// Copyright (c) 2013 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_common.h" #include #include #include "base/base64.h" #include "base/compiler_specific.h" #include "base/logging.h" #include "base/strings/string_number_conversions.h" #include "base/strings/string_split.h" #include "net/base/host_port_pair.h" #include "net/cert/ct_policy_enforcer.h" #include "net/cert/ct_policy_status.h" #include "net/cert/do_nothing_ct_verifier.h" #include "net/cert/mock_cert_verifier.h" #include "net/cert/signed_certificate_timestamp_and_status.h" #include "net/http/http_cache.h" #include "net/http/http_network_transaction.h" #include "net/log/net_log_with_source.h" #include "net/socket/client_socket_handle.h" #include "net/socket/next_proto.h" #include "net/socket/socket_tag.h" #include "net/socket/ssl_client_socket.h" #include "net/socket/transport_client_socket_pool.h" #include "net/spdy/buffered_spdy_framer.h" #include "net/spdy/spdy_http_utils.h" #include "net/spdy/spdy_session_pool.h" #include "net/spdy/spdy_stream.h" #include "net/test/gtest_util.h" #include "net/third_party/spdy/core/spdy_alt_svc_wire_format.h" #include "net/third_party/spdy/core/spdy_framer.h" #include "net/traffic_annotation/network_traffic_annotation_test_helper.h" #include "net/url_request/url_request_job_factory_impl.h" #include "testing/gmock/include/gmock/gmock.h" using net::test::IsError; using net::test::IsOk; namespace net { namespace { // Parses a URL into the scheme, host, and path components required for a // SPDY request. void ParseUrl(base::StringPiece 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 // Chop a frame into an array of MockWrites. // |frame| is the frame to chop. // |num_chunks| is the number of chunks to create. std::unique_ptr ChopWriteFrame( const spdy::SpdySerializedFrame& frame, int num_chunks) { auto chunks = std::make_unique(num_chunks); int chunk_size = frame.size() / num_chunks; for (int index = 0; index < num_chunks; index++) { const char* ptr = frame.data() + (index * chunk_size); if (index == num_chunks - 1) chunk_size += frame.size() % chunk_size; // The last chunk takes the remainder. chunks[index] = MockWrite(ASYNC, ptr, chunk_size); } return chunks; } // Adds headers and values to a map. // |extra_headers| is an array of { name, value } pairs, arranged as strings // where the even entries are the header names, and the odd entries are the // header values. // |headers| gets filled in from |extra_headers|. void AppendToHeaderBlock(const char* const extra_headers[], int extra_header_count, spdy::SpdyHeaderBlock* headers) { if (!extra_header_count) return; // Sanity check: Non-NULL header list. DCHECK(extra_headers) << "NULL header value pair list"; // Sanity check: Non-NULL header map. DCHECK(headers) << "NULL header map"; // Copy in the headers. for (int i = 0; i < extra_header_count; i++) { base::StringPiece key(extra_headers[i * 2]); base::StringPiece value(extra_headers[i * 2 + 1]); DCHECK(!key.empty()) << "Header key must not be empty."; headers->AppendValueOrAddHeader(key, value); } } // Create a MockWrite from the given spdy::SpdySerializedFrame. MockWrite CreateMockWrite(const spdy::SpdySerializedFrame& req) { return MockWrite(ASYNC, req.data(), req.size()); } // Create a MockWrite from the given spdy::SpdySerializedFrame and sequence // number. MockWrite CreateMockWrite(const spdy::SpdySerializedFrame& req, int seq) { return CreateMockWrite(req, seq, ASYNC); } // Create a MockWrite from the given spdy::SpdySerializedFrame and sequence // number. MockWrite CreateMockWrite(const spdy::SpdySerializedFrame& req, int seq, IoMode mode) { return MockWrite(mode, req.data(), req.size(), seq); } // Create a MockRead from the given spdy::SpdySerializedFrame. MockRead CreateMockRead(const spdy::SpdySerializedFrame& resp) { return MockRead(ASYNC, resp.data(), resp.size()); } // Create a MockRead from the given spdy::SpdySerializedFrame and sequence // number. MockRead CreateMockRead(const spdy::SpdySerializedFrame& resp, int seq) { return CreateMockRead(resp, seq, ASYNC); } // Create a MockRead from the given spdy::SpdySerializedFrame and sequence // number. MockRead CreateMockRead(const spdy::SpdySerializedFrame& resp, int seq, IoMode mode) { return MockRead(mode, resp.data(), resp.size(), seq); } // Combines the given vector of spdy::SpdySerializedFrame into a single frame. spdy::SpdySerializedFrame CombineFrames( std::vector frames) { int