naiveproxy/net/http/http_cache_writers.cc

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2018-12-10 05:59:24 +03:00
// Copyright (c) 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/http/http_cache_writers.h"
#include <algorithm>
#include <utility>
#include "base/auto_reset.h"
#include "base/logging.h"
#include "net/base/net_errors.h"
#include "net/disk_cache/disk_cache.h"
#include "net/http/http_cache_transaction.h"
#include "net/http/http_response_info.h"
#include "net/http/partial_data.h"
namespace net {
namespace {
bool IsValidResponseForWriter(bool is_partial,
const HttpResponseInfo* response_info) {
if (!response_info->headers.get())
return false;
// Return false if the response code sent by the server is garbled.
// Both 200 and 304 are valid since concurrent writing is supported.
if (!is_partial && (response_info->headers->response_code() != 200 &&
response_info->headers->response_code() != 304)) {
return false;
}
return true;
}
} // namespace
HttpCache::Writers::TransactionInfo::TransactionInfo(PartialData* partial_data,
const bool is_truncated,
HttpResponseInfo info)
: partial(partial_data), truncated(is_truncated), response_info(info) {}
HttpCache::Writers::TransactionInfo::~TransactionInfo() = default;
HttpCache::Writers::TransactionInfo::TransactionInfo(const TransactionInfo&) =
default;
HttpCache::Writers::Writers(HttpCache* cache, HttpCache::ActiveEntry* entry)
: cache_(cache), entry_(entry), weak_factory_(this) {}
HttpCache::Writers::~Writers() = default;
int HttpCache::Writers::Read(scoped_refptr<IOBuffer> buf,
int buf_len,
CompletionOnceCallback callback,
Transaction* transaction) {
DCHECK(buf);
DCHECK_GT(buf_len, 0);
DCHECK(!callback.is_null());
DCHECK(transaction);
// If another transaction invoked a Read which is currently ongoing, then
// this transaction waits for the read to complete and gets its buffer filled
// with the data returned from that read.
if (next_state_ != State::NONE) {
WaitingForRead read_info(buf, buf_len, std::move(callback));
waiting_for_read_.insert(std::make_pair(transaction, std::move(read_info)));
return ERR_IO_PENDING;
}
DCHECK_EQ(next_state_, State::NONE);
DCHECK(callback_.is_null());
DCHECK_EQ(nullptr, active_transaction_);
DCHECK(HasTransaction(transaction));
active_transaction_ = transaction;
read_buf_ = std::move(buf);
io_buf_len_ = buf_len;
next_state_ = State::NETWORK_READ;
int rv = DoLoop(OK);
if (rv == ERR_IO_PENDING)
callback_ = std::move(callback);
return rv;
}
bool HttpCache::Writers::StopCaching(bool keep_entry) {
// If this is the only transaction in Writers, then stopping will be
// successful. If not, then we will not stop caching since there are
// other consumers waiting to read from the cache.
if (all_writers_.size() != 1)
return false;
network_read_only_ = true;
if (!keep_entry) {
should_keep_entry_ = false;
cache_->WritersDoomEntryRestartTransactions(entry_);
}
return true;
}
void HttpCache::Writers::AddTransaction(
Transaction* transaction,
ParallelWritingPattern initial_writing_pattern,
RequestPriority priority,
const TransactionInfo& info) {
DCHECK(transaction);
ParallelWritingPattern writers_pattern;
DCHECK(CanAddWriters(&writers_pattern));
DCHECK_EQ(0u, all_writers_.count(transaction));
// Set truncation related information.
