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229 lines
9.2 KiB
C++
229 lines
9.2 KiB
C++
// Copyright 2017 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#ifndef NET_DISK_CACHE_SIMPLE_SIMPLE_FILE_TRACKER_H_
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#define NET_DISK_CACHE_SIMPLE_SIMPLE_FILE_TRACKER_H_
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#include <stdint.h>
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#include <algorithm>
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#include <list>
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#include <memory>
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#include <unordered_map>
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#include <vector>
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#include "base/files/file.h"
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#include "base/macros.h"
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#include "base/memory/ref_counted.h"
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#include "base/synchronization/lock.h"
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#include "net/base/net_export.h"
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#include "net/disk_cache/simple/simple_entry_format.h"
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namespace disk_cache {
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class SimpleSynchronousEntry;
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// This keeps track of all the files SimpleCache has open, across all the
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// backend instancess, in order to prevent us from running out of file
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// descriptors.
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// TODO(morlovich): Actually implement closing and re-opening of things if we
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// run out.
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//
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// This class is thread-safe.
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class NET_EXPORT_PRIVATE SimpleFileTracker {
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public:
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enum class SubFile { FILE_0, FILE_1, FILE_SPARSE };
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// A RAII helper that guards access to a file grabbed for use from
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// SimpleFileTracker::Acquire(). While it's still alive, if IsOK() is true,
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// then using the underlying base::File via get() or the -> operator will be
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// safe.
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//
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// This class is movable but not copyable. It should only be used from a
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// single logical sequence of execution, and should not outlive the
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// corresponding SimpleSynchronousEntry.
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class NET_EXPORT_PRIVATE FileHandle {
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public:
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FileHandle();
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FileHandle(FileHandle&& other);
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~FileHandle();
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FileHandle& operator=(FileHandle&& other);
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base::File* operator->() const;
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base::File* get() const;
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// Returns true if this handle points to a valid file. This should normally
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// be the first thing called on the object, after getting it from
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// SimpleFileTracker::Acquire.
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bool IsOK() const;
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private:
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friend class SimpleFileTracker;
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FileHandle(SimpleFileTracker* file_tracker,
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const SimpleSynchronousEntry* entry,
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SimpleFileTracker::SubFile subfile,
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base::File* file);
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// All the pointer fields are nullptr in the default/moved away from form.
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SimpleFileTracker* file_tracker_;
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const SimpleSynchronousEntry* entry_;
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SimpleFileTracker::SubFile subfile_;
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base::File* file_;
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DISALLOW_COPY_AND_ASSIGN(FileHandle);
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};
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struct EntryFileKey {
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EntryFileKey() : entry_hash(0), doom_generation(0) {}
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explicit EntryFileKey(uint64_t hash)
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: entry_hash(hash), doom_generation(0) {}
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uint64_t entry_hash;
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// 0 means this a non-doomed, active entry, for its backend that will be
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// checked on OpenEntry(key) where hash(key) = entry_hash. Other values of
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// |doom_generation| are used to generate distinct file names for entries
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// that have been Doom()ed, either by explicit API call by the client or
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// internal operation (eviction, collisions, etc.)
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uint64_t doom_generation;
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};
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// The default limit here is half of what's available on our target OS where
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// Chrome has the lowest limit.
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SimpleFileTracker(int file_limit = 512);
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~SimpleFileTracker();
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// Established |file| as what's backing |subfile| for |owner|. This is
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// intended to be called when SimpleSynchronousEntry first sets up the file to
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// transfer its ownership to SimpleFileTracker. Any Register() call must be
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// eventually followed by a corresponding Close() call before the |owner| is
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// destroyed. |file->IsValid()| must be true.
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void Register(const SimpleSynchronousEntry* owner,
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SubFile subfile,
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std::unique_ptr<base::File> file);
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// Lends out a file to SimpleSynchronousEntry for use. SimpleFileTracker
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// will ensure that it doesn't close the file until the handle is destroyed.
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// The caller should check .IsOK() on the returned value before using it, as
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// it's possible that the file had to be closed and re-opened due to FD
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// pressure, and that open may have failed. This should not be called twice
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// with the exact same arguments until the handle returned from the previous
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// such call is destroyed.
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FileHandle Acquire(const SimpleSynchronousEntry* owner, SubFile subfile);
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// Tells SimpleFileTracker that SimpleSynchronousEntry will not be interested
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// in the file further, so it can be closed and forgotten about. It's OK to
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// call this while a handle to the file is alive, in which case the effect
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// takes place after the handle is destroyed.
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// If Close() has been called and the handle to the file is no longer alive,
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// a new backing file can be established by calling Register() again.
