// 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/socket/ssl_server_socket_impl.h" #include #include "base/callback_helpers.h" #include "base/lazy_instance.h" #include "base/logging.h" #include "base/memory/weak_ptr.h" #include "base/strings/string_util.h" #include "crypto/openssl_util.h" #include "crypto/rsa_private_key.h" #include "net/base/net_errors.h" #include "net/cert/cert_verify_result.h" #include "net/cert/client_cert_verifier.h" #include "net/cert/x509_util.h" #include "net/log/net_log_event_type.h" #include "net/log/net_log_with_source.h" #include "net/socket/socket_bio_adapter.h" #include "net/ssl/openssl_ssl_util.h" #include "net/ssl/ssl_connection_status_flags.h" #include "net/ssl/ssl_info.h" #include "net/traffic_annotation/network_traffic_annotation.h" #include "third_party/boringssl/src/include/openssl/err.h" #include "third_party/boringssl/src/include/openssl/pool.h" #include "third_party/boringssl/src/include/openssl/ssl.h" #define GotoState(s) next_handshake_state_ = s namespace net { namespace { // This constant can be any non-negative/non-zero value (eg: it does not // overlap with any value of the net::Error range, including net::OK). const int kNoPendingResult = 1; class SocketDataIndex { public: static SocketDataIndex* GetInstance(); SocketDataIndex() { ssl_socket_data_index_ = SSL_get_ex_new_index(0, 0, 0, 0, 0); } // This is the index used with SSL_get_ex_data to retrieve the owner // SSLServerSocketImpl object from an SSL instance. int ssl_socket_data_index_; }; base::LazyInstance::Leaky g_ssl_socket_data_index_ = LAZY_INSTANCE_INITIALIZER; // static SocketDataIndex* SocketDataIndex::GetInstance() { return g_ssl_socket_data_index_.Pointer(); } } // namespace class SSLServerContextImpl::SocketImpl : public SSLServerSocket, public SocketBIOAdapter::Delegate { public: SocketImpl(SSLServerContextImpl* context, std::unique_ptr socket); ~SocketImpl() override; // SSLServerSocket interface. int Handshake(const CompletionCallback& callback) override; // SSLSocket interface. int ExportKeyingMaterial(const base::StringPiece& label, bool has_context, const base::StringPiece& context, unsigned char* out, unsigned int outlen) override; // Socket interface (via StreamSocket). int Read(IOBuffer* buf, int buf_len, CompletionOnceCallback callback) override; int Write(IOBuffer* buf, int buf_len, CompletionOnceCallback callback, const NetworkTrafficAnnotationTag& traffic_annotation) override; int SetReceiveBufferSize(int32_t size) override; int SetSendBufferSize(int32_t size) override; // StreamSocket implementation. int Connect(CompletionOnceCallback callback) override; void Disconnect() override; bool IsConnected() const override; bool IsConnectedAndIdle() const override; int GetPeerAddress(IPEndPoint* address) const override; int GetLocalAddress(IPEndPoint* address) const override; const NetLogWithSource& NetLog() const override; bool WasEverUsed() const override; bool WasAlpnNegotiated() const override; NextProto GetNegotiatedProtocol() const override; bool GetSSLInfo(SSLInfo* ssl_info) override; void GetConnectionAttempts(ConnectionAttempts* out) const override; void ClearConnectionAttempts() override {} void AddConnectionAttempts(const ConnectionAttempts& attempts) override {} int64_t GetTotalReceivedBytes() const override; void ApplySocketTag(const SocketTag& tag) override; static ssl_verify_result_t CertVerifyCallback(SSL* ssl, uint8_t* out_alert); ssl_verify_result_t CertVerifyCallbackImpl(uint8_t* out_alert); static const SSL_PRIVATE_KEY_METHOD kPrivateKeyMethod; static ssl_private_key_result_t PrivateKeySignCallback(SSL* ssl, uint8_t* out, size_t* out_len, size_t