response_info_truncation_ = info.response_info;
should_keep_entry_ =
IsValidResponseForWriter(info.partial != nullptr, &(info.response_info));
if (all_writers_.empty()) {
DCHECK_EQ(PARALLEL_WRITING_NONE, parallel_writing_pattern_);
parallel_writing_pattern_ = initial_writing_pattern;
if (parallel_writing_pattern_ != PARALLEL_WRITING_JOIN)
is_exclusive_ = true;
} else {
DCHECK_EQ(PARALLEL_WRITING_JOIN, parallel_writing_pattern_);
}
if (info.partial && !info.truncated) {
DCHECK(!partial_do_not_truncate_);
partial_do_not_truncate_ = true;
}
std::pair<Transaction*, TransactionInfo> writer(transaction, info);
all_writers_.insert(writer);
priority_ = std::max(priority, priority_);
if (network_transaction_) {
network_transaction_->SetPriority(priority_);
}
}
void HttpCache::Writers::SetNetworkTransaction(
Transaction* transaction,
std::unique_ptr<HttpTransaction> network_transaction) {
DCHECK_EQ(1u, all_writers_.count(transaction));
DCHECK(network_transaction);
DCHECK(!network_transaction_);
network_transaction_ = std::move(network_transaction);
network_transaction_->SetPriority(priority_);
}
void HttpCache::Writers::ResetNetworkTransaction() {
DCHECK(is_exclusive_);
DCHECK_EQ(1u, all_writers_.size());
DCHECK(all_writers_.begin()->second.partial);
network_transaction_.reset();
}
void HttpCache::Writers::RemoveTransaction(Transaction* transaction,
bool success) {
EraseTransaction(transaction, OK);
if (!all_writers_.empty())
return;
if (!success && ShouldTruncate())
TruncateEntry();
cache_->WritersDoneWritingToEntry(entry_, success, should_keep_entry_,
TransactionSet());
}
void HttpCache::Writers::EraseTransaction(Transaction* transaction,
int result) {
// The transaction should be part of all_writers.
auto it = all_writers_.find(transaction);
DCHECK(it != all_writers_.end());
EraseTransaction(it, result);
}
HttpCache::Writers::TransactionMap::iterator
HttpCache::Writers::EraseTransaction(TransactionMap::iterator it, int result) {
Transaction* transaction = it->first;
transaction->WriterAboutToBeRemovedFromEntry(result);
TransactionMap::iterator return_it = all_writers_.erase(it);
if (all_writers_.empty() && next_state_ == State::NONE) {
// This needs to be called to handle the edge case where even before Read is
// invoked all transactions are removed. In that case the
// network_transaction_ will still have a valid request info and so it
// should be destroyed before its consumer is destroyed (request info
// is a raw pointer owned by its consumer).
network_transaction_.reset();
} else {
UpdatePriority();
}
if (active_transaction_ == transaction) {
active_transaction_ = nullptr;
} else {
// If waiting for read, remove it from the map.
waiting_for_read_.erase(transaction);
}
return return_it;
}
void HttpCache::Writers::UpdatePriority() {
// Get the current highest priority.
RequestPriority current_highest = MINIMUM_PRIORITY;
for (auto& writer : all_writers_) {
Transaction* transaction = writer.first;
current_highest = std::max(transaction->priority(), current_highest);
}
if (priority_ != current_highest) {
if (network_transaction_)
network_transaction_->SetPriority(current_highest);
priority_ = current_highest;
}
}
bool HttpCache::Writers::ContainsOnlyIdleWriters() const {
return waiting_for_read_.empty() && !active_transaction_;
}
bool HttpCache::Writers::CanAddWriters(ParallelWritingPattern* reason) {
*reason = parallel_writing_pattern_;
if (all_writers_.empty())
return true;
return !is_exclusive_ && !network_read_only_;
}
void HttpCache::Writers::ProcessFailure(int error) {
// Notify waiting_for_read_ of the failure. Tasks will be posted for all the
// transactions.
CompleteWaitingForReadTransactions(error);
// Idle readers should fail when Read is invoked on them.
RemoveIdleWriters(error);
}
void HttpCache::Writers::TruncateEntry() {
DCHECK(ShouldTruncate());
scoped_refptr<PickledIOBuffer> data(new PickledIOBuffer());
response_info_truncation_.Persist(data->pickle(),
true /* skip_transient_headers*/,
true /* response_truncated */);
data->Done();
io_buf_len_ = data->pickle()->size();
entry_->disk_entry->WriteData(kResponseInfoIndex, 0, data.get(), io_buf_len_,
base::DoNothing(), true);
}
bool HttpCache::Writers::ShouldTruncate() {
// Don't set the flag for sparse entries or for entries that cannot be
// resumed.
if (!should_keep_entry_ || partial_do_not_truncate_)
return false;
// Check the response headers for strong validators.
