src/net/disk_cache/simple/simple_backend_impl.h - cobalt - Git at Google

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

 #ifndef NET_DISK_CACHE_SIMPLE_SIMPLE_BACKEND_IMPL_H_
 #define NET_DISK_CACHE_SIMPLE_SIMPLE_BACKEND_IMPL_H_

 #include <memory>
 #include <string>
 #include <unordered_map>
 #include <utility>
 #include <vector>

 #include "base/callback_forward.h"
 #include "base/compiler_specific.h"
 #include "base/files/file_path.h"
 #include "base/memory/ref_counted.h"
 #include "base/memory/weak_ptr.h"
 #include "base/strings/string_split.h"
 #include "base/task_runner.h"
 #include "base/time/time.h"
 #include "build/build_config.h"
 #include "net/base/cache_type.h"
 #include "net/base/net_export.h"
 #include "net/disk_cache/disk_cache.h"
 #include "net/disk_cache/simple/simple_entry_impl.h"
 #include "net/disk_cache/simple/simple_index_delegate.h"
 #include "starboard/types.h"

 namespace base {
 class SequencedTaskRunner;
 class TaskRunner;
 }  // namespace base

 namespace net {
 class PrioritizedTaskRunner;
 }  // namespace net

 namespace disk_cache {

 // SimpleBackendImpl is a new cache backend that stores entries in individual
 // files.
 // See http://www.chromium.org/developers/design-documents/network-stack/disk-cache/very-simple-backend
 //
 // The SimpleBackendImpl provides safe iteration; mutating entries during
 // iteration cannot cause a crash. It is undefined whether entries created or
 // destroyed during the iteration will be included in any pre-existing
 // iterations.
 //
 // The non-static functions below must be called on the IO thread unless
 // otherwise stated.

 class BackendCleanupTracker;
 class SimpleEntryImpl;
 class SimpleFileTracker;
 class SimpleIndex;

 class NET_EXPORT_PRIVATE SimpleBackendImpl : public Backend,
     public SimpleIndexDelegate,
     public base::SupportsWeakPtr<SimpleBackendImpl> {
  public:
   static const base::Feature kPrioritizedSimpleCacheTasks;

   // Note: only pass non-nullptr for |file_tracker| if you don't want the global
   // one (which things other than tests would want). |file_tracker| must outlive
   // the backend and all the entries, including their asynchronous close.
   SimpleBackendImpl(const base::FilePath& path,
                     scoped_refptr<BackendCleanupTracker> cleanup_tracker,
                     SimpleFileTracker* file_tracker,
                     int64_t max_bytes,
                     net::CacheType cache_type,
                     net::NetLog* net_log);

   ~SimpleBackendImpl() override;

   net::CacheType cache_type() const { return cache_type_; }
   SimpleIndex* index() { return index_.get(); }

   void SetWorkerPoolForTesting(scoped_refptr<base::TaskRunner> task_runner);

   net::Error Init(CompletionOnceCallback completion_callback);

   // Sets the maximum size for the total amount of data stored by this instance.
   bool SetMaxSize(int64_t max_bytes);

   // Returns the maximum file size permitted in this backend.
   int GetMaxFileSize() const;

   // Flush our SequencedWorkerPool.
   static void FlushWorkerPoolForTesting();

   // The entry for |entry_hash| is being doomed; the backend will not attempt
   // run new operations for this |entry_hash| until the Doom is completed.
   void OnDoomStart(uint64_t entry_hash);

   // The entry for |entry_hash| has been successfully doomed, we can now allow
   // operations on this entry, and we can run any operations enqueued while the
   // doom completed.
   void OnDoomComplete(uint64_t entry_hash);

   // SimpleIndexDelegate:
   void DoomEntries(std::vector<uint64_t>* entry_hashes,
                    CompletionOnceCallback callback) override;

