content/browser/cache_storage/cache_storage_cache.h - chromium/src - Git at Google

 // Copyright 2014 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 CONTENT_BROWSER_CACHE_STORAGE_CACHE_STORAGE_CACHE_H_
 #define CONTENT_BROWSER_CACHE_STORAGE_CACHE_STORAGE_CACHE_H_

 #include <list>

 #include "base/callback.h"
 #include "base/files/file_path.h"
 #include "base/memory/ref_counted.h"
 #include "base/memory/weak_ptr.h"
 #include "content/common/cache_storage/cache_storage_types.h"
 #include "content/common/service_worker/service_worker_types.h"
 #include "net/base/completion_callback.h"
 #include "net/disk_cache/disk_cache.h"

 namespace net {
 class URLRequestContext;
 class IOBufferWithSize;
 }

 namespace storage {
 class BlobDataBuilder;
 class BlobDataHandle;
 class BlobStorageContext;
 class QuotaManagerProxy;
 }

 namespace content {
 class ChromeBlobStorageContext;
 class CacheMetadata;
 class CacheStorageScheduler;
 class TestCacheStorageCache;

 // Represents a ServiceWorker Cache as seen in
 // https://slightlyoff.github.io/ServiceWorker/spec/service_worker/
 // The asynchronous methods are executed serially. Callbacks to the
 // public functions will be called so long as the cache object lives.
 class CONTENT_EXPORT CacheStorageCache
     : public base::RefCounted<CacheStorageCache> {
  public:
   // This enum is used in histograms, so do not change the ordering and always
   // append new types to the end.
   enum ErrorType {
     ERROR_TYPE_OK = 0,
     ERROR_TYPE_EXISTS,
     ERROR_TYPE_STORAGE,
     ERROR_TYPE_NOT_FOUND,
     ERROR_TYPE_LAST = ERROR_TYPE_NOT_FOUND
   };

   enum EntryIndex { INDEX_HEADERS = 0, INDEX_RESPONSE_BODY };
   typedef base::Callback<void(ErrorType)> ErrorCallback;
   typedef base::Callback<void(ErrorType,
                               scoped_ptr<ServiceWorkerResponse>,
                               scoped_ptr<storage::BlobDataHandle>)>
       ResponseCallback;
   typedef std::vector<ServiceWorkerFetchRequest> Requests;
   typedef base::Callback<void(ErrorType, scoped_ptr<Requests>)>
       RequestsCallback;

   static scoped_refptr<CacheStorageCache> CreateMemoryCache(
       const GURL& origin,
       net::URLRequestContext* request_context,
       const scoped_refptr<storage::QuotaManagerProxy>& quota_manager_proxy,
       base::WeakPtr<storage::BlobStorageContext> blob_context);
   static scoped_refptr<CacheStorageCache> CreatePersistentCache(
       const GURL& origin,
       const base::FilePath& path,
       net::URLRequestContext* request_context,
       const scoped_refptr<storage::QuotaManagerProxy>& quota_manager_proxy,
       base::WeakPtr<storage::BlobStorageContext> blob_context);

   // Returns ERROR_TYPE_NOT_FOUND if not found.
   void Match(scoped_ptr<ServiceWorkerFetchRequest> request,
              const ResponseCallback& callback);

   // Puts the request and response object in the cache. The response body (if
   // present) is stored in the cache, but not the request body. Returns
   // ERROR_TYPE_OK on success.
   void Put(scoped_ptr<ServiceWorkerFetchRequest> request,
            scoped_ptr<ServiceWorkerResponse> response,
            const ResponseCallback& callback);

   // Returns ErrorNotFound if not found. Otherwise deletes and returns
   // ERROR_TYPE_OK.
   void Delete(scoped_ptr<ServiceWorkerFetchRequest> request,
               const ErrorCallback& callback);

   // TODO(jkarlin): Have keys take an optional ServiceWorkerFetchRequest.
   // Returns ErrorTypeOK and a vector of requests if there are no errors.
   void Keys(const RequestsCallback& callback);

   // Closes the backend. Future operations that require the backend
   // will exit early. Close should only be called once per CacheStorageCache.
   void Close(const base::Closure& callback);

   // The size of the cache contents in memory. Returns 0 if the cache backend is
   // not a memory cache backend.
   int64 MemoryBackedSize() const;

   base::WeakPtr<CacheStorageCache> AsWeakPtr();

  private:
   friend class base::RefCounted<CacheStorageCache>;
   friend class TestCacheStorageCache;

   class BlobReader;
   struct KeysContext;
   struct MatchContext;
   struct PutContext;

