third_party/WebKit/Source/modules/fetch/FetchResponseData.cpp - chromium/src - Git at Google

 // Copyright 2014 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 "modules/fetch/FetchResponseData.h"

 #include "core/typed_arrays/DOMArrayBuffer.h"
 #include "modules/fetch/BodyStreamBuffer.h"
 #include "modules/fetch/FetchHeaderList.h"
 #include "platform/bindings/ScriptState.h"
 #include "platform/loader/fetch/FetchUtils.h"
 #include "platform/network/http_names.h"
 #include "platform/wtf/PtrUtil.h"
 #include "public/platform/modules/serviceworker/WebServiceWorkerResponse.h"

 using Type = network::mojom::FetchResponseType;

 namespace blink {

 namespace {

 WebVector<WebString> HeaderSetToWebVector(const WebHTTPHeaderSet& headers) {
   // Can't just pass *headers to the WebVector constructor because HashSet
   // iterators are not stl iterator compatible.
   WebVector<WebString> result(static_cast<size_t>(headers.size()));
   int idx = 0;
   for (const auto& header : headers)
     result[idx++] = WebString::FromASCII(header);
   return result;
 }

 }  // namespace

 FetchResponseData* FetchResponseData::Create() {
   // "Unless stated otherwise, a response's url is null, status is 200, status
   // message is `OK`, header list is an empty header list, and body is null."
   return new FetchResponseData(Type::kDefault, 200, "OK");
 }

 FetchResponseData* FetchResponseData::CreateNetworkErrorResponse() {
   // "A network error is a response whose status is always 0, status message
   // is always the empty byte sequence, header list is aways an empty list,
   // and body is always null."
   return new FetchResponseData(Type::kError, 0, "");
 }

 FetchResponseData* FetchResponseData::CreateWithBuffer(
     BodyStreamBuffer* buffer) {
   FetchResponseData* response = FetchResponseData::Create();
   response->buffer_ = buffer;
   return response;
 }

 FetchResponseData* FetchResponseData::CreateBasicFilteredResponse() const {
   DCHECK_EQ(type_, Type::kDefault);
   // "A basic filtered response is a filtered response whose type is |basic|,
   // header list excludes any headers in internal response's header list whose
   // name is `Set-Cookie` or `Set-Cookie2`."
   FetchResponseData* response =
       new FetchResponseData(Type::kBasic, status_, status_message_);
   response->SetURLList(url_list_);
   for (const auto& header : header_list_->List()) {
     if (FetchUtils::IsForbiddenResponseHeaderName(header.first))
       continue;
     response->header_list_->Append(header.first, header.second);
   }
   response->buffer_ = buffer_;
   response->mime_type_ = mime_type_;
   response->internal_response_ = const_cast<FetchResponseData*>(this);
   return response;
 }

 FetchResponseData* FetchResponseData::CreateCORSFilteredResponse(
     const WebHTTPHeaderSet& exposed_headers) const {
   DCHECK_EQ(type_, Type::kDefault);
   // "A CORS filtered response is a filtered response whose type is |CORS|,
   // header list excludes all headers in internal response's header list,
   // except those whose name is either one of `Cache-Control`,
   // `Content-Language`, `Content-Type`, `Expires`, `Last-Modified`, and
   // `Pragma`, and except those whose name is one of the values resulting from
   // parsing `Access-Control-Expose-Headers` in internal response's header
   // list."
   FetchResponseData* response =
       new FetchResponseData(Type::kCORS, status_, status_message_);
   response->SetURLList(url_list_);
   for (const auto& header : header_list_->List()) {
     const String& name = header.first;
     if (WebCORS::IsOnAccessControlResponseHeaderWhitelist(name) ||
         (exposed_headers.find(name.Ascii().data()) != exposed_headers.end() &&
          !FetchUtils::IsForbiddenResponseHeaderName(name))) {
       response->header_list_->Append(name, header.second);
     }
   }
   response->cors_exposed_header_names_ = exposed_headers;
   response->buffer_ = buffer_;
   response->mime_type_ = mime_type_;
   response->internal_response_ = const_cast<FetchResponseData*>(this);
   return response;
 }

