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// 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_ENTRY_IMPL_H_
#define NET_DISK_CACHE_SIMPLE_SIMPLE_ENTRY_IMPL_H_
#include <memory>
#include <string>
#include "base/containers/queue.h"
#include "base/files/file_path.h"
#include "base/memory/ref_counted.h"
#include "base/threading/thread_checker.h"
#include "net/base/cache_type.h"
#include "net/base/net_export.h"
#include "net/base/request_priority.h"
#include "net/disk_cache/disk_cache.h"
#include "net/disk_cache/simple/simple_entry_format.h"
#include "net/disk_cache/simple/simple_entry_operation.h"
#include "net/disk_cache/simple/simple_synchronous_entry.h"
#include "net/log/net_log_event_type.h"
#include "net/log/net_log_with_source.h"
#include "starboard/types.h"
namespace base {
class TaskRunner;
}
namespace net {
class GrowableIOBuffer;
class IOBuffer;
class NetLog;
class PrioritizedTaskRunner;
}
namespace disk_cache {
class BackendCleanupTracker;
class SimpleBackendImpl;
class SimpleEntryStat;
class SimpleFileTracker;
class SimpleSynchronousEntry;
struct SimpleEntryCreationResults;
// SimpleEntryImpl is the IO thread interface to an entry in the very simple
// disk cache. It proxies for the SimpleSynchronousEntry, which performs IO
// on the worker thread.
class NET_EXPORT_PRIVATE SimpleEntryImpl : public Entry,
public base::RefCounted<SimpleEntryImpl> {
friend class base::RefCounted<SimpleEntryImpl>;
public:
enum OperationsMode {
NON_OPTIMISTIC_OPERATIONS,
OPTIMISTIC_OPERATIONS,
};
// The Backend provides an |ActiveEntryProxy| instance to this entry when it
// is active, meaning it's the canonical entry for this |entry_hash_|. The
// entry can make itself inactive by deleting its proxy.
class ActiveEntryProxy {
public:
virtual ~ActiveEntryProxy() = 0;
};
SimpleEntryImpl(net::CacheType cache_type,
const base::FilePath& path,
scoped_refptr<BackendCleanupTracker> cleanup_tracker,
uint64_t entry_hash,
OperationsMode operations_mode,
SimpleBackendImpl* backend,
SimpleFileTracker* file_tracker,
net::NetLog* net_log,
uint32_t entry_priority);
void SetActiveEntryProxy(
std::unique_ptr<ActiveEntryProxy> active_entry_proxy);
// Adds another reader/writer to this entry, if possible, returning |this| to
// |entry|.
net::Error OpenEntry(Entry** entry, CompletionOnceCallback callback);
// Creates this entry, if possible. Returns |this| to |entry|.
net::Error CreateEntry(Entry** entry, CompletionOnceCallback callback);
// Identical to Backend::Doom() except that it accepts a
// CompletionOnceCallback.
net::Error DoomEntry(CompletionOnceCallback callback);
const std::string& key() const { return key_; }
uint64_t entry_hash() const { return entry_hash_; }
// The key is not a constructor parameter to the SimpleEntryImpl, because
// during cache iteration, it's necessary to open entries by their hash
// alone. In that case, the SimpleSynchronousEntry will read the key from disk
// and it will be set.
void SetKey(const std::string& key);
// SetCreatePendingDoom() should be called before CreateEntry() if the
// creation should suceed optimistically but not do any I/O until
// NotifyDoomBeforeCreateComplete() is called.