   // The backend progresses from uninitialized, to open, to closed, and cannot
   // reverse direction.  The open step may be skipped.
   enum BackendState {
     BACKEND_UNINITIALIZED,  // No backend, create backend on first operation.
     BACKEND_OPEN,           // Backend can be used.
     BACKEND_CLOSED          // Backend cannot be used.  All ops should fail.
   };

   typedef std::vector<disk_cache::Entry*> Entries;
   typedef scoped_ptr<disk_cache::Backend> ScopedBackendPtr;

   CacheStorageCache(
       const GURL& origin,
       const base::FilePath& path,
       net::URLRequestContext* request_context,
       const scoped_refptr<storage::QuotaManagerProxy>& quota_manager_proxy,
       base::WeakPtr<storage::BlobStorageContext> blob_context);

   // Async operations in progress will cancel and not run their callbacks.
   virtual ~CacheStorageCache();

   // Match callbacks
   void MatchImpl(scoped_ptr<ServiceWorkerFetchRequest> request,
                  const ResponseCallback& callback);
   void MatchDidOpenEntry(scoped_ptr<MatchContext> match_context, int rv);
   void MatchDidReadMetadata(scoped_ptr<MatchContext> match_context,
                             scoped_ptr<CacheMetadata> headers);
   void MatchDidReadResponseBodyData(scoped_ptr<MatchContext> match_context,
                                     int rv);
   void MatchDoneWithBody(scoped_ptr<MatchContext> match_context);

   // Put callbacks.
   void PutImpl(scoped_ptr<PutContext> put_context);
   void PutDidDelete(scoped_ptr<PutContext> put_context, ErrorType delete_error);
   void PutDidCreateEntry(scoped_ptr<PutContext> put_context, int rv);
   void PutDidWriteHeaders(scoped_ptr<PutContext> put_context,
                           int expected_bytes,
                           int rv);
   void PutDidWriteBlobToCache(scoped_ptr<PutContext> put_context,
                               scoped_ptr<BlobReader> blob_reader,
                               disk_cache::ScopedEntryPtr entry,
                               bool success);

   // Delete callbacks
   void DeleteImpl(scoped_ptr<ServiceWorkerFetchRequest> request,
                   const ErrorCallback& callback);
   void DeleteDidOpenEntry(
       const GURL& origin,
       scoped_ptr<ServiceWorkerFetchRequest> request,
       const CacheStorageCache::ErrorCallback& callback,
       scoped_ptr<disk_cache::Entry*> entryptr,
       const scoped_refptr<storage::QuotaManagerProxy>& quota_manager_proxy,
       int rv);

   // Keys callbacks.
   void KeysImpl(const RequestsCallback& callback);
   void KeysDidOpenNextEntry(scoped_ptr<KeysContext> keys_context, int rv);
   void KeysProcessNextEntry(scoped_ptr<KeysContext> keys_context,
                             const Entries::iterator& iter);
   void KeysDidReadMetadata(scoped_ptr<KeysContext> keys_context,
                            const Entries::iterator& iter,
                            scoped_ptr<CacheMetadata> metadata);

   void CloseImpl(const base::Closure& callback);

   // Loads the backend and calls the callback with the result (true for
   // success). The callback will always be called. Virtual for tests.
   virtual void CreateBackend(const ErrorCallback& callback);
   void CreateBackendDidCreate(const CacheStorageCache::ErrorCallback& callback,
                               scoped_ptr<ScopedBackendPtr> backend_ptr,
                               int rv);

   void InitBackend();
   void InitDone(ErrorType error);

   void PendingClosure(const base::Closure& callback);
   void PendingErrorCallback(const ErrorCallback& callback, ErrorType error);
   void PendingResponseCallback(
       const ResponseCallback& callback,
       ErrorType error,
       scoped_ptr<ServiceWorkerResponse> response,
       scoped_ptr<storage::BlobDataHandle> blob_data_handle);
   void PendingRequestsCallback(const RequestsCallback& callback,
                                ErrorType error,
                                scoped_ptr<Requests> requests);

   // Be sure to check |backend_state_| before use.
   scoped_ptr<disk_cache::Backend> backend_;

   GURL origin_;
   base::FilePath path_;
   net::URLRequestContext* request_context_;
   scoped_refptr<storage::QuotaManagerProxy> quota_manager_proxy_;
   base::WeakPtr<storage::BlobStorageContext> blob_storage_context_;
   BackendState backend_state_;
   scoped_ptr<CacheStorageScheduler> scheduler_;
   bool initializing_;

   // Whether or not to store data in disk or memory.
   bool memory_only_;

   base::WeakPtrFactory<CacheStorageCache> weak_ptr_factory_;

   DISALLOW_COPY_AND_ASSIGN(CacheStorageCache);
 };