// Note that if this is a 206, content-length was already fixed after calling
// PartialData::ResponseHeadersOK().
if (response_info_truncation_.headers->GetContentLength() <= 0 ||
response_info_truncation_.headers->HasHeaderValue("Accept-Ranges",
"none") ||
!response_info_truncation_.headers->HasStrongValidators()) {
should_keep_entry_ = false;
return false;
}
// Double check that there is something worth keeping.
int current_size = entry_->disk_entry->GetDataSize(kResponseContentIndex);
if (!current_size) {
should_keep_entry_ = false;
return false;
}
if (response_info_truncation_.headers->HasHeader("Content-Encoding")) {
should_keep_entry_ = false;
return false;
}
int64_t content_length =
response_info_truncation_.headers->GetContentLength();
if (content_length >= 0 && content_length <= current_size)
return false;
return true;
}
LoadState HttpCache::Writers::GetLoadState() const {
if (network_transaction_)
return network_transaction_->GetLoadState();
return LOAD_STATE_IDLE;
}
HttpCache::Writers::WaitingForRead::WaitingForRead(
scoped_refptr<IOBuffer> buf,
int len,
CompletionOnceCallback consumer_callback)
: read_buf(std::move(buf)),
read_buf_len(len),
write_len(0),
callback(std::move(consumer_callback)) {
DCHECK(read_buf);
DCHECK_GT(len, 0);
DCHECK(!callback.is_null());
}
HttpCache::Writers::WaitingForRead::~WaitingForRead() = default;
HttpCache::Writers::WaitingForRead::WaitingForRead(WaitingForRead&&) = default;
int HttpCache::Writers::DoLoop(int result) {
DCHECK_NE(State::UNSET, next_state_);
DCHECK_NE(State::NONE, next_state_);
int rv = result;
do {
State state = next_state_;
next_state_ = State::UNSET;
switch (state) {
case State::NETWORK_READ:
DCHECK_EQ(OK, rv);
rv = DoNetworkRead();
break;
case State::NETWORK_READ_COMPLETE:
rv = DoNetworkReadComplete(rv);
break;
case State::CACHE_WRITE_DATA:
rv = DoCacheWriteData(rv);
break;
case State::CACHE_WRITE_DATA_COMPLETE:
rv = DoCacheWriteDataComplete(rv);
break;
case State::UNSET:
NOTREACHED() << "bad state";
rv = ERR_FAILED;
break;
case State::NONE:
// Do Nothing.
break;
}
} while (next_state_ != State::NONE && rv != ERR_IO_PENDING);
if (next_state_ != State::NONE) {
if (rv != ERR_IO_PENDING && !callback_.is_null()) {
std::move(callback_).Run(rv);
}
return rv;
}
// Save the callback as |this| may be destroyed when |cache_callback_| is run.
// Note that |callback_| is intentionally reset even if it is not run.
CompletionOnceCallback callback = std::move(callback_);
read_buf_ = NULL;
DCHECK(!all_writers_.empty() || cache_callback_);
if (cache_callback_)
std::move(cache_callback_).Run();
// |this| may have been destroyed in the |cache_callback_|.
if (rv != ERR_IO_PENDING && !callback.is_null())
std::move(callback).Run(rv);
return rv;
}
int HttpCache::Writers::DoNetworkRead() {
DCHECK(network_transaction_);
next_state_ = State::NETWORK_READ_COMPLETE;
CompletionOnceCallback io_callback = base::BindOnce(
&HttpCache::Writers::OnIOComplete, weak_factory_.GetWeakPtr());
return network_transaction_->Read(read_buf_.get(), io_buf_len_,
std::move(io_callback));
}
int HttpCache::Writers::DoNetworkReadComplete(int result) {
if (result < 0) {
next_state_ = State::NONE;
OnNetworkReadFailure(result);
return result;
}
next_state_ = State::CACHE_WRITE_DATA;
return result;
}
void HttpCache::Writers::OnNetworkReadFailure(int result) {
ProcessFailure(result);
if (active_transaction_)
EraseTransaction(active_transaction_, result);
active_transaction_ = nullptr;
if (ShouldTruncate())
TruncateEntry();
SetCacheCallback(false, TransactionSet());
}
int HttpCache::Writers::DoCacheWriteData(int num_bytes) {
next_state_ = State::CACHE_WRITE_DATA_COMPLETE;
write_len_ = num_bytes;
if (!num_bytes || network_read_only_)
return num_bytes;
int current_size = entry_->disk_entry->GetDataSize(kResponseContentIndex);
CompletionOnceCallback io_callback = base::BindOnce(
&HttpCache::Writers::OnIOComplete, weak_factory_.GetWeakPtr());
int rv = 0;
PartialData* partial = nullptr;
// The active transaction must be alive if this is a partial request, as
// partial requests are exclusive and hence will always be the active
// transaction.
