Chromium Code Reviews Chromium Code Reviews
Issue 2005273002:
Move MimeTypeResourceHandler before ThrottlingResourceHandler (Closed)
Base URL: https://chromium.googlesource.com/chromium/src.git@master| Index: content/browser/loader/mime_type_resource_handler.cc |
| diff --git a/content/browser/loader/mime_type_resource_handler.cc b/content/browser/loader/mime_type_resource_handler.cc |
| index ab4fca3a8dbdc4780fb66e01878e11c1a5aa31eb..ba1c828c7fb5a0939f83521de7b9f78375b05845 100644 |
| --- a/content/browser/loader/mime_type_resource_handler.cc |
| +++ b/content/browser/loader/mime_type_resource_handler.cc |
| @@ -32,10 +32,8 @@ |
| #include "net/base/io_buffer.h" |
| #include "net/base/mime_sniffer.h" |
| #include "net/base/mime_util.h" |
| -#include "net/base/net_errors.h" |
| #include "net/http/http_content_disposition.h" |
| #include "net/http/http_response_headers.h" |
| -#include "net/url_request/url_request.h" |
| namespace content { |
| @@ -53,9 +51,7 @@ const char kDefaultAcceptHeader[] = "*/*"; |
| class DependentIOBuffer : public net::WrappedIOBuffer { |
| public: |
| DependentIOBuffer(net::IOBuffer* buf, int offset) |
| - : net::WrappedIOBuffer(buf->data() + offset), |
| - buf_(buf) { |
| - } |
| + : net::WrappedIOBuffer(buf->data() + offset), buf_(buf) {} |
| private: |
| ~DependentIOBuffer() override {} |
| @@ -76,10 +72,10 @@ MimeTypeResourceHandler::MimeTypeResourceHandler( |
| #if defined(ENABLE_PLUGINS) |
| plugin_service_(plugin_service), |
| #endif |
| - read_buffer_size_(0), |
| - bytes_read_(0), |
| must_download_(false), |
| must_download_is_set_(false), |
| + read_buffer_size_(0), |
| + bytes_read_(0), |
| weak_ptr_factory_(this) { |
| } |
| @@ -89,45 +85,13 @@ MimeTypeResourceHandler::~MimeTypeResourceHandler() { |
| void MimeTypeResourceHandler::SetController(ResourceController* controller) { |
| ResourceHandler::SetController(controller); |
| - // Downstream handlers see us as their ResourceController, which allows us to |
| - // consume part or all of the resource response, and then later replay it to |
| - // downstream handler. |
| + // Downstream handlers see the MimeTypeResourceHandler as their |
| + // ResourceController, which allows it to consume part or all of the resource |
| + // response, and then later replay it to downstream handler. |
| DCHECK(next_handler_.get()); |
| next_handler_->SetController(this); |
| } |
| -bool MimeTypeResourceHandler::OnResponseStarted(ResourceResponse* response, |
| - bool* defer) { |
| - response_ = response; |
| - |
| - // A 304 response should not contain a Content-Type header (RFC 7232 section |
| - // 4.1). The following code may incorrectly attempt to add a Content-Type to |
| - // the response, and so must be skipped for 304 responses. |
| - if (!(response_->head.headers.get() && |
| - response_->head.headers->response_code() == 304)) { |
| - if (ShouldSniffContent()) { |
| - state_ = STATE_BUFFERING; |
| - return true; |
| - } |
| - |
| - if (response_->head.mime_type.empty()) { |
| - // Ugg. The server told us not to sniff the content but didn't give us |
| - // a mime type. What's a browser to do? Turns out, we're supposed to |
| - // treat the response as "text/plain". This is the most secure option. |
| - response_->head.mime_type.assign("text/plain"); |
| - } |
| - |
| - // Treat feed types as text/plain. |
| - if (response_->head.mime_type == "application/rss+xml" || |
| - response_->head.mime_type == "application/atom+xml") { |