total_size = 0; for (const auto* frame : frames) { total_size += frame->size(); } auto data = std::make_unique(total_size); char* ptr = data.get(); for (const auto* frame : frames) { memcpy(ptr, frame->data(), frame->size()); ptr += frame->size(); } return spdy::SpdySerializedFrame(data.release(), total_size, /* owns_buffer = */ true); } namespace { class PriorityGetter : public BufferedSpdyFramerVisitorInterface { public: PriorityGetter() : priority_(0) {} ~PriorityGetter() override = default; spdy::SpdyPriority priority() const { return priority_; } void OnError( http2::Http2DecoderAdapter::SpdyFramerError spdy_framer_error) override {} void OnStreamError(spdy::SpdyStreamId stream_id, const std::string& description) override {} void OnHeaders(spdy::SpdyStreamId stream_id, bool has_priority, int weight, spdy::SpdyStreamId parent_stream_id, bool exclusive, bool fin, spdy::SpdyHeaderBlock headers) override { if (has_priority) { priority_ = spdy::Http2WeightToSpdy3Priority(weight); } } void OnDataFrameHeader(spdy::SpdyStreamId stream_id, size_t length, bool fin) override {} void OnStreamFrameData(spdy::SpdyStreamId stream_id, const char* data, size_t len) override {} void OnStreamEnd(spdy::SpdyStreamId stream_id) override {} void OnStreamPadding(spdy::SpdyStreamId stream_id, size_t len) override {} void OnSettings() override {} void OnSettingsAck() override {} void OnSetting(spdy::SpdySettingsId id, uint32_t value) override {} void OnSettingsEnd() override {} void OnPing(spdy::SpdyPingId unique_id, bool is_ack) override {} void OnRstStream(spdy::SpdyStreamId stream_id, spdy::SpdyErrorCode error_code) override {} void OnGoAway(spdy::SpdyStreamId last_accepted_stream_id, spdy::SpdyErrorCode error_code, base::StringPiece debug_data) override {} void OnWindowUpdate(spdy::SpdyStreamId stream_id, int delta_window_size) override {} void OnPushPromise(spdy::SpdyStreamId stream_id, spdy::SpdyStreamId promised_stream_id, spdy::SpdyHeaderBlock headers) override {} void OnAltSvc(spdy::SpdyStreamId stream_id, base::StringPiece origin, const spdy::SpdyAltSvcWireFormat::AlternativeServiceVector& altsvc_vector) override {} bool OnUnknownFrame(spdy::SpdyStreamId stream_id, uint8_t frame_type) override { return false; } private: spdy::SpdyPriority priority_; }; } // namespace bool GetSpdyPriority(const spdy::SpdySerializedFrame& frame, spdy::SpdyPriority* priority) { NetLogWithSource net_log; BufferedSpdyFramer framer(kMaxHeaderListSizeForTest, net_log); PriorityGetter priority_getter; framer.set_visitor(&priority_getter); size_t frame_size = frame.size(); if (framer.ProcessInput(frame.data(), frame_size) != frame_size) { return false; } *priority = priority_getter.priority(); return true; } base::WeakPtr CreateStreamSynchronously( SpdyStreamType type, const base::WeakPtr& session, const GURL& url, RequestPriority priority, const NetLogWithSource& net_log) { SpdyStreamRequest stream_request; int rv = stream_request.StartRequest( type, session, url, priority, SocketTag(), net_log, CompletionOnceCallback(), TRAFFIC_ANNOTATION_FOR_TESTS); return (rv == OK) ? stream_request.ReleaseStream() : base::WeakPtr(); } StreamReleaserCallback::StreamReleaserCallback() = default; StreamReleaserCallback::~StreamReleaserCallback() = default; CompletionOnceCallback StreamReleaserCallback::MakeCallback( SpdyStreamRequest* request) { return base::BindOnce(&StreamReleaserCallback::OnComplete, base::Unretained(this), request); } void StreamReleaserCallback::OnComplete( SpdyStreamRequest* request, int result) { if (result == OK) request->ReleaseStream()->Cancel(ERR_ABORTED); SetResult(result); } MockECSignatureCreator::MockECSignatureCreator(crypto::ECPrivateKey* key) : key_(key) { } bool MockECSignatureCreator::Sign(const uint8_t* data, int data_len, std::vector* signature) { std::vector private_key; if (!key_->ExportPrivateKey(&private_key)) return false; std::string head = "fakesignature"; std::string tail = "/fakesignature"; signature->clear(); signature->insert(signature->end(), head.begin(), head.end()); signature->insert(signature->end(), private_key.begin(), private_key.