shell/platform/fuchsia/flutter/software_surface_producer.cc - mirrors/engine - Git at Google

 // Copyright 2013 The Flutter Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "software_surface_producer.h"

 #include <lib/fdio/directory.h>
 #include <lib/zx/process.h>

 #include <algorithm>  // For std::remove_if
 #include <memory>
 #include <string>
 #include <utility>
 #include <vector>

 #include "flutter/fml/logging.h"
 #include "flutter/fml/trace_event.h"

 namespace flutter_runner {

 namespace {

 std::string GetCurrentProcessName() {
   char name[ZX_MAX_NAME_LEN];
   zx_status_t status =
       zx::process::self()->get_property(ZX_PROP_NAME, name, sizeof(name));
   if (status != ZX_OK) {
     FML_LOG(ERROR) << "Failed to get process name for sysmem; using \"\".";
     return std::string();
   }

   return std::string(name);
 }

 zx_koid_t GetCurrentProcessId() {
   zx_info_handle_basic_t info;
   zx_status_t status = zx::process::self()->get_info(
       ZX_INFO_HANDLE_BASIC, &info, sizeof(info), /*actual_count*/ nullptr,
       /*avail_count*/ nullptr);
   if (status != ZX_OK) {
     FML_LOG(ERROR) << "Failed to get process ID for sysmem; using 0.";
     return ZX_KOID_INVALID;
   }

   return info.koid;
 }

 }  // namespace

 SoftwareSurfaceProducer::SoftwareSurfaceProducer() {
   zx_status_t status = fdio_service_connect(
       "/svc/fuchsia.sysmem.Allocator",
       sysmem_allocator_.NewRequest().TakeChannel().release());
   sysmem_allocator_->SetDebugClientInfo(GetCurrentProcessName(),
                                         GetCurrentProcessId());
   FML_DCHECK(status == ZX_OK);

   status = fdio_service_connect(
       "/svc/fuchsia.ui.composition.Allocator",
       flatland_allocator_.NewRequest().TakeChannel().release());
   FML_DCHECK(status == ZX_OK);

   valid_ = true;
 }

 SoftwareSurfaceProducer::~SoftwareSurfaceProducer() = default;

 std::unique_ptr<SurfaceProducerSurface>
 SoftwareSurfaceProducer::ProduceOffscreenSurface(const SkISize& size) {
   FML_CHECK(valid_);

   return CreateSurface(size);
 }

 std::unique_ptr<SurfaceProducerSurface> SoftwareSurfaceProducer::ProduceSurface(
     const SkISize& size) {
   TRACE_EVENT2("flutter", "SoftwareSurfacePool::ProduceSurface", "width",
                size.width(), "height", size.height());
   FML_CHECK(valid_);

   std::unique_ptr<SurfaceProducerSurface> surface;
   auto exact_match_it =
       std::find_if(available_surfaces_.begin(), available_surfaces_.end(),
                    [&size](const auto& surface) {
                      return surface->IsValid() && surface->GetSize() == size;
                    });
   if (exact_match_it != available_surfaces_.end()) {
     TRACE_EVENT_INSTANT0("flutter", "Exact match found");
     surface = std::move(*exact_match_it);
     available_surfaces_.erase(exact_match_it);
   } else {
     surface = CreateSurface(size);
   }

   if (surface == nullptr) {
     FML_LOG(ERROR) << "Could not acquire surface.";
     return nullptr;
   }

   if (!surface->FlushSessionAcquireAndReleaseEvents()) {
     FML_LOG(ERROR) << "Could not flush acquire/release events for buffer.";
     return nullptr;
   }

   return surface;
 }

 void SoftwareSurfaceProducer::SubmitSurfaces(
     std::vector<std::unique_ptr<SurfaceProducerSurface>> surfaces) {
   TRACE_EVENT0("flutter", "SoftwareSurfaceProducer::SubmitSurfaces");

   // Submit surface
   for (auto& surface : surfaces) {
     SubmitSurface(std::move(surface));
   }

   // Buffer management.
   AgeAndCollectOldBuffers();
 }

 void SoftwareSurfaceProducer::SubmitSurface(
     std::unique_ptr<SurfaceProducerSurface> surface) {
   TRACE_EVENT0("flutter", "SoftwareSurfacePool::SubmitSurface");
   FML_CHECK(valid_);

