naiveproxy/net/disk_cache/simple/simple_file_tracker.cc

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2018-08-11 08:35:24 +03:00
// Copyright 2017 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.
#include "net/disk_cache/simple/simple_file_tracker.h"
#include <algorithm>
#include <limits>
#include <memory>
#include <utility>
#include "base/files/file.h"
#include "base/metrics/histogram_macros.h"
#include "base/synchronization/lock.h"
#include "net/disk_cache/simple/simple_histogram_enums.h"
#include "net/disk_cache/simple/simple_synchronous_entry.h"
namespace disk_cache {
SimpleFileTracker::SimpleFileTracker(int file_limit)
: file_limit_(file_limit), open_files_(0) {}
SimpleFileTracker::~SimpleFileTracker() {
DCHECK(lru_.empty());
DCHECK(tracked_files_.empty());
}
void SimpleFileTracker::Register(const SimpleSynchronousEntry* owner,
SubFile subfile,
std::unique_ptr<base::File> file) {
DCHECK(file->IsValid());
std::vector<std::unique_ptr<base::File>> files_to_close;
{
base::AutoLock hold_lock(lock_);
// Make sure the list of everything with given hash exists.
auto insert_status = tracked_files_.insert(
std::make_pair(owner->entry_file_key().entry_hash,
std::vector<std::unique_ptr<TrackedFiles>>()));
std::vector<std::unique_ptr<TrackedFiles>>& candidates =
insert_status.first->second;
// See if entry for |owner| already exists, if not append.
TrackedFiles* owners_files = nullptr;
for (const std::unique_ptr<TrackedFiles>& candidate : candidates) {
if (candidate->owner == owner) {
owners_files = candidate.get();
break;
}
}
if (!owners_files) {
candidates.emplace_back(new TrackedFiles());
owners_files = candidates.back().get();
owners_files->owner = owner;
owners_files->key = owner->entry_file_key();
}
EnsureInFrontOfLRU(owners_files);
int file_index = static_cast<int>(subfile);
DCHECK_EQ(TrackedFiles::TF_NO_REGISTRATION,
owners_files->state[file_index]);
owners_files->files[file_index] = std::move(file);
owners_files->state[file_index] = TrackedFiles::TF_REGISTERED;
++open_files_;
CloseFilesIfTooManyOpen(&files_to_close);
}
}
SimpleFileTracker::FileHandle SimpleFileTracker::Acquire(
const SimpleSynchronousEntry* owner,
SubFile subfile) {
std::vector<std::unique_ptr<base::File>> files_to_close;
{
base::AutoLock hold_lock(lock_);
TrackedFiles* owners_files = Find(owner);
int file_index = static_cast<int>(subfile);
DCHECK_EQ(TrackedFiles::TF_REGISTERED, owners_files->state[file_index]);
owners_files->state[file_index] = TrackedFiles::TF_ACQUIRED;
EnsureInFrontOfLRU(owners_files);
// Check to see if we have to reopen the file. That might push us over the
// fd limit. CloseFilesIfTooManyOpen will not close anything in
// |*owners_files| since it's already in the the TF_ACQUIRED state.
if (owners_files->files[file_index] == nullptr) {
ReopenFile(owners_files, subfile);
CloseFilesIfTooManyOpen(&files_to_close);
}
return FileHandle(this, owner, subfile,
owners_files->files[file_index].get());
}
}
SimpleFileTracker::TrackedFiles::TrackedFiles() : in_lru(false) {
std::fill(state, state + kSimpleEntryTotalFileCount, TF_NO_REGISTRATION);
}
SimpleFileTracker::TrackedFiles::~TrackedFiles() = default;
bool SimpleFileTracker::TrackedFiles::Empty() const {
for (State s : state)
if (s != TF_NO_REGISTRATION)
return false;
return true;
}
bool SimpleFileTracker::TrackedFiles::HasOpenFiles() const {
for (const std::unique_ptr<base::File>& file : files)
if (file != nullptr)
return true;
return false;
}
void SimpleFileTracker::Release(const SimpleSynchronousEntry* owner,
SubFile subfile) {
std::vector<std::unique_ptr<base::File>> files_to_close;
{
base::AutoLock hold_lock(lock_);
TrackedFiles* owners_files = Find(owner);
int file_index = static_cast<int>(subfile);
DCHECK(owners_files->state[file_index] == TrackedFiles::TF_ACQUIRED ||
owners_files->state[file_index] ==
TrackedFiles::TF_ACQUIRED_PENDING_CLOSE);
// Prepare to executed deferred close, if any.
if (owners_files->state[file_index] ==
TrackedFiles::TF_ACQUIRED_PENDING_CLOSE) {
files_to_close.push_back(PrepareClose(owners_files, file_index));
} else {
owners_files->state[file_index] = TrackedFiles::TF_REGISTERED;
}
// It's possible that we were over limit and couldn't do much about it
// since everything was lent out, so now may be the time to close extra
// stuff.