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(nullptr); } std::unique_ptr MockECSignatureCreatorFactory::Create(crypto::ECPrivateKey* key) { return std::make_unique(key); } SpdySessionDependencies::SpdySessionDependencies() : SpdySessionDependencies(ProxyResolutionService::CreateDirect()) {} SpdySessionDependencies::SpdySessionDependencies( std::unique_ptr proxy_resolution_service) : host_resolver(std::make_unique()), cert_verifier(std::make_unique()), channel_id_service(nullptr), transport_security_state(std::make_unique()), cert_transparency_verifier(std::make_unique()), ct_policy_enforcer(std::make_unique()), proxy_resolution_service(std::move(proxy_resolution_service)), ssl_config_service(std::make_unique()), socket_factory(std::make_unique()), http_auth_handler_factory( HttpAuthHandlerFactory::CreateDefault(host_resolver.get())), http_server_properties(std::make_unique()), enable_ip_pooling(true), enable_ping(false), enable_user_alternate_protocol_ports(false), enable_quic(false), enable_server_push_cancellation(false), session_max_recv_window_size(kDefaultInitialWindowSize), time_func(&base::TimeTicks::Now), enable_http2_alternative_service(false), enable_websocket_over_http2(false), net_log(nullptr), http_09_on_non_default_ports_enabled(false), disable_idle_sockets_close_on_memory_pressure(false) { http2_settings[spdy::SETTINGS_INITIAL_WINDOW_SIZE] = kDefaultInitialWindowSize; } SpdySessionDependencies::~SpdySessionDependencies() = default; // static std::unique_ptr SpdySessionDependencies::SpdyCreateSession( SpdySessionDependencies* session_deps) { return SpdyCreateSessionWithSocketFactory(session_deps, session_deps->socket_factory.get()); } // static std::unique_ptr SpdySessionDependencies::SpdyCreateSessionWithSocketFactory( SpdySessionDependencies* session_deps, ClientSocketFactory* factory) { HttpNetworkSession::Params session_params = CreateSessionParams(session_deps); HttpNetworkSession::Context session_context = CreateSessionContext(session_deps); session_context.client_socket_factory = factory; auto http_session = std::make_unique(session_params, session_context); SpdySessionPoolPeer pool_peer(http_session->spdy_session_pool()); pool_peer.SetEnableSendingInitialData(false); return http_session; } // static HttpNetworkSession::Params SpdySessionDependencies::CreateSessionParams( SpdySessionDependencies* session_deps) { HttpNetworkSession::Params params; 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.enable_quic = session_deps->enable_quic; params.enable_server_push_cancellation = session_deps->enable_server_push_cancellation; params.spdy_session_max_recv_window_size = session_deps->session_max_recv_window_size; params.http2_settings = session_deps->http2_settings; params.time_func = session_deps->time_func; params.enable_http2_alternative_service = session_deps->enable_http2_alternative_service; params.enable_websocket_over_http2 = session_deps->enable_websocket_over_http2; params.http_09_on_non_default_ports_enabled = session_deps->http_09_on_non_default_ports_enabled; params.disable_idle_sockets_close_on_memory_pressure = session_deps->disable_idle_sockets_close_on_memory_pressure; return params; } HttpNetworkSession::Context SpdySessionDependencies::CreateSessionContext( SpdySessionDependencies* session_deps) { HttpNetworkSession::Context context; context.client_socket_factory = session_deps->socket_factory.get(); context.host_resolver = session_deps->host_resolver.get(); context.cert_verifier = session_deps->cert_verifier.get(); context.channel_id_service = session_deps->channel_id_service.get(); context.transport_security_state = session_deps->transport_security_state.get(); context.cert_transparency_verifier = session_deps->cert_transparency_verifier.get(); context.ct_policy_enforcer = session_deps->ct_policy_enforcer.get(); context.proxy_resolution_service = session_deps->proxy_resolution_service.get(); context.ssl_config_service = session_deps->ssl_config_service.get(); context.http_auth_handler_factory = session_deps->http_auth_handler_factory.get(); context.http_server_properties = session_deps->http_server_properties.get(); context.proxy_delegate = session_deps->proxy_delegate.get(); context.net_log = session_deps->net_log; return context; } SpdyURLRequestContext::SpdyURLRequestContext() : storage_(this) { storage_.set_host_resolver(std::make_unique()); storage_.set_cert_verifier(std::make_unique()); storage_.set_transport_security_state( std::make_unique()); storage_.set_proxy_resolution_service(ProxyResolutionService::CreateDirect()); storage_.set_ct_policy_enforcer(std::make_unique()); storage_.set_cert_transparency_verifier( std::make_unique()); storage_.set_ssl_config_service(std::make_unique()); storage_.set_http_auth_handler_factory( HttpAuthHandlerFactory::CreateDefault(host_resolver())); storage_.set_http_server_properties( std::make_unique()); storage_.set_job_factory(std::make_unique()); HttpNetworkSession::Params