max_out, uint16_t algorithm, const uint8_t* in, size_t in_len); static ssl_private_key_result_t PrivateKeyDecryptCallback(SSL* ssl, uint8_t* out, size_t* out_len, size_t max_out, const uint8_t* in, size_t in_len); static ssl_private_key_result_t PrivateKeyCompleteCallback(SSL* ssl, uint8_t* out, size_t* out_len, size_t max_out); ssl_private_key_result_t PrivateKeySignCallback(uint8_t* out, size_t* out_len, size_t max_out, uint16_t algorithm, const uint8_t* in, size_t in_len); ssl_private_key_result_t PrivateKeyCompleteCallback(uint8_t* out, size_t* out_len, size_t max_out); void OnPrivateKeyComplete(Error error, const std::vector& signature); // SocketBIOAdapter::Delegate implementation. void OnReadReady() override; void OnWriteReady() override; private: enum State { STATE_NONE, STATE_HANDSHAKE, }; void OnHandshakeIOComplete(int result); int DoPayloadRead(); int DoPayloadWrite(); int DoHandshakeLoop(int last_io_result); int DoHandshake(); void DoHandshakeCallback(int result); void DoReadCallback(int result); void DoWriteCallback(int result); int Init(); void ExtractClientCert(); SSLServerContextImpl* context_; NetLogWithSource net_log_; CompletionOnceCallback user_handshake_callback_; CompletionOnceCallback user_read_callback_; CompletionOnceCallback user_write_callback_; // SSLPrivateKey signature. int signature_result_; std::vector signature_; // Used by Read function. scoped_refptr user_read_buf_; int user_read_buf_len_; // Used by Write function. scoped_refptr user_write_buf_; int user_write_buf_len_; // OpenSSL stuff bssl::UniquePtr ssl_; // StreamSocket for sending and receiving data. std::unique_ptr transport_socket_; std::unique_ptr transport_adapter_; // Certificate for the client. scoped_refptr client_cert_; State next_handshake_state_; bool completed_handshake_; base::WeakPtrFactory weak_factory_; DISALLOW_COPY_AND_ASSIGN(SocketImpl); }; SSLServerContextImpl::SocketImpl::SocketImpl( SSLServerContextImpl* context, std::unique_ptr transport_socket) : context_(context), signature_result_(kNoPendingResult), user_read_buf_len_(0), user_write_buf_len_(0), transport_socket_(std::move(transport_socket)), next_handshake_state_(STATE_NONE), completed_handshake_(false), weak_factory_(this) { ssl_.reset(SSL_new(context_->ssl_ctx_.get())); SSL_set_app_data(ssl_.get(), this); SSL_set_shed_handshake_config(ssl_.get(), 1); } SSLServerContextImpl::SocketImpl::~SocketImpl() { if (ssl_) { // Calling SSL_shutdown prevents the session from being marked as // unresumable. SSL_shutdown(ssl_.get()); ssl_.reset(); } } // static const SSL_PRIVATE_KEY_METHOD SSLServerContextImpl::SocketImpl::kPrivateKeyMethod = { &SSLServerContextImpl::SocketImpl::PrivateKeySignCallback, &SSLServerContextImpl::SocketImpl::PrivateKeyDecryptCallback, &SSLServerContextImpl::SocketImpl::PrivateKeyCompleteCallback, }; // static ssl_private_key_result_t SSLServerContextImpl::SocketImpl::PrivateKeySignCallback(SSL* ssl, uint8_t* out, size_t* out_len, size_t max_out, uint16_t algorithm, const uint8_t* in, size_t in_len) { DCHECK(ssl); SSLServerContextImpl::SocketImpl* socket = static_cast(SSL_get_ex_data( ssl, SocketDataIndex::GetInstance()->ssl_socket_data_index_)); DCHECK(socket); return socket->PrivateKeySignCallback(out, out_len, max_out, algorithm, in, in_len); } // static ssl_private_key_result_t SSLServerContextImpl::SocketImpl::PrivateKeyDecryptCallback(SSL* ssl, uint8_t* out, size_t* out_len, size_t max_out, const uint8_t* in, size_t in_len) { // Decrypt is not supported. return ssl_private_key_failure; } // static ssl_private_key_result_t