blob: 582fed3a4a5f32b7d759a24b69ad9c0e7028ac15 [file] [log] [blame]
#include "display_service.h"
#include <unistd.h>
#include <algorithm>
#include <sstream>
#include <string>
#include <vector>
#include <android-base/file.h>
#include <android-base/properties.h>
#include <dvr/dvr_display_types.h>
#include <pdx/default_transport/service_endpoint.h>
#include <pdx/rpc/remote_method.h>
#include <private/android_filesystem_config.h>
#include <private/dvr/display_protocol.h>
#include <private/dvr/numeric.h>
#include <private/dvr/trusted_uids.h>
#include <private/dvr/types.h>
#include "DisplayHardware/DisplayIdentification.h"
using android::dvr::display::DisplayProtocol;
using android::pdx::Channel;
using android::pdx::ErrorStatus;
using android::pdx::Message;
using android::pdx::Status;
using android::pdx::default_transport::Endpoint;
using android::pdx::rpc::DispatchRemoteMethod;
namespace {
const char kDvrLensMetricsProperty[] = "ro.dvr.lens_metrics";
const char kDvrDeviceMetricsProperty[] = "ro.dvr.device_metrics";
const char kDvrDeviceConfigProperty[] = "ro.dvr.device_configuration";
} // namespace
namespace android {
namespace dvr {
DisplayService::DisplayService(Hwc2::Composer* hidl,
hwc2_display_t primary_display_id,
RequestDisplayCallback request_display_callback)
: BASE("DisplayService",
Endpoint::Create(display::DisplayProtocol::kClientPath)) {
hardware_composer_.Initialize(
hidl, primary_display_id, request_display_callback);
}
bool DisplayService::IsInitialized() const {
return BASE::IsInitialized() && hardware_composer_.IsInitialized();
}
std::string DisplayService::DumpState(size_t /*max_length*/) {
std::ostringstream stream;
auto surfaces = GetDisplaySurfaces();
std::sort(surfaces.begin(), surfaces.end(), [](const auto& a, const auto& b) {
return a->surface_id() < b->surface_id();
});
stream << "Application Surfaces:" << std::endl;
size_t count = 0;
for (const auto& surface : surfaces) {
if (surface->surface_type() == SurfaceType::Application) {
stream << "Surface " << count++ << ":";
stream << " surface_id=" << surface->surface_id()
<< " process_id=" << surface->process_id()
<< " user_id=" << surface->user_id()
<< " visible=" << surface->visible()
<< " z_order=" << surface->z_order();
stream << " queue_ids=";
auto queue_ids = surface->GetQueueIds();
std::sort(queue_ids.begin(), queue_ids.end());
for (int32_t id : queue_ids) {
if (id != queue_ids[0])
stream << ",";
stream << id;
}
stream << std::endl;
}
}
stream << std::endl;
stream << "Direct Surfaces:" << std::endl;
count = 0;
for (const auto& surface : surfaces) {
if (surface->surface_type() == SurfaceType::Direct) {
stream << "Surface " << count++ << ":";
stream << " surface_id=" << surface->surface_id()
<< " process_id=" << surface->process_id()
<< " user_id=" << surface->user_id()
<< " visible=" << surface->visible()
<< " z_order=" << surface->z_order();
stream << " queue_ids=";
auto queue_ids = surface->GetQueueIds();
std::sort(queue_ids.begin(), queue_ids.end());
for (int32_t id : queue_ids) {
if (id != queue_ids[0])
stream << ",";
stream << id;
}
stream << std::endl;
}
}
stream << std::endl;
stream << hardware_composer_.Dump();
return stream.str();
}
void DisplayService::OnChannelClose(pdx::Message& message,
const std::shared_ptr<Channel>& channel) {
if (auto surface = std::static_pointer_cast<DisplaySurface>(channel)) {
surface->OnSetAttributes(message,
{{display::SurfaceAttribute::Visible,
display::SurfaceAttributeValue{false}}});
}
}
// First-level dispatch for display service messages. Directly handles messages
// that are independent of the display surface (metrics, creation) and routes
// surface-specific messages to the per-instance handlers.