 FetchResponseData* FetchResponseData::CreateOpaqueFilteredResponse() const {
   DCHECK_EQ(type_, Type::kDefault);
   // "An opaque filtered response is a filtered response whose type is
   // 'opaque', url list is the empty list, status is 0, status message is the
   // empty byte sequence, header list is the empty list, body is null, and
   // cache state is 'none'."
   //
   // https://fetch.spec.whatwg.org/#concept-filtered-response-opaque
   FetchResponseData* response = new FetchResponseData(Type::kOpaque, 0, "");
   response->internal_response_ = const_cast<FetchResponseData*>(this);
   return response;
 }

 FetchResponseData* FetchResponseData::CreateOpaqueRedirectFilteredResponse()
     const {
   DCHECK_EQ(type_, Type::kDefault);
   // "An opaque filtered response is a filtered response whose type is
   // 'opaqueredirect', status is 0, status message is the empty byte sequence,
   // header list is the empty list, body is null, and cache state is 'none'."
   //
   // https://fetch.spec.whatwg.org/#concept-filtered-response-opaque-redirect
   FetchResponseData* response =
       new FetchResponseData(Type::kOpaqueRedirect, 0, "");
   response->SetURLList(url_list_);
   response->internal_response_ = const_cast<FetchResponseData*>(this);
   return response;
 }

 const KURL* FetchResponseData::Url() const {
   // "A response has an associated url. It is a pointer to the last response URL
   // in response’s url list and null if response’s url list is the empty list."
   if (url_list_.IsEmpty())
     return nullptr;
   return &url_list_.back();
 }

 String FetchResponseData::MimeType() const {
   return mime_type_;
 }

 BodyStreamBuffer* FetchResponseData::InternalBuffer() const {
   if (internal_response_) {
     return internal_response_->buffer_;
   }
   return buffer_;
 }

 String FetchResponseData::InternalMIMEType() const {
   if (internal_response_) {
     return internal_response_->MimeType();
   }
   return mime_type_;
 }

 void FetchResponseData::SetURLList(const Vector<KURL>& url_list) {
   url_list_ = url_list;
 }

 const Vector<KURL>& FetchResponseData::InternalURLList() const {
   if (internal_response_) {
     return internal_response_->url_list_;
   }
   return url_list_;
 }

 FetchResponseData* FetchResponseData::Clone(ScriptState* script_state) {
   FetchResponseData* new_response = Create();
   new_response->type_ = type_;
   if (termination_reason_) {
     new_response->termination_reason_ = WTF::WrapUnique(new TerminationReason);
     *new_response->termination_reason_ = *termination_reason_;
   }
   new_response->SetURLList(url_list_);
   new_response->status_ = status_;
   new_response->status_message_ = status_message_;
   new_response->header_list_ = header_list_->Clone();
   new_response->mime_type_ = mime_type_;
   new_response->response_time_ = response_time_;
   new_response->cache_storage_cache_name_ = cache_storage_cache_name_;
   new_response->cors_exposed_header_names_ = cors_exposed_header_names_;

   switch (type_) {
     case Type::kBasic:
     case Type::kCORS:
       DCHECK(internal_response_);
       DCHECK_EQ(buffer_, internal_response_->buffer_);
       DCHECK_EQ(internal_response_->type_, Type::kDefault);
       new_response->internal_response_ =
           internal_response_->Clone(script_state);
       buffer_ = internal_response_->buffer_;
       new_response->buffer_ = new_response->internal_response_->buffer_;
       break;
     case Type::kDefault: {
       DCHECK(!internal_response_);
       if (buffer_) {
         BodyStreamBuffer* new1 = nullptr;
         BodyStreamBuffer* new2 = nullptr;
         buffer_->Tee(&new1, &new2);
         buffer_ = new1;
         new_response->buffer_ = new2;
       }
       break;
     }
     case Type::kError:
       DCHECK(!internal_response_);
       DCHECK(!buffer_);
       break;
     case Type::kOpaque:
     case Type::kOpaqueRedirect:
       DCHECK(internal_response_);
       DCHECK(!buffer_);
       DCHECK_EQ(internal_response_->type_, Type::kDefault);
       new_response->internal_response_ =
           internal_response_->Clone(script_state);
       break;
   }
   return new_response;
 }