   // Backend:
   net::CacheType GetCacheType() const override;
   int32_t GetEntryCount() const override;
   net::Error OpenEntry(const std::string& key,
                        net::RequestPriority request_priority,
                        Entry** entry,
                        CompletionOnceCallback callback) override;
   net::Error CreateEntry(const std::string& key,
                          net::RequestPriority request_priority,
                          Entry** entry,
                          CompletionOnceCallback callback) override;
   net::Error DoomEntry(const std::string& key,
                        net::RequestPriority priority,
                        CompletionOnceCallback callback) override;
   net::Error DoomAllEntries(CompletionOnceCallback callback) override;
   net::Error DoomEntriesBetween(base::Time initial_time,
                                 base::Time end_time,
                                 CompletionOnceCallback callback) override;
   net::Error DoomEntriesSince(base::Time initial_time,
                               CompletionOnceCallback callback) override;
   int64_t CalculateSizeOfAllEntries(
       Int64CompletionOnceCallback callback) override;
   int64_t CalculateSizeOfEntriesBetween(
       base::Time initial_time,
       base::Time end_time,
       Int64CompletionOnceCallback callback) override;
   std::unique_ptr<Iterator> CreateIterator() override;
   void GetStats(base::StringPairs* stats) override;
   void OnExternalCacheHit(const std::string& key) override;
   size_t DumpMemoryStats(
       base::trace_event::ProcessMemoryDump* pmd,
       const std::string& parent_absolute_name) const override;
   uint8_t GetEntryInMemoryData(const std::string& key) override;
   void SetEntryInMemoryData(const std::string& key, uint8_t data) override;

   net::PrioritizedTaskRunner* prioritized_task_runner() const {
     return prioritized_task_runner_.get();
   }

 #if defined(OS_ANDROID)
   void set_app_status_listener(
       base::android::ApplicationStatusListener* app_status_listener) {
     app_status_listener_ = app_status_listener;
   }
 #endif

  private:
   class SimpleIterator;
   friend class SimpleIterator;

   using EntryMap = std::unordered_map<uint64_t, SimpleEntryImpl*>;

   using InitializeIndexCallback =
       base::Callback<void(base::Time mtime, uint64_t max_size, int result)>;

   class ActiveEntryProxy;
   friend class ActiveEntryProxy;

   // Return value of InitCacheStructureOnDisk().
   struct DiskStatResult {
     base::Time cache_dir_mtime;
     uint64_t max_size;
     bool detected_magic_number_mismatch;
     int net_error;
   };

   struct PostDoomWaiter {
     PostDoomWaiter();
     // Also initializes |time_queued|.
     explicit PostDoomWaiter(base::OnceClosure to_run_post_doom);
     explicit PostDoomWaiter(PostDoomWaiter&& other);
     ~PostDoomWaiter();
     PostDoomWaiter& operator=(PostDoomWaiter&& other);

     base::TimeTicks time_queued;
     base::OnceClosure run_post_doom;
   };

   void InitializeIndex(CompletionOnceCallback callback,
                        const DiskStatResult& result);

   // Dooms all entries previously accessed between |initial_time| and
   // |end_time|. Invoked when the index is ready.
   void IndexReadyForDoom(base::Time initial_time,
                          base::Time end_time,
                          CompletionOnceCallback callback,
                          int result);

   // Calculates the size of the entire cache. Invoked when the index is ready.
   void IndexReadyForSizeCalculation(Int64CompletionOnceCallback callback,
                                     int result);

   // Calculates the size all cache entries between |initial_time| and
   // |end_time|. Invoked when the index is ready.
   void IndexReadyForSizeBetweenCalculation(base::Time initial_time,
                                            base::Time end_time,
                                            Int64CompletionOnceCallback callback,
                                            int result);

   // Try to create the directory if it doesn't exist. This must run on the IO
   // thread.
   static DiskStatResult InitCacheStructureOnDisk(const base::FilePath& path,
                                                  uint64_t suggested_max_size,
                                                  net::CacheType cache_type);