session_params; session_params.enable_spdy_ping_based_connection_checking = false; HttpNetworkSession::Context session_context; session_context.client_socket_factory = &socket_factory_; session_context.host_resolver = host_resolver(); session_context.cert_verifier = cert_verifier(); session_context.transport_security_state = transport_security_state(); session_context.proxy_resolution_service = proxy_resolution_service(); session_context.ct_policy_enforcer = ct_policy_enforcer(); session_context.cert_transparency_verifier = cert_transparency_verifier(); session_context.ssl_config_service = ssl_config_service(); session_context.http_auth_handler_factory = http_auth_handler_factory(); session_context.http_server_properties = http_server_properties(); storage_.set_http_network_session( std::make_unique(session_params, session_context)); SpdySessionPoolPeer pool_peer( storage_.http_network_session()->spdy_session_pool()); pool_peer.SetEnableSendingInitialData(false); storage_.set_http_transaction_factory(std::make_unique( storage_.http_network_session(), HttpCache::DefaultBackend::InMemory(0), false)); } SpdyURLRequestContext::~SpdyURLRequestContext() { AssertNoURLRequests(); } bool HasSpdySession(SpdySessionPool* pool, const SpdySessionKey& key) { return static_cast(pool->FindAvailableSession( key, /* enable_ip_based_pooling = */ true, /* is_websocket = */ false, NetLogWithSource())); } namespace { base::WeakPtr CreateSpdySessionHelper( HttpNetworkSession* http_session, const SpdySessionKey& key, const NetLogWithSource& net_log, bool enable_ip_based_pooling, bool is_trusted_proxy) { EXPECT_FALSE(http_session->spdy_session_pool()->FindAvailableSession( key, enable_ip_based_pooling, /* is_websocket = */ false, NetLogWithSource())); auto transport_params = base::MakeRefCounted( key.host_port_pair(), /* disable_resolver_cache = */ false, OnHostResolutionCallback(), TransportSocketParams::COMBINE_CONNECT_AND_WRITE_DEFAULT); auto connection = std::make_unique(); TestCompletionCallback callback; SSLConfig ssl_config; auto ssl_params = base::MakeRefCounted( transport_params, nullptr, nullptr, key.host_port_pair(), ssl_config, key.privacy_mode(), 0); int rv = connection->Init( key.host_port_pair().ToString(), ssl_params, MEDIUM, key.socket_tag(), ClientSocketPool::RespectLimits::ENABLED, callback.callback(), http_session->GetSSLSocketPool(HttpNetworkSession::NORMAL_SOCKET_POOL), net_log); rv = callback.GetResult(rv); EXPECT_THAT(rv, IsOk()); base::WeakPtr spdy_session = http_session->spdy_session_pool()->CreateAvailableSessionFromSocket( key, is_trusted_proxy, std::move(connection), net_log); // Failure is reported asynchronously. EXPECT_TRUE(spdy_session); EXPECT_TRUE(HasSpdySession(http_session->spdy_session_pool(), key)); return spdy_session; } } // namespace base::WeakPtr CreateSpdySession(HttpNetworkSession* http_session, const SpdySessionKey& key, const NetLogWithSource& net_log) { return CreateSpdySessionHelper(http_session, key, net_log, /* enable_ip_based_pooling = */ true, /* is_trusted_proxy = */ false); } base::WeakPtr CreateTrustedSpdySession( HttpNetworkSession* http_session, const SpdySessionKey& key, const NetLogWithSource& net_log) { return CreateSpdySessionHelper(http_session, key, net_log, /* enable_ip_based_pooling = */ true, /* is_trusted_proxy = */ true); } base::WeakPtr CreateSpdySessionWithIpBasedPoolingDisabled( HttpNetworkSession* http_session, const SpdySessionKey& key, const NetLogWithSource& net_log) { return CreateSpdySessionHelper(http_session, key, net_log, /* enable_ip_based_pooling = */ false, /* is_trusted_proxy = */ false); } namespace { // A ClientSocket used for CreateFakeSpdySession() below. class FakeSpdySessionClientSocket : public MockClientSocket { public: explicit FakeSpdySessionClientSocket(int read_result) : MockClientSocket(NetLogWithSource()), read_result_(read_result) {} ~FakeSpdySessionClientSocket() override = default; int Read(IOBuffer* buf, int buf_len, CompletionOnceCallback callback) override { return read_result_; } int Write(IOBuffer* buf, int buf_len, CompletionOnceCallback callback, const NetworkTrafficAnnotationTag& traffic_annotation) override { return ERR_IO_PENDING; } // Return kProtoUnknown to use the pool's default