void SetCreatePendingDoom();
void NotifyDoomBeforeCreateComplete();
// From Entry:
void Doom() override;
void Close() override;
std::string GetKey() const override;
base::Time GetLastUsed() const override;
base::Time GetLastModified() const override;
int32_t GetDataSize(int index) const override;
int ReadData(int stream_index,
int offset,
net::IOBuffer* buf,
int buf_len,
CompletionOnceCallback callback) override;
int WriteData(int stream_index,
int offset,
net::IOBuffer* buf,
int buf_len,
CompletionOnceCallback callback,
bool truncate) override;
int ReadSparseData(int64_t offset,
net::IOBuffer* buf,
int buf_len,
CompletionOnceCallback callback) override;
int WriteSparseData(int64_t offset,
net::IOBuffer* buf,
int buf_len,
CompletionOnceCallback callback) override;
int GetAvailableRange(int64_t offset,
int len,
int64_t* start,
CompletionOnceCallback callback) override;
bool CouldBeSparse() const override;
void CancelSparseIO() override;
net::Error ReadyForSparseIO(CompletionOnceCallback callback) override;
void SetLastUsedTimeForTest(base::Time time) override;
// Returns the estimate of dynamically allocated memory in bytes.
size_t EstimateMemoryUsage() const;
// Changes the entry's priority in its TaskRunner.
void SetPriority(uint32_t entry_priority);
private:
class ScopedOperationRunner;
friend class ScopedOperationRunner;
enum State {
// The state immediately after construction, but before |synchronous_entry_|
// has been assigned. This is the state at construction, and is one of the
// two states (along with failure) one can destruct an entry in.
STATE_UNINITIALIZED,
// This entry is available for regular IO.
STATE_READY,
// IO is currently in flight, operations must wait for completion before
// launching.
STATE_IO_PENDING,
// A failure occurred in the current or previous operation. All operations
// after that must fail, until we receive a Close().
STATE_FAILURE,
};
enum DoomState {
// No attempt to doom the entry has been made.
DOOM_NONE,
// We have moved ourselves to |entries_pending_doom_| and have queued an
// operation to actually update the disk, but haven't completed it yet.
DOOM_QUEUED,
// The disk has been updated. This corresponds to the state where we
// are in neither |entries_pending_doom_| nor |active_entries_|.
DOOM_COMPLETED,
};
// Used in histograms, please only add entries at the end.
enum CheckCrcResult {
CRC_CHECK_NEVER_READ_TO_END = 0,
CRC_CHECK_NOT_DONE = 1,
CRC_CHECK_DONE = 2,
CRC_CHECK_NEVER_READ_AT_ALL = 3,
CRC_CHECK_MAX = 4,
};
~SimpleEntryImpl() override;
// Must be used to invoke a client-provided completion callback for an
// operation initiated through the backend (e.g. create, open, doom) so that
// clients don't get notified after they deleted the backend (which they would
// not expect).
void PostClientCallback(CompletionOnceCallback callback, int result);
// Clears entry state enough to prepare it for re-use. This will generally
// put it back into STATE_UNINITIALIZED, except if the entry is doomed and
// therefore disconnected from ownership of corresponding filename, in which
// case it will be put into STATE_FAILURE.
void ResetEntry();
// Return this entry to a user of the API in |out_entry|. Increments the user
// count.
void ReturnEntryToCaller(Entry** out_entry);
// Remove |this| from the Backend and the index, either because
// SimpleSynchronousEntry has detected an error or because we are about to
// be dooming it ourselves and want it to be tracked in
// |entries_pending_doom_| instead.
void MarkAsDoomed(DoomState doom_state);
// Runs the next operation in the queue, if any and if there is no other
// operation running at the moment.
// WARNING: May delete |this|, as an operation in the queue can contain
// the last reference.
void RunNextOperationIfNeeded();
void OpenEntryInternal(bool have_index,
CompletionOnceCallback callback,
Entry** out_entry);
void CreateEntryInternal(bool have_index,
CompletionOnceCallback callback,
Entry** out_entry);
void CloseInternal();
int ReadDataInternal(bool sync_possible,
int index,
int offset,
net::IOBuffer* buf,
int buf_len,
CompletionOnceCallback callback);
void WriteDataInternal(int index,
int offset,
net::IOBuffer* buf,
int buf_len,
CompletionOnceCallback callback,
bool truncate);
void ReadSparseDataInternal(int64_t sparse_offset,
net::IOBuffer* buf,
int buf_len,
CompletionOnceCallback callback);
void WriteSparseDataInternal(int64_t sparse_offset,
net::IOBuffer* buf,
int buf_len,
CompletionOnceCallback callback);
void GetAvailableRangeInternal(int64_t sparse_offset,
int len,
int64_t* out_start,
CompletionOnceCallback callback);
void DoomEntryInternal(CompletionOnceCallback callback);
// Called after a SimpleSynchronousEntry has completed CreateEntry() or
// OpenEntry(). If |in_sync_entry| is non-NULL, creation is successful and we
// can return |this| SimpleEntryImpl to |*out_entry|. Runs
// |completion_callback|.
