// 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/spdy/spdy_test_util_spdy3.h" #include #include "base/basictypes.h" #include "base/compiler_specific.h" #include "base/string_number_conversions.h" #include "base/string_util.h" #include "net/cert/mock_cert_verifier.h" #include "net/http/http_network_session.h" #include "net/http/http_network_transaction.h" #include "net/http/http_server_properties_impl.h" #include "net/spdy/buffered_spdy_framer.h" #include "net/spdy/spdy_http_utils.h" #include "net/spdy/spdy_session.h" namespace net { namespace test_spdy3 { namespace { // Parses a URL into the scheme, host, and path components required for a // SPDY request. void ParseUrl(const char* const url, std::string* scheme, std::string* host, std::string* path) { GURL gurl(url); path->assign(gurl.PathForRequest()); scheme->assign(gurl.scheme()); host->assign(gurl.host()); if (gurl.has_port()) { host->append(":"); host->append(gurl.port()); } } } // namespace MockECSignatureCreator::MockECSignatureCreator(crypto::ECPrivateKey* key) : key_(key) { } bool MockECSignatureCreator::Sign(const uint8* data, int data_len, std::vector* signature) { std::vector private_key_value; key_->ExportValue(&private_key_value); std::string head = "fakesignature"; std::string tail = "/fakesignature"; signature->clear(); signature->insert(signature->end(), head.begin(), head.end()); signature->insert(signature->end(), private_key_value.begin(), private_key_value.end()); signature->insert(signature->end(), '-'); signature->insert(signature->end(), data, data + data_len); signature->insert(signature->end(), tail.begin(), tail.end()); return true; } bool MockECSignatureCreator::DecodeSignature( const std::vector& signature, std::vector* out_raw_sig) { *out_raw_sig = signature; return true; } MockECSignatureCreatorFactory::MockECSignatureCreatorFactory() { crypto::ECSignatureCreator::SetFactoryForTesting(this); } MockECSignatureCreatorFactory::~MockECSignatureCreatorFactory() { crypto::ECSignatureCreator::SetFactoryForTesting(NULL); } crypto::ECSignatureCreator* MockECSignatureCreatorFactory::Create( crypto::ECPrivateKey* key) { return new MockECSignatureCreator(key); } scoped_ptr ConstructGetHeaderBlock(base::StringPiece url) { std::string scheme, host, path; ParseUrl(url.data(), &scheme, &host, &path); const char* const headers[] = { ":method", "GET", ":path", path.c_str(), ":host", host.c_str(), ":scheme", scheme.c_str(), ":version", "HTTP/1.1" }; scoped_ptr header_block(new SpdyHeaderBlock()); AppendToHeaderBlock(headers, arraysize(headers) / 2, header_block.get()); return header_block.Pass(); } scoped_ptr ConstructPostHeaderBlock(base::StringPiece url, int64 content_length) { std::string scheme, host, path; ParseUrl(url.data(), &scheme, &host, &path); std::string length_str = base::Int64ToString(content_length); const char* const headers[] = { ":method", "POST", ":path", path.c_str(), ":host", host.c_str(), ":scheme", scheme.c_str(), ":version", "HTTP/1.1", "content-length", length_str.c_str() }; scoped_ptr header_block(new SpdyHeaderBlock()); AppendToHeaderBlock(headers, arraysize(headers) / 2, header_block.get()); return header_block.Pass(); } SpdyFrame* ConstructSpdyFrame(const SpdyHeaderInfo& header_info, scoped_ptr headers) { BufferedSpdyFramer framer(kSpdyVersion3, header_info.compressed); SpdyFrame* frame = NULL; switch (header_info.kind) { case SYN_STREAM: frame = framer.CreateSynStream(header_info.id, header_info.assoc_id, header_info.priority, header_info.credential_slot, header_info.control_flags, header_info.compressed, headers.get()); break; case SYN_REPLY: frame = framer.CreateSynReply(header_info.id, header_info.control_flags, header_info.compressed, headers.get()); break; case