protocol. NextProto GetNegotiatedProtocol() const override { return kProtoUnknown; } // The functions below are not expected to be called. int Connect(CompletionOnceCallback callback) override { ADD_FAILURE(); return ERR_UNEXPECTED; } bool WasEverUsed() const override { ADD_FAILURE(); return false; } bool WasAlpnNegotiated() const override { ADD_FAILURE(); return false; } bool GetSSLInfo(SSLInfo* ssl_info) override { ADD_FAILURE(); return false; } int64_t GetTotalReceivedBytes() const override { NOTIMPLEMENTED(); return 0; } private: int read_result_; }; base::WeakPtr CreateFakeSpdySessionHelper( SpdySessionPool* pool, const SpdySessionKey& key, Error expected_status) { EXPECT_NE(expected_status, ERR_IO_PENDING); EXPECT_FALSE(HasSpdySession(pool, key)); auto handle = std::make_unique(); handle->SetSocket(std::make_unique( expected_status == OK ? ERR_IO_PENDING : expected_status)); base::WeakPtr spdy_session = pool->CreateAvailableSessionFromSocket( key, /*is_trusted_proxy=*/false, std::move(handle), NetLogWithSource()); // Failure is reported asynchronously. EXPECT_TRUE(spdy_session); EXPECT_TRUE(HasSpdySession(pool, key)); return spdy_session; } } // namespace base::WeakPtr CreateFakeSpdySession(SpdySessionPool* pool, const SpdySessionKey& key) { return CreateFakeSpdySessionHelper(pool, key, OK); } base::WeakPtr TryCreateFakeSpdySessionExpectingFailure( SpdySessionPool* pool, const SpdySessionKey& key, Error expected_status) { DCHECK_LT(expected_status, ERR_IO_PENDING); return CreateFakeSpdySessionHelper(pool, key, expected_status); } SpdySessionPoolPeer::SpdySessionPoolPeer(SpdySessionPool* pool) : pool_(pool) { } void SpdySessionPoolPeer::RemoveAliases(const SpdySessionKey& key) { pool_->RemoveAliases(key); } void SpdySessionPoolPeer::SetEnableSendingInitialData(bool enabled) { pool_->enable_sending_initial_data_ = enabled; } SpdyTestUtil::SpdyTestUtil() : headerless_spdy_framer_(spdy::SpdyFramer::ENABLE_COMPRESSION), request_spdy_framer_(spdy::SpdyFramer::ENABLE_COMPRESSION), response_spdy_framer_(spdy::SpdyFramer::ENABLE_COMPRESSION), default_url_(GURL(kDefaultUrl)) {} SpdyTestUtil::~SpdyTestUtil() = default; void SpdyTestUtil::AddUrlToHeaderBlock(base::StringPiece url, spdy::SpdyHeaderBlock* headers) const { std::string scheme, host, path; ParseUrl(url, &scheme, &host, &path); (*headers)[spdy::kHttp2AuthorityHeader] = host; (*headers)[spdy::kHttp2SchemeHeader] = scheme; (*headers)[spdy::kHttp2PathHeader] = path; } // static spdy::SpdyHeaderBlock SpdyTestUtil::ConstructGetHeaderBlock( base::StringPiece url) { return ConstructHeaderBlock("GET", url, nullptr); } // static spdy::SpdyHeaderBlock SpdyTestUtil::ConstructGetHeaderBlockForProxy( base::StringPiece url) { return ConstructGetHeaderBlock(url); } // static spdy::SpdyHeaderBlock SpdyTestUtil::ConstructHeadHeaderBlock( base::StringPiece url, int64_t content_length) { return ConstructHeaderBlock("HEAD", url, nullptr); } // static spdy::SpdyHeaderBlock SpdyTestUtil::ConstructPostHeaderBlock( base::StringPiece url, int64_t content_length) { return ConstructHeaderBlock("POST", url, &content_length); } // static spdy::SpdyHeaderBlock SpdyTestUtil::ConstructPutHeaderBlock( base::StringPiece url, int64_t content_length) { return ConstructHeaderBlock("PUT", url, &content_length); } std::string SpdyTestUtil::ConstructSpdyReplyString( const spdy::SpdyHeaderBlock& headers) const { std::string reply_string; for (spdy::SpdyHeaderBlock::const_iterator it = headers.begin(); it != headers.end(); ++it) { std::string key = it->first.as_string(); // Remove leading colon from pseudo headers. if (key[0] == ':') key = key.substr(1); for (const std::string& value : base::SplitString(it->second, base::StringPiece("\0", 1), base::TRIM_WHITESPACE, base::SPLIT_WANT_ALL)) { reply_string += key + ": " + value + "\n"; } } return reply_string; } // TODO(jgraettinger): Eliminate uses of this method in tests (prefer // spdy::SpdySettingsIR). spdy::SpdySerializedFrame SpdyTestUtil::ConstructSpdySettings( const spdy::SettingsMap& settings) { spdy::SpdySettingsIR settings_ir; for (spdy::SettingsMap::const_iterator it = settings.begin(); it != settings.end(); ++it) { settings_ir.AddSetting(it->first, it->second); } return spdy::SpdySerializedFrame( headerless_spdy_framer_.SerializeFrame(settings_ir)); } spdy::SpdySerializedFrame SpdyTestUtil::ConstructSpdySettingsAck() { spdy::SpdySettingsIR settings_ir; settings_ir.set_is_ack(true); return