void CreationOperationComplete(
CompletionOnceCallback completion_callback,
const base::TimeTicks& start_time,
std::unique_ptr<SimpleEntryCreationResults> in_results,
Entry** out_entry,
net::NetLogEventType end_event_type);
// Called after we've closed and written the EOF record to our entry. Until
// this point it hasn't been safe to OpenEntry() the same entry, but from this
// point it is.
void CloseOperationComplete();
// Internal utility method used by other completion methods. Calls
// |completion_callback| after updating state and dooming on errors.
void EntryOperationComplete(CompletionOnceCallback completion_callback,
const SimpleEntryStat& entry_stat,
int result);
// Called after an asynchronous read. Updates |crc32s_| if possible.
void ReadOperationComplete(
int stream_index,
int offset,
CompletionOnceCallback completion_callback,
std::unique_ptr<SimpleEntryStat> entry_stat,
std::unique_ptr<SimpleSynchronousEntry::ReadResult> read_result);
// Called after an asynchronous write completes.
// |buf| parameter brings back a reference to net::IOBuffer to the original
// thread, so that we can reduce cross thread malloc/free pair.
// See http://crbug.com/708644 for details.
void WriteOperationComplete(
int stream_index,
CompletionOnceCallback completion_callback,
std::unique_ptr<SimpleEntryStat> entry_stat,
std::unique_ptr<SimpleSynchronousEntry::WriteResult> result,
net::IOBuffer* buf);
void ReadSparseOperationComplete(CompletionOnceCallback completion_callback,
std::unique_ptr<base::Time> last_used,
std::unique_ptr<int> result);
void WriteSparseOperationComplete(CompletionOnceCallback completion_callback,
std::unique_ptr<SimpleEntryStat> entry_stat,
std::unique_ptr<int> result);
void GetAvailableRangeOperationComplete(
CompletionOnceCallback completion_callback,
std::unique_ptr<int> result);
// Called after an asynchronous doom completes.
void DoomOperationComplete(CompletionOnceCallback callback,
State state_to_restore,
int result);
void RecordReadResultConsideringChecksum(
const std::unique_ptr<SimpleSynchronousEntry::ReadResult>& read_result)
const;
// Called after completion of an operation, to either incoproprate file info
// received from I/O done on the worker pool, or to simply bump the
// timestamps. Updates the metadata both in |this| and in the index.
// Stream size information in particular may be important for following
// operations.
void UpdateDataFromEntryStat(const SimpleEntryStat& entry_stat);
int64_t GetDiskUsage() const;
// Completes a read from the stream data kept in memory, logging metrics
// and updating metadata. Returns the # of bytes read successfully.
// This asumes the caller has already range-checked offset and buf_len
// appropriately.
int ReadFromBuffer(net::GrowableIOBuffer* in_buf,
int offset,
int buf_len,
net::IOBuffer* out_buf);
// Copies data from |buf| to the internal in-memory buffer for stream 0. If
// |truncate| is set to true, the target buffer will be truncated at |offset|
// + |buf_len| before being written.
int SetStream0Data(net::IOBuffer* buf,
int offset, int buf_len,
bool truncate);
// We want all async I/O on entries to complete before recycling the dir.
scoped_refptr<BackendCleanupTracker> cleanup_tracker_;
std::unique_ptr<ActiveEntryProxy> active_entry_proxy_;
// All nonstatic SimpleEntryImpl methods should always be called on the IO
// thread, in all cases. |io_thread_checker_| documents and enforces this.
base::ThreadChecker io_thread_checker_;
const base::WeakPtr<SimpleBackendImpl> backend_;
SimpleFileTracker* const file_tracker_;
const net::CacheType cache_type_;
const base::FilePath path_;
const uint64_t entry_hash_;
const bool use_optimistic_operations_;
bool is_initial_stream1_read_; // used for metrics only.
std::string key_;
// |last_used_|, |last_modified_| and |data_size_| are copied from the
// synchronous entry at the completion of each item of asynchronous IO.
