| // Copyright (c) 2012 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_transaction.h" |
| |
| #include "build/build_config.h" // For OS_POSIX |
| |
| #if defined(OS_POSIX) |
| #include <unistd.h> |
| #endif |
| |
| #include <algorithm> |
| #include <string> |
| #include <utility> |
| |
| #include "base/auto_reset.h" |
| #include "base/bind.h" |
| #include "base/bind_helpers.h" |
| #include "base/callback_helpers.h" |
| #include "base/compiler_specific.h" |
| #include "base/format_macros.h" |
| #include "base/location.h" |
| #include "base/macros.h" |
| #include "base/metrics/histogram_functions.h" |
| #include "base/metrics/histogram_macros.h" |
| #include "base/single_thread_task_runner.h" |
| #include "base/strings/string_number_conversions.h" // For HexEncode. |
| #include "base/strings/string_piece.h" |
| #include "base/strings/string_util.h" // For LowerCaseEqualsASCII. |
| #include "base/strings/stringprintf.h" |
| #include "base/threading/thread_task_runner_handle.h" |
| #include "base/time/clock.h" |
| #include "base/trace_event/trace_event.h" |
| #include "base/values.h" |
| #include "net/base/auth.h" |
| #include "net/base/features.h" |
| #include "net/base/load_flags.h" |
| #include "net/base/load_timing_info.h" |
| #include "net/base/trace_constants.h" |
| #include "net/base/upload_data_stream.h" |
| #include "net/cert/cert_status_flags.h" |
| #include "net/cert/x509_certificate.h" |
| #include "net/disk_cache/disk_cache.h" |
| #include "net/http/http_cache_writers.h" |
| #include "net/http/http_network_session.h" |
| #include "net/http/http_request_info.h" |
| #include "net/http/http_util.h" |
| #include "net/log/net_log_event_type.h" |
| #include "net/ssl/ssl_cert_request_info.h" |
| #include "net/ssl/ssl_config_service.h" |
| #include "starboard/types.h" |
| |
| using base::Time; |
| using base::TimeDelta; |
| using base::TimeTicks; |
| |
| namespace net { |
| |
| using CacheEntryStatus = HttpResponseInfo::CacheEntryStatus; |
| |
| namespace { |
| |
| constexpr TimeDelta kStaleRevalidateTimeout = TimeDelta::FromSeconds(60); |
| |
| // From http://tools.ietf.org/html/draft-ietf-httpbis-p6-cache-21#section-6 |
| // a "non-error response" is one with a 2xx (Successful) or 3xx |
| // (Redirection) status code. |
| bool NonErrorResponse(int status_code) { |
| int status_code_range = status_code / 100; |
| return status_code_range == 2 || status_code_range == 3; |
| } |
| |
| void RecordNoStoreHeaderHistogram(int load_flags, |
| const HttpResponseInfo* response) { |
| if (load_flags & LOAD_MAIN_FRAME_DEPRECATED) { |
| UMA_HISTOGRAM_BOOLEAN( |
| "Net.MainFrameNoStore", |
| response->headers->HasHeaderValue("cache-control", "no-store")); |
| } |
| } |
| |
| enum ExternallyConditionalizedType { |
| EXTERNALLY_CONDITIONALIZED_CACHE_REQUIRES_VALIDATION, |
| EXTERNALLY_CONDITIONALIZED_CACHE_USABLE, |
| EXTERNALLY_CONDITIONALIZED_MISMATCHED_VALIDATORS, |
| EXTERNALLY_CONDITIONALIZED_MAX |
| }; |
| |
| } // namespace |
| |
| #define CACHE_STATUS_HISTOGRAMS(type) \ |
| do { \ |
| UMA_HISTOGRAM_ENUMERATION("HttpCache.Pattern" type, cache_entry_status_, \ |
| CacheEntryStatus::ENTRY_MAX); \ |
| if (validation_request) { \ |
| UMA_HISTOGRAM_ENUMERATION("HttpCache.ValidationCause" type, \ |
| validation_cause_, VALIDATION_CAUSE_MAX); \ |
| } \ |
| if (stale_request) { \ |
| UMA_HISTOGRAM_COUNTS_1M( \ |
| "HttpCache.StaleEntry.FreshnessPeriodsSinceLastUsed" type, \ |
| freshness_periods_since_last_used); \ |
| } \ |
| } while (0) |
| |
| struct HeaderNameAndValue { |
| const char* name; |
| const char* value; |
| }; |
| |
| // If the request includes one of these request headers, then avoid caching |
| // to avoid getting confused. |
| static const HeaderNameAndValue kPassThroughHeaders[] = { |
| { "if-unmodified-since", NULL }, // causes unexpected 412s |
| { "if-match", NULL }, // causes unexpected 412s |
| { "if-range", NULL }, |
| { NULL, NULL } |
| }; |
| |
| struct ValidationHeaderInfo { |
| const char* request_header_name; |
| const char* related_response_header_name; |
| }; |
| |
| static const ValidationHeaderInfo kValidationHeaders[] = { |
| { "if-modified-since", "last-modified" }, |
| { "if-none-match", "etag" }, |
| }; |
| |
| // If the request includes one of these request headers, then avoid reusing |
| // our cached copy if any. |
| static const HeaderNameAndValue kForceFetchHeaders[] = { |
| { "cache-control", "no-cache" }, |
| { "pragma", "no-cache" }, |
| { NULL, NULL } |
| }; |
| |
| // If the request includes one of these request headers, then force our |
| // cached copy (if any) to be revalidated before reusing it. |
| static const HeaderNameAndValue kForceValidateHeaders[] = { |
| { "cache-control", "max-age=0" }, |
| { NULL, NULL } |
| }; |
| |
| static bool HeaderMatches(const HttpRequestHeaders& headers, |
| const HeaderNameAndValue* search) { |
| for (; search->name; ++search) { |
| std::string header_value; |
| if (!headers.GetHeader(search->name, &header_value)) |
| continue; |
| |
| if (!search->value) |
| return true; |
| |
| HttpUtil::ValuesIterator v(header_value.begin(), header_value.end(), ','); |
| while (v.GetNext()) { |
| if (base::LowerCaseEqualsASCII( |
| base::StringPiece(v.value_begin(), v.value_end()), search->value)) |
| return true; |
| } |
| } |
| return false; |
| } |
| |
| //----------------------------------------------------------------------------- |
| |
| HttpCache::Transaction::Transaction(RequestPriority priority, HttpCache* cache) |
| : next_state_(STATE_NONE), |
| initial_request_(nullptr), |
| request_(NULL), |
| priority_(priority), |
| cache_(cache->GetWeakPtr()), |
| entry_(NULL), |
| new_entry_(NULL), |
| new_response_(NULL), |
| mode_(NONE), |
| reading_(false), |
| invalid_range_(false), |
| truncated_(false), |
| is_sparse_(false), |
| range_requested_(false), |
| handling_206_(false), |
| cache_pending_(false), |
| done_headers_create_new_entry_(false), |
| vary_mismatch_(false), |
| couldnt_conditionalize_request_(false), |
| bypass_lock_for_test_(false), |
| bypass_lock_after_headers_for_test_(false), |
| fail_conditionalization_for_test_(false), |
| io_buf_len_(0), |
| read_offset_(0), |
| effective_load_flags_(0), |
| shared_writing_error_(OK), |
| cache_entry_status_(CacheEntryStatus::ENTRY_UNDEFINED), |
| validation_cause_(VALIDATION_CAUSE_UNDEFINED), |
| cant_conditionalize_zero_freshness_from_memhint_(false), |
| recorded_histograms_(false), |
| parallel_writing_pattern_(PARALLEL_WRITING_NONE), |
| moved_network_transaction_to_writers_(false), |
| websocket_handshake_stream_base_create_helper_(NULL), |
| in_do_loop_(false), |
| weak_factory_(this) { |
| TRACE_EVENT0("io", "HttpCacheTransaction::Transaction"); |
| static_assert(HttpCache::Transaction::kNumValidationHeaders == |
| arraysize(kValidationHeaders), |
| "invalid number of validation headers"); |
| |
| io_callback_ = base::BindRepeating(&Transaction::OnIOComplete, |
| weak_factory_.GetWeakPtr()); |
| } |
| |
| HttpCache::Transaction::~Transaction() { |
| TRACE_EVENT0("io", "HttpCacheTransaction::~Transaction"); |
| // We may have to issue another IO, but we should never invoke the callback_ |
| // after this point. |
| callback_.Reset(); |
| |
| if (cache_) { |
| if (entry_) { |
| DoneWithEntry(false /* entry_is_complete */); |
| } else if (cache_pending_) { |
| cache_->RemovePendingTransaction(this); |
| } |
| } |
| } |
| |
| HttpCache::Transaction::Mode HttpCache::Transaction::mode() const { |
| return mode_; |
| } |
| |
| int HttpCache::Transaction::WriteMetadata(IOBuffer* buf, |
| int buf_len, |
| CompletionOnceCallback callback) { |
| DCHECK(buf); |
| DCHECK_GT(buf_len, 0); |
| DCHECK(!callback.is_null()); |
| if (!cache_.get() || !entry_) |
| return ERR_UNEXPECTED; |
| |
| // We don't need to track this operation for anything. |
| // It could be possible to check if there is something already written and |
| // avoid writing again (it should be the same, right?), but let's allow the |
| // caller to "update" the contents with something new. |
| return entry_->disk_entry->WriteData(kMetadataIndex, 0, buf, buf_len, |
| std::move(callback), true); |
| } |
| |
| LoadState HttpCache::Transaction::GetWriterLoadState() const { |
| const HttpTransaction* transaction = network_transaction(); |
| if (transaction) |
| return transaction->GetLoadState(); |
| if (entry_ || !request_) |
| return LOAD_STATE_IDLE; |
| return LOAD_STATE_WAITING_FOR_CACHE; |
| } |
| |
| const NetLogWithSource& HttpCache::Transaction::net_log() const { |
| return net_log_; |
| } |
| |
| int HttpCache::Transaction::Start(const HttpRequestInfo* request, |
| CompletionOnceCallback callback, |
| const NetLogWithSource& net_log) { |
| DCHECK(request); |
| DCHECK(!callback.is_null()); |
| |
| // Ensure that we only have one asynchronous call at a time. |
| DCHECK(callback_.is_null()); |
| DCHECK(!reading_); |
| DCHECK(!network_trans_.get()); |
| DCHECK(!entry_); |
| DCHECK_EQ(next_state_, STATE_NONE); |
| |
| if (!cache_.get()) |
| return ERR_UNEXPECTED; |
| |
| initial_request_ = request; |
| SetRequest(net_log); |
| |
| // We have to wait until the backend is initialized so we start the SM. |
| next_state_ = STATE_GET_BACKEND; |
| int rv = DoLoop(OK); |
| |
| // Setting this here allows us to check for the existence of a callback_ to |
| // determine if we are still inside Start. |
| if (rv == ERR_IO_PENDING) { |
| callback_ = std::move(callback); |
| } |
| |
| return rv; |
| } |
| |
| int HttpCache::Transaction::RestartIgnoringLastError( |
| CompletionOnceCallback callback) { |
| DCHECK(!callback.is_null()); |
| |
| // Ensure that we only have one asynchronous call at a time. |
| DCHECK(callback_.is_null()); |
| |
| if (!cache_.get()) |
| return ERR_UNEXPECTED; |
| |
| int rv = RestartNetworkRequest(); |
| |
| if (rv == ERR_IO_PENDING) |
| callback_ = std::move(callback); |
| |
| return rv; |
| } |
| |
| int HttpCache::Transaction::RestartWithCertificate( |
| scoped_refptr<X509Certificate> client_cert, |
| scoped_refptr<SSLPrivateKey> client_private_key, |
| CompletionOnceCallback callback) { |
| DCHECK(!callback.is_null()); |
| |
| // Ensure that we only have one asynchronous call at a time. |
| DCHECK(callback_.is_null()); |
| |
| if (!cache_.get()) |
| return ERR_UNEXPECTED; |
| |
| int rv = RestartNetworkRequestWithCertificate(std::move(client_cert), |
| std::move(client_private_key)); |
| |
| if (rv == ERR_IO_PENDING) |
| callback_ = std::move(callback); |
| |
| return rv; |
| } |
| |
| int HttpCache::Transaction::RestartWithAuth(const AuthCredentials& credentials, |
| CompletionOnceCallback callback) { |
| DCHECK(auth_response_.headers.get()); |
| DCHECK(!callback.is_null()); |
| |
| // Ensure that we only have one asynchronous call at a time. |
| DCHECK(callback_.is_null()); |
| |
| if (!cache_.get()) |
| return ERR_UNEXPECTED; |
| |
| // Clear the intermediate response since we are going to start over. |
| SetAuthResponse(HttpResponseInfo()); |
| |
| int rv = RestartNetworkRequestWithAuth(credentials); |
| |
| if (rv == ERR_IO_PENDING) |
| callback_ = std::move(callback); |
| |
| return rv; |
| } |
| |
| bool HttpCache::Transaction::IsReadyToRestartForAuth() { |
| if (!network_trans_.get()) |
| return false; |
| return network_trans_->IsReadyToRestartForAuth(); |
| } |
| |
| int HttpCache::Transaction::Read(IOBuffer* buf, |
| int buf_len, |
| CompletionOnceCallback callback) { |
| DCHECK_EQ(next_state_, STATE_NONE); |
| DCHECK(buf); |
| DCHECK_GT(buf_len, 0); |
| DCHECK(!callback.is_null()); |
| |
| DCHECK(callback_.is_null()); |
| |
| if (!cache_.get()) |
| return ERR_UNEXPECTED; |
| |
| // If we have an intermediate auth response at this point, then it means the |
| // user wishes to read the network response (the error page). If there is a |
| // previous response in the cache then we should leave it intact. |
| if (auth_response_.headers.get() && mode_ != NONE) { |
| UpdateCacheEntryStatus(CacheEntryStatus::ENTRY_OTHER); |
| DCHECK(mode_ & WRITE); |
| bool stopped = StopCachingImpl(mode_ == READ_WRITE); |
| DCHECK(stopped); |
| } |
| |
| reading_ = true; |
| read_buf_ = buf; |
| io_buf_len_ = buf_len; |
| int rv = TransitionToReadingState(); |
| if (rv != OK || next_state_ == STATE_NONE) |
| return rv; |
| |
| rv = DoLoop(OK); |
| |
| if (rv == ERR_IO_PENDING) { |
| DCHECK(callback_.is_null()); |
| callback_ = std::move(callback); |
| } |
| return rv; |
| } |
| |
| int HttpCache::Transaction::TransitionToReadingState() { |
| if (!entry_) { |
| if (network_trans_) { |
| // This can happen when the request should be handled exclusively by |
| // the network layer (skipping the cache entirely using |
| // LOAD_DISABLE_CACHE) or there was an error during the headers phase |
| // due to which the transaction cannot write to the cache or the consumer |
| // is reading the auth response from the network. |
| // TODO(http://crbug.com/740947) to get rid of this state in future. |
| next_state_ = STATE_NETWORK_READ; |
| return OK; |
| } |
| |
| // If there is no network, and no cache entry, then there is nothing to read |
| // from. |
| next_state_ = STATE_NONE; |
| |
| // An error state should be set for the next read, else this transaction |
| // should have been terminated once it reached this state. To assert we |
| // could dcheck that shared_writing_error_ is set to a valid error value but |
| // in some specific conditions (http://crbug.com/806344) it's possible that |
| // the consumer does an extra Read in which case the assert will fail. |
| return shared_writing_error_; |
| } |
| |
| // If entry_ is present, the transaction is either a member of entry_->writers |
| // or readers. |
| if (!InWriters()) { |