 void FetchResponseData::PopulateWebServiceWorkerResponse(
     WebServiceWorkerResponse& response) {
   if (internal_response_) {
     internal_response_->PopulateWebServiceWorkerResponse(response);
     response.SetResponseType(type_);
     response.SetCorsExposedHeaderNames(
         HeaderSetToWebVector(cors_exposed_header_names_));
     return;
   }
   response.SetURLList(url_list_);
   response.SetStatus(Status());
   response.SetStatusText(StatusMessage());
   response.SetResponseType(type_);
   response.SetResponseTime(ResponseTime());
   response.SetCacheStorageCacheName(CacheStorageCacheName());
   response.SetCorsExposedHeaderNames(
       HeaderSetToWebVector(cors_exposed_header_names_));
   for (const auto& header : HeaderList()->List()) {
     response.AppendHeader(header.first, header.second);
   }
 }

 FetchResponseData::FetchResponseData(Type type,
                                      unsigned short status,
                                      AtomicString status_message)
     : type_(type),
       status_(status),
       status_message_(status_message),
       header_list_(FetchHeaderList::Create()) {}

 void FetchResponseData::ReplaceBodyStreamBuffer(BodyStreamBuffer* buffer) {
   if (type_ == Type::kBasic || type_ == Type::kCORS) {
     DCHECK(internal_response_);
     internal_response_->buffer_ = buffer;
     buffer_ = buffer;
   } else if (type_ == Type::kDefault) {
     DCHECK(!internal_response_);
     buffer_ = buffer;
   }
 }

 void FetchResponseData::Trace(blink::Visitor* visitor) {
   visitor->Trace(header_list_);
   visitor->Trace(internal_response_);
   visitor->Trace(buffer_);
 }

 }  // namespace blink
	// Copyright 2014 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 "modules/fetch/FetchResponseData.h"

	#include "core/typed_arrays/DOMArrayBuffer.h"
	#include "modules/fetch/BodyStreamBuffer.h"
	#include "modules/fetch/FetchHeaderList.h"
	#include "platform/bindings/ScriptState.h"
	#include "platform/loader/fetch/FetchUtils.h"
	#include "platform/network/http_names.h"
	#include "platform/wtf/PtrUtil.h"
	#include "public/platform/modules/serviceworker/WebServiceWorkerResponse.h"

	using Type = network::mojom::FetchResponseType;

	namespace blink {

	namespace {

	WebVector<WebString> HeaderSetToWebVector(const WebHTTPHeaderSet& headers) {
	// Can't just pass *headers to the WebVector constructor because HashSet
	// iterators are not stl iterator compatible.
	WebVector<WebString> result(static_cast<size_t>(headers.size()));
	int idx = 0;
	for (const auto& header : headers)
	result[idx++] = WebString::FromASCII(header);
	return result;
	}

	} // namespace

	FetchResponseData* FetchResponseData::Create() {
	// "Unless stated otherwise, a response's url is null, status is 200, status
	// message is `OK`, header list is an empty header list, and body is null."
	return new FetchResponseData(Type::kDefault, 200, "OK");
	}

	FetchResponseData* FetchResponseData::CreateNetworkErrorResponse() {
	// "A network error is a response whose status is always 0, status message
	// is always the empty byte sequence, header list is aways an empty list,
	// and body is always null."
	return new FetchResponseData(Type::kError, 0, "");
	}

	FetchResponseData* FetchResponseData::CreateWithBuffer(
	BodyStreamBuffer* buffer) {
	FetchResponseData* response = FetchResponseData::Create();
	response->buffer_ = buffer;
	return response;
	}