RST_STREAM: frame = framer.CreateRstStream(header_info.id, header_info.status); break; case HEADERS: frame = framer.CreateHeaders(header_info.id, header_info.control_flags, header_info.compressed, headers.get()); break; default: frame = framer.CreateDataFrame(header_info.id, header_info.data, header_info.data_length, header_info.data_flags); break; } return frame; } SpdyFrame* ConstructSpdyFrame(const SpdyHeaderInfo& header_info, const char* const extra_headers[], int extra_header_count, const char* const tail[], int tail_header_count) { scoped_ptr headers(new SpdyHeaderBlock()); AppendToHeaderBlock(extra_headers, extra_header_count, headers.get()); if (tail && tail_header_count) AppendToHeaderBlock(tail, tail_header_count, headers.get()); return ConstructSpdyFrame(header_info, headers.Pass()); } // Construct an expected SPDY SETTINGS frame. // |settings| are the settings to set. // Returns the constructed frame. The caller takes ownership of the frame. SpdyFrame* ConstructSpdySettings(const SettingsMap& settings) { BufferedSpdyFramer framer(3, false); return framer.CreateSettings(settings); } // Construct an expected SPDY CREDENTIAL frame. // |credential| is the credential to sen. // Returns the constructed frame. The caller takes ownership of the frame. SpdyFrame* ConstructSpdyCredential( const SpdyCredential& credential) { BufferedSpdyFramer framer(3, false); return framer.CreateCredentialFrame(credential); } // Construct a SPDY PING frame. // Returns the constructed frame. The caller takes ownership of the frame. SpdyFrame* ConstructSpdyPing(uint32 ping_id) { BufferedSpdyFramer framer(3, false); return framer.CreatePingFrame(ping_id); } // Construct a SPDY GOAWAY frame. // Returns the constructed frame. The caller takes ownership of the frame. SpdyFrame* ConstructSpdyGoAway() { BufferedSpdyFramer framer(3, false); return framer.CreateGoAway(0, GOAWAY_OK); } // Construct a SPDY WINDOW_UPDATE frame. // Returns the constructed frame. The caller takes ownership of the frame. SpdyFrame* ConstructSpdyWindowUpdate( const SpdyStreamId stream_id, uint32 delta_window_size) { BufferedSpdyFramer framer(3, false); return framer.CreateWindowUpdate(stream_id, delta_window_size); } // Construct a SPDY RST_STREAM frame. // Returns the constructed frame. The caller takes ownership of the frame. SpdyFrame* ConstructSpdyRstStream(SpdyStreamId stream_id, SpdyRstStreamStatus status) { BufferedSpdyFramer framer(3, false); return framer.CreateRstStream(stream_id, status); } // Construct a single SPDY header entry, for validation. // |extra_headers| are the extra header-value pairs. // |buffer| is the buffer we're filling in. // |index| is the index of the header we want. // Returns the number of bytes written into |buffer|. int ConstructSpdyHeader(const char* const extra_headers[], int extra_header_count, char* buffer, int buffer_length, int index) { const char* this_header = NULL; const char* this_value = NULL; if (!buffer || !buffer_length) return 0; *buffer = '\0'; // Sanity check: Non-empty header list. DCHECK(NULL != extra_headers) << "NULL extra headers pointer"; // Sanity check: Index out of range. DCHECK((index >= 0) && (index < extra_header_count)) << "Index " << index << " out of range [0, " << extra_header_count << ")"; this_header = extra_headers[index * 2]; // Sanity check: Non-empty header. if (!*this_header) return 0; std::string::size_type header_len = strlen(this_header); if (!header_len) return 0; this_value = extra_headers[1 + (index * 2)]; // Sanity check: Non-empty value. if (!