SSLServerContextImpl::SocketImpl::PrivateKeyCompleteCallback(SSL* ssl, uint8_t* out, size_t* out_len, size_t max_out) { DCHECK(ssl); SSLServerContextImpl::SocketImpl* socket = static_cast(SSL_get_ex_data( ssl, SocketDataIndex::GetInstance()->ssl_socket_data_index_)); DCHECK(socket); return socket->PrivateKeyCompleteCallback(out, out_len, max_out); } ssl_private_key_result_t SSLServerContextImpl::SocketImpl::PrivateKeySignCallback(uint8_t* out, size_t* out_len, size_t max_out, uint16_t algorithm, const uint8_t* in, size_t in_len) { DCHECK(context_); DCHECK(context_->private_key_); signature_result_ = ERR_IO_PENDING; context_->private_key_->Sign( algorithm, base::make_span(in, in_len), base::BindRepeating( &SSLServerContextImpl::SocketImpl::OnPrivateKeyComplete, weak_factory_.GetWeakPtr())); return ssl_private_key_retry; } ssl_private_key_result_t SSLServerContextImpl::SocketImpl::PrivateKeyCompleteCallback(uint8_t* out, size_t* out_len, size_t max_out) { if (signature_result_ == ERR_IO_PENDING) return ssl_private_key_retry; if (signature_result_ != OK) { OpenSSLPutNetError(FROM_HERE, signature_result_); return ssl_private_key_failure; } if (signature_.size() > max_out) { OpenSSLPutNetError(FROM_HERE, ERR_SSL_CLIENT_AUTH_SIGNATURE_FAILED); return ssl_private_key_failure; } memcpy(out, signature_.data(), signature_.size()); *out_len = signature_.size(); signature_.clear(); return ssl_private_key_success; } void SSLServerContextImpl::SocketImpl::OnPrivateKeyComplete( Error error, const std::vector& signature) { DCHECK_EQ(ERR_IO_PENDING, signature_result_); DCHECK(signature_.empty()); signature_result_ = error; if (signature_result_ == OK) signature_ = signature; DoHandshakeLoop(ERR_IO_PENDING); } int SSLServerContextImpl::SocketImpl::Handshake( const CompletionCallback& callback) { net_log_.BeginEvent(NetLogEventType::SSL_SERVER_HANDSHAKE); // Set up new ssl object. int rv = Init(); if (rv != OK) { LOG(ERROR) << "Failed to initialize OpenSSL: rv=" << rv; net_log_.EndEventWithNetErrorCode(NetLogEventType::SSL_SERVER_HANDSHAKE, rv); return rv; } // Set SSL to server mode. Handshake happens in the loop below. SSL_set_accept_state(ssl_.get()); GotoState(STATE_HANDSHAKE); rv = DoHandshakeLoop(OK); if (rv == ERR_IO_PENDING) { user_handshake_callback_ = callback; } else { net_log_.EndEventWithNetErrorCode(NetLogEventType::SSL_SERVER_HANDSHAKE, rv); } return rv > OK ? OK : rv; } int SSLServerContextImpl::SocketImpl::ExportKeyingMaterial( const base::StringPiece& label, bool has_context, const base::StringPiece& context, unsigned char* out, unsigned int outlen) { if (!IsConnected()) return ERR_SOCKET_NOT_CONNECTED; crypto::OpenSSLErrStackTracer err_tracer(FROM_HERE); int rv = SSL_export_keying_material( ssl_.get(), out, outlen, label.data(), label.size(), reinterpret_cast(context.data()), context.length(), context.length() > 0); if (rv != 1) { int ssl_error = SSL_get_error(ssl_.get(), rv); LOG(ERROR) << "Failed to export keying material;" << " returned " << rv << ", SSL error code " << ssl_error; return MapOpenSSLError(ssl_error, err_tracer); } return OK; } int SSLServerContextImpl::SocketImpl::Read(IOBuffer* buf, int buf_len, CompletionOnceCallback callback) { DCHECK(user_read_callback_.is_null()); DCHECK(user_handshake_callback_.is_null()); DCHECK(!user_read_buf_); DCHECK(!callback.is_null()); user_read_buf_ = buf; user_read_buf_len_ = buf_len; DCHECK(completed_handshake_); int rv = DoPayloadRead(); if (rv == ERR_IO_PENDING) { user_read_callback_ = std::move(callback); } else { user_read_buf_ = NULL; user_read_buf_len_ = 0; } return rv; } int SSLServerContextImpl::SocketImpl::Write( IOBuffer* buf, int