Status<void> DisplayService::HandleMessage(pdx::Message& message) {
ALOGD_IF(TRACE, "DisplayService::HandleMessage: opcode=%d", message.GetOp());
ATRACE_NAME("DisplayService::HandleMessage");
switch (message.GetOp()) {
case DisplayProtocol::GetMetrics::Opcode:
DispatchRemoteMethod<DisplayProtocol::GetMetrics>(
*this, &DisplayService::OnGetMetrics, message);
return {};
case DisplayProtocol::GetConfigurationData::Opcode:
DispatchRemoteMethod<DisplayProtocol::GetConfigurationData>(
*this, &DisplayService::OnGetConfigurationData, message);
return {};
case DisplayProtocol::GetDisplayIdentificationPort::Opcode:
DispatchRemoteMethod<DisplayProtocol::GetDisplayIdentificationPort>(
*this, &DisplayService::OnGetDisplayIdentificationPort, message);
return {};
case DisplayProtocol::CreateSurface::Opcode:
DispatchRemoteMethod<DisplayProtocol::CreateSurface>(
*this, &DisplayService::OnCreateSurface, message);
return {};
case DisplayProtocol::SetupGlobalBuffer::Opcode:
DispatchRemoteMethod<DisplayProtocol::SetupGlobalBuffer>(
*this, &DisplayService::OnSetupGlobalBuffer, message);
return {};
case DisplayProtocol::DeleteGlobalBuffer::Opcode:
DispatchRemoteMethod<DisplayProtocol::DeleteGlobalBuffer>(
*this, &DisplayService::OnDeleteGlobalBuffer, message);
return {};
case DisplayProtocol::GetGlobalBuffer::Opcode:
DispatchRemoteMethod<DisplayProtocol::GetGlobalBuffer>(
*this, &DisplayService::OnGetGlobalBuffer, message);
return {};
case DisplayProtocol::IsVrAppRunning::Opcode:
DispatchRemoteMethod<DisplayProtocol::IsVrAppRunning>(
*this, &DisplayService::IsVrAppRunning, message);
return {};
// Direct the surface specific messages to the surface instance.
case DisplayProtocol::SetAttributes::Opcode:
case DisplayProtocol::CreateQueue::Opcode:
case DisplayProtocol::GetSurfaceInfo::Opcode:
return HandleSurfaceMessage(message);
default:
return Service::HandleMessage(message);
}
}
Status<display::Metrics> DisplayService::OnGetMetrics(
pdx::Message& /*message*/) {
const auto& params = hardware_composer_.GetPrimaryDisplayParams();
return {{static_cast<uint32_t>(params.width),
static_cast<uint32_t>(params.height),
static_cast<uint32_t>(params.dpi.x),
static_cast<uint32_t>(params.dpi.y),
static_cast<uint32_t>(params.vsync_period_ns),
0,
0,
0,
0.0,
{},
{}}};
}
pdx::Status<std::string> DisplayService::OnGetConfigurationData(
pdx::Message& /*message*/, display::ConfigFileType config_type) {
std::string property_name;
DisplayIdentificationData display_identification_data;
switch (config_type) {
case display::ConfigFileType::kLensMetrics:
property_name = kDvrLensMetricsProperty;
break;
case display::ConfigFileType::kDeviceMetrics:
property_name = kDvrDeviceMetricsProperty;
break;
case display::ConfigFileType::kDeviceConfiguration:
property_name = kDvrDeviceConfigProperty;
break;
case display::ConfigFileType::kDeviceEdid:
display_identification_data =
hardware_composer_.GetCurrentDisplayIdentificationData();
if (display_identification_data.size() == 0) {
return ErrorStatus(ENOENT);
}
return std::string(display_identification_data.begin(),
display_identification_data.end());
default:
return ErrorStatus(EINVAL);
}
std::string file_path = base::GetProperty(property_name, "");
if (file_path.empty()) {
return ErrorStatus(ENOENT);
}
std::string data;
if (!base::ReadFileToString(file_path, &data)) {
return ErrorStatus(errno);
}
return std::move(data);
}
pdx::Status<uint8_t> DisplayService::OnGetDisplayIdentificationPort(
pdx::Message& /*message*/) {
return hardware_composer_.GetCurrentDisplayPort();
}
// Creates a new DisplaySurface and associates it with this channel. This may
// only be done once per channel.