*this_value) this_value = ""; int n = base::snprintf(buffer, buffer_length, "%s: %s\r\n", this_header, this_value); return n; } SpdyFrame* ConstructSpdyControlFrame(const char* const extra_headers[], int extra_header_count, bool compressed, int stream_id, RequestPriority request_priority, SpdyControlType type, SpdyControlFlags flags, const char* const* kHeaders, int kHeadersSize) { return ConstructSpdyControlFrame(extra_headers, extra_header_count, compressed, stream_id, request_priority, type, flags, kHeaders, kHeadersSize, 0); } SpdyFrame* ConstructSpdyControlFrame(const char* const extra_headers[], int extra_header_count, bool compressed, SpdyStreamId stream_id, RequestPriority request_priority, SpdyControlType type, SpdyControlFlags flags, const char* const* kHeaders, int kHeadersSize, SpdyStreamId associated_stream_id) { const SpdyHeaderInfo kSynStartHeader = { type, // Kind = Syn stream_id, // Stream ID associated_stream_id, // Associated stream ID ConvertRequestPriorityToSpdyPriority(request_priority, 3), // Priority 0, // Credential Slot flags, // Control Flags compressed, // Compressed RST_STREAM_INVALID, // Status NULL, // Data 0, // Length DATA_FLAG_NONE // Data Flags }; return ConstructSpdyFrame(kSynStartHeader, extra_headers, extra_header_count, kHeaders, kHeadersSize / 2); } // Constructs a standard SPDY GET SYN frame, optionally compressed // for the url |url|. // |extra_headers| are the extra header-value pairs, which typically // will vary the most between calls. // Returns a SpdyFrame. SpdyFrame* ConstructSpdyGet(const char* const url, bool compressed, SpdyStreamId stream_id, RequestPriority request_priority) { const SpdyHeaderInfo kSynStartHeader = { SYN_STREAM, // Kind = Syn stream_id, // Stream ID 0, // Associated stream ID ConvertRequestPriorityToSpdyPriority(request_priority, 3), // Priority 0, // Credential Slot CONTROL_FLAG_FIN, // Control Flags compressed, // Compressed RST_STREAM_INVALID, // Status NULL, // Data 0, // Length DATA_FLAG_NONE // Data Flags }; return ConstructSpdyFrame(kSynStartHeader, ConstructGetHeaderBlock(url)); } // Constructs a standard SPDY GET SYN frame, optionally compressed. // |extra_headers| are the extra header-value pairs, which typically // will vary the most between calls. // Returns a SpdyFrame. SpdyFrame* ConstructSpdyGet(const char* const extra_headers[], int extra_header_count, bool compressed, int stream_id, RequestPriority request_priority) { return ConstructSpdyGet(extra_headers, extra_header_count, compressed, stream_id, request_priority, true); } // Constructs a standard SPDY GET SYN frame, optionally compressed. // |extra_headers| are the extra header-value pairs, which typically // will vary the most between calls. // Returns a SpdyFrame. SpdyFrame* ConstructSpdyGet(const char* const extra_headers[], int extra_header_count, bool compressed, int stream_id, RequestPriority request_priority, bool direct) { const char* const kStandardGetHeaders[] = { ":method", "GET", ":host", "www.google.com", ":scheme", "http", ":version", "HTTP/1.1", ":path", (direct ? "/" : "/") }; return ConstructSpdyControlFrame(extra_headers, extra_header_count, compressed, stream_id, request_priority, SYN_STREAM, CONTROL_FLAG_FIN, kStandardGetHeaders, arraysize(kStandardGetHeaders)); } // Constructs a standard SPDY SYN_STREAM frame for a CONNECT request. SpdyFrame* ConstructSpdyConnect(const char* const extra_headers[], int extra_header_count, int stream_id) { const char* const kConnectHeaders[] = { ":method", "CONNECT", ":path", "www.google.com:443", ":host", "www.google.com", ":version", "HTTP/1.1", }; return ConstructSpdyControlFrame(extra_headers, extra_header_count, /*compressed*/ false, stream_id, LOWEST, SYN_STREAM, CONTROL_FLAG_NONE, kConnectHeaders, arraysize(kConnectHeaders)); } // Constructs a standard SPDY push SYN frame. // |extra_headers| are the