DisplaySurface(DisplayService* service,
SurfaceType surface_type, int surface_id,
int process_id, int user_id)
: service_(service),
surface_type_(surface_type),
surface_id_(surface_id),
process_id_(process_id),
user_id_(user_id),
update_flags_(display::SurfaceUpdateFlags::NewSurface) {}
DisplaySurface::~DisplaySurface() {
ALOGD_IF(LOCAL_TRACE,
"DisplaySurface::~DisplaySurface: surface_id=%d process_id=%d",
surface_id(), process_id());
}
Status<void> DisplaySurface::HandleMessage(pdx::Message& message) {
switch (message.GetOp()) {
case DisplayProtocol::SetAttributes::Opcode:
DispatchRemoteMethod<DisplayProtocol::SetAttributes>(
*this, &DisplaySurface::OnSetAttributes, message);
break;
case DisplayProtocol::GetSurfaceInfo::Opcode:
DispatchRemoteMethod<DisplayProtocol::GetSurfaceInfo>(
*this, &DisplaySurface::OnGetSurfaceInfo, message);
break;
case DisplayProtocol::CreateQueue::Opcode:
DispatchRemoteMethod<DisplayProtocol::CreateQueue>(
*this, &DisplaySurface::OnCreateQueue, message);
break;
}
return {};
}
Status<void> DisplaySurface::OnSetAttributes(
pdx::Message& /*message*/, const display::SurfaceAttributes& attributes) {
display::SurfaceUpdateFlags update_flags;
for (const auto& attribute : attributes) {
const auto key = attribute.first;
const auto* variant = &attribute.second;
bool invalid_value = false;
bool visibility_changed = false;
// Catch attributes that have significance to the display service.
switch (key) {
case display::SurfaceAttribute::ZOrder:
invalid_value = !IfAnyOf<int32_t, int64_t, float>::Call(
variant, [&](const auto& value) {
if (z_order_ != value) {
visibility_changed = true;
z_order_ = value;
}
});
break;
case display::SurfaceAttribute::Visible:
invalid_value = !IfAnyOf<int32_t, int64_t, bool>::Call(
variant, [&](const auto& value) {
if (visible_ != value) {
visibility_changed = true;
visible_ = value;
}
});
break;
}
// Only update the attribute map with valid values. This check also has the
// effect of preventing special attributes handled above from being deleted
// by an empty value.
if (invalid_value) {
ALOGW(
"DisplaySurface::OnClientSetAttributes: Failed to set display "
"surface attribute '%d' because of incompatible type: %d",
key, variant->index());
} else {
// An empty value indicates the attribute should be deleted.
if (variant->empty()) {
auto search = attributes_.find(key);
if (search != attributes_.end())
attributes_.erase(search);
} else {
attributes_[key] = *variant;
}
// All attribute changes generate a notification, even if the value
// doesn't change. Visibility attributes set a flag only if the value
// changes.
update_flags.Set(display::SurfaceUpdateFlags::AttributesChanged);
if (visibility_changed)
update_flags.Set(display::SurfaceUpdateFlags::VisibilityChanged);
}
}
SurfaceUpdated(update_flags);
return {};
}
void DisplaySurface::SurfaceUpdated(display::SurfaceUpdateFlags update_flags) {
ALOGD_IF(TRACE,
"DisplaySurface::SurfaceUpdated: surface_id=%d update_flags=0x%x",
surface_id(), update_flags.value());
update_flags_.Set(update_flags);
service()->SurfaceUpdated(surface_type(), update_flags_);
}
void DisplaySurface::ClearUpdate() {
ALOGD_IF(TRACE > 1, "DisplaySurface::ClearUpdate: surface_id=%d",
surface_id());
update_flags_ = display::SurfaceUpdateFlags::None;
}
Status<display::SurfaceInfo> DisplaySurface::OnGetSurfaceInfo(
Message& /*message*/) {
ALOGD_IF(
TRACE,
"DisplaySurface::OnGetSurfaceInfo: surface_id=%d visible=%d z_order=%d",
surface_id(), visible(), z_order());
return {{surface_id(), visible(), z_order()}};
}
Status<void> DisplaySurface::RegisterQueue(
const std::shared_ptr<ConsumerQueue>& consumer_queue) {
ALOGD_IF(TRACE, "DisplaySurface::RegisterQueue: surface_id=%d queue_id=%d",
surface_id(), consumer_queue->id());
// Capture references for the lambda to work around apparent clang bug.