   // This cast is safe because |SoftwareSurface| is the only implementation of
   // |SurfaceProducerSurface| for Flutter on Fuchsia.  Additionally, it is
   // required, because we need to access |SoftwareSurface| specific information
   // of the surface (such as the amount of memory it contains).
   auto software_surface = std::unique_ptr<SoftwareSurface>(
       static_cast<SoftwareSurface*>(surface.release()));
   if (!software_surface) {
     return;
   }

   uintptr_t surface_key = reinterpret_cast<uintptr_t>(software_surface.get());
   auto insert_iterator = pending_surfaces_.insert(std::make_pair(
       surface_key,                 // key
       std::move(software_surface)  // value
       ));
   if (insert_iterator.second) {
     insert_iterator.first->second->SignalWritesFinished(std::bind(
         &SoftwareSurfaceProducer::RecyclePendingSurface, this, surface_key));
   }
 }

 std::unique_ptr<SoftwareSurface> SoftwareSurfaceProducer::CreateSurface(
     const SkISize& size) {
   TRACE_EVENT2("flutter", "SoftwareSurfacePool::CreateSurface", "width",
                size.width(), "height", size.height());
   auto surface = std::make_unique<SoftwareSurface>(sysmem_allocator_,
                                                    flatland_allocator_, size);
   if (!surface->IsValid()) {
     FML_LOG(ERROR) << "Created surface is invalid.";
     return nullptr;
   }
   trace_surfaces_created_++;
   return surface;
 }

 void SoftwareSurfaceProducer::RecycleSurface(
     std::unique_ptr<SoftwareSurface> surface) {
   // The surface may have become invalid (for example if the fences could
   // not be reset).
   if (!surface->IsValid()) {
     FML_LOG(ERROR) << "Attempted to recycle invalid surface.";
     return;
   }

   TRACE_EVENT0("flutter", "SoftwareSurfacePool::RecycleSurface");
   // Recycle the buffer by putting it in the list of available surfaces if we
   // have not reached the maximum amount of cached surfaces.
   if (available_surfaces_.size() < kMaxSurfaces) {
     available_surfaces_.push_back(std::move(surface));
   } else {
     TRACE_EVENT_INSTANT0("flutter", "Too many surfaces in pool, dropping");
   }
   TraceStats();
 }

 void SoftwareSurfaceProducer::RecyclePendingSurface(uintptr_t surface_key) {
   // Before we do anything, we must clear the surface from the collection of
   // pending surfaces.
   auto found_in_pending = pending_surfaces_.find(surface_key);
   if (found_in_pending == pending_surfaces_.end()) {
     FML_LOG(ERROR) << "Attempted to recycle a surface that wasn't pending.";
     return;
   }

   // Grab a hold of the surface to recycle and clear the entry in the pending
   // surfaces collection.
   auto surface_to_recycle = std::move(found_in_pending->second);
   pending_surfaces_.erase(found_in_pending);

   RecycleSurface(std::move(surface_to_recycle));
 }

 void SoftwareSurfaceProducer::AgeAndCollectOldBuffers() {
   TRACE_EVENT0("flutter", "SoftwareSurfacePool::AgeAndCollectOldBuffers");

   // Remove all surfaces that are no longer valid or are too old.
   size_t size_before = available_surfaces_.size();
   available_surfaces_.erase(
       std::remove_if(available_surfaces_.begin(), available_surfaces_.end(),
                      [&](auto& surface) {
                        return !surface->IsValid() ||
                               surface->AdvanceAndGetAge() >= kMaxSurfaceAge;
                      }),
       available_surfaces_.end());
   TRACE_EVENT1("flutter", "AgeAndCollect", "aged surfaces",
                (size_before - available_surfaces_.size()));

   TraceStats();
 }

 void SoftwareSurfaceProducer::TraceStats() {
   // Resources held in cached buffers.
   size_t cached_surfaces_bytes = 0;
   for (const auto& surface : available_surfaces_) {
     cached_surfaces_bytes += surface->GetAllocationSize();
   }

   TRACE_COUNTER("flutter", "SurfacePoolCounts", 0u, "CachedCount",
                 available_surfaces_.size(),                       //
                 "Created", trace_surfaces_created_,               //
                 "Reused", trace_surfaces_reused_,                 //
                 "PendingInCompositor", pending_surfaces_.size(),  //
                 "Retained", 0                                     //
   );

   TRACE_COUNTER("flutter", "SurfacePoolBytes", 0u,     //
                 "CachedBytes", cached_surfaces_bytes,  //
                 "RetainedBytes", 0                     //
   );

   // Reset per present/frame stats.
   trace_surfaces_created_ = 0;
   trace_surfaces_reused_ = 0;
 }