   // Looks at current state of |entries_pending_doom_| and |active_entries_|
   // relevant to |entry_hash|, and, as appropriate, either returns a valid entry
   // matching |entry_hash| and |key|, or returns nullptr and sets |*post_doom|
   // to point to a vector of closures which will be invoked when it's an
   // appropriate time to try again.  The caller is expected to append its retry
   // closure to that vector.
   scoped_refptr<SimpleEntryImpl> CreateOrFindActiveOrDoomedEntry(
       uint64_t entry_hash,
       const std::string& key,
       net::RequestPriority request_priority,
       std::vector<PostDoomWaiter>** post_doom);

   // Given a hash, will try to open the corresponding Entry. If we have an Entry
   // corresponding to |hash| in the map of active entries, opens it. Otherwise,
   // a new empty Entry will be created, opened and filled with information from
   // the disk.
   net::Error OpenEntryFromHash(uint64_t entry_hash,
                                Entry** entry,
                                CompletionOnceCallback callback);

   // Doom the entry corresponding to |entry_hash|, if it's active or currently
   // pending doom. This function does not block if there is an active entry,
   // which is very important to prevent races in DoomEntries() above.
   net::Error DoomEntryFromHash(uint64_t entry_hash,
                                CompletionOnceCallback callback);

   // Called when we tried to open an entry with hash alone. When a blank entry
   // has been created and filled in with information from the disk - based on a
   // hash alone - this checks that a duplicate active entry was not created
   // using a key in the meantime.
   void OnEntryOpenedFromHash(uint64_t hash,
                              Entry** entry,
                              const scoped_refptr<SimpleEntryImpl>& simple_entry,
                              CompletionOnceCallback callback,
                              int error_code);

   // Called when we tried to open an entry from key. When the entry has been
   // opened, a check for key mismatch is performed.
   void OnEntryOpenedFromKey(const std::string key,
                             Entry** entry,
                             const scoped_refptr<SimpleEntryImpl>& simple_entry,
                             CompletionOnceCallback callback,
                             int error_code);

   // A callback thunk used by DoomEntries to clear the |entries_pending_doom_|
   // after a mass doom.
   void DoomEntriesComplete(std::unique_ptr<std::vector<uint64_t>> entry_hashes,
                            CompletionOnceCallback callback,
                            int result);

   // Calculates and returns a new entry's worker pool priority.
   uint32_t GetNewEntryPriority(net::RequestPriority request_priority);

   // We want this destroyed after every other field.
   scoped_refptr<BackendCleanupTracker> cleanup_tracker_;

   SimpleFileTracker* const file_tracker_;

   const base::FilePath path_;
   const net::CacheType cache_type_;
   std::unique_ptr<SimpleIndex> index_;

   // This is only used for initial open (including potential format upgrade)
   // and index load/save.
   const scoped_refptr<base::SequencedTaskRunner> cache_runner_;

   // This is used for all the entry I/O.
   scoped_refptr<net::PrioritizedTaskRunner> prioritized_task_runner_;

   int64_t orig_max_size_;
   const SimpleEntryImpl::OperationsMode entry_operations_mode_;

   EntryMap active_entries_;

   // The set of all entries which are currently being doomed. To avoid races,
   // these entries cannot have Doom/Create/Open operations run until the doom
   // is complete. The base::Closure |PostDoomWaiter::run_post_doom| field is
   // used to store deferred operations to be run at the completion of the Doom.
   std::unordered_map<uint64_t, std::vector<PostDoomWaiter>>
       entries_pending_doom_;

   net::NetLog* const net_log_;

   uint32_t entry_count_ = 0;

 #if defined(OS_ANDROID)
   base::android::ApplicationStatusListener* app_status_listener_ = nullptr;
 #endif
 };