| // Since transaction is not a writer and we are in Read(), it must be a |
| // reader. |
| DCHECK(entry_->TransactionInReaders(this)); |
| DCHECK(mode_ == READ || (mode_ == READ_WRITE && partial_)); |
| next_state_ = STATE_CACHE_READ_DATA; |
| return OK; |
| } |
| |
| DCHECK(mode_ & WRITE || mode_ == NONE); |
| |
| // If it's a writer and it is partial then it may need to read from the cache |
| // or from the network based on whether network transaction is present or not. |
| if (partial_) { |
| if (entry_->writers->network_transaction()) |
| next_state_ = STATE_NETWORK_READ_CACHE_WRITE; |
| else |
| next_state_ = STATE_CACHE_READ_DATA; |
| return OK; |
| } |
| |
| // Full request. |
| // If it's a writer and a full request then it may read from the cache if its |
| // offset is behind the current offset else from the network. |
| int disk_entry_size = entry_->disk_entry->GetDataSize(kResponseContentIndex); |
| if (read_offset_ == disk_entry_size || entry_->writers->network_read_only()) { |
| next_state_ = STATE_NETWORK_READ_CACHE_WRITE; |
| } else { |
| DCHECK_LT(read_offset_, disk_entry_size); |
| next_state_ = STATE_CACHE_READ_DATA; |
| } |
| return OK; |
| } |
| |
| void HttpCache::Transaction::StopCaching() { |
| // We really don't know where we are now. Hopefully there is no operation in |
| // progress, but nothing really prevents this method to be called after we |
| // returned ERR_IO_PENDING. We cannot attempt to truncate the entry at this |
| // point because we need the state machine for that (and even if we are really |
| // free, that would be an asynchronous operation). In other words, keep the |
| // entry how it is (it will be marked as truncated at destruction), and let |
| // the next piece of code that executes know that we are now reading directly |
| // from the net. |
| if (cache_.get() && (mode_ & WRITE) && !is_sparse_ && !range_requested_ && |
| network_transaction()) { |
| StopCachingImpl(false); |
| } |
| } |
| |
| bool HttpCache::Transaction::GetFullRequestHeaders( |
| HttpRequestHeaders* headers) const { |
| const HttpTransaction* transaction = GetOwnedOrMovedNetworkTransaction(); |
| if (transaction) { |
| return transaction->GetFullRequestHeaders(headers); |
| } else if (!network_transaction_info_.full_request_headers.IsEmpty()) { |
| *headers = network_transaction_info_.full_request_headers; |
| return true; |
| } |
| |
| // TODO(juliatuttle): Read headers from cache. |
| return false; |
| } |
| |
| int64_t HttpCache::Transaction::GetTotalReceivedBytes() const { |
| int64_t total_received_bytes = network_transaction_info_.total_received_bytes; |
| const HttpTransaction* transaction = GetOwnedOrMovedNetworkTransaction(); |
| if (transaction) |
| total_received_bytes += transaction->GetTotalReceivedBytes(); |
| return total_received_bytes; |
| } |
| |
| int64_t HttpCache::Transaction::GetTotalSentBytes() const { |
| int64_t total_sent_bytes = network_transaction_info_.total_sent_bytes; |
| const HttpTransaction* transaction = GetOwnedOrMovedNetworkTransaction(); |
| if (transaction) |
| total_sent_bytes += transaction->GetTotalSentBytes(); |
| return total_sent_bytes; |
| } |
| |
| void HttpCache::Transaction::DoneReading() { |
| if (cache_.get() && entry_) { |
| DCHECK_NE(mode_, UPDATE); |
| DoneWithEntry(true); |
| } |
| } |
| |
| const HttpResponseInfo* HttpCache::Transaction::GetResponseInfo() const { |
| // Null headers means we encountered an error or haven't a response yet |
| if (auth_response_.headers.get()) { |
| DCHECK_EQ(cache_entry_status_, auth_response_.cache_entry_status) |
| << "These must be in sync via SetResponse and SetAuthResponse."; |
| return &auth_response_; |
| } |
| DCHECK_EQ(cache_entry_status_, response_.cache_entry_status) |
| << "These must be in sync via SetResponse and SetAuthResponse."; |
| return &response_; |
| } |
| |
| LoadState HttpCache::Transaction::GetLoadState() const { |
| LoadState state = GetWriterLoadState(); |
| if (state != LOAD_STATE_WAITING_FOR_CACHE) |
| return state; |
| |
| if (cache_.get()) |
| return cache_->GetLoadStateForPendingTransaction(this); |
| |
| return LOAD_STATE_IDLE; |
| } |
| |
| void HttpCache::Transaction::SetQuicServerInfo( |
| QuicServerInfo* quic_server_info) {} |
| |
| bool HttpCache::Transaction::GetLoadTimingInfo( |
| LoadTimingInfo* load_timing_info) const { |
| const HttpTransaction* transaction = GetOwnedOrMovedNetworkTransaction(); |
| if (transaction) |
| return transaction->GetLoadTimingInfo(load_timing_info); |
| |
| if (network_transaction_info_.old_network_trans_load_timing) { |
| *load_timing_info = |
| *network_transaction_info_.old_network_trans_load_timing; |
| return true; |
| } |
| |
| if (first_cache_access_since_.is_null()) |
| return false; |
| |
| // If the cache entry was opened, return that time. |
| load_timing_info->send_start = first_cache_access_since_; |
| // This time doesn't make much sense when reading from the cache, so just use |
| // the same time as send_start. |
| load_timing_info->send_end = first_cache_access_since_; |
| return true; |
| } |
| |
| bool HttpCache::Transaction::GetRemoteEndpoint(IPEndPoint* endpoint) const { |
| const HttpTransaction* transaction = GetOwnedOrMovedNetworkTransaction(); |
| if (transaction) |
| return transaction->GetRemoteEndpoint(endpoint); |
| |
| if (!network_transaction_info_.old_remote_endpoint.address().empty()) { |
| *endpoint = network_transaction_info_.old_remote_endpoint; |
| return true; |
| } |
| |
| return false; |
| } |
| |
| void HttpCache::Transaction::PopulateNetErrorDetails( |
| NetErrorDetails* details) const { |
| const HttpTransaction* transaction = GetOwnedOrMovedNetworkTransaction(); |
| if (transaction) |
| return transaction->PopulateNetErrorDetails(details); |
| return; |
| } |
| |
| void HttpCache::Transaction::SetPriority(RequestPriority priority) { |
| priority_ = priority; |
| |
| if (network_trans_) |
| network_trans_->SetPriority(priority_); |
| |
| if (InWriters()) { |
| DCHECK(!network_trans_ || partial_); |
| entry_->writers->UpdatePriority(); |
| } |
| } |
| |
| void HttpCache::Transaction::SetWebSocketHandshakeStreamCreateHelper( |
| WebSocketHandshakeStreamBase::CreateHelper* create_helper) { |
| websocket_handshake_stream_base_create_helper_ = create_helper; |
| |
| // TODO(shivanisha). Since this function must be invoked before Start() as |
| // per the API header, a network transaction should not exist at that point. |
| HttpTransaction* transaction = network_transaction(); |
| if (transaction) |
| transaction->SetWebSocketHandshakeStreamCreateHelper(create_helper); |
| } |
| |
| void HttpCache::Transaction::SetBeforeNetworkStartCallback( |
| const BeforeNetworkStartCallback& callback) { |
| DCHECK(!network_trans_); |
| before_network_start_callback_ = callback; |
| } |
| |
| void HttpCache::Transaction::SetBeforeHeadersSentCallback( |
| const BeforeHeadersSentCallback& callback) { |
| DCHECK(!network_trans_); |
| before_headers_sent_callback_ = callback; |
| } |
| |
| void HttpCache::Transaction::SetRequestHeadersCallback( |
| RequestHeadersCallback callback) { |
| DCHECK(!network_trans_); |
| request_headers_callback_ = std::move(callback); |
| } |
| |
| void HttpCache::Transaction::SetResponseHeadersCallback( |
| ResponseHeadersCallback callback) { |
| DCHECK(!network_trans_); |
| response_headers_callback_ = std::move(callback); |
| } |
| |
| int HttpCache::Transaction::ResumeNetworkStart() { |
| if (network_trans_) |
| return network_trans_->ResumeNetworkStart(); |
| return ERR_UNEXPECTED; |
| } |
| |
| void HttpCache::Transaction::GetConnectionAttempts( |
| ConnectionAttempts* out) const { |
| ConnectionAttempts new_connection_attempts; |
| const HttpTransaction* transaction = GetOwnedOrMovedNetworkTransaction(); |
| if (transaction) |
| transaction->GetConnectionAttempts(&new_connection_attempts); |
| |
| out->swap(new_connection_attempts); |
| out->insert(out->begin(), |
| network_transaction_info_.old_connection_attempts.begin(), |
| network_transaction_info_.old_connection_attempts.end()); |
| } |
| |
| void HttpCache::Transaction::SetValidatingCannotProceed() { |
| DCHECK(!reading_); |
| // Ensure this transaction is waiting for a callback. |
| DCHECK_NE(STATE_UNSET, next_state_); |
| |
| next_state_ = STATE_HEADERS_PHASE_CANNOT_PROCEED; |
| entry_ = nullptr; |
| } |
| |
| size_t HttpCache::Transaction::EstimateMemoryUsage() const { |
| // TODO(xunjieli): Consider improving the coverage. crbug.com/669108. |
| return 0; |
| } |
| |
| void HttpCache::Transaction::WriterAboutToBeRemovedFromEntry(int result) { |
| RecordHistograms(); |
| |
| // Since the transaction can no longer access the network transaction, save |
| // all network related info now. |
| if (moved_network_transaction_to_writers_ && |
| entry_->writers->network_transaction()) { |
| SaveNetworkTransactionInfo(*(entry_->writers->network_transaction())); |
| } |
| |
| entry_ = nullptr; |
| mode_ = NONE; |
| |
| // Transactions in the midst of a Read call through writers will get any error |
| // code through the IO callback but for idle transactions/transactions reading |
| // from the cache, the error for a future Read must be stored here. |
| if (result < 0) |
| shared_writing_error_ = result; |
| } |
| |
| void HttpCache::Transaction::WriteModeTransactionAboutToBecomeReader() { |
| mode_ = READ; |
| if (moved_network_transaction_to_writers_ && |
| entry_->writers->network_transaction()) { |
| SaveNetworkTransactionInfo(*(entry_->writers->network_transaction())); |
| } |
| } |
| |
| void HttpCache::Transaction::MaybeSetParallelWritingPatternForMetrics( |
| HttpCache::ParallelWritingPattern pattern) { |
| // It's possible a transaction could not join existing writers and then |
| // creates a new writers. In that case the original reason for not being able |
| // to join writers should be logged. |
| if (parallel_writing_pattern_ == PARALLEL_WRITING_NONE) |
| parallel_writing_pattern_ = pattern; |
| } |
| |
| //----------------------------------------------------------------------------- |
| |
| // A few common patterns: (Foo* means Foo -> FooComplete) |
| // |
| // 1. Not-cached entry: |
| // Start(): |
| // GetBackend* -> InitEntry -> OpenEntry* -> CreateEntry* -> AddToEntry* -> |
| // SendRequest* -> SuccessfulSendRequest -> OverwriteCachedResponse -> |
| // CacheWriteResponse* -> TruncateCachedData* -> TruncateCachedMetadata* -> |
| // PartialHeadersReceived -> FinishHeaders* |
| // |
| // Read(): |
| // NetworkReadCacheWrite*/CacheReadData* (if other writers are also writing to |
| // the cache) |
| // |
| // 2. Cached entry, no validation: |
| // Start(): |
| // GetBackend* -> InitEntry -> OpenEntry* -> AddToEntry* -> CacheReadResponse* |
| // -> CacheDispatchValidation -> BeginPartialCacheValidation() -> |
| // BeginCacheValidation() -> SetupEntryForRead() -> FinishHeaders* |
| // |
| // Read(): |
| // CacheReadData* |
| // |
| // 3. Cached entry, validation (304): |
| // Start(): |
| // GetBackend* -> InitEntry -> OpenEntry* -> AddToEntry* -> CacheReadResponse* |
| // -> CacheDispatchValidation -> BeginPartialCacheValidation() -> |
| // BeginCacheValidation() -> SendRequest* -> SuccessfulSendRequest -> |
| // UpdateCachedResponse -> CacheWriteUpdatedResponse* -> |
| // UpdateCachedResponseComplete -> OverwriteCachedResponse -> |
| // PartialHeadersReceived -> FinishHeaders* |
| // |
| // Read(): |
| // CacheReadData* |
| // |
| // 4. Cached entry, validation and replace (200): |
| // Start(): |
| // GetBackend* -> InitEntry -> OpenEntry* -> AddToEntry* -> CacheReadResponse* |
| // -> CacheDispatchValidation -> BeginPartialCacheValidation() -> |
| // BeginCacheValidation() -> SendRequest* -> SuccessfulSendRequest -> |
| // OverwriteCachedResponse -> CacheWriteResponse* -> DoTruncateCachedData* -> |
| // TruncateCachedMetadata* -> PartialHeadersReceived -> FinishHeaders* |
| // |
| // Read(): |
| // NetworkReadCacheWrite*/CacheReadData* (if other writers are also writing to |
| // the cache) |
| // |
| // 5. Sparse entry, partially cached, byte range request: |
| // Start(): |
| // GetBackend* -> InitEntry -> OpenEntry* -> AddToEntry* -> CacheReadResponse* |
| // -> CacheDispatchValidation -> BeginPartialCacheValidation() -> |
| // CacheQueryData* -> ValidateEntryHeadersAndContinue() -> |
| // StartPartialCacheValidation -> CompletePartialCacheValidation -> |
| // BeginCacheValidation() -> SendRequest* -> SuccessfulSendRequest -> |
| // UpdateCachedResponse -> CacheWriteUpdatedResponse* -> |
| // UpdateCachedResponseComplete -> OverwriteCachedResponse -> |
| // PartialHeadersReceived -> FinishHeaders* |
| // |
| // Read() 1: |
| // NetworkReadCacheWrite* |
| // |
| // Read() 2: |
| // NetworkReadCacheWrite* -> StartPartialCacheValidation -> |
| // CompletePartialCacheValidation -> CacheReadData* -> |
| // |
| // Read() 3: |
| // CacheReadData* -> StartPartialCacheValidation -> |
| // CompletePartialCacheValidation -> BeginCacheValidation() -> SendRequest* -> |
| // SuccessfulSendRequest -> UpdateCachedResponse* -> OverwriteCachedResponse |
| // -> PartialHeadersReceived -> NetworkReadCacheWrite* |
| // |
| // 6. HEAD. Not-cached entry: |
| // Pass through. Don't save a HEAD by itself. |
| // Start(): |
| // GetBackend* -> InitEntry -> OpenEntry* -> SendRequest* |
| // |
| // 7. HEAD. Cached entry, no validation: |
| // Start(): |
| // The same flow as for a GET request (example #2) |
| // |
| // Read(): |
| // CacheReadData (returns 0) |
| // |
| // 8. HEAD. Cached entry, validation (304): |
| // The request updates the stored headers. |
| // Start(): Same as for a GET request (example #3) |
| // |
| // Read(): |
| // CacheReadData (returns 0) |
| // |
| // 9. HEAD. Cached entry, validation and replace (200): |
