kc3-lang/angle/src/libANGLE/BlobCache.cpp

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• Hash : 62778cb9
  Author :
  Date : 2020-09-22T23:10:04
  

  Rename version/commit headers.
  
  Prefix the files with angle_ to disambiguate them from other tools.
  
  Bug: b/168736059
  Change-Id: I7be25ca18fb69d7f2ab71bdf355932865d134954
  Reviewed-on: https://chromium-review.googlesource.com/c/angle/angle/+/2425197
  Commit-Queue: Jamie Madill <jmadill@chromium.org>
  Reviewed-by: Geoff Lang <geofflang@chromium.org>
  

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• src/libANGLE/BlobCache.cpp

• //
  // Copyright 2018 The ANGLE Project Authors. All rights reserved.
  // Use of this source code is governed by a BSD-style license that can be
  // found in the LICENSE file.
  //
  // BlobCache: Stores keyed blobs in memory to support EGL_ANDROID_blob_cache.
  // Can be used in conjunction with the platform layer to warm up the cache from
  // disk.  MemoryProgramCache uses this to handle caching of compiled programs.
  
  #include "libANGLE/BlobCache.h"
  #include "common/utilities.h"
  #include "libANGLE/Context.h"
  #include "libANGLE/Display.h"
  #include "libANGLE/histogram_macros.h"
  #include "platform/PlatformMethods.h"
  
  namespace egl
  {
  
  namespace
  {
  enum CacheResult
  {
      kCacheMiss,
      kCacheHitMemory,
      kCacheHitDisk,
      kCacheResultMax,
  };
  
  }  // anonymous namespace
  
  BlobCache::BlobCache(size_t maxCacheSizeBytes)
      : mBlobCache(maxCacheSizeBytes), mSetBlobFunc(nullptr), mGetBlobFunc(nullptr)
  {}
  
  BlobCache::~BlobCache() {}
  
  void BlobCache::put(const BlobCache::Key &key, angle::MemoryBuffer &&value)
  {
      if (areBlobCacheFuncsSet())
      {
          // Store the result in the application's cache
          mSetBlobFunc(key.data(), key.size(), value.data(), value.size());
      }
      else
      {
          populate(key, std::move(value), CacheSource::Memory);
      }
  }
  
  void BlobCache::putApplication(const BlobCache::Key &key, const angle::MemoryBuffer &value)
  {
      if (areBlobCacheFuncsSet())
      {
          mSetBlobFunc(key.data(), key.size(), value.data(), value.size());
      }
  }
  
  void BlobCache::populate(const BlobCache::Key &key, angle::MemoryBuffer &&value, CacheSource source)
  {
      CacheEntry newEntry;
      newEntry.first  = std::move(value);
      newEntry.second = source;
  
      // Cache it inside blob cache only if caching inside the application is not possible.
      mBlobCache.put(key, std::move(newEntry), newEntry.first.size());
  }
  
  bool BlobCache::get(angle::ScratchBuffer *scratchBuffer,
                      const BlobCache::Key &key,
                      BlobCache::Value *valueOut,
                      size_t *bufferSizeOut)
  {
      // Look into the application's cache, if there is such a cache
      if (areBlobCacheFuncsSet())
      {
          EGLsizeiANDROID valueSize = mGetBlobFunc(key.data(), key.size(), nullptr, 0);
          if (valueSize <= 0)
          {
              return false;
          }
  
          angle::MemoryBuffer *scratchMemory;
          bool result = scratchBuffer->get(valueSize, &scratchMemory);
          if (!result)
          {
              ERR() << "Failed to allocate memory for binary blob";
              return false;
          }
  
          EGLsizeiANDROID originalValueSize = valueSize;
          valueSize = mGetBlobFunc(key.data(), key.size(), scratchMemory->data(), valueSize);
  
          // Make sure the key/value pair still exists/is unchanged after the second call
          // (modifications to the application cache by another thread are a possibility)
          if (valueSize != originalValueSize)
          {
              // This warning serves to find issues with the application cache, none of which are
              // currently known to be thread-safe.  If such a use ever arises, this WARN can be
              // removed.
              WARN() << "Binary blob no longer available in cache (removed by a thread?)";
              return false;
          }
  
          *valueOut      = BlobCache::Value(scratchMemory->data(), scratchMemory->size());
          *bufferSizeOut = valueSize;
          return true;
      }
  
      // Otherwise we are doing caching internally, so try to find it there
      const CacheEntry *entry;
      bool result = mBlobCache.get(key, &entry);
  
      if (result)
      {
          if (entry->second == CacheSource::Memory)
          {
              ANGLE_HISTOGRAM_ENUMERATION("GPU.ANGLE.ProgramCache.CacheResult", kCacheHitMemory,
                                          kCacheResultMax);
          }
          else
          {
              ANGLE_HISTOGRAM_ENUMERATION("GPU.ANGLE.ProgramCache.CacheResult", kCacheHitDisk,
                                          kCacheResultMax);
          }
  
          *valueOut      = BlobCache::Value(entry->first.data(), entry->first.size());
          *bufferSizeOut = entry->first.size();
      }
      else
      {
          ANGLE_HISTOGRAM_ENUMERATION("GPU.ANGLE.ProgramCache.CacheResult", kCacheMiss,
                                      kCacheResultMax);
      }
  
      return result;
  }
  
  bool BlobCache::getAt(size_t index, const BlobCache::Key **keyOut, BlobCache::Value *valueOut)
  {
      const CacheEntry *valueBuf;
      bool result = mBlobCache.getAt(index, keyOut, &valueBuf);
      if (result)
      {
          *valueOut = BlobCache::Value(valueBuf->first.data(), valueBuf->first.size());
      }
      return result;
  }
  
  void BlobCache::remove(const BlobCache::Key &key)
  {
      mBlobCache.eraseByKey(key);
  }
  
  void BlobCache::setBlobCacheFuncs(EGLSetBlobFuncANDROID set, EGLGetBlobFuncANDROID get)
  {
      mSetBlobFunc = set;
      mGetBlobFunc = get;
  }
  
  bool BlobCache::areBlobCacheFuncsSet() const
  {
      // Either none or both of the callbacks should be set.
      ASSERT((mSetBlobFunc != nullptr) == (mGetBlobFunc != nullptr));
  
      return mSetBlobFunc != nullptr && mGetBlobFunc != nullptr;
  }
  
  }  // namespace egl
  

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