Status<display::SurfaceInfo> DisplayService::OnCreateSurface(
pdx::Message& message, const display::SurfaceAttributes& attributes) {
// A surface may only be created once per channel.
if (message.GetChannel())
return ErrorStatus(EINVAL);
ALOGI_IF(TRACE, "DisplayService::OnCreateSurface: cid=%d",
message.GetChannelId());
// Use the channel id as the unique surface id.
const int surface_id = message.GetChannelId();
const int process_id = message.GetProcessId();
const int user_id = message.GetEffectiveUserId();
ALOGI_IF(TRACE,
"DisplayService::OnCreateSurface: surface_id=%d process_id=%d",
surface_id, process_id);
auto surface_status =
DisplaySurface::Create(this, surface_id, process_id, user_id, attributes);
if (!surface_status) {
ALOGE("DisplayService::OnCreateSurface: Failed to create surface: %s",
surface_status.GetErrorMessage().c_str());
return ErrorStatus(surface_status.error());
}
auto surface = surface_status.take();
message.SetChannel(surface);
// Update the surface with the attributes supplied with the create call. For
// application surfaces this has the side effect of notifying the display
// manager of the new surface. For direct surfaces, this may trigger a mode
// change, depending on the value of the visible attribute.
surface->OnSetAttributes(message, attributes);
return {{surface->surface_id(), surface->visible(), surface->z_order()}};
}
void DisplayService::SurfaceUpdated(SurfaceType surface_type,
display::SurfaceUpdateFlags update_flags) {
ALOGD_IF(TRACE, "DisplayService::SurfaceUpdated: update_flags=%x",
update_flags.value());
if (update_flags.value() != 0) {
if (surface_type == SurfaceType::Application)
NotifyDisplayConfigurationUpdate();
else
UpdateActiveDisplaySurfaces();
}
}
pdx::Status<BorrowedNativeBufferHandle> DisplayService::OnSetupGlobalBuffer(
pdx::Message& message, DvrGlobalBufferKey key, size_t size,
uint64_t usage) {
const int user_id = message.GetEffectiveUserId();
const bool trusted = user_id == AID_ROOT || IsTrustedUid(user_id);
if (!trusted) {
ALOGE(
"DisplayService::OnSetupGlobalBuffer: Permission denied for user_id=%d",
user_id);
return ErrorStatus(EPERM);
}
return SetupGlobalBuffer(key, size, usage);
}
pdx::Status<void> DisplayService::OnDeleteGlobalBuffer(pdx::Message& message,
DvrGlobalBufferKey key) {
const int user_id = message.GetEffectiveUserId();
const bool trusted = (user_id == AID_ROOT) || IsTrustedUid(user_id);
if (!trusted) {
ALOGE(
"DisplayService::OnDeleteGlobalBuffer: Permission denied for "
"user_id=%d",
user_id);
return ErrorStatus(EPERM);
}
return DeleteGlobalBuffer(key);
}
pdx::Status<BorrowedNativeBufferHandle> DisplayService::OnGetGlobalBuffer(
pdx::Message& /* message */, DvrGlobalBufferKey key) {
ALOGD_IF(TRACE, "DisplayService::OnGetGlobalBuffer: key=%d", key);
auto global_buffer = global_buffers_.find(key);
if (global_buffer != global_buffers_.end())
return {BorrowedNativeBufferHandle(*global_buffer->second, 0)};
else
return pdx::ErrorStatus(EINVAL);
}
// Calls the message handler for the DisplaySurface associated with this
// channel.