 }  // namespace disk_cache

 #endif  // NET_DISK_CACHE_SIMPLE_SIMPLE_BACKEND_IMPL_H_
	// Copyright (c) 2013 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef NET_DISK_CACHE_SIMPLE_SIMPLE_BACKEND_IMPL_H_
	#define NET_DISK_CACHE_SIMPLE_SIMPLE_BACKEND_IMPL_H_

	#include <memory>
	#include <string>
	#include <unordered_map>
	#include <utility>
	#include <vector>

	#include "base/callback_forward.h"
	#include "base/compiler_specific.h"
	#include "base/files/file_path.h"
	#include "base/memory/ref_counted.h"
	#include "base/memory/weak_ptr.h"
	#include "base/strings/string_split.h"
	#include "base/task_runner.h"
	#include "base/time/time.h"
	#include "build/build_config.h"
	#include "net/base/cache_type.h"
	#include "net/base/net_export.h"
	#include "net/disk_cache/disk_cache.h"
	#include "net/disk_cache/simple/simple_entry_impl.h"
	#include "net/disk_cache/simple/simple_index_delegate.h"
	#include "starboard/types.h"

	namespace base {
	class SequencedTaskRunner;
	class TaskRunner;
	} // namespace base

	namespace net {
	class PrioritizedTaskRunner;
	} // namespace net

	namespace disk_cache {

	// SimpleBackendImpl is a new cache backend that stores entries in individual
	// files.
	// See http://www.chromium.org/developers/design-documents/network-stack/disk-cache/very-simple-backend
	//
	// The SimpleBackendImpl provides safe iteration; mutating entries during
	// iteration cannot cause a crash. It is undefined whether entries created or
	// destroyed during the iteration will be included in any pre-existing
	// iterations.
	//
	// The non-static functions below must be called on the IO thread unless
	// otherwise stated.

	class BackendCleanupTracker;
	class SimpleEntryImpl;
	class SimpleFileTracker;
	class SimpleIndex;

	class NET_EXPORT_PRIVATE SimpleBackendImpl : public Backend,
	public SimpleIndexDelegate,
	public base::SupportsWeakPtr<SimpleBackendImpl> {
	public:
	static const base::Feature kPrioritizedSimpleCacheTasks;

	// Note: only pass non-nullptr for \|file_tracker\| if you don't want the global
	// one (which things other than tests would want). \|file_tracker\| must outlive
	// the backend and all the entries, including their asynchronous close.
	SimpleBackendImpl(const base::FilePath& path,
	scoped_refptr<BackendCleanupTracker> cleanup_tracker,
	SimpleFileTracker* file_tracker,
	int64_t max_bytes,
	net::CacheType cache_type,
	net::NetLog* net_log);

	~SimpleBackendImpl() override;

	net::CacheType cache_type() const { return cache_type_; }
	SimpleIndex* index() { return index_.get(); }

	void SetWorkerPoolForTesting(scoped_refptr<base::TaskRunner> task_runner);

	net::Error Init(CompletionOnceCallback completion_callback);

	// Sets the maximum size for the total amount of data stored by this instance.
	bool SetMaxSize(int64_t max_bytes);

	// Returns the maximum file size permitted in this backend.
	int GetMaxFileSize() const;

	// Flush our SequencedWorkerPool.
	static void FlushWorkerPoolForTesting();

	// The entry for \|entry_hash\| is being doomed; the backend will not attempt
	// run new operations for this \|entry_hash\| until the Doom is completed.
	void OnDoomStart(uint64_t entry_hash);

	// The entry for \|entry_hash\| has been successfully doomed, we can now allow
	// operations on this entry, and we can run any operations enqueued while the
	// doom completed.
	void OnDoomComplete(uint64_t entry_hash);

	// SimpleIndexDelegate:
	void DoomEntries(std::vector<uint64_t>* entry_hashes,
	CompletionOnceCallback callback) override;