 }  // namespace flutter_runner
	// Copyright 2013 The Flutter Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "software_surface_producer.h"

	#include <lib/fdio/directory.h>
	#include <lib/zx/process.h>

	#include <algorithm> // For std::remove_if
	#include <memory>
	#include <string>
	#include <utility>
	#include <vector>

	#include "flutter/fml/logging.h"
	#include "flutter/fml/trace_event.h"

	namespace flutter_runner {

	namespace {

	std::string GetCurrentProcessName() {
	char name[ZX_MAX_NAME_LEN];
	zx_status_t status =
	zx::process::self()->get_property(ZX_PROP_NAME, name, sizeof(name));
	if (status != ZX_OK) {
	FML_LOG(ERROR) << "Failed to get process name for sysmem; using \"\".";
	return std::string();
	}

	return std::string(name);
	}

	zx_koid_t GetCurrentProcessId() {
	zx_info_handle_basic_t info;
	zx_status_t status = zx::process::self()->get_info(
	ZX_INFO_HANDLE_BASIC, &info, sizeof(info), /actual_count/ nullptr,
	/avail_count/ nullptr);
	if (status != ZX_OK) {
	FML_LOG(ERROR) << "Failed to get process ID for sysmem; using 0.";
	return ZX_KOID_INVALID;
	}

	return info.koid;
	}

	} // namespace

	SoftwareSurfaceProducer::SoftwareSurfaceProducer() {
	zx_status_t status = fdio_service_connect(
	"/svc/fuchsia.sysmem.Allocator",
	sysmem_allocator_.NewRequest().TakeChannel().release());
	sysmem_allocator_->SetDebugClientInfo(GetCurrentProcessName(),
	GetCurrentProcessId());
	FML_DCHECK(status == ZX_OK);

	status = fdio_service_connect(
	"/svc/fuchsia.ui.composition.Allocator",
	flatland_allocator_.NewRequest().TakeChannel().release());
	FML_DCHECK(status == ZX_OK);

	valid_ = true;
	}

	SoftwareSurfaceProducer::~SoftwareSurfaceProducer() = default;

	std::unique_ptr<SurfaceProducerSurface>
	SoftwareSurfaceProducer::ProduceOffscreenSurface(const SkISize& size) {
	FML_CHECK(valid_);

	return CreateSurface(size);
	}

	std::unique_ptr<SurfaceProducerSurface> SoftwareSurfaceProducer::ProduceSurface(
	const SkISize& size) {
	TRACE_EVENT2("flutter", "SoftwareSurfacePool::ProduceSurface", "width",
	size.width(), "height", size.height());
	FML_CHECK(valid_);

	std::unique_ptr<SurfaceProducerSurface> surface;
	auto exact_match_it =
	std::find_if(available_surfaces_.begin(), available_surfaces_.end(),
	[&size](const auto& surface) {
	return surface->IsValid() && surface->GetSize() == size;
	});
	if (exact_match_it != available_surfaces_.end()) {
	TRACE_EVENT_INSTANT0("flutter", "Exact match found");
	surface = std::move(*exact_match_it);
	available_surfaces_.erase(exact_match_it);
	} else {
	surface = CreateSurface(size);
	}

	if (surface == nullptr) {
	FML_LOG(ERROR) << "Could not acquire surface.";
	return nullptr;
	}

	if (!surface->FlushSessionAcquireAndReleaseEvents()) {
	FML_LOG(ERROR) << "Could not flush acquire/release events for buffer.";
	return nullptr;
	}

	return surface;
	}

	void SoftwareSurfaceProducer::SubmitSurfaces(
	std::vector<std::unique_ptr<SurfaceProducerSurface>> surfaces) {
	TRACE_EVENT0("flutter", "SoftwareSurfaceProducer::SubmitSurfaces");

	// Submit surface
	for (auto& surface : surfaces) {
	SubmitSurface(std::move(surface));
	}

	// Buffer management.
	AgeAndCollectOldBuffers();
	}

	void SoftwareSurfaceProducer::SubmitSurface(
	std::unique_ptr<SurfaceProducerSurface> surface) {
	TRACE_EVENT0("flutter", "SoftwareSurfacePool::SubmitSurface");
	FML_CHECK(valid_);