| // Pass through. The request dooms the old entry, as a HEAD won't be stored by |
| // itself. |
| // Start(): |
| // GetBackend* -> InitEntry -> OpenEntry* -> AddToEntry* -> CacheReadResponse* |
| // -> CacheDispatchValidation -> BeginPartialCacheValidation() -> |
| // BeginCacheValidation() -> SendRequest* -> SuccessfulSendRequest -> |
| // OverwriteCachedResponse -> FinishHeaders* |
| // |
| // 10. HEAD. Sparse entry, partially cached: |
| // Serve the request from the cache, as long as it doesn't require |
| // revalidation. Ignore missing ranges when deciding to revalidate. If the |
| // entry requires revalidation, ignore the whole request and go to full pass |
| // through (the result of the HEAD request will NOT update the entry). |
| // |
| // Start(): Basically the same as example 7, as we never create a partial_ |
| // object for this request. |
| // |
| // 11. Prefetch, not-cached entry: |
| // The same as example 1. The "unused_since_prefetch" bit is stored as true in |
| // UpdateCachedResponse. |
| // |
| // 12. Prefetch, cached entry: |
| // Like examples 2-4, only CacheToggleUnusedSincePrefetch* is inserted between |
| // CacheReadResponse* and CacheDispatchValidation if the unused_since_prefetch |
| // bit is unset. |
| // |
| // 13. Cached entry less than 5 minutes old, unused_since_prefetch is true: |
| // Skip validation, similar to example 2. |
| // GetBackend* -> InitEntry -> OpenEntry* -> AddToEntry* -> CacheReadResponse* |
| // -> CacheToggleUnusedSincePrefetch* -> CacheDispatchValidation -> |
| // BeginPartialCacheValidation() -> BeginCacheValidation() -> |
| // SetupEntryForRead() -> FinishHeaders* |
| // |
| // Read(): |
| // CacheReadData* |
| // |
| // 14. Cached entry more than 5 minutes old, unused_since_prefetch is true: |
| // Like examples 2-4, only CacheToggleUnusedSincePrefetch* is inserted between |
| // CacheReadResponse* and CacheDispatchValidation. |
| int HttpCache::Transaction::DoLoop(int result) { |
| DCHECK_NE(STATE_UNSET, next_state_); |
| DCHECK_NE(STATE_NONE, next_state_); |
| DCHECK(!in_do_loop_); |
| |
| int rv = result; |
| State state = next_state_; |
| do { |
| state = next_state_; |
| next_state_ = STATE_UNSET; |
| base::AutoReset<bool> scoped_in_do_loop(&in_do_loop_, true); |
| |
| switch (state) { |
| case STATE_GET_BACKEND: |
| DCHECK_EQ(OK, rv); |
| rv = DoGetBackend(); |
| break; |
| case STATE_GET_BACKEND_COMPLETE: |
| rv = DoGetBackendComplete(rv); |
| break; |
| case STATE_INIT_ENTRY: |
| DCHECK_EQ(OK, rv); |
| rv = DoInitEntry(); |
| break; |
| case STATE_OPEN_ENTRY: |
| DCHECK_EQ(OK, rv); |
| rv = DoOpenEntry(); |
| break; |
| case STATE_OPEN_ENTRY_COMPLETE: |
| rv = DoOpenEntryComplete(rv); |
| break; |
| case STATE_DOOM_ENTRY: |
| DCHECK_EQ(OK, rv); |
| rv = DoDoomEntry(); |
| break; |
| case STATE_DOOM_ENTRY_COMPLETE: |
| rv = DoDoomEntryComplete(rv); |
| break; |
| case STATE_CREATE_ENTRY: |
| DCHECK_EQ(OK, rv); |
| rv = DoCreateEntry(); |
| break; |
| case STATE_CREATE_ENTRY_COMPLETE: |
| rv = DoCreateEntryComplete(rv); |
| break; |
| case STATE_ADD_TO_ENTRY: |
| DCHECK_EQ(OK, rv); |
| rv = DoAddToEntry(); |
| break; |
| case STATE_ADD_TO_ENTRY_COMPLETE: |
| rv = DoAddToEntryComplete(rv); |
| break; |
| case STATE_DONE_HEADERS_ADD_TO_ENTRY_COMPLETE: |
| rv = DoDoneHeadersAddToEntryComplete(rv); |
| break; |
| case STATE_CACHE_READ_RESPONSE: |
| DCHECK_EQ(OK, rv); |
| rv = DoCacheReadResponse(); |
| break; |
| case STATE_CACHE_READ_RESPONSE_COMPLETE: |
| rv = DoCacheReadResponseComplete(rv); |
| break; |
| case STATE_TOGGLE_UNUSED_SINCE_PREFETCH: |
| DCHECK_EQ(OK, rv); |
| rv = DoCacheToggleUnusedSincePrefetch(); |
| break; |
| case STATE_TOGGLE_UNUSED_SINCE_PREFETCH_COMPLETE: |
| rv = DoCacheToggleUnusedSincePrefetchComplete(rv); |
| break; |
| case STATE_CACHE_DISPATCH_VALIDATION: |
| DCHECK_EQ(OK, rv); |
| rv = DoCacheDispatchValidation(); |
| break; |
| case STATE_CACHE_QUERY_DATA: |
| DCHECK_EQ(OK, rv); |
| rv = DoCacheQueryData(); |
| break; |
| case STATE_CACHE_QUERY_DATA_COMPLETE: |
| rv = DoCacheQueryDataComplete(rv); |
| break; |
| case STATE_START_PARTIAL_CACHE_VALIDATION: |
| DCHECK_EQ(OK, rv); |
| rv = DoStartPartialCacheValidation(); |
| break; |
| case STATE_COMPLETE_PARTIAL_CACHE_VALIDATION: |
| rv = DoCompletePartialCacheValidation(rv); |
| break; |
| case STATE_CACHE_UPDATE_STALE_WHILE_REVALIDATE_TIMEOUT: |
| DCHECK_EQ(OK, rv); |
| rv = DoCacheUpdateStaleWhileRevalidateTimeout(); |
| break; |
| case STATE_CACHE_UPDATE_STALE_WHILE_REVALIDATE_TIMEOUT_COMPLETE: |
| rv = DoCacheUpdateStaleWhileRevalidateTimeoutComplete(rv); |
| break; |
| case STATE_SETUP_ENTRY_FOR_READ: |
| DCHECK_EQ(OK, rv); |
| rv = DoSetupEntryForRead(); |
| break; |
| case STATE_SEND_REQUEST: |
| DCHECK_EQ(OK, rv); |
| rv = DoSendRequest(); |
| break; |
| case STATE_SEND_REQUEST_COMPLETE: |
| rv = DoSendRequestComplete(rv); |
| break; |
| case STATE_SUCCESSFUL_SEND_REQUEST: |
| DCHECK_EQ(OK, rv); |
| rv = DoSuccessfulSendRequest(); |
| break; |
| case STATE_UPDATE_CACHED_RESPONSE: |
| DCHECK_EQ(OK, rv); |
| rv = DoUpdateCachedResponse(); |
| break; |
| case STATE_CACHE_WRITE_UPDATED_RESPONSE: |
| DCHECK_EQ(OK, rv); |
| rv = DoCacheWriteUpdatedResponse(); |
| break; |
| case STATE_CACHE_WRITE_UPDATED_RESPONSE_COMPLETE: |
| rv = DoCacheWriteUpdatedResponseComplete(rv); |
| break; |
| case STATE_UPDATE_CACHED_RESPONSE_COMPLETE: |
| rv = DoUpdateCachedResponseComplete(rv); |
| break; |
| case STATE_OVERWRITE_CACHED_RESPONSE: |
| DCHECK_EQ(OK, rv); |
| rv = DoOverwriteCachedResponse(); |
| break; |
| case STATE_CACHE_WRITE_RESPONSE: |
| DCHECK_EQ(OK, rv); |
| rv = DoCacheWriteResponse(); |
| break; |
| case STATE_CACHE_WRITE_RESPONSE_COMPLETE: |
| rv = DoCacheWriteResponseComplete(rv); |
| break; |
| case STATE_TRUNCATE_CACHED_DATA: |
| DCHECK_EQ(OK, rv); |
| rv = DoTruncateCachedData(); |
| break; |
| case STATE_TRUNCATE_CACHED_DATA_COMPLETE: |
| rv = DoTruncateCachedDataComplete(rv); |
| break; |
| case STATE_TRUNCATE_CACHED_METADATA: |
| DCHECK_EQ(OK, rv); |
| rv = DoTruncateCachedMetadata(); |
| break; |
| case STATE_TRUNCATE_CACHED_METADATA_COMPLETE: |
| rv = DoTruncateCachedMetadataComplete(rv); |
| break; |
| case STATE_PARTIAL_HEADERS_RECEIVED: |
| DCHECK_EQ(OK, rv); |
| rv = DoPartialHeadersReceived(); |
| break; |
| case STATE_CACHE_READ_METADATA: |
| DCHECK_EQ(OK, rv); |
| rv = DoCacheReadMetadata(); |
| break; |
| case STATE_CACHE_READ_METADATA_COMPLETE: |
| rv = DoCacheReadMetadataComplete(rv); |
| break; |
| case STATE_HEADERS_PHASE_CANNOT_PROCEED: |
| rv = DoHeadersPhaseCannotProceed(rv); |
| break; |
| case STATE_FINISH_HEADERS: |
| rv = DoFinishHeaders(rv); |
| break; |
| case STATE_FINISH_HEADERS_COMPLETE: |
| rv = DoFinishHeadersComplete(rv); |
| break; |
| case STATE_NETWORK_READ_CACHE_WRITE: |
| DCHECK_EQ(OK, rv); |
| rv = DoNetworkReadCacheWrite(); |
| break; |
| case STATE_NETWORK_READ_CACHE_WRITE_COMPLETE: |
| rv = DoNetworkReadCacheWriteComplete(rv); |
| break; |
| case STATE_CACHE_READ_DATA: |
| DCHECK_EQ(OK, rv); |
| rv = DoCacheReadData(); |
| break; |
| case STATE_CACHE_READ_DATA_COMPLETE: |
| rv = DoCacheReadDataComplete(rv); |
| break; |
| case STATE_NETWORK_READ: |
| DCHECK_EQ(OK, rv); |
| rv = DoNetworkRead(); |
| break; |
| case STATE_NETWORK_READ_COMPLETE: |
| rv = DoNetworkReadComplete(rv); |
| break; |
| default: |
| NOTREACHED() << "bad state " << state; |
| rv = ERR_FAILED; |
| break; |
| } |
| DCHECK(next_state_ != STATE_UNSET) << "Previous state was " << state; |
| |
| } while (rv != ERR_IO_PENDING && next_state_ != STATE_NONE); |
| |
| // Assert Start() state machine's allowed last state in successful cases when |
| // caching is happening. |
| DCHECK(reading_ || rv != OK || !entry_ || |
| state == STATE_FINISH_HEADERS_COMPLETE); |
| |
| if (rv != ERR_IO_PENDING && !callback_.is_null()) { |
| read_buf_ = nullptr; // Release the buffer before invoking the callback. |
| base::ResetAndReturn(&callback_).Run(rv); |
| } |
| |
| return rv; |
| } |
| |
| int HttpCache::Transaction::DoGetBackend() { |
| cache_pending_ = true; |
| TransitionToState(STATE_GET_BACKEND_COMPLETE); |
| net_log_.BeginEvent(NetLogEventType::HTTP_CACHE_GET_BACKEND); |
| return cache_->GetBackendForTransaction(this); |
| } |
| |
| int HttpCache::Transaction::DoGetBackendComplete(int result) { |
| DCHECK(result == OK || result == ERR_FAILED); |
| net_log_.EndEventWithNetErrorCode(NetLogEventType::HTTP_CACHE_GET_BACKEND, |
| result); |
| cache_pending_ = false; |
| |
| // Reset mode_ that might get set in this function. This is done because this |
| // function can be invoked multiple times for a transaction. |
| mode_ = NONE; |
| |
| if (!ShouldPassThrough()) { |
| cache_key_ = cache_->GenerateCacheKey(request_); |
| |
| // Requested cache access mode. |
| if (effective_load_flags_ & LOAD_ONLY_FROM_CACHE) { |
| if (effective_load_flags_ & LOAD_BYPASS_CACHE) { |
| // The client has asked for nonsense. |
| TransitionToState(STATE_FINISH_HEADERS); |
| return ERR_CACHE_MISS; |
| } |
| mode_ = READ; |
| } else if (effective_load_flags_ & LOAD_BYPASS_CACHE) { |
| mode_ = WRITE; |
| } else { |
| mode_ = READ_WRITE; |
| } |
| |
| // Downgrade to UPDATE if the request has been externally conditionalized. |
| if (external_validation_.initialized) { |
| if (mode_ & WRITE) { |
| // Strip off the READ_DATA bit (and maybe add back a READ_META bit |
| // in case READ was off). |
| mode_ = UPDATE; |
| } else { |
| mode_ = NONE; |
| } |
| } |
| } |
| |
| // Use PUT and DELETE only to invalidate existing stored entries. |
| if ((method_ == "PUT" || method_ == "DELETE") && mode_ != READ_WRITE && |
| mode_ != WRITE) { |
| mode_ = NONE; |
| } |
| |
| // Note that if mode_ == UPDATE (which is tied to external_validation_), the |
| // transaction behaves the same for GET and HEAD requests at this point: if it |
| // was not modified, the entry is updated and a response is not returned from |
| // the cache. If we receive 200, it doesn't matter if there was a validation |
| // header or not. |
| if (method_ == "HEAD" && mode_ == WRITE) |
| mode_ = NONE; |
| |
| // If must use cache, then we must fail. This can happen for back/forward |
| // navigations to a page generated via a form post. |
| if (!(mode_ & READ) && effective_load_flags_ & LOAD_ONLY_FROM_CACHE) { |
| TransitionToState(STATE_FINISH_HEADERS); |
| return ERR_CACHE_MISS; |
| } |
| |
| if (mode_ == NONE) { |
| if (partial_) { |
| partial_->RestoreHeaders(&custom_request_->extra_headers); |
| partial_.reset(); |
| } |
| TransitionToState(STATE_SEND_REQUEST); |
| } else { |
| TransitionToState(STATE_INIT_ENTRY); |
| } |
| |
| // This is only set if we have something to do with the response. |
| range_requested_ = (partial_.get() != NULL); |
| |
| return OK; |
| } |
| |
| int HttpCache::Transaction::DoInitEntry() { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoInitEntry"); |
| DCHECK(!new_entry_); |
| |
| if (!cache_.get()) { |
| TransitionToState(STATE_FINISH_HEADERS); |
| NOTIMPLEMENTED() << "HTTP cache not implemented"; |
| return ERR_UNEXPECTED; |
| } |
| |
| if (mode_ == WRITE) { |
| TransitionToState(STATE_DOOM_ENTRY); |
| return OK; |
| } |
| |
| TransitionToState(STATE_OPEN_ENTRY); |
| return OK; |
| } |
| |
| int HttpCache::Transaction::DoOpenEntry() { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoOpenEntry"); |
| DCHECK(!new_entry_); |
| TransitionToState(STATE_OPEN_ENTRY_COMPLETE); |
| cache_pending_ = true; |
| net_log_.BeginEvent(NetLogEventType::HTTP_CACHE_OPEN_ENTRY); |
| first_cache_access_since_ = TimeTicks::Now(); |
| |
| // See if we already have something working with this cache key. |
| new_entry_ = cache_->FindActiveEntry(cache_key_); |
| if (new_entry_) |
| return OK; |
| |
| // See if we could potentially quick-reject the entry based on hints the |
| // backend keeps in memory. |
| uint8_t in_memory_info = |
| cache_->GetCurrentBackend()->GetEntryInMemoryData(cache_key_); |
| if (MaybeRejectBasedOnEntryInMemoryData(in_memory_info)) { |
| cache_->GetCurrentBackend()->DoomEntry(cache_key_, priority_, |
| base::DoNothing()); |
| return net::ERR_CACHE_ENTRY_NOT_SUITABLE; |
| } |
| |
| return cache_->OpenEntry(cache_key_, &new_entry_, this); |
| } |
| |
| int HttpCache::Transaction::DoOpenEntryComplete(int result) { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoOpenEntryComplete"); |
| // It is important that we go to STATE_ADD_TO_ENTRY whenever the result is |
| // OK, otherwise the cache will end up with an active entry without any |
| // transaction attached. |
| net_log_.EndEventWithNetErrorCode(NetLogEventType::HTTP_CACHE_OPEN_ENTRY, |
| result); |
| cache_pending_ = false; |
| if (result == OK) { |
| TransitionToState(STATE_ADD_TO_ENTRY); |
| return OK; |
| } |
| |
| if (result == ERR_CACHE_RACE) { |
| TransitionToState(STATE_HEADERS_PHASE_CANNOT_PROCEED); |
| return OK; |
| } |
| |
| if (result == ERR_CACHE_ENTRY_NOT_SUITABLE) { |
| // Documents the case this applies in |
| DCHECK_EQ(mode_, READ_WRITE); |
| // Record this as CantConditionalize, but otherwise proceed as we would |
| // below --- as OpenEntry has already dropped the old entry for us. |
| couldnt_conditionalize_request_ = true; |
| validation_cause_ = VALIDATION_CAUSE_ZERO_FRESHNESS; |
| cant_conditionalize_zero_freshness_from_memhint_ = true; |
| UpdateCacheEntryStatus(CacheEntryStatus::ENTRY_CANT_CONDITIONALIZE); |
| } |
| |
| if (method_ == "PUT" || method_ == "DELETE" || |
| (method_ == "HEAD" && mode_ == READ_WRITE)) { |
| DCHECK(mode_ == READ_WRITE || mode_ == WRITE || method_ == "HEAD"); |
| mode_ = NONE; |
| TransitionToState(STATE_SEND_REQUEST); |
| return OK; |
| } |
| |
| if (mode_ == READ_WRITE) { |
| mode_ = WRITE; |