 }  // namespace content

 #endif  // CONTENT_BROWSER_CACHE_STORAGE_CACHE_STORAGE_CACHE_H_
	// Copyright 2014 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 CONTENT_BROWSER_CACHE_STORAGE_CACHE_STORAGE_CACHE_H_
	#define CONTENT_BROWSER_CACHE_STORAGE_CACHE_STORAGE_CACHE_H_

	#include <list>

	#include "base/callback.h"
	#include "base/files/file_path.h"
	#include "base/memory/ref_counted.h"
	#include "base/memory/weak_ptr.h"
	#include "content/common/cache_storage/cache_storage_types.h"
	#include "content/common/service_worker/service_worker_types.h"
	#include "net/base/completion_callback.h"
	#include "net/disk_cache/disk_cache.h"

	namespace net {
	class URLRequestContext;
	class IOBufferWithSize;
	}

	namespace storage {
	class BlobDataBuilder;
	class BlobDataHandle;
	class BlobStorageContext;
	class QuotaManagerProxy;
	}

	namespace content {
	class ChromeBlobStorageContext;
	class CacheMetadata;
	class CacheStorageScheduler;
	class TestCacheStorageCache;

	// Represents a ServiceWorker Cache as seen in
	// https://slightlyoff.github.io/ServiceWorker/spec/service_worker/
	// The asynchronous methods are executed serially. Callbacks to the
	// public functions will be called so long as the cache object lives.
	class CONTENT_EXPORT CacheStorageCache
	: public base::RefCounted<CacheStorageCache> {
	public:
	// This enum is used in histograms, so do not change the ordering and always
	// append new types to the end.
	enum ErrorType {
	ERROR_TYPE_OK = 0,
	ERROR_TYPE_EXISTS,
	ERROR_TYPE_STORAGE,
	ERROR_TYPE_NOT_FOUND,
	ERROR_TYPE_LAST = ERROR_TYPE_NOT_FOUND
	};

	enum EntryIndex { INDEX_HEADERS = 0, INDEX_RESPONSE_BODY };
	typedef base::Callback<void(ErrorType)> ErrorCallback;
	typedef base::Callback<void(ErrorType,
	scoped_ptr<ServiceWorkerResponse>,
	scoped_ptr<storage::BlobDataHandle>)>
	ResponseCallback;
	typedef std::vector<ServiceWorkerFetchRequest> Requests;
	typedef base::Callback<void(ErrorType, scoped_ptr<Requests>)>
	RequestsCallback;

	static scoped_refptr<CacheStorageCache> CreateMemoryCache(
	const GURL& origin,
	net::URLRequestContext* request_context,
	const scoped_refptr<storage::QuotaManagerProxy>& quota_manager_proxy,
	base::WeakPtr<storage::BlobStorageContext> blob_context);
	static scoped_refptr<CacheStorageCache> CreatePersistentCache(
	const GURL& origin,
	const base::FilePath& path,
	net::URLRequestContext* request_context,
	const scoped_refptr<storage::QuotaManagerProxy>& quota_manager_proxy,
	base::WeakPtr<storage::BlobStorageContext> blob_context);

	// Returns ERROR_TYPE_NOT_FOUND if not found.
	void Match(scoped_ptr<ServiceWorkerFetchRequest> request,
	const ResponseCallback& callback);

	// Puts the request and response object in the cache. The response body (if
	// present) is stored in the cache, but not the request body. Returns
	// ERROR_TYPE_OK on success.
	void Put(scoped_ptr<ServiceWorkerFetchRequest> request,
	scoped_ptr<ServiceWorkerResponse> response,
	const ResponseCallback& callback);

	// Returns ErrorNotFound if not found. Otherwise deletes and returns
	// ERROR_TYPE_OK.
	void Delete(scoped_ptr<ServiceWorkerFetchRequest> request,
	const ErrorCallback& callback);

	// TODO(jkarlin): Have keys take an optional ServiceWorkerFetchRequest.
	// Returns ErrorTypeOK and a vector of requests if there are no errors.
	void Keys(const RequestsCallback& callback);

	// Closes the backend. Future operations that require the backend
	// will exit early. Close should only be called once per CacheStorageCache.
	void Close(const base::Closure& callback);

	// The size of the cache contents in memory. Returns 0 if the cache backend is
	// not a memory cache backend.
	int64 MemoryBackedSize() const;

	base::WeakPtr<CacheStorageCache> AsWeakPtr();

	private:
	friend class base::RefCounted<CacheStorageCache>;
	friend class TestCacheStorageCache;

	class BlobReader;
	struct KeysContext;
	struct MatchContext;
	struct PutContext;