CloseFilesIfTooManyOpen(&files_to_close);
}
}
void SimpleFileTracker::Close(const SimpleSynchronousEntry* owner,
SubFile subfile) {
std::unique_ptr<base::File> file_to_close;
{
base::AutoLock hold_lock(lock_);
TrackedFiles* owners_files = Find(owner);
int file_index = static_cast<int>(subfile);
DCHECK(owners_files->state[file_index] == TrackedFiles::TF_ACQUIRED ||
owners_files->state[file_index] == TrackedFiles::TF_REGISTERED);
if (owners_files->state[file_index] == TrackedFiles::TF_ACQUIRED) {
// The FD is currently acquired, so we can't clean up the TrackedFiles,
// just yet; even if this is the last close, so delay the close until it
// gets released.
owners_files->state[file_index] = TrackedFiles::TF_ACQUIRED_PENDING_CLOSE;
} else {
file_to_close = PrepareClose(owners_files, file_index);
}
}
}
void SimpleFileTracker::Doom(const SimpleSynchronousEntry* owner,
EntryFileKey* key) {
base::AutoLock hold_lock(lock_);
auto iter = tracked_files_.find(key->entry_hash);
DCHECK(iter != tracked_files_.end());
uint64_t max_doom_gen = 0;
for (const std::unique_ptr<TrackedFiles>& file_with_same_hash :
iter->second) {
max_doom_gen =
std::max(max_doom_gen, file_with_same_hash->key.doom_generation);
}
// It would take >502 years to doom the same hash enough times (at 10^9 dooms
// per second) to wrap the 64 bit counter. Still, if it does wrap around,
// there is a security risk since we could confuse different keys.
CHECK_NE(max_doom_gen, std::numeric_limits<uint64_t>::max());
uint64_t new_doom_gen = max_doom_gen + 1;
// Update external key.
key->doom_generation = new_doom_gen;
// Update our own.
for (const std::unique_ptr<TrackedFiles>& file_with_same_hash :
iter->second) {
if (file_with_same_hash->owner == owner)
file_with_same_hash->key.doom_generation = new_doom_gen;
}
}
bool SimpleFileTracker::IsEmptyForTesting() {
base::AutoLock hold_lock(lock_);
return tracked_files_.empty() && lru_.empty();
}
SimpleFileTracker::TrackedFiles* SimpleFileTracker::Find(
const SimpleSynchronousEntry* owner) {
auto candidates = tracked_files_.find(owner->entry_file_key().entry_hash);
DCHECK(candidates != tracked_files_.end());
for (const auto& candidate : candidates->second) {
if (candidate->owner == owner) {
return candidate.get();
}
}
LOG(DFATAL) << "SimpleFileTracker operation on non-found entry";
return nullptr;
}
std::unique_ptr<base::File> SimpleFileTracker::PrepareClose(
TrackedFiles* owners_files,
int file_index) {
std::unique_ptr<base::File> file_out =
std::move(owners_files->files[file_index]);
owners_files->state[file_index] = TrackedFiles::TF_NO_REGISTRATION;
if (owners_files->Empty()) {
auto iter = tracked_files_.find(owners_files->key.entry_hash);
for (auto i = iter->second.begin(); i != iter->second.end(); ++i) {
if ((*i).get() == owners_files) {
if (owners_files->in_lru)
lru_.erase(owners_files->position_in_lru);
iter->second.erase(i);
break;
}
}
if (iter->second.empty())
tracked_files_.erase(iter);
}
if (file_out != nullptr)
--open_files_;
return file_out;
}
void SimpleFileTracker::CloseFilesIfTooManyOpen(
std::vector<std::unique_ptr<base::File>>* files_to_close) {
std::list<TrackedFiles*>::iterator i = lru_.end();
while (open_files_ > file_limit_ && i != lru_.begin()) {
--i; // Point to the actual entry.