| TransitionToState(STATE_CREATE_ENTRY); |
| return OK; |
| } |
| if (mode_ == UPDATE) { |
| // There is no cache entry to update; proceed without caching. |
| mode_ = NONE; |
| TransitionToState(STATE_SEND_REQUEST); |
| return OK; |
| } |
| |
| // The entry does not exist, and we are not permitted to create a new entry, |
| // so we must fail. |
| TransitionToState(STATE_FINISH_HEADERS); |
| return ERR_CACHE_MISS; |
| } |
| |
| int HttpCache::Transaction::DoDoomEntry() { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoDoomEntry"); |
| TransitionToState(STATE_DOOM_ENTRY_COMPLETE); |
| cache_pending_ = true; |
| if (first_cache_access_since_.is_null()) |
| first_cache_access_since_ = TimeTicks::Now(); |
| net_log_.BeginEvent(NetLogEventType::HTTP_CACHE_DOOM_ENTRY); |
| return cache_->DoomEntry(cache_key_, this); |
| } |
| |
| int HttpCache::Transaction::DoDoomEntryComplete(int result) { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoDoomEntryComplete"); |
| net_log_.EndEventWithNetErrorCode(NetLogEventType::HTTP_CACHE_DOOM_ENTRY, |
| result); |
| cache_pending_ = false; |
| TransitionToState(result == ERR_CACHE_RACE |
| ? STATE_HEADERS_PHASE_CANNOT_PROCEED |
| : STATE_CREATE_ENTRY); |
| return OK; |
| } |
| |
| int HttpCache::Transaction::DoCreateEntry() { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoCreateEntry"); |
| DCHECK(!new_entry_); |
| TransitionToState(STATE_CREATE_ENTRY_COMPLETE); |
| cache_pending_ = true; |
| net_log_.BeginEvent(NetLogEventType::HTTP_CACHE_CREATE_ENTRY); |
| return cache_->CreateEntry(cache_key_, &new_entry_, this); |
| } |
| |
| int HttpCache::Transaction::DoCreateEntryComplete(int result) { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoCreateEntryComplete"); |
| // It is important that we go to STATE_ADD_TO_ENTRY whenever the result is |
| // OK, otherwise the cache will end up with an active entry without any |
| // transaction attached. |
| net_log_.EndEventWithNetErrorCode(NetLogEventType::HTTP_CACHE_CREATE_ENTRY, |
| result); |
| cache_pending_ = false; |
| switch (result) { |
| case OK: |
| TransitionToState(STATE_ADD_TO_ENTRY); |
| break; |
| |
| case ERR_CACHE_RACE: |
| TransitionToState(STATE_HEADERS_PHASE_CANNOT_PROCEED); |
| break; |
| |
| default: |
| // We have a race here: Maybe we failed to open the entry and decided to |
| // create one, but by the time we called create, another transaction |
| // already created the entry. If we want to eliminate this issue, we |
| // need an atomic OpenOrCreate() method exposed by the disk cache. |
| DLOG(WARNING) << "Unable to create cache entry"; |
| |
| // Set the mode to NONE in order to bypass the cache entry and read from |
| // the network directly. |
| mode_ = NONE; |
| if (!done_headers_create_new_entry_) { |
| if (partial_) |
| partial_->RestoreHeaders(&custom_request_->extra_headers); |
| TransitionToState(STATE_SEND_REQUEST); |
| return OK; |
| } |
| // The headers have already been received as a result of validation, |
| // triggering the doom of the old entry. So no network request needs to |
| // be sent. Note that since mode_ is NONE, the response won't be written |
| // to cache. Transition to STATE_CACHE_WRITE_RESPONSE as that's the state |
| // the transaction left off on when it tried to create the new entry. |
| done_headers_create_new_entry_ = false; |
| TransitionToState(STATE_CACHE_WRITE_RESPONSE); |
| } |
| return OK; |
| } |
| |
| int HttpCache::Transaction::DoAddToEntry() { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoAddToEntry"); |
| DCHECK(new_entry_); |
| cache_pending_ = true; |
| net_log_.BeginEvent(NetLogEventType::HTTP_CACHE_ADD_TO_ENTRY); |
| DCHECK(entry_lock_waiting_since_.is_null()); |
| int rv = cache_->AddTransactionToEntry(new_entry_, this); |
| DCHECK_EQ(rv, ERR_IO_PENDING); |
| |
| // If headers phase is already done then we are here because of validation not |
| // matching and creating a new entry. This transaction should be the |
| // first transaction of that new entry and thus it will not have cache lock |
| // delays, thus returning early from here. |
| if (done_headers_create_new_entry_) { |
| DCHECK_EQ(mode_, WRITE); |
| TransitionToState(STATE_DONE_HEADERS_ADD_TO_ENTRY_COMPLETE); |
| return rv; |
| } |
| |
| TransitionToState(STATE_ADD_TO_ENTRY_COMPLETE); |
| |
| entry_lock_waiting_since_ = TimeTicks::Now(); |
| AddCacheLockTimeoutHandler(new_entry_); |
| return rv; |
| } |
| |
| void HttpCache::Transaction::AddCacheLockTimeoutHandler(ActiveEntry* entry) { |
| DCHECK(next_state_ == STATE_ADD_TO_ENTRY_COMPLETE || |
| next_state_ == STATE_FINISH_HEADERS_COMPLETE); |
| if ((bypass_lock_for_test_ && next_state_ == STATE_ADD_TO_ENTRY_COMPLETE) || |
| (bypass_lock_after_headers_for_test_ && |
| next_state_ == STATE_FINISH_HEADERS_COMPLETE)) { |
| base::ThreadTaskRunnerHandle::Get()->PostTask( |
| FROM_HERE, |
| base::Bind(&HttpCache::Transaction::OnCacheLockTimeout, |
| weak_factory_.GetWeakPtr(), entry_lock_waiting_since_)); |
| } else { |
| int timeout_milliseconds = 20 * 1000; |
| if (partial_ && entry->writers && !entry->writers->IsEmpty() && |
| entry->writers->IsExclusive()) { |
| // Even though entry_->writers takes care of allowing multiple writers to |
| // simultaneously govern reading from the network and writing to the cache |
| // for full requests, partial requests are still blocked by the |
| // reader/writer lock. |
| // Bypassing the cache after 25 ms of waiting for the cache lock |
| // eliminates a long running issue, http://crbug.com/31014, where |
| // two of the same media resources could not be played back simultaneously |
| // due to one locking the cache entry until the entire video was |
| // downloaded. |
| // Bypassing the cache is not ideal, as we are now ignoring the cache |
| // entirely for all range requests to a resource beyond the first. This |
| // is however a much more succinct solution than the alternatives, which |
| // would require somewhat significant changes to the http caching logic. |
| // |
| // Allow some timeout slack for the entry addition to complete in case |
| // the writer lock is imminently released; we want to avoid skipping |
| // the cache if at all possible. See http://crbug.com/408765 |
| timeout_milliseconds = 25; |
| } |
| base::ThreadTaskRunnerHandle::Get()->PostDelayedTask( |
| FROM_HERE, |
| base::Bind(&HttpCache::Transaction::OnCacheLockTimeout, |
| weak_factory_.GetWeakPtr(), entry_lock_waiting_since_), |
| TimeDelta::FromMilliseconds(timeout_milliseconds)); |
| } |
| } |
| |
| int HttpCache::Transaction::DoAddToEntryComplete(int result) { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoAddToEntryComplete"); |
| net_log_.EndEventWithNetErrorCode(NetLogEventType::HTTP_CACHE_ADD_TO_ENTRY, |
| result); |
| const TimeDelta entry_lock_wait = |
| TimeTicks::Now() - entry_lock_waiting_since_; |
| UMA_HISTOGRAM_TIMES("HttpCache.EntryLockWait", entry_lock_wait); |
| |
| entry_lock_waiting_since_ = TimeTicks(); |
| DCHECK(new_entry_); |
| cache_pending_ = false; |
| |
| if (result == OK) |
| entry_ = new_entry_; |
| |
| // If there is a failure, the cache should have taken care of new_entry_. |
| new_entry_ = NULL; |
| |
| if (result == ERR_CACHE_RACE) { |
| TransitionToState(STATE_HEADERS_PHASE_CANNOT_PROCEED); |
| return OK; |
| } |
| |
| if (result == ERR_CACHE_LOCK_TIMEOUT) { |
| if (mode_ == READ) { |
| TransitionToState(STATE_FINISH_HEADERS); |
| return ERR_CACHE_MISS; |
| } |
| |
| // The cache is busy, bypass it for this transaction. |
| mode_ = NONE; |
| TransitionToState(STATE_SEND_REQUEST); |
| if (partial_) { |
| partial_->RestoreHeaders(&custom_request_->extra_headers); |
| partial_.reset(); |
| } |
| return OK; |
| } |
| |
| // TODO(crbug.com/713354) Access timestamp for histograms only if entry is |
| // already written, to avoid data race since cache thread can also access |
| // this. |
| if (!cache_->IsWritingInProgress(entry_)) |
| open_entry_last_used_ = entry_->disk_entry->GetLastUsed(); |
| |
| // TODO(jkarlin): We should either handle the case or DCHECK. |
| if (result != OK) { |
| NOTREACHED(); |
| TransitionToState(STATE_FINISH_HEADERS); |
| return result; |
| } |
| |
| if (mode_ == WRITE) { |
| if (partial_) |
| partial_->RestoreHeaders(&custom_request_->extra_headers); |
| TransitionToState(STATE_SEND_REQUEST); |
| } else { |
| // We have to read the headers from the cached entry. |
| DCHECK(mode_ & READ_META); |
| TransitionToState(STATE_CACHE_READ_RESPONSE); |
| } |
| return OK; |
| } |
| |
| int HttpCache::Transaction::DoDoneHeadersAddToEntryComplete(int result) { |
| // This transaction's response headers did not match its ActiveEntry so it |
| // created a new ActiveEntry (new_entry_) to write to (and doomed the old |
| // one). Now that the new entry has been created, start writing the response. |
| |
| DCHECK_EQ(result, OK); |
| DCHECK_EQ(mode_, WRITE); |
| DCHECK(new_entry_); |
| DCHECK(response_.headers); |
| |
| cache_pending_ = false; |
| entry_ = new_entry_; |
| done_headers_create_new_entry_ = false; |
| DCHECK_NE(response_.headers->response_code(), 304); |
| DCHECK(cache_->CanTransactionWriteResponseHeaders( |
| entry_, this, partial_ != nullptr, false)); |
| TransitionToState(STATE_CACHE_WRITE_RESPONSE); |
| return OK; |
| } |
| |
| int HttpCache::Transaction::DoCacheReadResponse() { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoCacheReadResponse"); |
| DCHECK(entry_); |
| TransitionToState(STATE_CACHE_READ_RESPONSE_COMPLETE); |
| |
| io_buf_len_ = entry_->disk_entry->GetDataSize(kResponseInfoIndex); |
| read_buf_ = base::MakeRefCounted<IOBuffer>(io_buf_len_); |
| |
| net_log_.BeginEvent(NetLogEventType::HTTP_CACHE_READ_INFO); |
| return entry_->disk_entry->ReadData(kResponseInfoIndex, 0, read_buf_.get(), |
| io_buf_len_, io_callback_); |
| } |
| |
| int HttpCache::Transaction::DoCacheReadResponseComplete(int result) { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoCacheReadResponseComplete"); |
| net_log_.EndEventWithNetErrorCode(NetLogEventType::HTTP_CACHE_READ_INFO, |
| result); |
| if (result != io_buf_len_ || |
| !HttpCache::ParseResponseInfo(read_buf_->data(), io_buf_len_, &response_, |
| &truncated_)) { |
| return OnCacheReadError(result, true); |
| } |
| |
| // TODO(crbug.com/713354) Only get data size if there is no other transaction |
| // currently writing the response body due to the data race mentioned in the |
| // associated bug. |
| if (!cache_->IsWritingInProgress(entry_)) { |
| int current_size = entry_->disk_entry->GetDataSize(kResponseContentIndex); |
| int64_t full_response_length = response_.headers->GetContentLength(); |
| |
| // Some resources may have slipped in as truncated when they're not. |
| if (full_response_length == current_size) |
| truncated_ = false; |
| |
| // The state machine's handling of StopCaching unfortunately doesn't deal |
| // well with resources that are larger than 2GB when there is a truncated or |
| // sparse cache entry. While the state machine is reworked to resolve this, |
| // the following logic is put in place to defer such requests to the |
| // network. The cache should not be storing multi gigabyte resources. See |
| // http://crbug.com/89567. |
| if ((truncated_ || response_.headers->response_code() == 206) && |
| !range_requested_ && |
| full_response_length > std::numeric_limits<int32_t>::max()) { |
| DCHECK(!partial_); |
| |
| // Doom the entry so that no other transaction gets added to this entry |
| // and avoid a race of not being able to check this condition because |
| // writing is in progress. |
| DoneWithEntry(false); |
| TransitionToState(STATE_SEND_REQUEST); |
| return OK; |
| } |
| } |
| |
| if (response_.unused_since_prefetch != |
| !!(request_->load_flags & LOAD_PREFETCH)) { |
| // Either this is the first use of an entry since it was prefetched XOR |
| // this is a prefetch. The value of response.unused_since_prefetch is |
| // valid for this transaction but the bit needs to be flipped in storage. |
| TransitionToState(STATE_TOGGLE_UNUSED_SINCE_PREFETCH); |
| return OK; |
| } |
| |
| TransitionToState(STATE_CACHE_DISPATCH_VALIDATION); |
| return OK; |
| } |
| |
| int HttpCache::Transaction::DoCacheToggleUnusedSincePrefetch() { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoCacheToggleUnusedSincePrefetch"); |
| // Write back the toggled value for the next use of this entry. |
| response_.unused_since_prefetch = !response_.unused_since_prefetch; |
| |
| // TODO(jkarlin): If DoUpdateCachedResponse is also called for this |
| // transaction then metadata will be written to cache twice. If prefetching |
| // becomes more common, consider combining the writes. |
| |
| TransitionToState(STATE_TOGGLE_UNUSED_SINCE_PREFETCH_COMPLETE); |
| return WriteResponseInfoToEntry(false); |
| } |
| |
| int HttpCache::Transaction::DoCacheToggleUnusedSincePrefetchComplete( |
| int result) { |
| TRACE_EVENT0( |
| kNetTracingCategory, |
| "HttpCacheTransaction::DoCacheToggleUnusedSincePrefetchComplete"); |
| // Restore the original value for this transaction. |
| response_.unused_since_prefetch = !response_.unused_since_prefetch; |
| TransitionToState(STATE_CACHE_DISPATCH_VALIDATION); |
| return OnWriteResponseInfoToEntryComplete(result); |
| } |
| |
| int HttpCache::Transaction::DoCacheDispatchValidation() { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoCacheDispatchValidation"); |
| // We now have access to the cache entry. |
| // |
| // o if we are a reader for the transaction, then we can start reading the |
| // cache entry. |
| // |
| // o if we can read or write, then we should check if the cache entry needs |
| // to be validated and then issue a network request if needed or just read |