// TODO(eieio): Figure out if there is a clang bug or C++11 ambiguity when
// capturing self and consumer_queue by copy in the following case:
// auto self = Self();
// [self, consumer_queue](int events) {
// self->OnQueueEvent(consuemr_queue, events); }
//
struct State {
std::shared_ptr<DisplaySurface> surface;
std::shared_ptr<ConsumerQueue> queue;
};
State state{Self(), consumer_queue};
return service()->AddEventHandler(
consumer_queue->queue_fd(), EPOLLIN | EPOLLHUP | EPOLLET,
[state](int events) {
state.surface->OnQueueEvent(state.queue, events);
});
}
Status<void> DisplaySurface::UnregisterQueue(
const std::shared_ptr<ConsumerQueue>& consumer_queue) {
ALOGD_IF(TRACE, "DisplaySurface::UnregisterQueue: surface_id=%d queue_id=%d",
surface_id(), consumer_queue->id());
return service()->RemoveEventHandler(consumer_queue->queue_fd());
}
void DisplaySurface::OnQueueEvent(
const std::shared_ptr<ConsumerQueue>& /*consumer_queue*/, int /*events*/) {
ALOGE(
"DisplaySurface::OnQueueEvent: ERROR base virtual method should not be "
"called!!!");
}
std::shared_ptr<ConsumerQueue> ApplicationDisplaySurface::GetQueue(
int32_t queue_id) {
ALOGD_IF(TRACE,
"ApplicationDisplaySurface::GetQueue: surface_id=%d queue_id=%d",
surface_id(), queue_id);
std::lock_guard<std::mutex> autolock(lock_);
auto search = consumer_queues_.find(queue_id);
if (search != consumer_queues_.end())
return search->second;
else
return nullptr;
}
std::vector<int32_t> ApplicationDisplaySurface::GetQueueIds() const {
std::lock_guard<std::mutex> autolock(lock_);
std::vector<int32_t> queue_ids;
for (const auto& entry : consumer_queues_)
queue_ids.push_back(entry.first);
return queue_ids;
}
Status<LocalChannelHandle> ApplicationDisplaySurface::OnCreateQueue(
Message& /*message*/, const ProducerQueueConfig& config) {
ATRACE_NAME("ApplicationDisplaySurface::OnCreateQueue");
ALOGD_IF(TRACE,
"ApplicationDisplaySurface::OnCreateQueue: surface_id=%d, "
"user_metadata_size=%zu",
surface_id(), config.user_metadata_size);
std::lock_guard<std::mutex> autolock(lock_);
auto producer = ProducerQueue::Create(config, UsagePolicy{});
if (!producer) {
ALOGE(
"ApplicationDisplaySurface::OnCreateQueue: Failed to create producer "
"queue!");
return ErrorStatus(ENOMEM);
}
std::shared_ptr<ConsumerQueue> consumer =
producer->CreateSilentConsumerQueue();
auto status = RegisterQueue(consumer);
if (!status) {
ALOGE(
"ApplicationDisplaySurface::OnCreateQueue: Failed to register consumer "
"queue: %s",
status.GetErrorMessage().c_str());
return status.error_status();
}
consumer_queues_[consumer->id()] = std::move(consumer);
SurfaceUpdated(display::SurfaceUpdateFlags::BuffersChanged);
return std::move(producer->GetChannelHandle());
}
void ApplicationDisplaySurface::OnQueueEvent(
const std::shared_ptr<ConsumerQueue>& consumer_queue, int events) {
ALOGD_IF(TRACE,
"ApplicationDisplaySurface::OnQueueEvent: queue_id=%d events=%x",
consumer_queue->id(), events);
std::lock_guard<std::mutex> autolock(lock_);
// Always give the queue a chance to handle its internal bookkeeping.
consumer_queue->HandleQueueEvents();
// Check for hangup and remove a queue that is no longer needed.