	// Backend:
	net::CacheType GetCacheType() const override;
	int32_t GetEntryCount() const override;
	net::Error OpenEntry(const std::string& key,
	net::RequestPriority request_priority,
	Entry** entry,
	CompletionOnceCallback callback) override;
	net::Error CreateEntry(const std::string& key,
	net::RequestPriority request_priority,
	Entry** entry,
	CompletionOnceCallback callback) override;
	net::Error DoomEntry(const std::string& key,
	net::RequestPriority priority,
	CompletionOnceCallback callback) override;
	net::Error DoomAllEntries(CompletionOnceCallback callback) override;
	net::Error DoomEntriesBetween(base::Time initial_time,
	base::Time end_time,
	CompletionOnceCallback callback) override;
	net::Error DoomEntriesSince(base::Time initial_time,
	CompletionOnceCallback callback) override;
	int64_t CalculateSizeOfAllEntries(
	Int64CompletionOnceCallback callback) override;
	int64_t CalculateSizeOfEntriesBetween(
	base::Time initial_time,
	base::Time end_time,
	Int64CompletionOnceCallback callback) override;
	std::unique_ptr<Iterator> CreateIterator() override;
	void GetStats(base::StringPairs* stats) override;
	void OnExternalCacheHit(const std::string& key) override;
	size_t DumpMemoryStats(
	base::trace_event::ProcessMemoryDump* pmd,
	const std::string& parent_absolute_name) const override;
	uint8_t GetEntryInMemoryData(const std::string& key) override;
	void SetEntryInMemoryData(const std::string& key, uint8_t data) override;

	net::PrioritizedTaskRunner* prioritized_task_runner() const {
	return prioritized_task_runner_.get();
	}

	#if defined(OS_ANDROID)
	void set_app_status_listener(
	base::android::ApplicationStatusListener* app_status_listener) {
	app_status_listener_ = app_status_listener;
	}
	#endif

	private:
	class SimpleIterator;
	friend class SimpleIterator;

	using EntryMap = std::unordered_map<uint64_t, SimpleEntryImpl*>;

	using InitializeIndexCallback =
	base::Callback<void(base::Time mtime, uint64_t max_size, int result)>;

	class ActiveEntryProxy;
	friend class ActiveEntryProxy;

	// Return value of InitCacheStructureOnDisk().
	struct DiskStatResult {
	base::Time cache_dir_mtime;
	uint64_t max_size;
	bool detected_magic_number_mismatch;
	int net_error;
	};

	struct PostDoomWaiter {
	PostDoomWaiter();
	// Also initializes \|time_queued\|.
	explicit PostDoomWaiter(base::OnceClosure to_run_post_doom);
	explicit PostDoomWaiter(PostDoomWaiter&& other);
	~PostDoomWaiter();
	PostDoomWaiter& operator=(PostDoomWaiter&& other);

	base::TimeTicks time_queued;
	base::OnceClosure run_post_doom;
	};

	void InitializeIndex(CompletionOnceCallback callback,
	const DiskStatResult& result);

	// Dooms all entries previously accessed between \|initial_time\| and
	// \|end_time\|. Invoked when the index is ready.
	void IndexReadyForDoom(base::Time initial_time,
	base::Time end_time,
	CompletionOnceCallback callback,
	int result);

	// Calculates the size of the entire cache. Invoked when the index is ready.
	void IndexReadyForSizeCalculation(Int64CompletionOnceCallback callback,
	int result);

	// Calculates the size all cache entries between \|initial_time\| and
	// \|end_time\|. Invoked when the index is ready.
	void IndexReadyForSizeBetweenCalculation(base::Time initial_time,
	base::Time end_time,
	Int64CompletionOnceCallback callback,
	int result);

	// Try to create the directory if it doesn't exist. This must run on the IO
	// thread.
	static DiskStatResult InitCacheStructureOnDisk(const base::FilePath& path,
	uint64_t suggested_max_size,
	net::CacheType cache_type);