| - response_->head.mime_type.assign("text/plain"); |
| - } |
| - } |
| - |
| - state_ = STATE_PROCESSING; |
| - return ProcessResponse(defer); |
| -} |
| - |
| bool MimeTypeResourceHandler::OnWillStart(const GURL& url, bool* defer) { |
| const char* accept_value = nullptr; |
| switch (GetRequestInfo()->GetResourceType()) { |
| @@ -168,6 +132,37 @@ bool MimeTypeResourceHandler::OnWillStart(const GURL& url, bool* defer) { |
| return next_handler_->OnWillStart(url, defer); |
| } |
| +bool MimeTypeResourceHandler::OnResponseStarted(ResourceResponse* response, |
| + bool* defer) { |
| + response_ = response; |
| + |
| + state_ = STATE_BUFFERING; |
| + |
| + // A 304 response should not contain a Content-Type header (RFC 7232 section |
| + // 4.1). The following code may incorrectly attempt to add a Content-Type to |
| + // the response, and so must be skipped for 304 responses. |
| + if (!(response_->head.headers.get() && |
| + response_->head.headers->response_code() == 304)) { |
| + if (ShouldSniffContent()) |
| + return true; |
| + |
| + if (response_->head.mime_type.empty()) { |
| + // Ugg. The server told us not to sniff the content but didn't give us a |
| + // mime type. What's a browser to do? Turns out, we're supposed to |
| + // treat the response as "text/plain". This is the most secure option. |
| + response_->head.mime_type.assign("text/plain"); |
| + } |
| + |
| + // Treat feed types as text/plain. |
| + if (response_->head.mime_type == "application/rss+xml" || |
| + response_->head.mime_type == "application/atom+xml") { |
| + response_->head.mime_type.assign("text/plain"); |
| + } |
| + } |
| + |
| + return ProcessReplay(defer); |
| +} |
| + |
| bool MimeTypeResourceHandler::OnWillRead(scoped_refptr<net::IOBuffer>* buf, |
| int* buf_size, |
| int min_size) { |
| @@ -198,11 +193,22 @@ bool MimeTypeResourceHandler::OnReadCompleted(int bytes_read, bool* defer) { |
| DCHECK_EQ(state_, STATE_BUFFERING); |
| bytes_read_ += bytes_read; |
| - if (!DetermineMimeType() && (bytes_read > 0)) |
| - return true; // Needs more data, so keep buffering. |
| + const std::string& type_hint = response_->head.mime_type; |
| + |
| + std::string new_type; |
| + bool made_final_decision = |
| + net::SniffMimeType(read_buffer_->data(), bytes_read_, request()->url(), |
| + type_hint, &new_type); |
| + |
| + // SniffMimeType() returns false if there is not enough data to determine |
| + // the mime type. However, even if it returns false, it returns a new type |
| + // that is probably better than the current one. |
| + response_->head.mime_type.assign(new_type); |
| - state_ = STATE_PROCESSING; |
| - return ProcessResponse(defer); |
| + if (!made_final_decision && (bytes_read > 0)) |
| + return true; |
| + |
| + return ProcessReplay(defer); |
| } |
| void MimeTypeResourceHandler::OnResponseCompleted( |
| @@ -216,22 +222,47 @@ void MimeTypeResourceHandler::OnResponseCompleted( |
| next_handler_->OnResponseCompleted(status, security_info, defer); |
| } |
| +void MimeTypeResourceHandler::InstallNewLeafHandler( |
| + std::unique_ptr<ResourceHandler> new_handler, |
| + const std::string& payload_for_old_handler) { |
| + // If acting as a pass-through handler, install the new leaf handler right |
| + // away. |
| + if (state_ == STATE_STARTING || state_ == STATE_STREAMING) { |
| + LayeredResourceHandler::InstallNewLeafHandler(std::move(new_handler), |
| + payload_for_old_handler); |
|
mmenke
2016/06/02 19:56:19
Why is this no longer always done synchronously?