// TODO(clamy): Unify last_used_ with data in the index.
base::Time last_used_;
base::Time last_modified_;
int32_t data_size_[kSimpleEntryStreamCount];
int32_t sparse_data_size_;
// Number of times this object has been returned from Backend::OpenEntry() and
// Backend::CreateEntry() without subsequent Entry::Close() calls. Used to
// notify the backend when this entry not used by any callers.
int open_count_;
DoomState doom_state_;
enum {
CREATE_NORMAL,
CREATE_OPTIMISTIC_PENDING_DOOM,
CREATE_OPTIMISTIC_PENDING_DOOM_FOLLOWED_BY_DOOM,
} optimistic_create_pending_doom_state_;
State state_;
// When possible, we compute a crc32, for the data in each entry as we read or
// write. For each stream, |crc32s_[index]| is the crc32 of that stream from
// [0 .. |crc32s_end_offset_|). If |crc32s_end_offset_[index] == 0| then the
// value of |crc32s_[index]| is undefined.
// Note at this can only be done in the current implementation in the case of
// a single entry reader that reads serially through the entire file.
// Extending this to multiple readers is possible, but isn't currently worth
// it; see http://crbug.com/488076#c3 for details.
int32_t crc32s_end_offset_[kSimpleEntryStreamCount];
uint32_t crc32s_[kSimpleEntryStreamCount];
// If |have_written_[index]| is true, we have written to the file that
// contains stream |index|.
bool have_written_[kSimpleEntryStreamCount];
// Reflects how much CRC checking has been done with the entry. This state is
// reported on closing each entry stream.
CheckCrcResult crc_check_state_[kSimpleEntryStreamCount];
// The |synchronous_entry_| is the worker thread object that performs IO on
// entries. It's owned by this SimpleEntryImpl whenever |executing_operation_|
// is false (i.e. when an operation is not pending on the worker pool). When
// an operation is being executed no one owns the synchronous entry. Therefore
// SimpleEntryImpl should not be deleted while an operation is running as that
// would leak the SimpleSynchronousEntry.
SimpleSynchronousEntry* synchronous_entry_;
scoped_refptr<net::PrioritizedTaskRunner> prioritized_task_runner_;
base::queue<SimpleEntryOperation> pending_operations_;
net::NetLogWithSource net_log_;
// Unlike other streams, stream 0 data is read from the disk when the entry is
// opened, and then kept in memory. All read/write operations on stream 0
// affect the |stream_0_data_| buffer. When the entry is closed,
// |stream_0_data_| is written to the disk.
// Stream 0 is kept in memory because it is stored in the same file as stream
// 1 on disk, to reduce the number of file descriptors and save disk space.
// This strategy allows stream 1 to change size easily. Since stream 0 is only
// used to write HTTP headers, the memory consumption of keeping it in memory
// is acceptable.
scoped_refptr<net::GrowableIOBuffer> stream_0_data_;
// Sometimes stream 1 data is prefetched when stream 0 is first read.
// If a write to the stream occurs on the entry the prefetch buffer is
// discarded. It may also be null if it wasn't prefetched in the first place.
scoped_refptr<net::GrowableIOBuffer> stream_1_prefetch_data_;
// Choosing uint32_t over uint64_t for space savings. Pages have in the
// hundres to possibly thousands of resources. Wrapping every 4 billion
// shouldn't cause inverted priorities very often.
uint32_t entry_priority_ = 0;
};
} // namespace disk_cache
#endif // NET_DISK_CACHE_SIMPLE_SIMPLE_ENTRY_IMPL_H_