buf_len, CompletionOnceCallback callback, const NetworkTrafficAnnotationTag& traffic_annotation) { DCHECK(user_write_callback_.is_null()); DCHECK(!user_write_buf_); DCHECK(!callback.is_null()); user_write_buf_ = buf; user_write_buf_len_ = buf_len; int rv = DoPayloadWrite(); if (rv == ERR_IO_PENDING) { user_write_callback_ = std::move(callback); } else { user_write_buf_ = NULL; user_write_buf_len_ = 0; } return rv; } int SSLServerContextImpl::SocketImpl::SetReceiveBufferSize(int32_t size) { return transport_socket_->SetReceiveBufferSize(size); } int SSLServerContextImpl::SocketImpl::SetSendBufferSize(int32_t size) { return transport_socket_->SetSendBufferSize(size); } int SSLServerContextImpl::SocketImpl::Connect(CompletionOnceCallback callback) { NOTIMPLEMENTED(); return ERR_NOT_IMPLEMENTED; } void SSLServerContextImpl::SocketImpl::Disconnect() { transport_socket_->Disconnect(); } bool SSLServerContextImpl::SocketImpl::IsConnected() const { // TODO(wtc): Find out if we should check transport_socket_->IsConnected() // as well. return completed_handshake_; } bool SSLServerContextImpl::SocketImpl::IsConnectedAndIdle() const { return completed_handshake_ && transport_socket_->IsConnectedAndIdle(); } int SSLServerContextImpl::SocketImpl::GetPeerAddress( IPEndPoint* address) const { if (!IsConnected()) return ERR_SOCKET_NOT_CONNECTED; return transport_socket_->GetPeerAddress(address); } int SSLServerContextImpl::SocketImpl::GetLocalAddress( IPEndPoint* address) const { if (!IsConnected()) return ERR_SOCKET_NOT_CONNECTED; return transport_socket_->GetLocalAddress(address); } const NetLogWithSource& SSLServerContextImpl::SocketImpl::NetLog() const { return net_log_; } bool SSLServerContextImpl::SocketImpl::WasEverUsed() const { return transport_socket_->WasEverUsed(); } bool SSLServerContextImpl::SocketImpl::WasAlpnNegotiated() const { NOTIMPLEMENTED(); return false; } NextProto SSLServerContextImpl::SocketImpl::GetNegotiatedProtocol() const { // ALPN is not supported by this class. return kProtoUnknown; } bool SSLServerContextImpl::SocketImpl::GetSSLInfo(SSLInfo* ssl_info) { ssl_info->Reset(); if (!completed_handshake_) return false; ssl_info->cert = client_cert_; const SSL_CIPHER* cipher = SSL_get_current_cipher(ssl_.get()); CHECK(cipher); ssl_info->security_bits = SSL_CIPHER_get_bits(cipher, NULL); SSLConnectionStatusSetCipherSuite( static_cast(SSL_CIPHER_get_id(cipher)), &ssl_info->connection_status); SSLConnectionStatusSetVersion(GetNetSSLVersion(ssl_.get()), &ssl_info->connection_status); ssl_info->handshake_type = SSL_session_reused(ssl_.get()) ? SSLInfo::HANDSHAKE_RESUME : SSLInfo::HANDSHAKE_FULL; return true; } void SSLServerContextImpl::SocketImpl::GetConnectionAttempts( ConnectionAttempts* out) const { out->clear(); } int64_t SSLServerContextImpl::SocketImpl::GetTotalReceivedBytes() const { return transport_socket_->GetTotalReceivedBytes(); } void SSLServerContextImpl::SocketImpl::ApplySocketTag(const SocketTag& tag) { NOTIMPLEMENTED(); } void SSLServerContextImpl::SocketImpl::OnReadReady() { if (next_handshake_state_ == STATE_HANDSHAKE) { // In handshake phase. The parameter to OnHandshakeIOComplete is unused. OnHandshakeIOComplete(OK); return; } // BoringSSL does not support renegotiation as a server, so the only other // operation blocked on Read is DoPayloadRead. if (!user_read_buf_) return; int rv = DoPayloadRead(); if (rv != ERR_IO_PENDING) DoReadCallback(rv); } void SSLServerContextImpl::SocketImpl::OnWriteReady() { if (next_handshake_state_ == STATE_HANDSHAKE) { // In handshake phase. The parameter to OnHandshakeIOComplete is