|
| + return; |
| + } |
| + |
| + // Store the handler so that it can be properly installed when replaying the |
| + // response. |
| + new_leaf_handler_ = std::move(new_handler); |
| + payload_for_old_handler_ = payload_for_old_handler; |
| + new_leaf_handler_->SetController(this); |
| +} |
| + |
| void MimeTypeResourceHandler::Resume() { |
| - switch (state_) { |
| - case STATE_BUFFERING: |
| - case STATE_PROCESSING: |
| - NOTREACHED(); |
| - break; |
| - case STATE_REPLAYING: |
| - base::ThreadTaskRunnerHandle::Get()->PostTask( |
| - FROM_HERE, |
| - base::Bind(&MimeTypeResourceHandler::CallReplayReadCompleted, |
| - weak_ptr_factory_.GetWeakPtr())); |
| - break; |
| - case STATE_STARTING: |
| - case STATE_STREAMING: |
| - controller()->Resume(); |
| - break; |
| + // If no information is currently being transmitted to downstream handlers, |
| + // they should not attempt to resume the request. |
| + if (state_ == STATE_BUFFERING || state_ == STATE_PROCESSING) { |
| + NOTREACHED(); |
| + return; |
| + } |
| + |
| + // If the BufferingHandler is acting as a pass-through handler, just ask the |
| + // upwards ResourceController to resume the request. |
| + if (state_ == STATE_STARTING || state_ == STATE_STREAMING) { |
| + controller()->Resume(); |
| + return; |
| + } |
| + |
| + // Otherwise proceed with the replay of the response. If it is successful, |
| + // resume the request. |
| + bool defer = false; |
| + if (!ProcessReplay(&defer)) { |
| + Cancel(); |
| + } else if (!defer) { |
| + DCHECK(state_ == STATE_STREAMING); |
| + controller()->Resume(); |
| } |
| } |
| @@ -247,32 +278,92 @@ void MimeTypeResourceHandler::CancelWithError(int error_code) { |
| controller()->CancelWithError(error_code); |
| } |
| -bool MimeTypeResourceHandler::ProcessResponse(bool* defer) { |
| - DCHECK_EQ(STATE_PROCESSING, state_); |
| +bool MimeTypeResourceHandler::ProcessReplay(bool* defer) { |
| + bool return_value = true; |
| + while (!*defer && return_value && state_ != STATE_STREAMING) { |
| + switch (state_) { |
| + case STATE_BUFFERING: |
| + return_value = MaybeStartReplay(defer); |
| + break; |
| + case STATE_PROCESSING: |
| + return_value = ReplayResponseReceived(defer); |
| + break; |
| + case STATE_REPLAYING_RESPONSE_RECEIVED: |
| + return_value = ReplayResponseReceivedNewHandler(defer); |
| + break; |
| + case STATE_REPLAYING_RESPONSE_RECEIVED_NEW_HANDLER: |
| + return_value = ReplayReadCompleted(defer); |
| + break; |
| + default: |
| + NOTREACHED(); |
| + break; |
| + } |
| + } |
| + return return_value; |
| +} |
| +bool MimeTypeResourceHandler::MaybeStartReplay(bool* defer) { |
| // TODO(darin): Stop special-casing 304 responses. |
| if (!(response_->head.headers.get() && |
| response_->head.headers->response_code() == 304)) { |
| if (!SelectNextHandler(defer)) |
| return false; |
| - if (*defer) |
| - return true; |
| } |
| - state_ = STATE_REPLAYING; |
| + if (*defer) |
| + state_ = STATE_BUFFERING; |
| + else |
| + state_ = STATE_PROCESSING; |
| - if (!next_handler_->OnResponseStarted(response_.get(), defer)) |
| - return false; |
| + return true; |
| +} |
| - if (!read_buffer_.get()) { |