TrackedFiles* tracked_files = *i;
DCHECK(tracked_files->in_lru);
for (int j = 0; j < kSimpleEntryTotalFileCount; ++j) {
if (tracked_files->state[j] == TrackedFiles::TF_REGISTERED &&
tracked_files->files[j] != nullptr) {
files_to_close->push_back(std::move(tracked_files->files[j]));
--open_files_;
UMA_HISTOGRAM_ENUMERATION("SimpleCache.FileDescriptorLimiterAction",
FD_LIMIT_CLOSE_FILE, FD_LIMIT_OP_MAX);
}
}
if (!tracked_files->HasOpenFiles()) {
// If there is nothing here that can possibly be closed, remove this from
// LRU for now so we don't have to rescan it next time we are here. If the
// files get re-opened (in Acquire), it will get added back in.
DCHECK_EQ(*tracked_files->position_in_lru, tracked_files);
DCHECK(i == tracked_files->position_in_lru);
// Note that we're erasing at i, which would make it invalid, so go back
// one element ahead to we can decrement from that on next iteration.
++i;
lru_.erase(tracked_files->position_in_lru);
tracked_files->in_lru = false;
}
}
}
void SimpleFileTracker::ReopenFile(TrackedFiles* owners_files,
SubFile subfile) {
int file_index = static_cast<int>(subfile);
DCHECK(owners_files->files[file_index] == nullptr);
int flags = base::File::FLAG_OPEN | base::File::FLAG_READ |
base::File::FLAG_WRITE | base::File::FLAG_SHARE_DELETE;
base::FilePath file_path =
owners_files->owner->GetFilenameForSubfile(subfile);
owners_files->files[file_index] =
std::make_unique<base::File>(file_path, flags);
if (owners_files->files[file_index]->IsValid()) {
UMA_HISTOGRAM_ENUMERATION("SimpleCache.FileDescriptorLimiterAction",
FD_LIMIT_REOPEN_FILE, FD_LIMIT_OP_MAX);
++open_files_;
} else {
owners_files->files[file_index] = nullptr;
UMA_HISTOGRAM_ENUMERATION("SimpleCache.FileDescriptorLimiterAction",
FD_LIMIT_FAIL_REOPEN_FILE, FD_LIMIT_OP_MAX);
}
}
void SimpleFileTracker::EnsureInFrontOfLRU(TrackedFiles* owners_files) {
if (!owners_files->in_lru) {
lru_.push_front(owners_files);
owners_files->position_in_lru = lru_.begin();
owners_files->in_lru = true;
} else if (owners_files->position_in_lru != lru_.begin()) {
lru_.splice(lru_.begin(), lru_, owners_files->position_in_lru);
}
DCHECK_EQ(*owners_files->position_in_lru, owners_files);
}
SimpleFileTracker::FileHandle::FileHandle()
: file_tracker_(nullptr), entry_(nullptr), file_(nullptr) {}
SimpleFileTracker::FileHandle::FileHandle(SimpleFileTracker* file_tracker,
const SimpleSynchronousEntry* entry,
SimpleFileTracker::SubFile subfile,
base::File* file)
: file_tracker_(file_tracker),
entry_(entry),
subfile_(subfile),
file_(file) {}
SimpleFileTracker::FileHandle::FileHandle(FileHandle&& other) {
*this = std::move(other);
}
SimpleFileTracker::FileHandle::~FileHandle() {
if (entry_)
file_tracker_->Release(entry_, subfile_);
}
SimpleFileTracker::FileHandle& SimpleFileTracker::FileHandle::operator=(
FileHandle&& other) {
file_tracker_ = other.file_tracker_;
entry_ = other.entry_;
subfile_ = other.subfile_;
file_ = other.file_;
other.file_tracker_ = nullptr;
other.entry_ = nullptr;
other.file_ = nullptr;
return *this;
}
base::File* SimpleFileTracker::FileHandle::operator->() const {
return file_;
}
base::File* SimpleFileTracker::FileHandle::get() const {
return file_;
}
bool SimpleFileTracker::FileHandle::IsOK() const {
return file_ && file_->IsValid();
}
} // namespace disk_cache