if (consumer_queue->hung_up()) {
ALOGD_IF(TRACE, "ApplicationDisplaySurface::OnQueueEvent: Removing queue.");
UnregisterQueue(consumer_queue);
auto search = consumer_queues_.find(consumer_queue->id());
if (search != consumer_queues_.end()) {
consumer_queues_.erase(search);
} else {
ALOGE(
"ApplicationDisplaySurface::OnQueueEvent: Failed to find queue_id=%d",
consumer_queue->id());
}
SurfaceUpdated(display::SurfaceUpdateFlags::BuffersChanged);
}
}
std::vector<int32_t> DirectDisplaySurface::GetQueueIds() const {
std::lock_guard<std::mutex> autolock(lock_);
std::vector<int32_t> queue_ids;
if (direct_queue_)
queue_ids.push_back(direct_queue_->id());
return queue_ids;
}
Status<LocalChannelHandle> DirectDisplaySurface::OnCreateQueue(
Message& /*message*/, const ProducerQueueConfig& config) {
ATRACE_NAME("DirectDisplaySurface::OnCreateQueue");
ALOGD_IF(TRACE,
"DirectDisplaySurface::OnCreateQueue: surface_id=%d "
"user_metadata_size=%zu",
surface_id(), config.user_metadata_size);
std::lock_guard<std::mutex> autolock(lock_);
if (!direct_queue_) {
// Inject the hw composer usage flag to enable the display to read the
// buffers.
auto producer = ProducerQueue::Create(
config, UsagePolicy{GraphicBuffer::USAGE_HW_COMPOSER, 0, 0, 0});
if (!producer) {
ALOGE(
"DirectDisplaySurface::OnCreateQueue: Failed to create producer "
"queue!");
return ErrorStatus(ENOMEM);
}
direct_queue_ = producer->CreateConsumerQueue();
if (direct_queue_->metadata_size() > 0) {
metadata_.reset(new uint8_t[direct_queue_->metadata_size()]);
}
auto status = RegisterQueue(direct_queue_);
if (!status) {
ALOGE(
"DirectDisplaySurface::OnCreateQueue: Failed to register consumer "
"queue: %s",
status.GetErrorMessage().c_str());
return status.error_status();
}
return std::move(producer->GetChannelHandle());
} else {
return ErrorStatus(EALREADY);
}
}
void DirectDisplaySurface::OnQueueEvent(
const std::shared_ptr<ConsumerQueue>& consumer_queue, int events) {
ALOGD_IF(TRACE, "DirectDisplaySurface::OnQueueEvent: queue_id=%d events=%x",
consumer_queue->id(), events);
std::lock_guard<std::mutex> autolock(lock_);
// Always give the queue a chance to handle its internal bookkeeping.
consumer_queue->HandleQueueEvents();
// Check for hangup and remove a queue that is no longer needed.
if (consumer_queue->hung_up()) {
ALOGD_IF(TRACE, "DirectDisplaySurface::OnQueueEvent: Removing queue.");
UnregisterQueue(consumer_queue);
direct_queue_ = nullptr;
}
}
void DirectDisplaySurface::DequeueBuffersLocked() {
if (direct_queue_ == nullptr) {
ALOGE(
"DirectDisplaySurface::DequeueBuffersLocked: Consumer queue is not "
"initialized.");
return;
}
while (true) {
LocalHandle acquire_fence;
size_t slot;
auto buffer_status = direct_queue_->Dequeue(
0, &slot, metadata_.get(),
direct_queue_->metadata_size(), &acquire_fence);
ALOGD_IF(TRACE,
"DirectDisplaySurface::DequeueBuffersLocked: Dequeue with metadata_size: %zu",
direct_queue_->metadata_size());
if (!buffer_status) {
ALOGD_IF(
TRACE > 1 && buffer_status.error() == ETIMEDOUT,
"DirectDisplaySurface::DequeueBuffersLocked: All buffers dequeued.");
ALOGE_IF(buffer_status.error() != ETIMEDOUT,
"DirectDisplaySurface::DequeueBuffersLocked: Failed to dequeue "
"buffer: %s",
buffer_status.GetErrorMessage().c_str());
return;
}
auto buffer_consumer = buffer_status.take();
if (!visible()) {
ATRACE_NAME("DropFrameOnInvisibleSurface");
ALOGD_IF(TRACE,