extra header-value pairs, which typically // will vary the most between calls. // Returns a SpdyFrame. SpdyFrame* ConstructSpdyPush(const char* const extra_headers[], int extra_header_count, int stream_id, int associated_stream_id) { const char* const kStandardPushHeaders[] = { "hello", "bye", ":status", "200", ":version", "HTTP/1.1" }; return ConstructSpdyControlFrame(extra_headers, extra_header_count, false, stream_id, LOWEST, SYN_STREAM, CONTROL_FLAG_NONE, kStandardPushHeaders, arraysize(kStandardPushHeaders), associated_stream_id); } SpdyFrame* ConstructSpdyPush(const char* const extra_headers[], int extra_header_count, int stream_id, int associated_stream_id, const char* url) { std::string scheme, host, path; ParseUrl(url, &scheme, &host, &path); const char* const headers[] = { "hello", "bye", ":status", "200 OK", ":version", "HTTP/1.1", ":path", path.c_str(), ":host", host.c_str(), ":scheme", scheme.c_str(), }; return ConstructSpdyControlFrame(extra_headers, extra_header_count, false, stream_id, LOWEST, SYN_STREAM, CONTROL_FLAG_NONE, headers, arraysize(headers), associated_stream_id); } SpdyFrame* ConstructSpdyPush(const char* const extra_headers[], int extra_header_count, int stream_id, int associated_stream_id, const char* url, const char* status, const char* location) { std::string scheme, host, path; ParseUrl(url, &scheme, &host, &path); const char* const headers[] = { "hello", "bye", ":status", status, "location", location, ":path", path.c_str(), ":host", host.c_str(), ":scheme", scheme.c_str(), ":version", "HTTP/1.1" }; return ConstructSpdyControlFrame(extra_headers, extra_header_count, false, stream_id, LOWEST, SYN_STREAM, CONTROL_FLAG_NONE, headers, arraysize(headers), associated_stream_id); } SpdyFrame* ConstructSpdyPushHeaders(int stream_id, const char* const extra_headers[], int extra_header_count) { const char* const kStandardGetHeaders[] = { ":status", "200 OK", ":version", "HTTP/1.1" }; return ConstructSpdyControlFrame(extra_headers, extra_header_count, false, stream_id, LOWEST, HEADERS, CONTROL_FLAG_NONE, kStandardGetHeaders, arraysize(kStandardGetHeaders)); } // Constructs a standard SPDY SYN_REPLY frame with the specified status code. // Returns a SpdyFrame. SpdyFrame* ConstructSpdySynReplyError(const char* const status, const char* const* const extra_headers, int extra_header_count, int stream_id) { const char* const kStandardGetHeaders[] = { "hello", "bye", ":status", status, ":version", "HTTP/1.1" }; return ConstructSpdyControlFrame(extra_headers, extra_header_count, false, stream_id, LOWEST, SYN_REPLY, CONTROL_FLAG_NONE, kStandardGetHeaders, arraysize(kStandardGetHeaders)); } // Constructs a standard SPDY SYN_REPLY frame to match the SPDY GET. // |extra_headers| are the extra header-value pairs, which typically // will vary the most between calls. // Returns a SpdyFrame. SpdyFrame* ConstructSpdyGetSynReplyRedirect(int stream_id) { static const char* const kExtraHeaders[] = { "location", "http://www.foo.com/index.php", }; return ConstructSpdySynReplyError("301 Moved Permanently", kExtraHeaders, arraysize(kExtraHeaders)/2, stream_id); } // Constructs a standard SPDY SYN_REPLY frame with an Internal Server // Error status code. // Returns a SpdyFrame. SpdyFrame* ConstructSpdySynReplyError(int stream_id) { return ConstructSpdySynReplyError("500 Internal Server Error", NULL, 0, 1); } // Constructs a standard SPDY SYN_REPLY frame to match the SPDY GET. // |extra_headers| are the extra header-value pairs, which typically // will vary the most between calls. // Returns a SpdyFrame. SpdyFrame* ConstructSpdyGetSynReply(const char* const extra_headers[], int extra_header_count, int stream_id) { static const char* const