| // from the cache if the cache entry is already valid. |
| // |
| // o if we are set to UPDATE, then we are handling an externally |
| // conditionalized request (if-modified-since / if-none-match). We check |
| // if the request headers define a validation request. |
| // |
| int result = ERR_FAILED; |
| switch (mode_) { |
| case READ: |
| UpdateCacheEntryStatus(CacheEntryStatus::ENTRY_USED); |
| result = BeginCacheRead(); |
| break; |
| case READ_WRITE: |
| result = BeginPartialCacheValidation(); |
| break; |
| case UPDATE: |
| result = BeginExternallyConditionalizedRequest(); |
| break; |
| case WRITE: |
| default: |
| NOTREACHED(); |
| } |
| return result; |
| } |
| |
| int HttpCache::Transaction::DoCacheQueryData() { |
| TransitionToState(STATE_CACHE_QUERY_DATA_COMPLETE); |
| return entry_->disk_entry->ReadyForSparseIO(io_callback_); |
| } |
| |
| int HttpCache::Transaction::DoCacheQueryDataComplete(int result) { |
| DCHECK_EQ(OK, result); |
| if (!cache_.get()) { |
| TransitionToState(STATE_FINISH_HEADERS); |
| return ERR_UNEXPECTED; |
| } |
| |
| return ValidateEntryHeadersAndContinue(); |
| } |
| |
| // We may end up here multiple times for a given request. |
| int HttpCache::Transaction::DoStartPartialCacheValidation() { |
| if (mode_ == NONE) { |
| TransitionToState(STATE_FINISH_HEADERS); |
| return OK; |
| } |
| |
| TransitionToState(STATE_COMPLETE_PARTIAL_CACHE_VALIDATION); |
| return partial_->ShouldValidateCache(entry_->disk_entry, io_callback_); |
| } |
| |
| int HttpCache::Transaction::DoCompletePartialCacheValidation(int result) { |
| if (!result) { |
| // This is the end of the request. |
| DoneWithEntry(true); |
| TransitionToState(STATE_FINISH_HEADERS); |
| return result; |
| } |
| |
| if (result < 0) { |
| TransitionToState(STATE_FINISH_HEADERS); |
| return result; |
| } |
| |
| partial_->PrepareCacheValidation(entry_->disk_entry, |
| &custom_request_->extra_headers); |
| |
| if (reading_ && partial_->IsCurrentRangeCached()) { |
| TransitionToState(STATE_CACHE_READ_DATA); |
| return OK; |
| } |
| |
| return BeginCacheValidation(); |
| } |
| |
| int HttpCache::Transaction::DoCacheUpdateStaleWhileRevalidateTimeout() { |
| TRACE_EVENT0( |
| "io", "HttpCacheTransaction::DoCacheUpdateStaleWhileRevalidateTimeout"); |
| response_.stale_revalidate_timeout = |
| cache_->clock_->Now() + kStaleRevalidateTimeout; |
| TransitionToState(STATE_CACHE_UPDATE_STALE_WHILE_REVALIDATE_TIMEOUT_COMPLETE); |
| return WriteResponseInfoToEntry(false); |
| } |
| |
| int HttpCache::Transaction::DoCacheUpdateStaleWhileRevalidateTimeoutComplete( |
| int result) { |
| TRACE_EVENT0( |
| "io", |
| "HttpCacheTransaction::DoCacheUpdateStaleWhileRevalidateTimeoutComplete"); |
| TransitionToState(STATE_SETUP_ENTRY_FOR_READ); |
| return OnWriteResponseInfoToEntryComplete(result); |
| } |
| |
| int HttpCache::Transaction::DoSendRequest() { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoSendRequest"); |
| DCHECK(mode_ & WRITE || mode_ == NONE); |
| DCHECK(!network_trans_.get()); |
| |
| send_request_since_ = TimeTicks::Now(); |
| |
| // Create a network transaction. |
| int rv = |
| cache_->network_layer_->CreateTransaction(priority_, &network_trans_); |
| |
| if (rv != OK) { |
| TransitionToState(STATE_FINISH_HEADERS); |
| return rv; |
| } |
| |
| network_trans_->SetBeforeNetworkStartCallback(before_network_start_callback_); |
| network_trans_->SetBeforeHeadersSentCallback(before_headers_sent_callback_); |
| network_trans_->SetRequestHeadersCallback(request_headers_callback_); |
| network_trans_->SetResponseHeadersCallback(response_headers_callback_); |
| |
| // Old load timing information, if any, is now obsolete. |
| network_transaction_info_.old_network_trans_load_timing.reset(); |
| network_transaction_info_.old_remote_endpoint = IPEndPoint(); |
| |
| if (websocket_handshake_stream_base_create_helper_) |
| network_trans_->SetWebSocketHandshakeStreamCreateHelper( |
| websocket_handshake_stream_base_create_helper_); |
| |
| TransitionToState(STATE_SEND_REQUEST_COMPLETE); |
| rv = network_trans_->Start(request_, io_callback_, net_log_); |
| return rv; |
| } |
| |
| int HttpCache::Transaction::DoSendRequestComplete(int result) { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoSendRequestComplete"); |
| if (!cache_.get()) { |
| TransitionToState(STATE_FINISH_HEADERS); |
| return ERR_UNEXPECTED; |
| } |
| |
| // If we tried to conditionalize the request and failed, we know |
| // we won't be reading from the cache after this point. |
| if (couldnt_conditionalize_request_) |
| mode_ = WRITE; |
| |
| if (result == OK) { |
| TransitionToState(STATE_SUCCESSFUL_SEND_REQUEST); |
| return OK; |
| } |
| |
| const HttpResponseInfo* response = network_trans_->GetResponseInfo(); |
| response_.network_accessed = response->network_accessed; |
| |
| // Do not record requests that have network errors or restarts. |
| UpdateCacheEntryStatus(CacheEntryStatus::ENTRY_OTHER); |
| if (IsCertificateError(result)) { |
| // If we get a certificate error, then there is a certificate in ssl_info, |
| // so GetResponseInfo() should never return NULL here. |
| DCHECK(response); |
| response_.ssl_info = response->ssl_info; |
| } else if (result == ERR_SSL_CLIENT_AUTH_CERT_NEEDED) { |
| DCHECK(response); |
| response_.cert_request_info = response->cert_request_info; |
| } else if (response_.was_cached) { |
| DoneWithEntry(true); |
| } |
| |
| TransitionToState(STATE_FINISH_HEADERS); |
| return result; |
| } |
| |
| // We received the response headers and there is no error. |
| int HttpCache::Transaction::DoSuccessfulSendRequest() { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoSuccessfulSendRequest"); |
| DCHECK(!new_response_); |
| const HttpResponseInfo* new_response = network_trans_->GetResponseInfo(); |
| |
| if (new_response->headers->response_code() == 401 || |
| new_response->headers->response_code() == 407) { |
| SetAuthResponse(*new_response); |
| if (!reading_) { |
| TransitionToState(STATE_FINISH_HEADERS); |
| return OK; |
| } |
| |
| // We initiated a second request the caller doesn't know about. We should be |
| // able to authenticate this request because we should have authenticated |
| // this URL moments ago. |
| if (IsReadyToRestartForAuth()) { |
| DCHECK(!response_.auth_challenge.get()); |
| TransitionToState(STATE_SEND_REQUEST_COMPLETE); |
| // In theory we should check to see if there are new cookies, but there |
| // is no way to do that from here. |
| return network_trans_->RestartWithAuth(AuthCredentials(), io_callback_); |
| } |
| |
| // We have to perform cleanup at this point so that at least the next |
| // request can succeed. We do not retry at this point, because data |
| // has been read and we have no way to gather credentials. We would |
| // fail again, and potentially loop. This can happen if the credentials |
| // expire while chrome is suspended. |
| if (entry_) |
| DoomPartialEntry(false); |
| mode_ = NONE; |
| partial_.reset(); |
| ResetNetworkTransaction(); |
| TransitionToState(STATE_FINISH_HEADERS); |
| return ERR_CACHE_AUTH_FAILURE_AFTER_READ; |
| } |
| |
| new_response_ = new_response; |
| if (!ValidatePartialResponse() && !auth_response_.headers.get()) { |
| // Something went wrong with this request and we have to restart it. |
| // If we have an authentication response, we are exposed to weird things |
| // hapenning if the user cancels the authentication before we receive |
| // the new response. |
| net_log_.AddEvent(NetLogEventType::HTTP_CACHE_RE_SEND_PARTIAL_REQUEST); |
| UpdateCacheEntryStatus(CacheEntryStatus::ENTRY_OTHER); |
| SetResponse(HttpResponseInfo()); |
| ResetNetworkTransaction(); |
| new_response_ = NULL; |
| TransitionToState(STATE_SEND_REQUEST); |
| return OK; |
| } |
| |
| if (handling_206_ && mode_ == READ_WRITE && !truncated_ && !is_sparse_) { |
| // We have stored the full entry, but it changed and the server is |
| // sending a range. We have to delete the old entry. |
| UpdateCacheEntryStatus(CacheEntryStatus::ENTRY_OTHER); |
| DoneWithEntry(false); |
| } |
| |
| if (mode_ == WRITE && |
| cache_entry_status_ != CacheEntryStatus::ENTRY_CANT_CONDITIONALIZE) { |
| UpdateCacheEntryStatus(CacheEntryStatus::ENTRY_NOT_IN_CACHE); |
| } |
| |
| // Invalidate any cached GET with a successful PUT or DELETE. |
| if (mode_ == WRITE && (method_ == "PUT" || method_ == "DELETE")) { |
| if (NonErrorResponse(new_response->headers->response_code()) && |
| (entry_ && !entry_->doomed)) { |
| int ret = cache_->DoomEntry(cache_key_, NULL); |
| DCHECK_EQ(OK, ret); |
| } |
| // Do not invalidate the entry if its a failed Delete or Put. |
| DoneWithEntry(true); |
| } |
| |
| // Invalidate any cached GET with a successful POST. |
| if (!(effective_load_flags_ & LOAD_DISABLE_CACHE) && method_ == "POST" && |
| NonErrorResponse(new_response->headers->response_code())) { |
| cache_->DoomMainEntryForUrl(request_->url); |
| } |
| |
| RecordNoStoreHeaderHistogram(request_->load_flags, new_response); |
| |
| if (new_response_->headers->response_code() == 416 && |
| (method_ == "GET" || method_ == "POST")) { |
| // If there is an active entry it may be destroyed with this transaction. |
| SetResponse(*new_response_); |
| TransitionToState(STATE_FINISH_HEADERS); |
| return OK; |
| } |
| |
| // Are we expecting a response to a conditional query? |
| if (mode_ == READ_WRITE || mode_ == UPDATE) { |
| if (new_response->headers->response_code() == 304 || handling_206_) { |
| UpdateCacheEntryStatus(CacheEntryStatus::ENTRY_VALIDATED); |
| TransitionToState(STATE_UPDATE_CACHED_RESPONSE); |
| return OK; |
| } |
| UpdateCacheEntryStatus(CacheEntryStatus::ENTRY_UPDATED); |
| mode_ = WRITE; |
| } |
| |
| TransitionToState(STATE_OVERWRITE_CACHED_RESPONSE); |
| return OK; |
| } |
| |
| // We received 304 or 206 and we want to update the cached response headers. |
| int HttpCache::Transaction::DoUpdateCachedResponse() { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoUpdateCachedResponse"); |
| int rv = OK; |
| // Update the cached response based on the headers and properties of |
| // new_response_. |
| response_.headers->Update(*new_response_->headers.get()); |
| response_.stale_revalidate_timeout = base::Time(); |
| response_.response_time = new_response_->response_time; |
| response_.request_time = new_response_->request_time; |
| response_.network_accessed = new_response_->network_accessed; |
| response_.unused_since_prefetch = new_response_->unused_since_prefetch; |
| response_.ssl_info = new_response_->ssl_info; |
| if (new_response_->vary_data.is_valid()) { |
| response_.vary_data = new_response_->vary_data; |
| } else if (response_.vary_data.is_valid()) { |
| // There is a vary header in the stored response but not in the current one. |
| // Update the data with the new request headers. |
| HttpVaryData new_vary_data; |
| new_vary_data.Init(*request_, *response_.headers.get()); |
| response_.vary_data = new_vary_data; |
| } |
| |
| if (response_.headers->HasHeaderValue("cache-control", "no-store")) { |
| if (!entry_->doomed) { |
| int ret = cache_->DoomEntry(cache_key_, NULL); |
| DCHECK_EQ(OK, ret); |
| } |
| TransitionToState(STATE_UPDATE_CACHED_RESPONSE_COMPLETE); |
| } else { |
| // If we are already reading, we already updated the headers for this |
| // request; doing it again will change Content-Length. |
| if (!reading_) { |
| TransitionToState(STATE_CACHE_WRITE_UPDATED_RESPONSE); |
| rv = OK; |
| } else { |
| TransitionToState(STATE_UPDATE_CACHED_RESPONSE_COMPLETE); |
| } |
| } |
| |
| return rv; |
| } |
| |
| int HttpCache::Transaction::DoCacheWriteUpdatedResponse() { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoCacheWriteUpdatedResponse"); |
| |
| TransitionToState(STATE_CACHE_WRITE_UPDATED_RESPONSE_COMPLETE); |
| return WriteResponseInfoToEntry(false); |
| } |
| |
| int HttpCache::Transaction::DoCacheWriteUpdatedResponseComplete(int result) { |
| TRACE_EVENT0("io", |
| "HttpCacheTransaction::DoCacheWriteUpdatedResponseComplete"); |
| TransitionToState(STATE_UPDATE_CACHED_RESPONSE_COMPLETE); |
| return OnWriteResponseInfoToEntryComplete(result); |
| } |
| |
| int HttpCache::Transaction::DoUpdateCachedResponseComplete(int result) { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoUpdateCachedResponseComplete"); |
| if (mode_ == UPDATE) { |
| DCHECK(!handling_206_); |
| // We got a "not modified" response and already updated the corresponding |
| // cache entry above. |
| // |
| // By stopping to write to the cache now, we make sure that the 304 rather |
| // than the cached 200 response, is what will be returned to the user. |
| DoneWithEntry(true); |
| } else if (entry_ && !handling_206_) { |
| DCHECK_EQ(READ_WRITE, mode_); |
| if ((!partial_ && !cache_->IsWritingInProgress(entry_)) || |
| (partial_ && partial_->IsLastRange())) { |
| mode_ = READ; |
| } |
| // We no longer need the network transaction, so destroy it. |
| if (network_trans_) |
| ResetNetworkTransaction(); |
| } else if (entry_ && handling_206_ && truncated_ && |
| partial_->initial_validation()) { |
| // We just finished the validation of a truncated entry, and the server |
| // is willing to resume the operation. Now we go back and start serving |
| // the first part to the user. |
| if (network_trans_) |
| ResetNetworkTransaction(); |
| new_response_ = NULL; |
| TransitionToState(STATE_START_PARTIAL_CACHE_VALIDATION); |
| partial_->SetRangeToStartDownload(); |
| return OK; |
| } |
| TransitionToState(STATE_OVERWRITE_CACHED_RESPONSE); |
| return OK; |
| } |
| |
| int HttpCache::Transaction::DoOverwriteCachedResponse() { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoOverwriteCachedResponse"); |
| if (mode_ & READ) { |
| TransitionToState(STATE_PARTIAL_HEADERS_RECEIVED); |