	FetchResponseData* FetchResponseData::CreateBasicFilteredResponse() const {
	DCHECK_EQ(type_, Type::kDefault);
	// "A basic filtered response is a filtered response whose type is \|basic\|,
	// header list excludes any headers in internal response's header list whose
	// name is `Set-Cookie` or `Set-Cookie2`."
	FetchResponseData* response =
	new FetchResponseData(Type::kBasic, status_, status_message_);
	response->SetURLList(url_list_);
	for (const auto& header : header_list_->List()) {
	if (FetchUtils::IsForbiddenResponseHeaderName(header.first))
	continue;
	response->header_list_->Append(header.first, header.second);
	}
	response->buffer_ = buffer_;
	response->mime_type_ = mime_type_;
	response->internal_response_ = const_cast<FetchResponseData*>(this);
	return response;
	}

	FetchResponseData* FetchResponseData::CreateCORSFilteredResponse(
	const WebHTTPHeaderSet& exposed_headers) const {
	DCHECK_EQ(type_, Type::kDefault);
	// "A CORS filtered response is a filtered response whose type is \|CORS\|,
	// header list excludes all headers in internal response's header list,
	// except those whose name is either one of `Cache-Control`,
	// `Content-Language`, `Content-Type`, `Expires`, `Last-Modified`, and
	// `Pragma`, and except those whose name is one of the values resulting from
	// parsing `Access-Control-Expose-Headers` in internal response's header
	// list."
	FetchResponseData* response =
	new FetchResponseData(Type::kCORS, status_, status_message_);
	response->SetURLList(url_list_);
	for (const auto& header : header_list_->List()) {
	const String& name = header.first;
	if (WebCORS::IsOnAccessControlResponseHeaderWhitelist(name) \|\|
	(exposed_headers.find(name.Ascii().data()) != exposed_headers.end() &&
	!FetchUtils::IsForbiddenResponseHeaderName(name))) {
	response->header_list_->Append(name, header.second);
	}
	}
	response->cors_exposed_header_names_ = exposed_headers;
	response->buffer_ = buffer_;
	response->mime_type_ = mime_type_;
	response->internal_response_ = const_cast<FetchResponseData*>(this);
	return response;
	}

	FetchResponseData* FetchResponseData::CreateOpaqueFilteredResponse() const {
	DCHECK_EQ(type_, Type::kDefault);
	// "An opaque filtered response is a filtered response whose type is
	// 'opaque', url list is the empty list, status is 0, status message is the
	// empty byte sequence, header list is the empty list, body is null, and
	// cache state is 'none'."
	//
	// https://fetch.spec.whatwg.org/#concept-filtered-response-opaque
	FetchResponseData* response = new FetchResponseData(Type::kOpaque, 0, "");
	response->internal_response_ = const_cast<FetchResponseData*>(this);
	return response;
	}

	FetchResponseData* FetchResponseData::CreateOpaqueRedirectFilteredResponse()
	const {
	DCHECK_EQ(type_, Type::kDefault);
	// "An opaque filtered response is a filtered response whose type is
	// 'opaqueredirect', status is 0, status message is the empty byte sequence,
	// header list is the empty list, body is null, and cache state is 'none'."
	//
	// https://fetch.spec.whatwg.org/#concept-filtered-response-opaque-redirect
	FetchResponseData* response =
	new FetchResponseData(Type::kOpaqueRedirect, 0, "");
	response->SetURLList(url_list_);
	response->internal_response_ = const_cast<FetchResponseData*>(this);
	return response;
	}

	const KURL* FetchResponseData::Url() const {
	// "A response has an associated url. It is a pointer to the last response URL
	// in response’s url list and null if response’s url list is the empty list."
	if (url_list_.IsEmpty())
	return nullptr;
	return &url_list_.back();
	}

	String FetchResponseData::MimeType() const {
	return mime_type_;
	}

	BodyStreamBuffer* FetchResponseData::InternalBuffer() const {
	if (internal_response_) {
	return internal_response_->buffer_;
	}
	return buffer_;
	}