| - state_ = STATE_STREAMING; |
| - return true; |
| +bool MimeTypeResourceHandler::ReplayResponseReceived(bool* defer) { |
| + DCHECK(state_ == STATE_PROCESSING); |
| + state_ = STATE_REPLAYING_RESPONSE_RECEIVED; |
| + return next_handler_->OnResponseStarted(response_.get(), defer); |
| +} |
| + |
| +bool MimeTypeResourceHandler::ReplayResponseReceivedNewHandler(bool* defer) { |
| + DCHECK(state_ == STATE_REPLAYING_RESPONSE_RECEIVED); |
| + state_ = STATE_REPLAYING_RESPONSE_RECEIVED_NEW_HANDLER; |
| + if (new_leaf_handler_) |
| + return new_leaf_handler_->OnResponseStarted(response_.get(), defer); |
| + return true; |
| +} |
| + |
| +bool MimeTypeResourceHandler::ReplayReadCompleted(bool* defer) { |
| + DCHECK(state_ == STATE_REPLAYING_RESPONSE_RECEIVED_NEW_HANDLER); |
| + |
| + // First, install the new leaf ResourceHandler (if any), before calling |
| + // OnReadCompleted on the downstream ResourceHandlers. This should also take |
| + // care of delivering the payload for the old ResourceHandler. |
| + if (new_leaf_handler_) { |
| + // Copy the buffered data to the new leaf ResourceHandler if needed. |
| + if (read_buffer_.get()) { |
| + scoped_refptr<net::IOBuffer> new_buffer; |
| + int buf_len = 0; |
| + if (!new_leaf_handler_->OnWillRead(&new_buffer, &buf_len, bytes_read_)) |
| + return false; |
| + CHECK((buf_len >= bytes_read_) && (bytes_read_ >= 0)); |
| + memcpy(new_buffer->data(), read_buffer_->data(), bytes_read_); |
| + } |
| + LayeredResourceHandler::InstallNewLeafHandler(std::move(new_leaf_handler_), |
| + payload_for_old_handler_); |
| } |
| - if (!*defer) |
| - return ReplayReadCompleted(defer); |
| + state_ = STATE_STREAMING; |
| - return true; |
| + if (!read_buffer_.get()) |
| + return true; |
| + |
| + bool result = next_handler_->OnReadCompleted(bytes_read_, defer); |
| + |
| + read_buffer_ = NULL; |
| + read_buffer_size_ = 0; |
| + bytes_read_ = 0; |
| + |
| + return result; |
| } |
| bool MimeTypeResourceHandler::ShouldSniffContent() { |
| @@ -298,24 +389,6 @@ bool MimeTypeResourceHandler::ShouldSniffContent() { |
| return false; |
| } |
| -bool MimeTypeResourceHandler::DetermineMimeType() { |
| - DCHECK_EQ(STATE_BUFFERING, state_); |
| - |
| - const std::string& type_hint = response_->head.mime_type; |
| - |
| - std::string new_type; |
| - bool made_final_decision = |
| - net::SniffMimeType(read_buffer_->data(), bytes_read_, request()->url(), |
| - type_hint, &new_type); |
| - |
| - // SniffMimeType() returns false if there is not enough data to determine |
| - // the mime type. However, even if it returns false, it returns a new type |
| - // that is probably better than the current one. |
| - response_->head.mime_type.assign(new_type); |
| - |
| - return made_final_decision; |
| -} |
| - |
| bool MimeTypeResourceHandler::SelectPluginHandler(bool* defer, |
| bool* handled_by_plugin) { |
| *handled_by_plugin = false; |
| @@ -430,69 +503,9 @@ bool MimeTypeResourceHandler::UseAlternateNextHandler( |
| return false; |
| } |
| - // Inform the original ResourceHandler that this will be handled entirely by |
| - // the new ResourceHandler. |