| return OK; |
| } |
| |
| // We change the value of Content-Length for partial content. |
| if (handling_206_ && partial_) |
| partial_->FixContentLength(new_response_->headers.get()); |
| |
| SetResponse(*new_response_); |
| |
| if (method_ == "HEAD") { |
| // This response is replacing the cached one. |
| DoneWithEntry(false); |
| new_response_ = NULL; |
| TransitionToState(STATE_FINISH_HEADERS); |
| return OK; |
| } |
| |
| if (handling_206_ && !CanResume(false)) { |
| // There is no point in storing this resource because it will never be used. |
| // This may change if we support LOAD_ONLY_FROM_CACHE with sparse entries. |
| DoneWithEntry(false); |
| if (partial_) |
| partial_->FixResponseHeaders(response_.headers.get(), true); |
| TransitionToState(STATE_PARTIAL_HEADERS_RECEIVED); |
| return OK; |
| } |
| |
| TransitionToState(STATE_CACHE_WRITE_RESPONSE); |
| return OK; |
| } |
| |
| int HttpCache::Transaction::DoCacheWriteResponse() { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoCacheWriteResponse"); |
| |
| // Invalidate any current entry with a successful response if this transaction |
| // cannot write to this entry. This transaction then continues to read from |
| // the network without writing to the backend. |
| bool is_match = response_.headers->response_code() == 304; |
| if (entry_ && response_.headers && |
| !cache_->CanTransactionWriteResponseHeaders( |
| entry_, this, partial_ != nullptr, is_match)) { |
| done_headers_create_new_entry_ = true; |
| |
| // The transaction needs to overwrite this response. Doom the current entry, |
| // create a new one (by going to STATE_INIT_ENTRY), and then jump straight |
| // to writing out the response, bypassing the headers checks. The mode_ is |
| // set to WRITE in order to doom any other existing entries that might exist |
| // so that this transaction can go straight to writing a response. |
| mode_ = WRITE; |
| TransitionToState(STATE_INIT_ENTRY); |
| cache_->DoomEntryValidationNoMatch(entry_); |
| entry_ = nullptr; |
| return OK; |
| } |
| |
| TransitionToState(STATE_CACHE_WRITE_RESPONSE_COMPLETE); |
| return WriteResponseInfoToEntry(truncated_); |
| } |
| |
| int HttpCache::Transaction::DoCacheWriteResponseComplete(int result) { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoCacheWriteResponseComplete"); |
| TransitionToState(STATE_TRUNCATE_CACHED_DATA); |
| return OnWriteResponseInfoToEntryComplete(result); |
| } |
| |
| int HttpCache::Transaction::DoTruncateCachedData() { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoTruncateCachedData"); |
| TransitionToState(STATE_TRUNCATE_CACHED_DATA_COMPLETE); |
| if (!entry_) |
| return OK; |
| if (net_log_.IsCapturing()) |
| net_log_.BeginEvent(NetLogEventType::HTTP_CACHE_WRITE_DATA); |
| // Truncate the stream. |
| return WriteToEntry(kResponseContentIndex, 0, NULL, 0, io_callback_); |
| } |
| |
| int HttpCache::Transaction::DoTruncateCachedDataComplete(int result) { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoInitEntry"); |
| if (entry_) { |
| if (net_log_.IsCapturing()) { |
| net_log_.EndEventWithNetErrorCode(NetLogEventType::HTTP_CACHE_WRITE_DATA, |
| result); |
| } |
| } |
| |
| TransitionToState(STATE_TRUNCATE_CACHED_METADATA); |
| return OK; |
| } |
| |
| int HttpCache::Transaction::DoTruncateCachedMetadata() { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoTruncateCachedMetadata"); |
| TransitionToState(STATE_TRUNCATE_CACHED_METADATA_COMPLETE); |
| if (!entry_) |
| return OK; |
| |
| if (net_log_.IsCapturing()) |
| net_log_.BeginEvent(NetLogEventType::HTTP_CACHE_WRITE_INFO); |
| return WriteToEntry(kMetadataIndex, 0, NULL, 0, io_callback_); |
| } |
| |
| int HttpCache::Transaction::DoTruncateCachedMetadataComplete(int result) { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoTruncateCachedMetadataComplete"); |
| if (entry_) { |
| if (net_log_.IsCapturing()) { |
| net_log_.EndEventWithNetErrorCode(NetLogEventType::HTTP_CACHE_WRITE_INFO, |
| result); |
| } |
| } |
| |
| TransitionToState(STATE_PARTIAL_HEADERS_RECEIVED); |
| return OK; |
| } |
| |
| int HttpCache::Transaction::DoPartialHeadersReceived() { |
| new_response_ = NULL; |
| |
| if (!partial_) { |
| if (entry_ && entry_->disk_entry->GetDataSize(kMetadataIndex) && |
| !base::FeatureList::IsEnabled(net::features::kIsolatedCodeCache)) { |
| TransitionToState(STATE_CACHE_READ_METADATA); |
| } else { |
| TransitionToState(STATE_FINISH_HEADERS); |
| } |
| return OK; |
| } |
| |
| if (mode_ != NONE && !reading_) { |
| // We are about to return the headers for a byte-range request to the user, |
| // so let's fix them. |
| partial_->FixResponseHeaders(response_.headers.get(), true); |
| } |
| TransitionToState(STATE_FINISH_HEADERS); |
| return OK; |
| } |
| |
| int HttpCache::Transaction::DoHeadersPhaseCannotProceed(int result) { |
| // If its the Start state machine and it cannot proceed due to a cache |
| // failure, restart this transaction. |
| DCHECK(!reading_); |
| |
| // Reset before invoking SetRequest() which can reset the request info sent to |
| // network transaction. |
| if (network_trans_) |
| network_trans_.reset(); |
| |
| new_response_ = nullptr; |
| |
| SetRequest(net_log_); |
| |
| entry_ = nullptr; |
| |
| // Bypass the cache for timeout scenario. |
| if (result == ERR_CACHE_LOCK_TIMEOUT) |
| effective_load_flags_ |= LOAD_DISABLE_CACHE; |
| |
| TransitionToState(STATE_GET_BACKEND); |
| return OK; |
| } |
| |
| int HttpCache::Transaction::DoFinishHeaders(int result) { |
| if (!cache_.get() || !entry_ || result != OK) { |
| TransitionToState(STATE_NONE); |
| return result; |
| } |
| |
| TransitionToState(STATE_FINISH_HEADERS_COMPLETE); |
| // If it was an auth failure, this transaction should continue to be |
| // headers_transaction till consumer takes an action, so no need to do |
| // anything now. |
| // TODO(crbug.com/740947). See the issue for a suggestion for cleaning the |
| // state machine to be able to remove this condition. |
| if (auth_response_.headers.get()) |
| return OK; |
| |
| // If the transaction needs to wait because another transaction is still |
| // writing the response body, it will return ERR_IO_PENDING now and the |
| // io_callback_ will be invoked when the wait is done. |
| int rv = cache_->DoneWithResponseHeaders(entry_, this, partial_ != nullptr); |
| DCHECK(!reading_ || rv == OK) << "Expected OK, but got " << rv; |
| |
| if (rv == ERR_IO_PENDING) { |
| DCHECK(entry_lock_waiting_since_.is_null()); |
| entry_lock_waiting_since_ = TimeTicks::Now(); |
| AddCacheLockTimeoutHandler(entry_); |
| } |
| return rv; |
| } |
| |
| int HttpCache::Transaction::DoFinishHeadersComplete(int rv) { |
| entry_lock_waiting_since_ = TimeTicks(); |
| if (rv == ERR_CACHE_RACE || rv == ERR_CACHE_LOCK_TIMEOUT) { |
| TransitionToState(STATE_HEADERS_PHASE_CANNOT_PROCEED); |
| return rv; |
| } |
| |
| if (network_trans_ && InWriters()) { |
| entry_->writers->SetNetworkTransaction(this, std::move(network_trans_)); |
| moved_network_transaction_to_writers_ = true; |
| } |
| |
| // If already reading, that means it is a partial request coming back to the |
| // headers phase, continue to the appropriate reading state. |
| if (reading_) { |
| int rv = TransitionToReadingState(); |
| DCHECK_EQ(OK, rv); |
| return OK; |
| } |
| |
| TransitionToState(STATE_NONE); |
| return rv; |
| } |
| |
| int HttpCache::Transaction::DoCacheReadMetadata() { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoCacheReadMetadata"); |
| DCHECK(entry_); |
| DCHECK(!response_.metadata.get()); |
| DCHECK(!base::FeatureList::IsEnabled(net::features::kIsolatedCodeCache)); |
| TransitionToState(STATE_CACHE_READ_METADATA_COMPLETE); |
| |
| response_.metadata = base::MakeRefCounted<IOBufferWithSize>( |
| entry_->disk_entry->GetDataSize(kMetadataIndex)); |
| |
| net_log_.BeginEvent(NetLogEventType::HTTP_CACHE_READ_INFO); |
| return entry_->disk_entry->ReadData(kMetadataIndex, 0, |
| response_.metadata.get(), |
| response_.metadata->size(), |
| io_callback_); |
| } |
| |
| int HttpCache::Transaction::DoCacheReadMetadataComplete(int result) { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoCacheReadMetadataComplete"); |
| net_log_.EndEventWithNetErrorCode(NetLogEventType::HTTP_CACHE_READ_INFO, |
| result); |
| if (result != response_.metadata->size()) |
| return OnCacheReadError(result, false); |
| |
| TransitionToState(STATE_FINISH_HEADERS); |
| return OK; |
| } |
| |
| int HttpCache::Transaction::DoNetworkReadCacheWrite() { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoNetworkReadCacheWrite"); |
| DCHECK(InWriters()); |
| TransitionToState(STATE_NETWORK_READ_CACHE_WRITE_COMPLETE); |
| return entry_->writers->Read(read_buf_, io_buf_len_, io_callback_, this); |
| } |
| |
| int HttpCache::Transaction::DoNetworkReadCacheWriteComplete(int result) { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoNetworkReadCacheWriteComplete"); |
| if (!cache_.get()) { |
| TransitionToState(STATE_NONE); |
| return ERR_UNEXPECTED; |
| } |
| // |result| will be error code in case of network read failure and |this| |
| // cannot proceed further, so set entry_ to null. |result| will not be error |
| // in case of cache write failure since |this| can continue to read from the |
| // network. If response is completed, then also set entry to null. |
| if (result < 0) { |
| // We should have discovered this error in WriterAboutToBeRemovedFromEntry |
| DCHECK_EQ(result, shared_writing_error_); |
| DCHECK_EQ(NONE, mode_); |
| DCHECK(!entry_); |
| TransitionToState(STATE_NONE); |
| return result; |
| } |
| |
| if (partial_) { |
| return DoPartialNetworkReadCompleted(result); |
| } |
| |
| if (result == 0) { |
| DCHECK_EQ(NONE, mode_); |
| DCHECK(!entry_); |
| } else { |
| read_offset_ += result; |
| } |
| TransitionToState(STATE_NONE); |
| return result; |
| } |
| |
| int HttpCache::Transaction::DoPartialNetworkReadCompleted(int result) { |
| DCHECK(partial_); |
| |
| // Go to the next range if nothing returned or return the result. |
| // TODO(shivanisha) Simplify this condition if possible. It was introduced |
| // in https://codereview.chromium.org/545101 |
| if (result != 0 || truncated_ || |
| !(partial_->IsLastRange() || mode_ == WRITE)) { |
| partial_->OnNetworkReadCompleted(result); |
| |
| if (result == 0) { |
| // We need to move on to the next range. |
| if (network_trans_) { |
| ResetNetworkTransaction(); |
| } else if (InWriters() && entry_->writers->network_transaction()) { |
| SaveNetworkTransactionInfo(*(entry_->writers->network_transaction())); |
| entry_->writers->ResetNetworkTransaction(); |
| } |
| TransitionToState(STATE_START_PARTIAL_CACHE_VALIDATION); |
| } else { |
| TransitionToState(STATE_NONE); |
| } |
| return result; |
| } |
| |
| // Request completed. |
| if (result == 0) { |
| DoneWithEntry(true); |
| } |
| |
| TransitionToState(STATE_NONE); |
| return result; |
| } |
| |
| int HttpCache::Transaction::DoNetworkRead() { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoNetworkRead"); |
| TransitionToState(STATE_NETWORK_READ_COMPLETE); |
| return network_trans_->Read(read_buf_.get(), io_buf_len_, io_callback_); |
| } |
| |
| int HttpCache::Transaction::DoNetworkReadComplete(int result) { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoNetworkReadComplete"); |
| |
| if (!cache_.get()) { |
| TransitionToState(STATE_NONE); |
| return ERR_UNEXPECTED; |
| } |
| |
| if (partial_) |
| return DoPartialNetworkReadCompleted(result); |
| |
| TransitionToState(STATE_NONE); |
| return result; |
| } |
| |
| int HttpCache::Transaction::DoCacheReadData() { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoCacheReadData"); |
| |
| if (method_ == "HEAD") { |
| TransitionToState(STATE_NONE); |
| return 0; |
| } |
| |
| DCHECK(entry_); |
| TransitionToState(STATE_CACHE_READ_DATA_COMPLETE); |
| |
| if (net_log_.IsCapturing()) |
| net_log_.BeginEvent(NetLogEventType::HTTP_CACHE_READ_DATA); |
| if (partial_) { |
| return partial_->CacheRead(entry_->disk_entry, read_buf_.get(), io_buf_len_, |
| io_callback_); |
| } |
| |
| return entry_->disk_entry->ReadData(kResponseContentIndex, read_offset_, |
| read_buf_.get(), io_buf_len_, |
| io_callback_); |
| } |
| |
| int HttpCache::Transaction::DoCacheReadDataComplete(int result) { |
| TRACE_EVENT0("io", "HttpCacheTransaction::DoCacheReadDataComplete"); |
| if (net_log_.IsCapturing()) { |
| net_log_.EndEventWithNetErrorCode(NetLogEventType::HTTP_CACHE_READ_DATA, |
| result); |
| } |
| |
| if (!cache_.get()) { |
| TransitionToState(STATE_NONE); |
| return ERR_UNEXPECTED; |
| } |
| |
| if (partial_) { |
| // Partial requests are confusing to report in histograms because they may |
| // have multiple underlying requests. |
| UpdateCacheEntryStatus(CacheEntryStatus::ENTRY_OTHER); |
| return DoPartialCacheReadCompleted(result); |
| } |
| |
| if (result > 0) { |
| read_offset_ += result; |
| } else if (result == 0) { // End of file. |
| DoneWithEntry(true); |
| } else { |
| return OnCacheReadError(result, false); |
| } |
| |
| TransitionToState(STATE_NONE); |
| return result; |
| } |
| |
| //----------------------------------------------------------------------------- |
| |
| void HttpCache::Transaction::SetRequest(const NetLogWithSource& net_log) { |
| net_log_ = net_log; |
| |
| // Reset the variables that might get set in this function. This is done |
| // because this function can be invoked multiple times for a transaction. |
| cache_entry_status_ = CacheEntryStatus::ENTRY_UNDEFINED; |
| external_validation_.Reset(); |
| range_requested_ = false; |
| partial_.reset(); |
| |
| request_ = initial_request_; |
| custom_request_.reset(); |
| |
| effective_load_flags_ = request_->load_flags; |
| method_ = request_->method; |