unused. OnHandshakeIOComplete(OK); return; } // BoringSSL does not support renegotiation as a server, so the only other // operation blocked on Read is DoPayloadWrite. if (!user_write_buf_) return; int rv = DoPayloadWrite(); if (rv != ERR_IO_PENDING) DoWriteCallback(rv); } void SSLServerContextImpl::SocketImpl::OnHandshakeIOComplete(int result) { int rv = DoHandshakeLoop(result); if (rv == ERR_IO_PENDING) return; net_log_.EndEventWithNetErrorCode(NetLogEventType::SSL_SERVER_HANDSHAKE, rv); if (!user_handshake_callback_.is_null()) DoHandshakeCallback(rv); } int SSLServerContextImpl::SocketImpl::DoPayloadRead() { DCHECK(completed_handshake_); DCHECK_EQ(STATE_NONE, next_handshake_state_); DCHECK(user_read_buf_); DCHECK_GT(user_read_buf_len_, 0); crypto::OpenSSLErrStackTracer err_tracer(FROM_HERE); int rv = SSL_read(ssl_.get(), user_read_buf_->data(), user_read_buf_len_); if (rv >= 0) return rv; int ssl_error = SSL_get_error(ssl_.get(), rv); OpenSSLErrorInfo error_info; int net_error = MapOpenSSLErrorWithDetails(ssl_error, err_tracer, &error_info); if (net_error != ERR_IO_PENDING) { net_log_.AddEvent( NetLogEventType::SSL_READ_ERROR, CreateNetLogOpenSSLErrorCallback(net_error, ssl_error, error_info)); } return net_error; } int SSLServerContextImpl::SocketImpl::DoPayloadWrite() { DCHECK(completed_handshake_); DCHECK_EQ(STATE_NONE, next_handshake_state_); DCHECK(user_write_buf_); crypto::OpenSSLErrStackTracer err_tracer(FROM_HERE); int rv = SSL_write(ssl_.get(), user_write_buf_->data(), user_write_buf_len_); if (rv >= 0) return rv; int ssl_error = SSL_get_error(ssl_.get(), rv); OpenSSLErrorInfo error_info; int net_error = MapOpenSSLErrorWithDetails(ssl_error, err_tracer, &error_info); if (net_error != ERR_IO_PENDING) { net_log_.AddEvent( NetLogEventType::SSL_WRITE_ERROR, CreateNetLogOpenSSLErrorCallback(net_error, ssl_error, error_info)); } return net_error; } int SSLServerContextImpl::SocketImpl::DoHandshakeLoop(int last_io_result) { int rv = last_io_result; do { // Default to STATE_NONE for next state. // (This is a quirk carried over from the windows // implementation. It makes reading the logs a bit harder.) // State handlers can and often do call GotoState just // to stay in the current state. State state = next_handshake_state_; GotoState(STATE_NONE); switch (state) { case STATE_HANDSHAKE: rv = DoHandshake(); break; case STATE_NONE: default: rv = ERR_UNEXPECTED; LOG(DFATAL) << "unexpected state " << state; break; } } while (rv != ERR_IO_PENDING && next_handshake_state_ != STATE_NONE); return rv; } int SSLServerContextImpl::SocketImpl::DoHandshake() { crypto::OpenSSLErrStackTracer err_tracer(FROM_HERE); int net_error = OK; int rv = SSL_do_handshake(ssl_.get()); if (rv == 1) { completed_handshake_ = true; const STACK_OF(CRYPTO_BUFFER)* certs = SSL_get0_peer_certificates(ssl_.get()); if (certs) { client_cert_ = x509_util::CreateX509CertificateFromBuffers(certs); if (!client_cert_) return ERR_SSL_CLIENT_AUTH_CERT_BAD_FORMAT; } } else { int ssl_error = SSL_get_error(ssl_.get(), rv); if (ssl_error == SSL_ERROR_WANT_PRIVATE_KEY_OPERATION) { DCHECK(context_->private_key_); GotoState(STATE_HANDSHAKE); return ERR_IO_PENDING; } OpenSSLErrorInfo error_info; net_error = MapOpenSSLErrorWithDetails(ssl_error, err_tracer, &error_info); // SSL_R_CERTIFICATE_VERIFY_FAILED's mapping is different between client and // server. if (ERR_GET_LIB(error_info.error_code) == ERR_LIB_SSL && ERR_GET_REASON(error_info.error_code) == SSL_R_CERTIFICATE_VERIFY_FAILED) { net_error = ERR_BAD_SSL_CLIENT_AUTH_CERT; } // If not done, stay in this state if (net_error == ERR_IO_PENDING) { GotoState(STATE_HANDSHAKE); } else { LOG(ERROR) << "handshake failed; returned " << rv << ", SSL error code " << ssl_error << ", net_error " << net_error; net_log_.AddEvent( NetLogEventType::SSL_HANDSHAKE_ERROR, CreateNetLogOpenSSLErrorCallback(net_error, ssl_error, error_info)); } } return net_error; } void SSLServerContextImpl::SocketImpl::DoHandshakeCallback(int rv) { DCHECK_NE(rv, ERR_IO_PENDING); std::move(user_handshake_callback_).Run(rv > OK ? OK : rv); } void SSLServerContextImpl::SocketImpl::DoReadCallback(int rv) { DCHECK(rv != ERR_IO_PENDING); DCHECK(!user_read_callback_.is_null()); user_read_buf_ = NULL; user_read_buf_len_ = 0; std::move(user_read_callback_).Run(rv); } void SSLServerContextImpl::SocketImpl::DoWriteCallback(int rv) { DCHECK(rv != ERR_IO_PENDING); DCHECK(!user_write_callback_.is_null()); user_write_buf_ = NULL; user_write_buf_len_ = 0; std::move(user_write_callback_).Run(rv); } int SSLServerContextImpl::SocketImpl::Init() { static const int kBufferSize = 17 * 1024; crypto::OpenSSLErrStackTracer err_tracer(FROM_HERE); if (!ssl_ || !SSL_set_ex_data(ssl_.get(), SocketDataIndex::GetInstance()->ssl_socket_data_index_, this)) return ERR_UNEXPECTED; // Set certificate and private key. if (context_->key_) { DCHECK(context_->cert_->cert_buffer()); DCHECK(context_->key_->key()); if (!SetSSLChainAndKey(ssl_.get(), context_->cert_.get(), context_->key_->key(), nullptr)) { return ERR_UNEXPECTED; } } else { DCHECK(context_->private_key_); if (!SetSSLChainAndKey(ssl_.get(), context_->cert_.get(), nullptr, &kPrivateKeyMethod)) { return ERR_UNEXPECTED; } std::vector preferences = context_->private_key_->GetAlgorithmPreferences(); SSL_set_signing_algorithm_prefs(ssl_.get(), preferences.data(), preferences.size()); } transport_adapter_.reset(new SocketBIOAdapter( transport_socket_.get(), kBufferSize, kBufferSize, this)); BIO* transport_bio = transport_adapter_->bio(); BIO_up_ref(transport_bio); // SSL_set0_rbio takes ownership. SSL_set0_rbio(ssl_.get(), transport_bio); BIO_up_ref(transport_bio); // SSL_set0_wbio takes ownership. SSL_set0_wbio(ssl_.get(), transport_bio); return OK; } // static ssl_verify_result_t SSLServerContextImpl::SocketImpl::CertVerifyCallback( SSL* ssl, uint8_t* out_alert) { SocketImpl* socket = reinterpret_cast(SSL_get_app_data(ssl)); return socket->CertVerifyCallbackImpl(out_alert); } ssl_verify_result_t SSLServerContextImpl::SocketImpl::CertVerifyCallbackImpl( uint8_t* out_alert) { ClientCertVerifier* verifier = context_->ssl_server_config_.client_cert_verifier; // If a verifier was not supplied, all certificates are accepted. if (!verifier) return ssl_verify_ok; scoped_refptr client_cert = x509_util::CreateX509CertificateFromBuffers( SSL_get0_peer_certificates(ssl_.get())); if (!client_cert) { *out_alert = SSL_AD_BAD_CERTIFICATE; return ssl_verify_invalid; } // TODO(davidben): Support asynchronous verifiers. http://crbug.com/347402 std::unique_ptr ignore_async; int res = verifier->Verify(client_cert.get(), CompletionCallback(), &ignore_async); DCHECK_NE(res, ERR_IO_PENDING); if (res != OK) { // TODO(davidben): Map from certificate verification failure to alert. *out_alert = SSL_AD_CERTIFICATE_UNKNOWN; return ssl_verify_invalid; } return ssl_verify_ok; } std::unique_ptr CreateSSLServerContext( X509Certificate* certificate, const crypto::RSAPrivateKey& key, const SSLServerConfig& ssl_server_config) { return std::make_unique(certificate, key, ssl_server_config); } std::unique_ptr CreateSSLServerContext( X509Certificate* certificate, scoped_refptr key, const SSLServerConfig& ssl_config) { return