	// Looks at current state of \|entries_pending_doom_\| and \|active_entries_\|
	// relevant to \|entry_hash\|, and, as appropriate, either returns a valid entry
	// matching \|entry_hash\| and \|key\|, or returns nullptr and sets \|*post_doom\|
	// to point to a vector of closures which will be invoked when it's an
	// appropriate time to try again. The caller is expected to append its retry
	// closure to that vector.
	scoped_refptr<SimpleEntryImpl> CreateOrFindActiveOrDoomedEntry(
	uint64_t entry_hash,
	const std::string& key,
	net::RequestPriority request_priority,
	std::vector<PostDoomWaiter>** post_doom);

	// Given a hash, will try to open the corresponding Entry. If we have an Entry
	// corresponding to \|hash\| in the map of active entries, opens it. Otherwise,
	// a new empty Entry will be created, opened and filled with information from
	// the disk.
	net::Error OpenEntryFromHash(uint64_t entry_hash,
	Entry** entry,
	CompletionOnceCallback callback);

	// Doom the entry corresponding to \|entry_hash\|, if it's active or currently
	// pending doom. This function does not block if there is an active entry,
	// which is very important to prevent races in DoomEntries() above.
	net::Error DoomEntryFromHash(uint64_t entry_hash,
	CompletionOnceCallback callback);

	// Called when we tried to open an entry with hash alone. When a blank entry
	// has been created and filled in with information from the disk - based on a
	// hash alone - this checks that a duplicate active entry was not created
	// using a key in the meantime.
	void OnEntryOpenedFromHash(uint64_t hash,
	Entry** entry,
	const scoped_refptr<SimpleEntryImpl>& simple_entry,
	CompletionOnceCallback callback,
	int error_code);

	// Called when we tried to open an entry from key. When the entry has been
	// opened, a check for key mismatch is performed.
	void OnEntryOpenedFromKey(const std::string key,
	Entry** entry,
	const scoped_refptr<SimpleEntryImpl>& simple_entry,
	CompletionOnceCallback callback,
	int error_code);

	// A callback thunk used by DoomEntries to clear the \|entries_pending_doom_\|
	// after a mass doom.
	void DoomEntriesComplete(std::unique_ptr<std::vector<uint64_t>> entry_hashes,
	CompletionOnceCallback callback,
	int result);

	// Calculates and returns a new entry's worker pool priority.
	uint32_t GetNewEntryPriority(net::RequestPriority request_priority);

	// We want this destroyed after every other field.
	scoped_refptr<BackendCleanupTracker> cleanup_tracker_;

	SimpleFileTracker* const file_tracker_;

	const base::FilePath path_;
	const net::CacheType cache_type_;
	std::unique_ptr<SimpleIndex> index_;

	// This is only used for initial open (including potential format upgrade)
	// and index load/save.
	const scoped_refptr<base::SequencedTaskRunner> cache_runner_;

	// This is used for all the entry I/O.
	scoped_refptr<net::PrioritizedTaskRunner> prioritized_task_runner_;

	int64_t orig_max_size_;
	const SimpleEntryImpl::OperationsMode entry_operations_mode_;

	EntryMap active_entries_;

	// The set of all entries which are currently being doomed. To avoid races,
	// these entries cannot have Doom/Create/Open operations run until the doom
	// is complete. The base::Closure \|PostDoomWaiter::run_post_doom\| field is
	// used to store deferred operations to be run at the completion of the Doom.
	std::unordered_map<uint64_t, std::vector<PostDoomWaiter>>
	entries_pending_doom_;

	net::NetLog* const net_log_;

	uint32_t entry_count_ = 0;

	#if defined(OS_ANDROID)
	base::android::ApplicationStatusListener* app_status_listener_ = nullptr;
	#endif
	};

	} // namespace disk_cache

	#endif // NET_DISK_CACHE_SIMPLE_SIMPLE_BACKEND_IMPL_H_