| |
| if (cache_->mode() == DISABLE) |
| effective_load_flags_ |= LOAD_DISABLE_CACHE; |
| |
| // Some headers imply load flags. The order here is significant. |
| // |
| // LOAD_DISABLE_CACHE : no cache read or write |
| // LOAD_BYPASS_CACHE : no cache read |
| // LOAD_VALIDATE_CACHE : no cache read unless validation |
| // |
| // The former modes trump latter modes, so if we find a matching header we |
| // can stop iterating kSpecialHeaders. |
| // |
| static const struct { |
| const HeaderNameAndValue* search; |
| int load_flag; |
| } kSpecialHeaders[] = { |
| { kPassThroughHeaders, LOAD_DISABLE_CACHE }, |
| { kForceFetchHeaders, LOAD_BYPASS_CACHE }, |
| { kForceValidateHeaders, LOAD_VALIDATE_CACHE }, |
| }; |
| |
| bool range_found = false; |
| bool external_validation_error = false; |
| bool special_headers = false; |
| |
| if (request_->extra_headers.HasHeader(HttpRequestHeaders::kRange)) |
| range_found = true; |
| |
| for (size_t i = 0; i < arraysize(kSpecialHeaders); ++i) { |
| if (HeaderMatches(request_->extra_headers, kSpecialHeaders[i].search)) { |
| effective_load_flags_ |= kSpecialHeaders[i].load_flag; |
| special_headers = true; |
| break; |
| } |
| } |
| |
| // Check for conditionalization headers which may correspond with a |
| // cache validation request. |
| for (size_t i = 0; i < arraysize(kValidationHeaders); ++i) { |
| const ValidationHeaderInfo& info = kValidationHeaders[i]; |
| std::string validation_value; |
| if (request_->extra_headers.GetHeader( |
| info.request_header_name, &validation_value)) { |
| if (!external_validation_.values[i].empty() || |
| validation_value.empty()) { |
| external_validation_error = true; |
| } |
| external_validation_.values[i] = validation_value; |
| external_validation_.initialized = true; |
| } |
| } |
| |
| if (range_found || special_headers || external_validation_.initialized) { |
| // Log the headers before request_ is modified. |
| std::string empty; |
| net_log_.AddEvent( |
| NetLogEventType::HTTP_CACHE_CALLER_REQUEST_HEADERS, |
| base::Bind(&HttpRequestHeaders::NetLogCallback, |
| base::Unretained(&request_->extra_headers), &empty)); |
| } |
| |
| // We don't support ranges and validation headers. |
| if (range_found && external_validation_.initialized) { |
| LOG(WARNING) << "Byte ranges AND validation headers found."; |
| effective_load_flags_ |= LOAD_DISABLE_CACHE; |
| } |
| |
| // If there is more than one validation header, we can't treat this request as |
| // a cache validation, since we don't know for sure which header the server |
| // will give us a response for (and they could be contradictory). |
| if (external_validation_error) { |
| LOG(WARNING) << "Multiple or malformed validation headers found."; |
| effective_load_flags_ |= LOAD_DISABLE_CACHE; |
| } |
| |
| if (range_found && !(effective_load_flags_ & LOAD_DISABLE_CACHE)) { |
| UpdateCacheEntryStatus(CacheEntryStatus::ENTRY_OTHER); |
| partial_.reset(new PartialData); |
| if (method_ == "GET" && partial_->Init(request_->extra_headers)) { |
| // We will be modifying the actual range requested to the server, so |
| // let's remove the header here. |
| // Note that custom_request_ is a shallow copy so will keep the same |
| // pointer to upload data stream as in the original request. |
| custom_request_.reset(new HttpRequestInfo(*request_)); |
| custom_request_->extra_headers.RemoveHeader(HttpRequestHeaders::kRange); |
| request_ = custom_request_.get(); |
| partial_->SetHeaders(custom_request_->extra_headers); |
| } else { |
| // The range is invalid or we cannot handle it properly. |
| VLOG(1) << "Invalid byte range found."; |
| effective_load_flags_ |= LOAD_DISABLE_CACHE; |
| partial_.reset(NULL); |
| } |
| } |
| } |
| |
| bool HttpCache::Transaction::ShouldPassThrough() { |
| // We may have a null disk_cache if there is an error we cannot recover from, |
| // like not enough disk space, or sharing violations. |
| if (!cache_->disk_cache_.get()) |
| return true; |
| |
| if (effective_load_flags_ & LOAD_DISABLE_CACHE) |
| return true; |
| |
| if (method_ == "GET" || method_ == "HEAD") |
| return false; |
| |
| if (method_ == "POST" && request_->upload_data_stream && |
| request_->upload_data_stream->identifier()) { |
| return false; |
| } |
| |
| if (method_ == "PUT" && request_->upload_data_stream) |
| return false; |
| |
| if (method_ == "DELETE") |
| return false; |
| |
| return true; |
| } |
| |
| int HttpCache::Transaction::BeginCacheRead() { |
| // We don't support any combination of LOAD_ONLY_FROM_CACHE and byte ranges. |
| // TODO(jkarlin): Either handle this case or DCHECK. |
| if (response_.headers->response_code() == 206 || partial_) { |
| NOTREACHED(); |
| TransitionToState(STATE_FINISH_HEADERS); |
| return ERR_CACHE_MISS; |
| } |
| |
| // We don't have the whole resource. |
| if (truncated_) { |
| TransitionToState(STATE_FINISH_HEADERS); |
| return ERR_CACHE_MISS; |
| } |
| |
| if (RequiresValidation() != VALIDATION_NONE) { |
| TransitionToState(STATE_FINISH_HEADERS); |
| return ERR_CACHE_MISS; |
| } |
| |
| if (method_ == "HEAD") |
| FixHeadersForHead(); |
| |
| if (entry_->disk_entry->GetDataSize(kMetadataIndex) && |
| !base::FeatureList::IsEnabled(net::features::kIsolatedCodeCache)) { |
| TransitionToState(STATE_CACHE_READ_METADATA); |
| } else { |
| TransitionToState(STATE_FINISH_HEADERS); |
| } |
| |
| return OK; |
| } |
| |
| int HttpCache::Transaction::BeginCacheValidation() { |
| DCHECK_EQ(mode_, READ_WRITE); |
| |
| ValidationType required_validation = RequiresValidation(); |
| |
| bool skip_validation = (required_validation == VALIDATION_NONE); |
| bool needs_stale_while_revalidate_cache_update = false; |
| |
| if ((effective_load_flags_ & LOAD_SUPPORT_ASYNC_REVALIDATION) && |
| required_validation == VALIDATION_ASYNCHRONOUS) { |
| DCHECK_EQ(request_->method, "GET"); |
| skip_validation = true; |
| response_.async_revalidation_requested = true; |
| needs_stale_while_revalidate_cache_update = |
| response_.stale_revalidate_timeout.is_null(); |
| } |
| |
| if (method_ == "HEAD" && |
| (truncated_ || response_.headers->response_code() == 206)) { |
| DCHECK(!partial_); |
| if (skip_validation) { |
| TransitionToState(STATE_SETUP_ENTRY_FOR_READ); |
| return OK; |
| } |
| |
| // Bail out! |
| TransitionToState(STATE_SEND_REQUEST); |
| mode_ = NONE; |
| return OK; |
| } |
| |
| if (truncated_) { |
| // Truncated entries can cause partial gets, so we shouldn't record this |
| // load in histograms. |
| UpdateCacheEntryStatus(CacheEntryStatus::ENTRY_OTHER); |
| skip_validation = !partial_->initial_validation(); |
| } |
| |
| if (partial_ && (is_sparse_ || truncated_) && |
| (!partial_->IsCurrentRangeCached() || invalid_range_)) { |
| // Force revalidation for sparse or truncated entries. Note that we don't |
| // want to ignore the regular validation logic just because a byte range was |
| // part of the request. |
| skip_validation = false; |
| } |
| |
| if (skip_validation) { |
| UpdateCacheEntryStatus(CacheEntryStatus::ENTRY_USED); |
| TransitionToState(needs_stale_while_revalidate_cache_update |
| ? STATE_CACHE_UPDATE_STALE_WHILE_REVALIDATE_TIMEOUT |
| : STATE_SETUP_ENTRY_FOR_READ); |
| return OK; |
| } else { |
| // Make the network request conditional, to see if we may reuse our cached |
| // response. If we cannot do so, then we just resort to a normal fetch. |
| // Our mode remains READ_WRITE for a conditional request. Even if the |
| // conditionalization fails, we don't switch to WRITE mode until we |
| // know we won't be falling back to using the cache entry in the |
| // LOAD_FROM_CACHE_IF_OFFLINE case. |
| if (!ConditionalizeRequest()) { |
| couldnt_conditionalize_request_ = true; |
| UpdateCacheEntryStatus(CacheEntryStatus::ENTRY_CANT_CONDITIONALIZE); |
| if (partial_) |
| return DoRestartPartialRequest(); |
| |
| DCHECK_NE(206, response_.headers->response_code()); |
| } |
| TransitionToState(STATE_SEND_REQUEST); |
| } |
| return OK; |
| } |
| |
| int HttpCache::Transaction::BeginPartialCacheValidation() { |
| DCHECK_EQ(mode_, READ_WRITE); |
| |
| if (response_.headers->response_code() != 206 && !partial_ && !truncated_) |
| return BeginCacheValidation(); |
| |
| // Partial requests should not be recorded in histograms. |
| UpdateCacheEntryStatus(CacheEntryStatus::ENTRY_OTHER); |
| if (method_ == "HEAD") |
| return BeginCacheValidation(); |
| |
| if (!range_requested_) { |
| // The request is not for a range, but we have stored just ranges. |
| |
| partial_.reset(new PartialData()); |
| partial_->SetHeaders(request_->extra_headers); |
| if (!custom_request_.get()) { |
| custom_request_.reset(new HttpRequestInfo(*request_)); |
| request_ = custom_request_.get(); |
| } |
| } |
| |
| TransitionToState(STATE_CACHE_QUERY_DATA); |
| return OK; |
| } |
| |
| // This should only be called once per request. |
| int HttpCache::Transaction::ValidateEntryHeadersAndContinue() { |
| DCHECK_EQ(mode_, READ_WRITE); |
| |
| if (!partial_->UpdateFromStoredHeaders(response_.headers.get(), |
| entry_->disk_entry, truncated_, |
| cache_->IsWritingInProgress(entry_))) { |
| return DoRestartPartialRequest(); |
| } |
| |
| if (response_.headers->response_code() == 206) |
| is_sparse_ = true; |
| |
| if (!partial_->IsRequestedRangeOK()) { |
| // The stored data is fine, but the request may be invalid. |
| invalid_range_ = true; |
| } |
| |
| TransitionToState(STATE_START_PARTIAL_CACHE_VALIDATION); |
| return OK; |
| } |
| |
| int HttpCache::Transaction::BeginExternallyConditionalizedRequest() { |
| DCHECK_EQ(UPDATE, mode_); |
| DCHECK(external_validation_.initialized); |
| |
| for (size_t i = 0; i < arraysize(kValidationHeaders); i++) { |
| if (external_validation_.values[i].empty()) |
| continue; |
| // Retrieve either the cached response's "etag" or "last-modified" header. |
| std::string validator; |
| response_.headers->EnumerateHeader( |
| NULL, |
| kValidationHeaders[i].related_response_header_name, |
| &validator); |
| |
| if (response_.headers->response_code() != 200 || truncated_ || |
| validator.empty() || validator != external_validation_.values[i]) { |
| // The externally conditionalized request is not a validation request |
| // for our existing cache entry. Proceed with caching disabled. |
| UpdateCacheEntryStatus(CacheEntryStatus::ENTRY_OTHER); |
| DoneWithEntry(true); |
| } |
| } |
| |
| TransitionToState(STATE_SEND_REQUEST); |
| return OK; |
| } |
| |
| int HttpCache::Transaction::RestartNetworkRequest() { |
| DCHECK(mode_ & WRITE || mode_ == NONE); |
| DCHECK(network_trans_.get()); |
| DCHECK_EQ(STATE_NONE, next_state_); |
| |
| next_state_ = STATE_SEND_REQUEST_COMPLETE; |
| int rv = network_trans_->RestartIgnoringLastError(io_callback_); |
| if (rv != ERR_IO_PENDING) |
| return DoLoop(rv); |
| return rv; |
| } |
| |
| int HttpCache::Transaction::RestartNetworkRequestWithCertificate( |
| scoped_refptr<X509Certificate> client_cert, |
| scoped_refptr<SSLPrivateKey> client_private_key) { |
| DCHECK(mode_ & WRITE || mode_ == NONE); |
| DCHECK(network_trans_.get()); |
| DCHECK_EQ(STATE_NONE, next_state_); |
| |
| next_state_ = STATE_SEND_REQUEST_COMPLETE; |
| int rv = network_trans_->RestartWithCertificate( |
| std::move(client_cert), std::move(client_private_key), io_callback_); |
| if (rv != ERR_IO_PENDING) |
| return DoLoop(rv); |
| return rv; |
| } |
| |
| int HttpCache::Transaction::RestartNetworkRequestWithAuth( |
| const AuthCredentials& credentials) { |
| DCHECK(mode_ & WRITE || mode_ == NONE); |
| DCHECK(network_trans_.get()); |
| DCHECK_EQ(STATE_NONE, next_state_); |
| |
| next_state_ = STATE_SEND_REQUEST_COMPLETE; |
| int rv = network_trans_->RestartWithAuth(credentials, io_callback_); |
| if (rv != ERR_IO_PENDING) |
| return DoLoop(rv); |
| return rv; |
| } |
| |
| ValidationType HttpCache::Transaction::RequiresValidation() { |
| // TODO(darin): need to do more work here: |
| // - make sure we have a matching request method |
| // - watch out for cached responses that depend on authentication |
| |
| if (!(effective_load_flags_ & LOAD_SKIP_VARY_CHECK) && |
| response_.vary_data.is_valid() && |
| !response_.vary_data.MatchesRequest(*request_, |
| *response_.headers.get())) { |
| vary_mismatch_ = true; |
| validation_cause_ = VALIDATION_CAUSE_VARY_MISMATCH; |
| return VALIDATION_SYNCHRONOUS; |
| } |
| |
| if (effective_load_flags_ & LOAD_SKIP_CACHE_VALIDATION) |
| return VALIDATION_NONE; |
| |
| if (response_.unused_since_prefetch && |
| !(effective_load_flags_ & LOAD_PREFETCH) && |
| response_.headers->GetCurrentAge( |
| response_.request_time, response_.response_time, |
| cache_->clock_->Now()) < TimeDelta::FromMinutes(kPrefetchReuseMins)) { |
| // The first use of a resource after prefetch within a short window skips |
| // validation. |
| return VALIDATION_NONE; |
| } |
| |
| if (effective_load_flags_ & LOAD_VALIDATE_CACHE) { |
| validation_cause_ = VALIDATION_CAUSE_VALIDATE_FLAG; |
| return VALIDATION_SYNCHRONOUS; |
| } |
| |
| if (method_ == "PUT" || method_ == "DELETE") |
| return VALIDATION_SYNCHRONOUS; |
| |
| ValidationType validation_required_by_headers = |
| response_.headers->RequiresValidation(response_.request_time, |
| response_.response_time, |
| cache_->clock_->Now()); |
| |
| if (validation_required_by_headers != VALIDATION_NONE) { |
| HttpResponseHeaders::FreshnessLifetimes lifetimes = |
| response_.headers->GetFreshnessLifetimes(response_.response_time); |
| if (lifetimes.freshness == base::TimeDelta()) { |
| validation_cause_ = VALIDATION_CAUSE_ZERO_FRESHNESS; |
| } else { |
| validation_cause_ = VALIDATION_CAUSE_STALE; |
| stale_entry_freshness_ = lifetimes.freshness; |
| stale_entry_age_ = response_.headers->GetCurrentAge( |
| response_.request_time, response_.response_time, |