// TODO(shivanisha): When partial requests support parallel writing, this
// assumption will not be true.
if (active_transaction_)
partial = all_writers_.find(active_transaction_)->second.partial;
if (!partial) {
rv = entry_->disk_entry->WriteData(kResponseContentIndex, current_size,
read_buf_.get(), num_bytes,
std::move(io_callback), true);
} else {
rv = partial->CacheWrite(entry_->disk_entry, read_buf_.get(), num_bytes,
std::move(io_callback));
}
return rv;
}
int HttpCache::Writers::DoCacheWriteDataComplete(int result) {
DCHECK(!all_writers_.empty());
next_state_ = State::NONE;
if (result != write_len_) {
// Note that it is possible for cache write to fail if the size of the file
// exceeds the per-file limit.
OnCacheWriteFailure();
// |active_transaction_| can continue reading from the network.
result = write_len_;
} else {
OnDataReceived(result);
}
return result;
}
void HttpCache::Writers::OnDataReceived(int result) {
DCHECK(!all_writers_.empty());
auto it = all_writers_.find(active_transaction_);
bool is_partial =
active_transaction_ != nullptr && it->second.partial != nullptr;
// Partial transaction will process the result, return from here.
// This is done because partial requests handling require an awareness of both
// headers and body state machines as they might have to go to the headers
// phase for the next range, so it cannot be completely handled here.
if (is_partial) {
active_transaction_ = nullptr;
return;
}
if (result == 0) {
// Check if the response is actually completed or if not, attempt to mark
// the entry as truncated in OnNetworkReadFailure.
int current_size = entry_->disk_entry->GetDataSize(kResponseContentIndex);
DCHECK(network_transaction_);
const HttpResponseInfo* response_info =
network_transaction_->GetResponseInfo();
int64_t content_length = response_info->headers->GetContentLength();
if (content_length >= 0 && content_length > current_size) {
OnNetworkReadFailure(result);
return;
}
if (active_transaction_)
EraseTransaction(active_transaction_, result);
active_transaction_ = nullptr;
CompleteWaitingForReadTransactions(write_len_);
// Invoke entry processing.
DCHECK(ContainsOnlyIdleWriters());
TransactionSet make_readers;
for (auto& writer : all_writers_)
make_readers.insert(writer.first);
all_writers_.clear();
SetCacheCallback(true, make_readers);
return;
}
// Notify waiting_for_read_. Tasks will be posted for all the
// transactions.
CompleteWaitingForReadTransactions(write_len_);
active_transaction_ = nullptr;
}
void HttpCache::Writers::OnCacheWriteFailure() {
DLOG(ERROR) << "failed to write response data to cache";
ProcessFailure(ERR_CACHE_WRITE_FAILURE);
// Now writers will only be reading from the network.
network_read_only_ = true;
active_transaction_ = nullptr;
should_keep_entry_ = false;
if (all_writers_.empty()) {
SetCacheCallback(false, TransactionSet());
} else {
cache_->WritersDoomEntryRestartTransactions(entry_);
}
}
void HttpCache::Writers::CompleteWaitingForReadTransactions(int result) {
for (auto it = waiting_for_read_.begin(); it != waiting_for_read_.end();) {
Transaction* transaction = it->first;
int callback_result = result;
if (result >= 0) { // success
// Save the data in the waiting transaction's read buffer.
it->second.write_len = std::min(it->second.read_buf_len, result);
memcpy(it->second.read_buf->data(), read_buf_->data(),
it->second.write_len);
callback_result = it->second.write_len;
}
// Post task to notify transaction.
base::ThreadTaskRunnerHandle::Get()->PostTask(
FROM_HERE,
base::BindOnce(std::move(it->second.callback), callback_result));
it = waiting_for_read_.erase(it);
// If its response completion or failure, this transaction needs to be
// removed from writers.
if (result <= 0)
EraseTransaction(transaction, result);
}
}
void HttpCache::Writers::RemoveIdleWriters(int result) {
// Since this is only for idle transactions, waiting_for_read_
// should be empty.
DCHECK(waiting_for_read_.empty());
for (auto it = all_writers_.begin(); it != all_writers_.end();) {
Transaction* transaction = it->first;
if (transaction == active_transaction_) {
it++;
continue;
}
it = EraseTransaction(it, result);
}
}
void HttpCache::Writers::SetCacheCallback(bool success,
const TransactionSet& make_readers) {
DCHECK(!cache_callback_);
cache_callback_ = base::BindOnce(&HttpCache::WritersDoneWritingToEntry,
cache_->GetWeakPtr(), entry_, success,
should_keep_entry_, make_readers);
}
void HttpCache::Writers::OnIOComplete(int result) {
DoLoop(result);
}
} // namespace net