kStandardGetHeaders[] = { "hello", "bye", ":status", "200", ":version", "HTTP/1.1" }; return ConstructSpdyControlFrame(extra_headers, extra_header_count, false, stream_id, LOWEST, SYN_REPLY, CONTROL_FLAG_NONE, kStandardGetHeaders, arraysize(kStandardGetHeaders)); } // Constructs a standard SPDY POST SYN frame. // |content_length| is the size of post data. // |extra_headers| are the extra header-value pairs, which typically // will vary the most between calls. // Returns a SpdyFrame. SpdyFrame* ConstructSpdyPost(const char* url, SpdyStreamId stream_id, int64 content_length, RequestPriority priority, const char* const extra_headers[], int extra_header_count) { const SpdyHeaderInfo kSynStartHeader = { SYN_STREAM, // Kind = Syn stream_id, // Stream ID 0, // Associated stream ID ConvertRequestPriorityToSpdyPriority(priority, kSpdyVersion3), // Priority 0, // Credential Slot CONTROL_FLAG_NONE, // Control Flags false, // Compressed RST_STREAM_INVALID, // Status NULL, // Data 0, // Length DATA_FLAG_NONE // Data Flags }; return ConstructSpdyFrame( kSynStartHeader, ConstructPostHeaderBlock(url, content_length)); } // Constructs a chunked transfer SPDY POST SYN frame. // |extra_headers| are the extra header-value pairs, which typically // will vary the most between calls. // Returns a SpdyFrame. SpdyFrame* ConstructChunkedSpdyPost(const char* const extra_headers[], int extra_header_count) { const char* post_headers[] = { ":method", "POST", ":path", "/", ":host", "www.google.com", ":scheme", "http", ":version", "HTTP/1.1" }; return ConstructSpdyControlFrame(extra_headers, extra_header_count, false, 1, LOWEST, SYN_STREAM, CONTROL_FLAG_NONE, post_headers, arraysize(post_headers)); } // Constructs a standard SPDY SYN_REPLY frame to match the SPDY POST. // |extra_headers| are the extra header-value pairs, which typically // will vary the most between calls. // Returns a SpdyFrame. SpdyFrame* ConstructSpdyPostSynReply(const char* const extra_headers[], int extra_header_count) { static const char* const kStandardGetHeaders[] = { "hello", "bye", ":status", "200", "url", "/index.php", ":version", "HTTP/1.1" }; return ConstructSpdyControlFrame(extra_headers, extra_header_count, false, 1, LOWEST, SYN_REPLY, CONTROL_FLAG_NONE, kStandardGetHeaders, arraysize(kStandardGetHeaders)); } // Constructs a single SPDY data frame with the default contents. SpdyFrame* ConstructSpdyBodyFrame(int stream_id, bool fin) { BufferedSpdyFramer framer(3, false); return framer.CreateDataFrame( stream_id, kUploadData, kUploadDataSize, fin ? DATA_FLAG_FIN : DATA_FLAG_NONE); } // Constructs a single SPDY data frame with the given content. SpdyFrame* ConstructSpdyBodyFrame(int stream_id, const char* data, uint32 len, bool fin) { BufferedSpdyFramer framer(3, false); return framer.CreateDataFrame( stream_id, data, len, fin ? DATA_FLAG_FIN : DATA_FLAG_NONE); } // Wraps |frame| in the payload of a data frame in stream |stream_id|. SpdyFrame* ConstructWrappedSpdyFrame(const scoped_ptr& frame, int stream_id) { return ConstructSpdyBodyFrame(stream_id, frame->data(), frame->size(), false); } // Construct an expected SPDY reply string. // |extra_headers| are the extra header-value pairs, which typically // will vary the most between calls. // |buffer| is the buffer we're filling in. // Returns the number of bytes written into |buffer|. int ConstructSpdyReplyString(const char* const extra_headers[], int extra_header_count, char* buffer, int buffer_length) { int frame_size = 0; char* buffer_write = buffer; int buffer_left = buffer_length; SpdyHeaderBlock headers; if (!buffer || !buffer_length) return 0; // Copy in the extra headers. AppendToHeaderBlock(extra_headers, extra_header_count, &headers); // The iterator gets us