	String FetchResponseData::InternalMIMEType() const {
	if (internal_response_) {
	return internal_response_->MimeType();
	}
	return mime_type_;
	}

	void FetchResponseData::SetURLList(const Vector<KURL>& url_list) {
	url_list_ = url_list;
	}

	const Vector<KURL>& FetchResponseData::InternalURLList() const {
	if (internal_response_) {
	return internal_response_->url_list_;
	}
	return url_list_;
	}

	FetchResponseData* FetchResponseData::Clone(ScriptState* script_state) {
	FetchResponseData* new_response = Create();
	new_response->type_ = type_;
	if (termination_reason_) {
	new_response->termination_reason_ = WTF::WrapUnique(new TerminationReason);
	new_response->termination_reason_ = termination_reason_;
	}
	new_response->SetURLList(url_list_);
	new_response->status_ = status_;
	new_response->status_message_ = status_message_;
	new_response->header_list_ = header_list_->Clone();
	new_response->mime_type_ = mime_type_;
	new_response->response_time_ = response_time_;
	new_response->cache_storage_cache_name_ = cache_storage_cache_name_;
	new_response->cors_exposed_header_names_ = cors_exposed_header_names_;

	switch (type_) {
	case Type::kBasic:
	case Type::kCORS:
	DCHECK(internal_response_);
	DCHECK_EQ(buffer_, internal_response_->buffer_);
	DCHECK_EQ(internal_response_->type_, Type::kDefault);
	new_response->internal_response_ =
	internal_response_->Clone(script_state);
	buffer_ = internal_response_->buffer_;
	new_response->buffer_ = new_response->internal_response_->buffer_;
	break;
	case Type::kDefault: {
	DCHECK(!internal_response_);
	if (buffer_) {
	BodyStreamBuffer* new1 = nullptr;
	BodyStreamBuffer* new2 = nullptr;
	buffer_->Tee(&new1, &new2);
	buffer_ = new1;
	new_response->buffer_ = new2;
	}
	break;
	}
	case Type::kError:
	DCHECK(!internal_response_);
	DCHECK(!buffer_);
	break;
	case Type::kOpaque:
	case Type::kOpaqueRedirect:
	DCHECK(internal_response_);
	DCHECK(!buffer_);
	DCHECK_EQ(internal_response_->type_, Type::kDefault);
	new_response->internal_response_ =
	internal_response_->Clone(script_state);
	break;
	}
	return new_response;
	}

	void FetchResponseData::PopulateWebServiceWorkerResponse(
	WebServiceWorkerResponse& response) {
	if (internal_response_) {
	internal_response_->PopulateWebServiceWorkerResponse(response);
	response.SetResponseType(type_);
	response.SetCorsExposedHeaderNames(
	HeaderSetToWebVector(cors_exposed_header_names_));
	return;
	}
	response.SetURLList(url_list_);
	response.SetStatus(Status());
	response.SetStatusText(StatusMessage());
	response.SetResponseType(type_);
	response.SetResponseTime(ResponseTime());
	response.SetCacheStorageCacheName(CacheStorageCacheName());
	response.SetCorsExposedHeaderNames(
	HeaderSetToWebVector(cors_exposed_header_names_));
	for (const auto& header : HeaderList()->List()) {
	response.AppendHeader(header.first, header.second);
	}
	}

	FetchResponseData::FetchResponseData(Type type,
	unsigned short status,
	AtomicString status_message)
	: type_(type),
	status_(status),
	status_message_(status_message),
	header_list_(FetchHeaderList::Create()) {}

	void FetchResponseData::ReplaceBodyStreamBuffer(BodyStreamBuffer* buffer) {
	if (type_ == Type::kBasic \|\| type_ == Type::kCORS) {
	DCHECK(internal_response_);
	internal_response_->buffer_ = buffer;
	buffer_ = buffer;
	} else if (type_ == Type::kDefault) {
	DCHECK(!internal_response_);
	buffer_ = buffer;
	}
	}

	void FetchResponseData::Trace(blink::Visitor* visitor) {
	visitor->Trace(header_list_);
	visitor->Trace(internal_response_);
	visitor->Trace(buffer_);
	}

	} // namespace blink