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void Close(const SimpleSynchronousEntry* owner, SubFile file);
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// Updates key->doom_generation to one not in use for the hash; it's the
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// caller's responsibility to update file names accordingly, and to prevent
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// others from stomping on things while this is going on. SimpleBackendImpl's
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// entries_pending_doom_ is the mechanism for protecting this action from
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// races.
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void Doom(const SimpleSynchronousEntry* owner, EntryFileKey* key);
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// Returns true if there is no in-memory state around, e.g. everything got
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// cleaned up. This is a test-only method since this object is expected to be
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// shared between multiple threads, in which case its return value may be
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// outdated the moment it's returned.
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bool IsEmptyForTesting();
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private:
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struct TrackedFiles {
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// We can potentially run through this state machine multiple times for
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// FILE_1, as that's often missing, so SimpleSynchronousEntry can sometimes
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// close and remove the file for an empty stream, then re-open it on actual
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// data.
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enum State {
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TF_NO_REGISTRATION = 0,
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TF_REGISTERED = 1,
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TF_ACQUIRED = 2,
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TF_ACQUIRED_PENDING_CLOSE = 3,
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};
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NET_EXPORT_PRIVATE TrackedFiles();
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NET_EXPORT_PRIVATE ~TrackedFiles();
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// True if this isn't keeping track of anything any more.
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bool Empty() const;
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// True if this has open files. Note that this is not the same as !Empty()
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// as this may be false when an entry had its files temporarily closed, but
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// is still relevant.
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bool HasOpenFiles() const;
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// We use pointers to SimpleSynchronousEntry two ways:
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// 1) As opaque keys. This is handy as it avoids having to compare paths in
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// case multiple backends use the same key. Since we access the
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// bookkeeping under |lock_|
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//
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// 2) To get info on the caller of our operation.
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// Accessing |owner| from any other TrackedFiles would be unsafe (as it
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// may be doing its own thing in a different thread).
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const SimpleSynchronousEntry* owner;
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EntryFileKey key;
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// Some of these may be nullptr, if they are not open. Non-null pointers
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// to files that are not valid will not be stored here.
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// Note that these are stored indirect since we hand out pointers to these,
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// and we don't want those to become invalid if some other thread appends
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// things here.
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std::unique_ptr<base::File> files[kSimpleEntryTotalFileCount];
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State state[kSimpleEntryTotalFileCount];
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std::list<TrackedFiles*>::iterator position_in_lru;
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// true if position_in_lru is valid. For entries where we closed everything,
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// we try not to keep them in the LRU so that we don't have to constantly
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// rescan them.
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bool in_lru;
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};
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// Marks the file that was previously returned by Acquire as eligible for
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// closing again. Called by ~FileHandle.
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void Release(const SimpleSynchronousEntry* owner, SubFile subfile);
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// Precondition: entry for given |owner| must already be in tracked_files_
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TrackedFiles* Find(const SimpleSynchronousEntry* owner);
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// Handles state transition of closing file (when we are not deferring it),
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// and moves the file out. Note that this may delete |*owners_files|.
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std::unique_ptr<base::File> PrepareClose(TrackedFiles* owners_files,
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int file_index);
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// If too many files are open, picks some to close, and moves them to
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// |*files_to_close|, updating other state as appropriate.
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void CloseFilesIfTooManyOpen(
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std::vector<std::unique_ptr<base::File>>* files_to_close);
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// Tries to reopen given file, updating |*owners_files| if successful.
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void ReopenFile(TrackedFiles* owners_files, SubFile subfile);
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// Makes sure the entry is marked as most recently used, adding it to LRU
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// if needed.
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void EnsureInFrontOfLRU(TrackedFiles* owners_files);
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base::Lock lock_;
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std::unordered_map<uint64_t, std::vector<std::unique_ptr<TrackedFiles>>>
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tracked_files_;
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std::list<TrackedFiles*> lru_;
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int file_limit_;
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// How many actually open files we are using.
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// Note that when a thread commits to closing a file, but hasn't actually
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// executed the close yet, the file is no longer counted as open here, so this
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// might be a little off. This should be OK as long as file_limit_ is set
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// conservatively, considering SimpleCache's parallelism is bounded by a low
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// number of threads, and getting it exact would require re-acquiring the
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// lock after closing the file.
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int open_files_;
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DISALLOW_COPY_AND_ASSIGN(SimpleFileTracker);
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};
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} // namespace disk_cache
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#endif // NET_DISK_CACHE_SIMPLE_SIMPLE_FILE_TRACKER_H_
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