the list of header/value pairs in sorted order. SpdyHeaderBlock::iterator next = headers.begin(); SpdyHeaderBlock::iterator last = headers.end(); for ( ; next != last; ++next) { // Write the header. int value_len, current_len, offset; const char* header_string = next->first.c_str(); if (header_string && header_string[0] == ':') header_string++; frame_size += AppendToBuffer(header_string, strlen(header_string), &buffer_write, &buffer_left); frame_size += AppendToBuffer(": ", strlen(": "), &buffer_write, &buffer_left); // Write the value(s). const char* value_string = next->second.c_str(); // Check if it's split among two or more values. value_len = next->second.length(); current_len = strlen(value_string); offset = 0; // Handle the first N-1 values. while (current_len < value_len) { // Finish this line -- write the current value. frame_size += AppendToBuffer(value_string + offset, current_len - offset, &buffer_write, &buffer_left); frame_size += AppendToBuffer("\n", strlen("\n"), &buffer_write, &buffer_left); // Advance to next value. offset = current_len + 1; current_len += 1 + strlen(value_string + offset); // Start another line -- add the header again. frame_size += AppendToBuffer(header_string, next->first.length(), &buffer_write, &buffer_left); frame_size += AppendToBuffer(": ", strlen(": "), &buffer_write, &buffer_left); } EXPECT_EQ(value_len, current_len); // Copy the last (or only) value. frame_size += AppendToBuffer(value_string + offset, value_len - offset, &buffer_write, &buffer_left); frame_size += AppendToBuffer("\n", strlen("\n"), &buffer_write, &buffer_left); } return frame_size; } SpdySessionDependencies::SpdySessionDependencies() : host_resolver(new MockCachingHostResolver), cert_verifier(new MockCertVerifier), proxy_service(ProxyService::CreateDirect()), ssl_config_service(new SSLConfigServiceDefaults), socket_factory(new MockClientSocketFactory), deterministic_socket_factory(new DeterministicMockClientSocketFactory), http_auth_handler_factory( HttpAuthHandlerFactory::CreateDefault(host_resolver.get())), enable_ip_pooling(true), enable_compression(false), enable_ping(false), enable_user_alternate_protocol_ports(false), enable_spdy_31(false), stream_initial_recv_window_size(kSpdyStreamInitialWindowSize), time_func(&base::TimeTicks::Now), net_log(NULL) { // Note: The CancelledTransaction test does cleanup by running all // tasks in the message loop (RunAllPending). Unfortunately, that // doesn't clean up tasks on the host resolver thread; and // TCPConnectJob is currently not cancellable. Using synchronous // lookups allows the test to shutdown cleanly. Until we have // cancellable TCPConnectJobs, use synchronous lookups. host_resolver->set_synchronous_mode(true); } SpdySessionDependencies::SpdySessionDependencies(ProxyService* proxy_service) : host_resolver(new MockHostResolver), cert_verifier(new MockCertVerifier), proxy_service(proxy_service), ssl_config_service(new SSLConfigServiceDefaults), socket_factory(new MockClientSocketFactory), deterministic_socket_factory(new DeterministicMockClientSocketFactory), http_auth_handler_factory( HttpAuthHandlerFactory::CreateDefault(host_resolver.get())), enable_ip_pooling(true), enable_compression(false), enable_ping(false), enable_user_alternate_protocol_ports(false), enable_spdy_31(false), stream_initial_recv_window_size(kSpdyStreamInitialWindowSize), time_func(&base::TimeTicks::Now), net_log(NULL) {} SpdySessionDependencies::~SpdySessionDependencies() {} // static HttpNetworkSession* SpdySessionDependencies::SpdyCreateSession( SpdySessionDependencies* session_deps) { net::HttpNetworkSession::Params params = CreateSessionParams(session_deps); params.client_socket_factory = session_deps->socket_factory.get(); HttpNetworkSession* http_session = new HttpNetworkSession(params); SpdySessionPoolPeer pool_peer(http_session->spdy_session_pool()); pool_peer.EnableSendingInitialSettings(false); return http_session; } // static HttpNetworkSession* SpdySessionDependencies::SpdyCreateSessionDeterministic( SpdySessionDependencies* session_deps) { net::HttpNetworkSession::Params params = CreateSessionParams(session_deps); params.client_socket_factory = session_deps->deterministic_socket_factory.get(); HttpNetworkSession* http_session = new HttpNetworkSession(params); SpdySessionPoolPeer pool_peer(http_session->spdy_session_pool()); pool_peer.EnableSendingInitialSettings(false); return http_session; } // static net::HttpNetworkSession::Params SpdySessionDependencies::CreateSessionParams( SpdySessionDependencies* session_deps) { net::HttpNetworkSession::Params params; params.host_resolver = session_deps->host_resolver.get(); params.cert_verifier = session_deps->cert_verifier.get(); params.proxy_service = session_deps->proxy_service.get(); params.ssl_config_service = session_deps->ssl_config_service; params.http_auth_handler_factory = session_deps->http_auth_handler_factory.get(); params.http_server_properties = &session_deps->http_server_properties; params.enable_spdy_compression = session_deps->enable_compression; params.enable_spdy_ping_based_connection_checking = session_deps->enable_ping; params.enable_user_alternate_protocol_ports = session_deps->enable_user_alternate_protocol_ports; params.spdy_default_protocol = session_deps->enable_spdy_31 ? kProtoSPDY31 : kProtoSPDY3; params.spdy_stream_initial_recv_window_size = session_deps->stream_initial_recv_window_size; params.time_func = session_deps->time_func; params.trusted_spdy_proxy = session_deps->trusted_spdy_proxy; params.net_log = session_deps->net_log; return params; } SpdyURLRequestContext::SpdyURLRequestContext() : ALLOW_THIS_IN_INITIALIZER_LIST(storage_(this)) { storage_.set_host_resolver(scoped_ptr(new MockHostResolver)); storage_.set_cert_verifier(new MockCertVerifier); storage_.set_proxy_service(ProxyService::CreateDirect()); storage_.set_ssl_config_service(new SSLConfigServiceDefaults); storage_.set_http_auth_handler_factory(HttpAuthHandlerFactory::CreateDefault( host_resolver())); storage_.set_http_server_properties(new HttpServerPropertiesImpl); net::HttpNetworkSession::Params params; params.client_socket_factory = &socket_factory_; params.host_resolver = host_resolver(); params.cert_verifier = cert_verifier(); params.proxy_service = proxy_service(); params.ssl_config_service = ssl_config_service(); params.http_auth_handler_factory = http_auth_handler_factory(); params.network_delegate = network_delegate(); params.enable_spdy_compression = false; params.enable_spdy_ping_based_connection_checking = false; params.spdy_default_protocol = kProtoSPDY3; params.http_server_properties = http_server_properties(); scoped_refptr network_session( new HttpNetworkSession(params)); SpdySessionPoolPeer pool_peer(network_session->spdy_session_pool()); pool_peer.EnableSendingInitialSettings(false); storage_.set_http_transaction_factory(new HttpCache( network_session, HttpCache::DefaultBackend::InMemory(0))); } SpdyURLRequestContext::~SpdyURLRequestContext() { } const SpdyHeaderInfo MakeSpdyHeader(SpdyControlType type) { const SpdyHeaderInfo kHeader = { type, // Kind = Syn 1, // Stream ID 0, // Associated stream ID ConvertRequestPriorityToSpdyPriority(LOWEST, 3), // Priority 0, // Credential Slot CONTROL_FLAG_FIN, // Control Flags false, // Compressed RST_STREAM_INVALID, // Status NULL, // Data 0, // Length DATA_FLAG_NONE // Data Flags }; return kHeader; } } // namespace test_spdy3 } // namespace net