spdy::SpdySerializedFrame( headerless_spdy_framer_.SerializeFrame(settings_ir)); } spdy::SpdySerializedFrame SpdyTestUtil::ConstructSpdyPing(uint32_t ping_id, bool is_ack) { spdy::SpdyPingIR ping_ir(ping_id); ping_ir.set_is_ack(is_ack); return spdy::SpdySerializedFrame( headerless_spdy_framer_.SerializeFrame(ping_ir)); } spdy::SpdySerializedFrame SpdyTestUtil::ConstructSpdyGoAway( spdy::SpdyStreamId last_good_stream_id) { spdy::SpdyGoAwayIR go_ir(last_good_stream_id, spdy::ERROR_CODE_NO_ERROR, "go away"); return spdy::SpdySerializedFrame( headerless_spdy_framer_.SerializeFrame(go_ir)); } spdy::SpdySerializedFrame SpdyTestUtil::ConstructSpdyGoAway( spdy::SpdyStreamId last_good_stream_id, spdy::SpdyErrorCode error_code, const std::string& desc) { spdy::SpdyGoAwayIR go_ir(last_good_stream_id, error_code, desc); return spdy::SpdySerializedFrame( headerless_spdy_framer_.SerializeFrame(go_ir)); } spdy::SpdySerializedFrame SpdyTestUtil::ConstructSpdyWindowUpdate( const spdy::SpdyStreamId stream_id, uint32_t delta_window_size) { spdy::SpdyWindowUpdateIR update_ir(stream_id, delta_window_size); return spdy::SpdySerializedFrame( headerless_spdy_framer_.SerializeFrame(update_ir)); } // TODO(jgraettinger): Eliminate uses of this method in tests (prefer // spdy::SpdyRstStreamIR). spdy::SpdySerializedFrame SpdyTestUtil::ConstructSpdyRstStream( spdy::SpdyStreamId stream_id, spdy::SpdyErrorCode error_code) { spdy::SpdyRstStreamIR rst_ir(stream_id, error_code); return spdy::SpdySerializedFrame( headerless_spdy_framer_.SerializeRstStream(rst_ir)); } // TODO(jgraettinger): Eliminate uses of this method in tests (prefer // spdy::SpdyPriorityIR). spdy::SpdySerializedFrame SpdyTestUtil::ConstructSpdyPriority( spdy::SpdyStreamId stream_id, spdy::SpdyStreamId parent_stream_id, RequestPriority request_priority, bool exclusive) { int weight = spdy::Spdy3PriorityToHttp2Weight( ConvertRequestPriorityToSpdyPriority(request_priority)); spdy::SpdyPriorityIR ir(stream_id, parent_stream_id, weight, exclusive); return spdy::SpdySerializedFrame( headerless_spdy_framer_.SerializePriority(ir)); } spdy::SpdySerializedFrame SpdyTestUtil::ConstructSpdyGet( const char* const url, spdy::SpdyStreamId stream_id, RequestPriority request_priority) { spdy::SpdyHeaderBlock block(ConstructGetHeaderBlock(url)); return ConstructSpdyHeaders(stream_id, std::move(block), request_priority, true); } spdy::SpdySerializedFrame SpdyTestUtil::ConstructSpdyGet( const char* const extra_headers[], int extra_header_count, int stream_id, RequestPriority request_priority) { spdy::SpdyHeaderBlock block; block[spdy::kHttp2MethodHeader] = "GET"; AddUrlToHeaderBlock(default_url_.spec(), &block); AppendToHeaderBlock(extra_headers, extra_header_count, &block); return ConstructSpdyHeaders(stream_id, std::move(block), request_priority, true); } spdy::SpdySerializedFrame SpdyTestUtil::ConstructSpdyConnect( const char* const extra_headers[], int extra_header_count, int stream_id, RequestPriority priority, const HostPortPair& host_port_pair) { spdy::SpdyHeaderBlock block; block[spdy::kHttp2MethodHeader] = "CONNECT"; block[spdy::kHttp2AuthorityHeader] = host_port_pair.ToString(); AppendToHeaderBlock(extra_headers, extra_header_count, &block); return ConstructSpdyHeaders(stream_id, std::move(block), priority, false); } spdy::SpdySerializedFrame SpdyTestUtil::ConstructSpdyPush( const char* const extra_headers[], int extra_header_count, int stream_id, int associated_stream_id, const char* url) { spdy::SpdyHeaderBlock push_promise_header_block; push_promise_header_block[spdy::kHttp2MethodHeader] = "GET"; AddUrlToHeaderBlock(url, &push_promise_header_block); spdy::SpdySerializedFrame push_promise_frame(ConstructSpdyPushPromise( associated_stream_id, stream_id, std::move(push_promise_header_block))); spdy::SpdyHeaderBlock headers_header_block; headers_header_block[spdy::kHttp2StatusHeader] = "200"; headers_header_block["hello"] = "bye"; AppendToHeaderBlock(extra_headers, extra_header_count, &headers_header_block); spdy::SpdyHeadersIR headers(stream_id, std::move(headers_header_block)); spdy::SpdySerializedFrame headers_frame( response_spdy_framer_.SerializeFrame(headers)); return CombineFrames({&push_promise_frame, &headers_frame}); } spdy::SpdySerializedFrame SpdyTestUtil::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) { spdy::SpdyHeaderBlock