	// This cast is safe because \|SoftwareSurface\| is the only implementation of
	// \|SurfaceProducerSurface\| for Flutter on Fuchsia. Additionally, it is
	// required, because we need to access \|SoftwareSurface\| specific information
	// of the surface (such as the amount of memory it contains).
	auto software_surface = std::unique_ptr<SoftwareSurface>(
	static_cast<SoftwareSurface*>(surface.release()));
	if (!software_surface) {
	return;
	}

	uintptr_t surface_key = reinterpret_cast<uintptr_t>(software_surface.get());
	auto insert_iterator = pending_surfaces_.insert(std::make_pair(
	surface_key, // key
	std::move(software_surface) // value
	));
	if (insert_iterator.second) {
	insert_iterator.first->second->SignalWritesFinished(std::bind(
	&SoftwareSurfaceProducer::RecyclePendingSurface, this, surface_key));
	}
	}

	std::unique_ptr<SoftwareSurface> SoftwareSurfaceProducer::CreateSurface(
	const SkISize& size) {
	TRACE_EVENT2("flutter", "SoftwareSurfacePool::CreateSurface", "width",
	size.width(), "height", size.height());
	auto surface = std::make_unique<SoftwareSurface>(sysmem_allocator_,
	flatland_allocator_, size);
	if (!surface->IsValid()) {
	FML_LOG(ERROR) << "Created surface is invalid.";
	return nullptr;
	}
	trace_surfaces_created_++;
	return surface;
	}

	void SoftwareSurfaceProducer::RecycleSurface(
	std::unique_ptr<SoftwareSurface> surface) {
	// The surface may have become invalid (for example if the fences could
	// not be reset).
	if (!surface->IsValid()) {
	FML_LOG(ERROR) << "Attempted to recycle invalid surface.";
	return;
	}

	TRACE_EVENT0("flutter", "SoftwareSurfacePool::RecycleSurface");
	// Recycle the buffer by putting it in the list of available surfaces if we
	// have not reached the maximum amount of cached surfaces.
	if (available_surfaces_.size() < kMaxSurfaces) {
	available_surfaces_.push_back(std::move(surface));
	} else {
	TRACE_EVENT_INSTANT0("flutter", "Too many surfaces in pool, dropping");
	}
	TraceStats();
	}

	void SoftwareSurfaceProducer::RecyclePendingSurface(uintptr_t surface_key) {
	// Before we do anything, we must clear the surface from the collection of
	// pending surfaces.
	auto found_in_pending = pending_surfaces_.find(surface_key);
	if (found_in_pending == pending_surfaces_.end()) {
	FML_LOG(ERROR) << "Attempted to recycle a surface that wasn't pending.";
	return;
	}

	// Grab a hold of the surface to recycle and clear the entry in the pending
	// surfaces collection.
	auto surface_to_recycle = std::move(found_in_pending->second);
	pending_surfaces_.erase(found_in_pending);

	RecycleSurface(std::move(surface_to_recycle));
	}

	void SoftwareSurfaceProducer::AgeAndCollectOldBuffers() {
	TRACE_EVENT0("flutter", "SoftwareSurfacePool::AgeAndCollectOldBuffers");

	// Remove all surfaces that are no longer valid or are too old.
	size_t size_before = available_surfaces_.size();
	available_surfaces_.erase(
	std::remove_if(available_surfaces_.begin(), available_surfaces_.end(),
	[&](auto& surface) {
	return !surface->IsValid() \|\|
	surface->AdvanceAndGetAge() >= kMaxSurfaceAge;
	}),
	available_surfaces_.end());
	TRACE_EVENT1("flutter", "AgeAndCollect", "aged surfaces",
	(size_before - available_surfaces_.size()));

	TraceStats();
	}

	void SoftwareSurfaceProducer::TraceStats() {
	// Resources held in cached buffers.
	size_t cached_surfaces_bytes = 0;
	for (const auto& surface : available_surfaces_) {
	cached_surfaces_bytes += surface->GetAllocationSize();
	}

	TRACE_COUNTER("flutter", "SurfacePoolCounts", 0u, "CachedCount",
	available_surfaces_.size(), //
	"Created", trace_surfaces_created_, //
	"Reused", trace_surfaces_reused_, //
	"PendingInCompositor", pending_surfaces_.size(), //
	"Retained", 0 //
	);

	TRACE_COUNTER("flutter", "SurfacePoolBytes", 0u, //
	"CachedBytes", cached_surfaces_bytes, //
	"RetainedBytes", 0 //
	);

	// Reset per present/frame stats.
	trace_surfaces_created_ = 0;
	trace_surfaces_reused_ = 0;
	}

	} // namespace flutter_runner