Status<void> DisplayService::HandleSurfaceMessage(pdx::Message& message) {
auto surface = std::static_pointer_cast<DisplaySurface>(message.GetChannel());
ALOGW_IF(!surface,
"DisplayService::HandleSurfaceMessage: surface is nullptr!");
if (surface)
return surface->HandleMessage(message);
else
return ErrorStatus(EINVAL);
}
std::shared_ptr<DisplaySurface> DisplayService::GetDisplaySurface(
int surface_id) const {
return std::static_pointer_cast<DisplaySurface>(GetChannel(surface_id));
}
std::vector<std::shared_ptr<DisplaySurface>>
DisplayService::GetDisplaySurfaces() const {
return GetChannels<DisplaySurface>();
}
std::vector<std::shared_ptr<DirectDisplaySurface>>
DisplayService::GetVisibleDisplaySurfaces() const {
std::vector<std::shared_ptr<DirectDisplaySurface>> visible_surfaces;
ForEachDisplaySurface(
SurfaceType::Direct,
[&](const std::shared_ptr<DisplaySurface>& surface) mutable {
if (surface->visible()) {
visible_surfaces.push_back(
std::static_pointer_cast<DirectDisplaySurface>(surface));
surface->ClearUpdate();
}
});
return visible_surfaces;
}
void DisplayService::UpdateActiveDisplaySurfaces() {
auto visible_surfaces = GetVisibleDisplaySurfaces();
ALOGD_IF(TRACE,
"DisplayService::UpdateActiveDisplaySurfaces: %zd visible surfaces",
visible_surfaces.size());
hardware_composer_.SetDisplaySurfaces(std::move(visible_surfaces));
}
pdx::Status<BorrowedNativeBufferHandle> DisplayService::SetupGlobalBuffer(
DvrGlobalBufferKey key, size_t size, uint64_t usage) {
auto global_buffer = global_buffers_.find(key);
if (global_buffer == global_buffers_.end()) {
auto ion_buffer = std::make_unique<IonBuffer>(static_cast<int>(size), 1,
HAL_PIXEL_FORMAT_BLOB, usage);
// Some buffers are used internally. If they were configured with an
// invalid size or format, this will fail.
int result = hardware_composer_.OnNewGlobalBuffer(key, *ion_buffer.get());
if (result < 0)
return ErrorStatus(result);
global_buffer =
global_buffers_.insert(std::make_pair(key, std::move(ion_buffer)))
.first;
}
return {BorrowedNativeBufferHandle(*global_buffer->second, 0)};
}
pdx::Status<void> DisplayService::DeleteGlobalBuffer(DvrGlobalBufferKey key) {
auto global_buffer = global_buffers_.find(key);
if (global_buffer != global_buffers_.end()) {
// Some buffers are used internally.
hardware_composer_.OnDeletedGlobalBuffer(key);
global_buffers_.erase(global_buffer);
}
return {0};
}
void DisplayService::SetDisplayConfigurationUpdateNotifier(
DisplayConfigurationUpdateNotifier update_notifier) {
update_notifier_ = update_notifier;
}
void DisplayService::NotifyDisplayConfigurationUpdate() {
if (update_notifier_)
update_notifier_();
}
Status<bool> DisplayService::IsVrAppRunning(pdx::Message& /*message*/) {
bool visible = false;
ForEachDisplaySurface(
SurfaceType::Application,
[&visible](const std::shared_ptr<DisplaySurface>& surface) {
if (surface->visible())
visible = true;
});
return {visible};
}
} // namespace dvr
} // namespace android