push_promise_header_block; push_promise_header_block[spdy::kHttp2MethodHeader] = "GET"; AddUrlToHeaderBlock(url, &push_promise_header_block); spdy::SpdySerializedFrame push_promise_frame(ConstructSpdyPushPromise( associated_stream_id, stream_id, std::move(push_promise_header_block))); spdy::SpdyHeaderBlock headers_header_block; headers_header_block["hello"] = "bye"; headers_header_block[spdy::kHttp2StatusHeader] = status; headers_header_block["location"] = location; AppendToHeaderBlock(extra_headers, extra_header_count, &headers_header_block); spdy::SpdyHeadersIR headers(stream_id, std::move(headers_header_block)); spdy::SpdySerializedFrame headers_frame( response_spdy_framer_.SerializeFrame(headers)); return CombineFrames({&push_promise_frame, &headers_frame}); } spdy::SpdySerializedFrame SpdyTestUtil::ConstructSpdyPushPromise( spdy::SpdyStreamId associated_stream_id, spdy::SpdyStreamId stream_id, spdy::SpdyHeaderBlock headers) { spdy::SpdyPushPromiseIR push_promise(associated_stream_id, stream_id, std::move(headers)); return spdy::SpdySerializedFrame( response_spdy_framer_.SerializeFrame(push_promise)); } spdy::SpdySerializedFrame SpdyTestUtil::ConstructSpdyPushHeaders( int stream_id, const char* const extra_headers[], int extra_header_count) { spdy::SpdyHeaderBlock header_block; header_block[spdy::kHttp2StatusHeader] = "200"; AppendToHeaderBlock(extra_headers, extra_header_count, &header_block); spdy::SpdyHeadersIR headers(stream_id, std::move(header_block)); return spdy::SpdySerializedFrame( response_spdy_framer_.SerializeFrame(headers)); } spdy::SpdySerializedFrame SpdyTestUtil::ConstructSpdyResponseHeaders( int stream_id, spdy::SpdyHeaderBlock headers, bool fin) { spdy::SpdyHeadersIR spdy_headers(stream_id, std::move(headers)); spdy_headers.set_fin(fin); return spdy::SpdySerializedFrame( response_spdy_framer_.SerializeFrame(spdy_headers)); } spdy::SpdySerializedFrame SpdyTestUtil::ConstructSpdyHeaders( int stream_id, spdy::SpdyHeaderBlock block, RequestPriority priority, bool fin) { // Get the stream id of the next highest priority request // (most recent request of the same priority, or last request of // an earlier priority). // Note that this is a duplicate of the logic in Http2PriorityDependencies // (slightly transformed as this is based on RequestPriority and that logic // on spdy::SpdyPriority, but only slightly transformed) and hence tests using // this function do not effectively test that logic. // That logic is tested by the Http2PriorityDependencies unit tests. int parent_stream_id = 0; for (int q = priority; q <= HIGHEST; ++q) { if (!priority_to_stream_id_list_[q].empty()) { parent_stream_id = priority_to_stream_id_list_[q].back(); break; } } priority_to_stream_id_list_[priority].push_back(stream_id); spdy::SpdyHeadersIR headers(stream_id, std::move(block)); headers.set_has_priority(true); headers.set_weight(spdy::Spdy3PriorityToHttp2Weight( ConvertRequestPriorityToSpdyPriority(priority))); headers.set_parent_stream_id(parent_stream_id); headers.set_exclusive(true); headers.set_fin(fin); return spdy::SpdySerializedFrame( request_spdy_framer_.SerializeFrame(headers)); } spdy::SpdySerializedFrame SpdyTestUtil::ConstructSpdyReply( int stream_id, spdy::SpdyHeaderBlock headers) { spdy::SpdyHeadersIR reply(stream_id, std::move(headers)); return spdy::SpdySerializedFrame(response_spdy_framer_.SerializeFrame(reply)); } spdy::SpdySerializedFrame SpdyTestUtil::ConstructSpdyReplyError( const char* const status, const char* const* const extra_headers, int extra_header_count, int stream_id) { spdy::SpdyHeaderBlock block; block[spdy::kHttp2StatusHeader] = status; block["hello"] = "bye"; AppendToHeaderBlock(extra_headers, extra_header_count, &block); return ConstructSpdyReply(stream_id, std::move(block)); } spdy::SpdySerializedFrame SpdyTestUtil::ConstructSpdyReplyError(int stream_id) { return ConstructSpdyReplyError("500", nullptr, 0, 1); } spdy::SpdySerializedFrame SpdyTestUtil::ConstructSpdyGetReply( const char* const extra_headers[], int extra_header_count, int stream_id) { spdy::SpdyHeaderBlock block; block[spdy::kHttp2StatusHeader] = "200"; block["hello"] = "bye"; AppendToHeaderBlock(extra_headers, extra_header_count, &block); return ConstructSpdyReply(stream_id, std::move(block)); } spdy::SpdySerializedFrame SpdyTestUtil::ConstructSpdyPost( const char* url, spdy::SpdyStreamId stream_id, int64_t content_length, RequestPriority priority, const char* const extra_headers[], int extra_header_count) { spdy::SpdyHeaderBlock