std::make_unique(certificate, key, ssl_config); } SSLServerContextImpl::SSLServerContextImpl( X509Certificate* certificate, scoped_refptr key, const SSLServerConfig& ssl_server_config) : ssl_server_config_(ssl_server_config), cert_(certificate), private_key_(key) { CHECK(private_key_); Init(); } SSLServerContextImpl::SSLServerContextImpl( X509Certificate* certificate, const crypto::RSAPrivateKey& key, const SSLServerConfig& ssl_server_config) : ssl_server_config_(ssl_server_config), cert_(certificate), key_(key.Copy()) { CHECK(key_); Init(); } void SSLServerContextImpl::Init() { crypto::EnsureOpenSSLInit(); ssl_ctx_.reset(SSL_CTX_new(TLS_with_buffers_method())); SSL_CTX_set_session_cache_mode(ssl_ctx_.get(), SSL_SESS_CACHE_SERVER); uint8_t session_ctx_id = 0; SSL_CTX_set_session_id_context(ssl_ctx_.get(), &session_ctx_id, sizeof(session_ctx_id)); // Deduplicate all certificates minted from the SSL_CTX in memory. SSL_CTX_set0_buffer_pool(ssl_ctx_.get(), x509_util::GetBufferPool()); int verify_mode = 0; switch (ssl_server_config_.client_cert_type) { case SSLServerConfig::ClientCertType::REQUIRE_CLIENT_CERT: verify_mode |= SSL_VERIFY_FAIL_IF_NO_PEER_CERT; FALLTHROUGH; case SSLServerConfig::ClientCertType::OPTIONAL_CLIENT_CERT: verify_mode |= SSL_VERIFY_PEER; SSL_CTX_set_custom_verify(ssl_ctx_.get(), verify_mode, SocketImpl::CertVerifyCallback); break; case SSLServerConfig::ClientCertType::NO_CLIENT_CERT: break; } DCHECK_LT(SSL3_VERSION, ssl_server_config_.version_min); DCHECK_LT(SSL3_VERSION, ssl_server_config_.version_max); CHECK(SSL_CTX_set_min_proto_version(ssl_ctx_.get(), ssl_server_config_.version_min)); CHECK(SSL_CTX_set_max_proto_version(ssl_ctx_.get(), ssl_server_config_.version_max)); // OpenSSL defaults some options to on, others to off. To avoid ambiguity, // set everything we care about to an absolute value. SslSetClearMask options; options.ConfigureFlag(SSL_OP_NO_COMPRESSION, true); SSL_CTX_set_options(ssl_ctx_.get(), options.set_mask); SSL_CTX_clear_options(ssl_ctx_.get(), options.clear_mask); // Same as above, this time for the SSL mode. SslSetClearMask mode; mode.ConfigureFlag(SSL_MODE_RELEASE_BUFFERS, true); SSL_CTX_set_mode(ssl_ctx_.get(), mode.set_mask); SSL_CTX_clear_mode(ssl_ctx_.get(), mode.clear_mask); // See SSLServerConfig::disabled_cipher_suites for description of the suites // disabled by default. Note that !SHA256 and !SHA384 only remove HMAC-SHA256 // and HMAC-SHA384 cipher suites, not GCM cipher suites with SHA256 or SHA384 // as the handshake hash. std::string command("DEFAULT:!AESGCM+AES256:!aPSK"); // SSLPrivateKey only supports ECDHE-based ciphers because it lacks decrypt. if (ssl_server_config_.require_ecdhe || (!key_ && private_key_)) command.append(":!kRSA"); // Remove any disabled ciphers. for (uint16_t id : ssl_server_config_.disabled_cipher_suites) { const SSL_CIPHER* cipher = SSL_get_cipher_by_value(id); if (cipher) { command.append(":!"); command.append(SSL_CIPHER_get_name(cipher)); } } CHECK(SSL_CTX_set_strict_cipher_list(ssl_ctx_.get(), command.c_str())); if (ssl_server_config_.client_cert_type != SSLServerConfig::ClientCertType::NO_CLIENT_CERT && !ssl_server_config_.cert_authorities_.empty()) { bssl::UniquePtr stack(sk_CRYPTO_BUFFER_new_null()); for (const auto& authority : ssl_server_config_.cert_authorities_) { sk_CRYPTO_BUFFER_push(stack.get(), x509_util::CreateCryptoBuffer(authority).release()); } SSL_CTX_set0_client_CAs(ssl_ctx_.get(), stack.release()); } } SSLServerContextImpl::~SSLServerContextImpl() = default; std::unique_ptr SSLServerContextImpl::CreateSSLServerSocket( std::unique_ptr socket) { return std::make_unique(this, std::move(socket)); } } // namespace net