| cache_->clock_->Now()); |
| } |
| } |
| |
| if (validation_required_by_headers == VALIDATION_ASYNCHRONOUS) { |
| // Asynchronous revalidation is only supported for GET methods. |
| if (request_->method != "GET") |
| return VALIDATION_SYNCHRONOUS; |
| |
| // If the timeout on the staleness revalidation is set don't hand out |
| // a resource that hasn't been async validated. |
| if (!response_.stale_revalidate_timeout.is_null() && |
| response_.stale_revalidate_timeout < cache_->clock_->Now()) { |
| return VALIDATION_SYNCHRONOUS; |
| } |
| } |
| |
| return validation_required_by_headers; |
| } |
| |
| bool HttpCache::Transaction::IsResponseConditionalizable( |
| std::string* etag_value, |
| std::string* last_modified_value) const { |
| DCHECK(response_.headers.get()); |
| |
| // This only makes sense for cached 200 or 206 responses. |
| if (response_.headers->response_code() != 200 && |
| response_.headers->response_code() != 206) { |
| return false; |
| } |
| |
| // Just use the first available ETag and/or Last-Modified header value. |
| // TODO(darin): Or should we use the last? |
| |
| if (response_.headers->GetHttpVersion() >= HttpVersion(1, 1)) |
| response_.headers->EnumerateHeader(NULL, "etag", etag_value); |
| |
| response_.headers->EnumerateHeader(NULL, "last-modified", |
| last_modified_value); |
| |
| if (etag_value->empty() && last_modified_value->empty()) |
| return false; |
| |
| return true; |
| } |
| |
| bool HttpCache::Transaction::ConditionalizeRequest() { |
| DCHECK(response_.headers.get()); |
| |
| if (method_ == "PUT" || method_ == "DELETE") |
| return false; |
| |
| if (fail_conditionalization_for_test_) |
| return false; |
| |
| std::string etag_value; |
| std::string last_modified_value; |
| if (!IsResponseConditionalizable(&etag_value, &last_modified_value)) |
| return false; |
| |
| DCHECK(response_.headers->response_code() != 206 || |
| response_.headers->HasStrongValidators()); |
| |
| if (vary_mismatch_) { |
| // Can't rely on last-modified if vary is different. |
| last_modified_value.clear(); |
| if (etag_value.empty()) |
| return false; |
| } |
| |
| if (!partial_) { |
| // Need to customize the request, so this forces us to allocate :( |
| custom_request_.reset(new HttpRequestInfo(*request_)); |
| request_ = custom_request_.get(); |
| } |
| DCHECK(custom_request_.get()); |
| |
| bool use_if_range = |
| partial_ && !partial_->IsCurrentRangeCached() && !invalid_range_; |
| |
| if (!etag_value.empty()) { |
| if (use_if_range) { |
| // We don't want to switch to WRITE mode if we don't have this block of a |
| // byte-range request because we may have other parts cached. |
| custom_request_->extra_headers.SetHeader( |
| HttpRequestHeaders::kIfRange, etag_value); |
| } else { |
| custom_request_->extra_headers.SetHeader( |
| HttpRequestHeaders::kIfNoneMatch, etag_value); |
| } |
| // For byte-range requests, make sure that we use only one way to validate |
| // the request. |
| if (partial_ && !partial_->IsCurrentRangeCached()) |
| return true; |
| } |
| |
| if (!last_modified_value.empty()) { |
| if (use_if_range) { |
| custom_request_->extra_headers.SetHeader( |
| HttpRequestHeaders::kIfRange, last_modified_value); |
| } else { |
| custom_request_->extra_headers.SetHeader( |
| HttpRequestHeaders::kIfModifiedSince, last_modified_value); |
| } |
| } |
| |
| return true; |
| } |
| |
| bool HttpCache::Transaction::MaybeRejectBasedOnEntryInMemoryData( |
| uint8_t in_memory_info) { |
| // Not going to be clever with those... |
| if (partial_) |
| return false; |
| |
| // Avoiding open based on in-memory hints requires us to be permitted to |
| // modify the cache, including deleting an old entry. Only the READ_WRITE |
| // and WRITE modes permit that... and WRITE never tries to open entries in the |
| // first place, so we shouldn't see it here. |
| DCHECK_NE(mode_, WRITE); |
| if (mode_ != READ_WRITE) |
| return false; |
| |
| // If we are loading ignoring cache validity (aka back button), obviously |
| // can't reject things based on it. Also if LOAD_ONLY_FROM_CACHE there is no |
| // hope of network offering anything better. |
| if (effective_load_flags_ & LOAD_SKIP_CACHE_VALIDATION || |
| effective_load_flags_ & LOAD_ONLY_FROM_CACHE) |
| return false; |
| |
| return (in_memory_info & HINT_UNUSABLE_PER_CACHING_HEADERS) == |
| HINT_UNUSABLE_PER_CACHING_HEADERS; |
| } |
| |
| bool HttpCache::Transaction::ComputeUnusablePerCachingHeaders() { |
| // unused_since_prefetch overrides some caching headers, so it may be useful |
| // regardless of what they say. |
| if (response_.unused_since_prefetch) |
| return false; |
| |
| // Has an e-tag or last-modified: we can probably send a conditional request, |
| // so it's potentially useful. |
| std::string etag_ignored, last_modified_ignored; |
| if (IsResponseConditionalizable(&etag_ignored, &last_modified_ignored)) |
| return false; |
| |
| // If none of the above is true and the entry has zero freshness, then it |
| // won't be usable absent load flag override. |
| return response_.headers->GetFreshnessLifetimes(response_.response_time) |
| .freshness.is_zero(); |
| } |
| |
| // We just received some headers from the server. We may have asked for a range, |
| // in which case partial_ has an object. This could be the first network request |
| // we make to fulfill the original request, or we may be already reading (from |
| // the net and / or the cache). If we are not expecting a certain response, we |
| // just bypass the cache for this request (but again, maybe we are reading), and |
| // delete partial_ (so we are not able to "fix" the headers that we return to |
| // the user). This results in either a weird response for the caller (we don't |
| // expect it after all), or maybe a range that was not exactly what it was asked |
| // for. |
| // |
| // If the server is simply telling us that the resource has changed, we delete |
| // the cached entry and restart the request as the caller intended (by returning |
| // false from this method). However, we may not be able to do that at any point, |
| // for instance if we already returned the headers to the user. |
| // |
| // WARNING: Whenever this code returns false, it has to make sure that the next |
| // time it is called it will return true so that we don't keep retrying the |
| // request. |
| bool HttpCache::Transaction::ValidatePartialResponse() { |
| const HttpResponseHeaders* headers = new_response_->headers.get(); |
| int response_code = headers->response_code(); |
| bool partial_response = (response_code == 206); |
| handling_206_ = false; |
| |
| if (!entry_ || method_ != "GET") |
| return true; |
| |
| if (invalid_range_) { |
| // We gave up trying to match this request with the stored data. If the |
| // server is ok with the request, delete the entry, otherwise just ignore |
| // this request |
| DCHECK(!reading_); |
| if (partial_response || response_code == 200) { |
| DoomPartialEntry(true); |
| mode_ = NONE; |
| } else { |
| if (response_code == 304) { |
| // Change the response code of the request to be 416 (Requested range |
| // not satisfiable). |
| SetResponse(*new_response_); |
| partial_->FixResponseHeaders(response_.headers.get(), false); |
| } |
| IgnoreRangeRequest(); |
| } |
| return true; |
| } |
| |
| if (!partial_) { |
| // We are not expecting 206 but we may have one. |
| if (partial_response) |
| IgnoreRangeRequest(); |
| |
| return true; |
| } |
| |
| // TODO(rvargas): Do we need to consider other results here?. |
| bool failure = response_code == 200 || response_code == 416; |
| |
| if (partial_->IsCurrentRangeCached()) { |
| // We asked for "If-None-Match: " so a 206 means a new object. |
| if (partial_response) |
| failure = true; |
| |
| if (response_code == 304 && partial_->ResponseHeadersOK(headers)) |
| return true; |
| } else { |
| // We asked for "If-Range: " so a 206 means just another range. |
| if (partial_response) { |
| if (partial_->ResponseHeadersOK(headers)) { |
| handling_206_ = true; |
| return true; |
| } else { |
| failure = true; |
| } |
| } |
| |
| if (!reading_ && !is_sparse_ && !partial_response) { |
| // See if we can ignore the fact that we issued a byte range request. |
| // If the server sends 200, just store it. If it sends an error, redirect |
| // or something else, we may store the response as long as we didn't have |
| // anything already stored. |
| if (response_code == 200 || |
| (!truncated_ && response_code != 304 && response_code != 416)) { |
| // The server is sending something else, and we can save it. |
| DCHECK((truncated_ && !partial_->IsLastRange()) || range_requested_); |
| partial_.reset(); |
| truncated_ = false; |
| return true; |
| } |
| } |
| |
| // 304 is not expected here, but we'll spare the entry (unless it was |
| // truncated). |
| if (truncated_) |
| failure = true; |
| } |
| |
| if (failure) { |
| // We cannot truncate this entry, it has to be deleted. |
| UpdateCacheEntryStatus(CacheEntryStatus::ENTRY_OTHER); |
| mode_ = NONE; |
| if (is_sparse_ || truncated_) { |
| // There was something cached to start with, either sparsed data (206), or |
| // a truncated 200, which means that we probably modified the request, |
| // adding a byte range or modifying the range requested by the caller. |
| if (!reading_ && !partial_->IsLastRange()) { |
| // We have not returned anything to the caller yet so it should be safe |
| // to issue another network request, this time without us messing up the |
| // headers. |
| ResetPartialState(true); |
| return false; |
| } |
| LOG(WARNING) << "Failed to revalidate partial entry"; |
| } |
| DoomPartialEntry(true); |
| return true; |
| } |
| |
| IgnoreRangeRequest(); |
| return true; |
| } |
| |
| void HttpCache::Transaction::IgnoreRangeRequest() { |
| // We have a problem. We may or may not be reading already (in which case we |
| // returned the headers), but we'll just pretend that this request is not |
| // using the cache and see what happens. Most likely this is the first |
| // response from the server (it's not changing its mind midway, right?). |
| UpdateCacheEntryStatus(CacheEntryStatus::ENTRY_OTHER); |
| DoneWithEntry(mode_ != WRITE); |
| partial_.reset(NULL); |
| } |
| |
| void HttpCache::Transaction::FixHeadersForHead() { |
| if (response_.headers->response_code() == 206) { |
| response_.headers->RemoveHeader("Content-Range"); |
| response_.headers->ReplaceStatusLine("HTTP/1.1 200 OK"); |
| } |
| } |
| |
| int HttpCache::Transaction::DoSetupEntryForRead() { |
| if (network_trans_) |
| ResetNetworkTransaction(); |
| if (partial_) { |
| if (truncated_ || is_sparse_ || !invalid_range_) { |
| // We are going to return the saved response headers to the caller, so |
| // we may need to adjust them first. |
| TransitionToState(STATE_PARTIAL_HEADERS_RECEIVED); |
| return OK; |
| } else { |
| partial_.reset(); |
| } |
| } |
| |
| if (!cache_->IsWritingInProgress(entry_)) |
| mode_ = READ; |
| |
| if (method_ == "HEAD") |
| FixHeadersForHead(); |
| |
| if (entry_->disk_entry->GetDataSize(kMetadataIndex) && |
| !base::FeatureList::IsEnabled(net::features::kIsolatedCodeCache)) { |
| TransitionToState(STATE_CACHE_READ_METADATA); |
| } else { |
| TransitionToState(STATE_FINISH_HEADERS); |
| } |
| return OK; |
| } |
| |
| int HttpCache::Transaction::WriteToEntry(int index, |
| int offset, |
| IOBuffer* data, |
| int data_len, |
| CompletionOnceCallback callback) { |
| if (!entry_) |
| return data_len; |
| |
| int rv = 0; |
| if (!partial_ || !data_len) { |
| rv = entry_->disk_entry->WriteData(index, offset, data, data_len, |
| std::move(callback), true); |
| } else { |
| rv = partial_->CacheWrite(entry_->disk_entry, data, data_len, |
| std::move(callback)); |
| } |
| return rv; |
| } |
| |
| int HttpCache::Transaction::WriteResponseInfoToEntry(bool truncated) { |
| if (!entry_) |
| return OK; |
| |
| if (net_log_.IsCapturing()) |
| net_log_.BeginEvent(NetLogEventType::HTTP_CACHE_WRITE_INFO); |
| |
| // Do not cache no-store content. Do not cache content with cert errors |
| // either. This is to prevent not reporting net errors when loading a |
| // resource from the cache. When we load a page over HTTPS with a cert error |
| // we show an SSL blocking page. If the user clicks proceed we reload the |
| // resource ignoring the errors. The loaded resource is then cached. If that |
| // resource is subsequently loaded from the cache, no net error is reported |
| // (even though the cert status contains the actual errors) and no SSL |
| // blocking page is shown. An alternative would be to reverse-map the cert |
| // status to a net error and replay the net error. |
| if ((response_.headers->HasHeaderValue("cache-control", "no-store")) || |
| IsCertStatusError(response_.ssl_info.cert_status)) { |
| bool stopped = StopCachingImpl(false); |
| DCHECK(stopped); |
| if (net_log_.IsCapturing()) |
| net_log_.EndEvent(NetLogEventType::HTTP_CACHE_WRITE_INFO); |
| return OK; |
| } |
| |
| if (truncated) |
| DCHECK_EQ(200, response_.headers->response_code()); |
| |
| // When writing headers, we normally only write the non-transient headers. |
| bool skip_transient_headers = true; |
| scoped_refptr<PickledIOBuffer> data(new PickledIOBuffer()); |
| response_.Persist(data->pickle(), skip_transient_headers, truncated); |
| data->Done(); |
| |
| io_buf_len_ = data->pickle()->size(); |
| |
| // Summarize some info on cacheability in memory. Don't do it if doomed |
| // since then |entry_| isn't definitive for |cache_key_|. |
| if (!entry_->doomed) { |
| cache_->GetCurrentBackend()->SetEntryInMemoryData( |
| cache_key_, ComputeUnusablePerCachingHeaders() |
| ? HINT_UNUSABLE_PER_CACHING_HEADERS |
| : 0); |
| } |
|