| - // TODO(darin): We should probably check the return values of these. |
| - bool defer_ignored = false; |
| - next_handler_->OnResponseStarted(response_.get(), &defer_ignored); |
| - // Although deferring OnResponseStarted is legal, the only downstream handler |
| - // which does so is CrossSiteResourceHandler. Cross-site transitions should |
| - // not trigger when switching handlers. |
| - DCHECK(!defer_ignored); |
| - if (payload_for_old_handler.empty()) { |
| - net::URLRequestStatus status(net::URLRequestStatus::CANCELED, |
| - net::ERR_ABORTED); |
| - next_handler_->OnResponseCompleted(status, std::string(), &defer_ignored); |
| - DCHECK(!defer_ignored); |
| - } else { |
| - scoped_refptr<net::IOBuffer> buf; |
| - int size = 0; |
| - |
| - next_handler_->OnWillRead(&buf, &size, -1); |
| - CHECK_GE(size, static_cast<int>(payload_for_old_handler.length())); |
| + InstallNewLeafHandler(std::move(new_handler), payload_for_old_handler); |
| - memcpy(buf->data(), payload_for_old_handler.c_str(), |
| - payload_for_old_handler.length()); |
| - |
| - next_handler_->OnReadCompleted(payload_for_old_handler.length(), |
| - &defer_ignored); |
| - DCHECK(!defer_ignored); |
| - |
| - net::URLRequestStatus status(net::URLRequestStatus::SUCCESS, 0); |
| - next_handler_->OnResponseCompleted(status, std::string(), &defer_ignored); |
| - DCHECK(!defer_ignored); |
| - } |
| - |
| - // This is handled entirely within the new ResourceHandler, so just reset the |
| - // original ResourceHandler. |
| - next_handler_ = std::move(new_handler); |
| - next_handler_->SetController(this); |
| - |
| - return CopyReadBufferToNextHandler(); |
| -} |
| - |
| -bool MimeTypeResourceHandler::ReplayReadCompleted(bool* defer) { |
| - DCHECK(read_buffer_.get()); |
| - |
| - bool result = next_handler_->OnReadCompleted(bytes_read_, defer); |
| - |
| - read_buffer_ = NULL; |
| - read_buffer_size_ = 0; |
| - bytes_read_ = 0; |
| - |
| - state_ = STATE_STREAMING; |
| - |
| - return result; |
| -} |
| - |
| -void MimeTypeResourceHandler::CallReplayReadCompleted() { |
| - bool defer = false; |
| - if (!ReplayReadCompleted(&defer)) { |
| - controller()->Cancel(); |
| - } else if (!defer) { |
| - state_ = STATE_STREAMING; |
| - controller()->Resume(); |
| - } |
| + return true; |
| } |
| bool MimeTypeResourceHandler::MustDownload() { |
| @@ -517,25 +530,11 @@ bool MimeTypeResourceHandler::MustDownload() { |
| return must_download_; |
| } |
| -bool MimeTypeResourceHandler::CopyReadBufferToNextHandler() { |
| - if (!read_buffer_.get()) |
| - return true; |
| - |
| - scoped_refptr<net::IOBuffer> buf; |
| - int buf_len = 0; |
| - if (!next_handler_->OnWillRead(&buf, &buf_len, bytes_read_)) |
| - return false; |
| - |
| - CHECK((buf_len >= bytes_read_) && (bytes_read_ >= 0)); |
| - memcpy(buf->data(), read_buffer_->data(), bytes_read_); |
| - return true; |
| -} |
| - |
| void MimeTypeResourceHandler::OnPluginsLoaded( |
| const std::vector<WebPluginInfo>& plugins) { |
| request()->LogUnblocked(); |
| bool defer = false; |
| - if (!ProcessResponse(&defer)) { |
| + if (!ProcessReplay(&defer)) { |
| controller()->Cancel(); |
| } else if (!defer) { |
| controller()->Resume(); |