	// The backend progresses from uninitialized, to open, to closed, and cannot
	// reverse direction. The open step may be skipped.
	enum BackendState {
	BACKEND_UNINITIALIZED, // No backend, create backend on first operation.
	BACKEND_OPEN, // Backend can be used.
	BACKEND_CLOSED // Backend cannot be used. All ops should fail.
	};

	typedef std::vector<disk_cache::Entry*> Entries;
	typedef scoped_ptr<disk_cache::Backend> ScopedBackendPtr;

	CacheStorageCache(
	const GURL& origin,
	const base::FilePath& path,
	net::URLRequestContext* request_context,
	const scoped_refptr<storage::QuotaManagerProxy>& quota_manager_proxy,
	base::WeakPtr<storage::BlobStorageContext> blob_context);

	// Async operations in progress will cancel and not run their callbacks.
	virtual ~CacheStorageCache();

	// Match callbacks
	void MatchImpl(scoped_ptr<ServiceWorkerFetchRequest> request,
	const ResponseCallback& callback);
	void MatchDidOpenEntry(scoped_ptr<MatchContext> match_context, int rv);
	void MatchDidReadMetadata(scoped_ptr<MatchContext> match_context,
	scoped_ptr<CacheMetadata> headers);
	void MatchDidReadResponseBodyData(scoped_ptr<MatchContext> match_context,
	int rv);
	void MatchDoneWithBody(scoped_ptr<MatchContext> match_context);

	// Put callbacks.
	void PutImpl(scoped_ptr<PutContext> put_context);
	void PutDidDelete(scoped_ptr<PutContext> put_context, ErrorType delete_error);
	void PutDidCreateEntry(scoped_ptr<PutContext> put_context, int rv);
	void PutDidWriteHeaders(scoped_ptr<PutContext> put_context,
	int expected_bytes,
	int rv);
	void PutDidWriteBlobToCache(scoped_ptr<PutContext> put_context,
	scoped_ptr<BlobReader> blob_reader,
	disk_cache::ScopedEntryPtr entry,
	bool success);

	// Delete callbacks
	void DeleteImpl(scoped_ptr<ServiceWorkerFetchRequest> request,
	const ErrorCallback& callback);
	void DeleteDidOpenEntry(
	const GURL& origin,
	scoped_ptr<ServiceWorkerFetchRequest> request,
	const CacheStorageCache::ErrorCallback& callback,
	scoped_ptr<disk_cache::Entry*> entryptr,
	const scoped_refptr<storage::QuotaManagerProxy>& quota_manager_proxy,
	int rv);

	// Keys callbacks.
	void KeysImpl(const RequestsCallback& callback);
	void KeysDidOpenNextEntry(scoped_ptr<KeysContext> keys_context, int rv);
	void KeysProcessNextEntry(scoped_ptr<KeysContext> keys_context,
	const Entries::iterator& iter);
	void KeysDidReadMetadata(scoped_ptr<KeysContext> keys_context,
	const Entries::iterator& iter,
	scoped_ptr<CacheMetadata> metadata);

	void CloseImpl(const base::Closure& callback);

	// Loads the backend and calls the callback with the result (true for
	// success). The callback will always be called. Virtual for tests.
	virtual void CreateBackend(const ErrorCallback& callback);
	void CreateBackendDidCreate(const CacheStorageCache::ErrorCallback& callback,
	scoped_ptr<ScopedBackendPtr> backend_ptr,
	int rv);

	void InitBackend();
	void InitDone(ErrorType error);

	void PendingClosure(const base::Closure& callback);
	void PendingErrorCallback(const ErrorCallback& callback, ErrorType error);
	void PendingResponseCallback(
	const ResponseCallback& callback,
	ErrorType error,
	scoped_ptr<ServiceWorkerResponse> response,
	scoped_ptr<storage::BlobDataHandle> blob_data_handle);
	void PendingRequestsCallback(const RequestsCallback& callback,
	ErrorType error,
	scoped_ptr<Requests> requests);

	// Be sure to check \|backend_state_\| before use.
	scoped_ptr<disk_cache::Backend> backend_;

	GURL origin_;
	base::FilePath path_;
	net::URLRequestContext* request_context_;
	scoped_refptr<storage::QuotaManagerProxy> quota_manager_proxy_;
	base::WeakPtr<storage::BlobStorageContext> blob_storage_context_;
	BackendState backend_state_;
	scoped_ptr<CacheStorageScheduler> scheduler_;
	bool initializing_;

	// Whether or not to store data in disk or memory.
	bool memory_only_;

	base::WeakPtrFactory<CacheStorageCache> weak_ptr_factory_;

	DISALLOW_COPY_AND_ASSIGN(CacheStorageCache);
	};

	} // namespace content

	#endif // CONTENT_BROWSER_CACHE_STORAGE_CACHE_STORAGE_CACHE_H_