"DirectDisplaySurface::DequeueBuffersLocked: Discarding "
"buffer_id=%d on invisible surface.",
buffer_consumer->id());
buffer_consumer->Discard();
continue;
}
if (acquired_buffers_.IsFull()) {
ALOGE(
"DirectDisplaySurface::DequeueBuffersLocked: Posted buffers full, "
"overwriting.");
acquired_buffers_.PopBack();
}
acquired_buffers_.Append(
AcquiredBuffer(buffer_consumer, std::move(acquire_fence), slot));
}
}
AcquiredBuffer DirectDisplaySurface::AcquireCurrentBuffer() {
std::lock_guard<std::mutex> autolock(lock_);
DequeueBuffersLocked();
if (acquired_buffers_.IsEmpty()) {
ALOGE(
"DirectDisplaySurface::AcquireCurrentBuffer: attempt to acquire buffer "
"when none are posted.");
return AcquiredBuffer();
}
AcquiredBuffer buffer = std::move(acquired_buffers_.Front());
acquired_buffers_.PopFront();
ALOGD_IF(TRACE, "DirectDisplaySurface::AcquireCurrentBuffer: buffer_id=%d",
buffer.buffer()->id());
return buffer;
}
AcquiredBuffer DirectDisplaySurface::AcquireNewestAvailableBuffer(
AcquiredBuffer* skipped_buffer) {
std::lock_guard<std::mutex> autolock(lock_);
DequeueBuffersLocked();
AcquiredBuffer buffer;
int frames = 0;
// Basic latency stopgap for when the application misses a frame:
// If the application recovers on the 2nd or 3rd (etc) frame after
// missing, this code will skip frames to catch up by checking if
// the next frame is also available.
while (!acquired_buffers_.IsEmpty() &&
acquired_buffers_.Front().IsAvailable()) {
// Capture the skipped buffer into the result parameter.
// Note that this API only supports skipping one buffer per vsync.
if (frames > 0 && skipped_buffer)
*skipped_buffer = std::move(buffer);
++frames;
buffer = std::move(acquired_buffers_.Front());
acquired_buffers_.PopFront();
if (frames == 2)
break;
}
ALOGD_IF(TRACE,
"DirectDisplaySurface::AcquireNewestAvailableBuffer: buffer_id=%d",
buffer.buffer()->id());
return buffer;
}
bool DirectDisplaySurface::IsBufferAvailable() {
std::lock_guard<std::mutex> autolock(lock_);
DequeueBuffersLocked();
return !acquired_buffers_.IsEmpty() &&
acquired_buffers_.Front().IsAvailable();
}
bool DirectDisplaySurface::IsBufferPosted() {
std::lock_guard<std::mutex> autolock(lock_);
DequeueBuffersLocked();
return !acquired_buffers_.IsEmpty();
}
Status<std::shared_ptr<DisplaySurface>> DisplaySurface::Create(
DisplayService* service, int surface_id, int process_id, int user_id,
const display::SurfaceAttributes& attributes) {
bool direct = false;
auto search = attributes.find(display::SurfaceAttribute::Direct);
if (search != attributes.end()) {
if (!IfAnyOf<int32_t, int64_t, bool, float>::Get(&search->second,
&direct)) {
ALOGE(
"DisplaySurface::Create: Invalid type for SurfaceAttribute::Direct!");
return ErrorStatus(EINVAL);
}
}
ALOGD_IF(TRACE,
"DisplaySurface::Create: surface_id=%d process_id=%d user_id=%d "
"direct=%d",
surface_id, process_id, user_id, direct);
if (direct) {
const bool trusted = user_id == AID_ROOT || IsTrustedUid(user_id);
if (trusted) {
return {std::shared_ptr<DisplaySurface>{
new DirectDisplaySurface(service, surface_id, process_id, user_id)}};
} else {
ALOGE(
"DisplaySurface::Create: Direct surfaces may only be created by "
"trusted UIDs: user_id=%d",
user_id);
return ErrorStatus(EPERM);
}
} else {
return {std::shared_ptr<DisplaySurface>{new ApplicationDisplaySurface(
service, surface_id, process_id, user_id)}};
}
}
} // namespace dvr
} // namespace android