block(ConstructPostHeaderBlock(url, content_length)); AppendToHeaderBlock(extra_headers, extra_header_count, &block); return ConstructSpdyHeaders(stream_id, std::move(block), priority, false); } spdy::SpdySerializedFrame SpdyTestUtil::ConstructChunkedSpdyPost( const char* const extra_headers[], int extra_header_count) { spdy::SpdyHeaderBlock block; block[spdy::kHttp2MethodHeader] = "POST"; AddUrlToHeaderBlock(default_url_.spec(), &block); AppendToHeaderBlock(extra_headers, extra_header_count, &block); return ConstructSpdyHeaders(1, std::move(block), LOWEST, false); } spdy::SpdySerializedFrame SpdyTestUtil::ConstructSpdyPostReply( const char* const extra_headers[], int extra_header_count) { // TODO(jgraettinger): Remove this method. return ConstructSpdyGetReply(extra_headers, extra_header_count, 1); } spdy::SpdySerializedFrame SpdyTestUtil::ConstructSpdyDataFrame(int stream_id, bool fin) { return ConstructSpdyDataFrame(stream_id, kUploadData, fin); } spdy::SpdySerializedFrame SpdyTestUtil::ConstructSpdyDataFrame( int stream_id, base::StringPiece data, bool fin) { spdy::SpdyDataIR data_ir(stream_id, data); data_ir.set_fin(fin); return spdy::SpdySerializedFrame( headerless_spdy_framer_.SerializeData(data_ir)); } spdy::SpdySerializedFrame SpdyTestUtil::ConstructSpdyDataFrame( int stream_id, base::StringPiece data, bool fin, int padding_length) { spdy::SpdyDataIR data_ir(stream_id, data); data_ir.set_fin(fin); data_ir.set_padding_len(padding_length); return spdy::SpdySerializedFrame( headerless_spdy_framer_.SerializeData(data_ir)); } spdy::SpdySerializedFrame SpdyTestUtil::ConstructWrappedSpdyFrame( const spdy::SpdySerializedFrame& frame, int stream_id) { return ConstructSpdyDataFrame( stream_id, base::StringPiece(frame.data(), frame.size()), false); } spdy::SpdySerializedFrame SpdyTestUtil::SerializeFrame( const spdy::SpdyFrameIR& frame_ir) { return headerless_spdy_framer_.SerializeFrame(frame_ir); } void SpdyTestUtil::UpdateWithStreamDestruction(int stream_id) { for (auto priority_it = priority_to_stream_id_list_.begin(); priority_it != priority_to_stream_id_list_.end(); ++priority_it) { for (auto stream_it = priority_it->second.begin(); stream_it != priority_it->second.end(); ++stream_it) { if (*stream_it == stream_id) { priority_it->second.erase(stream_it); return; } } } NOTREACHED(); } // static spdy::SpdyHeaderBlock SpdyTestUtil::ConstructHeaderBlock( base::StringPiece method, base::StringPiece url, int64_t* content_length) { std::string scheme, host, path; ParseUrl(url, &scheme, &host, &path); spdy::SpdyHeaderBlock headers; headers[spdy::kHttp2MethodHeader] = method.as_string(); headers[spdy::kHttp2AuthorityHeader] = host.c_str(); headers[spdy::kHttp2SchemeHeader] = scheme.c_str(); headers[spdy::kHttp2PathHeader] = path.c_str(); if (content_length) { std::string length_str = base::Int64ToString(*content_length); headers["content-length"] = length_str; } return headers; } namespace test { HashValue GetTestHashValue(uint8_t label) { HashValue hash_value(HASH_VALUE_SHA256); memset(hash_value.data(), label, hash_value.size()); return hash_value; } std::string GetTestPin(uint8_t label) { HashValue hash_value = GetTestHashValue(label); std::string base64; base::Base64Encode( base::StringPiece(reinterpret_cast(hash_value.data()), hash_value.size()), &base64); return std::string("pin-sha256=\"") + base64 + "\""; } void AddPin(TransportSecurityState* state, const std::string& host, uint8_t primary_label, uint8_t backup_label) { std::string primary_pin = GetTestPin(primary_label); std::string backup_pin = GetTestPin(backup_label); std::string header = "max-age = 10000; " + primary_pin + "; " + backup_pin; // Construct a fake SSLInfo that will pass AddHPKPHeader's checks. SSLInfo ssl_info; ssl_info.is_issued_by_known_root = true; ssl_info.public_key_hashes.push_back(GetTestHashValue(primary_label)); EXPECT_TRUE(state->AddHPKPHeader(host, header, ssl_info)); } TestServerPushDelegate::TestServerPushDelegate() = default; TestServerPushDelegate::~TestServerPushDelegate() = default; void TestServerPushDelegate::OnPush( std::unique_ptr push_helper, const NetLogWithSource& session_net_log) { push_helpers[push_helper->GetURL()] = std::move(push_helper); } bool TestServerPushDelegate::CancelPush(GURL url) { auto itr = push_helpers.find(url); DCHECK(itr != push_helpers.end()); itr->second->Cancel(); push_helpers.erase(itr); return true; } } // namespace test } // namespace net