ref: ca70040abf8d8ab2cb03575f65131ad8ef8f12a1
dir: /third_party/boringssl/src/ssl/handoff.cc/
/* Copyright (c) 2018, Google Inc. * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION * OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN * CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include <openssl/ssl.h> #include <openssl/bytestring.h> #include <openssl/err.h> #include "internal.h" BSSL_NAMESPACE_BEGIN constexpr int kHandoffVersion = 0; constexpr int kHandbackVersion = 0; static const unsigned kHandoffTagALPS = CBS_ASN1_CONTEXT_SPECIFIC | 0; // early_data_t represents the state of early data in a more compact way than // the 3 bits used by the implementation. enum early_data_t { early_data_not_offered = 0, early_data_accepted = 1, early_data_rejected_hrr = 2, early_data_skipped = 3, early_data_max_value = early_data_skipped, }; // serialize_features adds a description of features supported by this binary to // |out|. Returns true on success and false on error. static bool serialize_features(CBB *out) { CBB ciphers; if (!CBB_add_asn1(out, &ciphers, CBS_ASN1_OCTETSTRING)) { return false; } Span<const SSL_CIPHER> all_ciphers = AllCiphers(); for (const SSL_CIPHER& cipher : all_ciphers) { if (!CBB_add_u16(&ciphers, static_cast<uint16_t>(cipher.id))) { return false; } } CBB curves; if (!CBB_add_asn1(out, &curves, CBS_ASN1_OCTETSTRING)) { return false; } for (const NamedGroup& g : NamedGroups()) { if (!CBB_add_u16(&curves, g.group_id)) { return false; } } // ALPS is a draft protocol and may change over time. The handoff structure // contains a [0] IMPLICIT OCTET STRING OPTIONAL, containing a list of u16 // ALPS versions that the binary supports. For now we name them by codepoint. // Once ALPS is finalized and past the support horizon, this field can be // removed. CBB alps; if (!CBB_add_asn1(out, &alps, kHandoffTagALPS) || !CBB_add_u16(&alps, TLSEXT_TYPE_application_settings)) { return false; } return CBB_flush(out); } bool SSL_serialize_handoff(const SSL *ssl, CBB *out, SSL_CLIENT_HELLO *out_hello) { const SSL3_STATE *const s3 = ssl->s3; if (!ssl->server || s3->hs == nullptr || s3->rwstate != SSL_ERROR_HANDOFF) { return false; } CBB seq; SSLMessage msg; Span<const uint8_t> transcript = s3->hs->transcript.buffer(); if (!CBB_add_asn1(out, &seq, CBS_ASN1_SEQUENCE) || !CBB_add_asn1_uint64(&seq, kHandoffVersion) || !CBB_add_asn1_octet_string(&seq, transcript.data(), transcript.size()) || !CBB_add_asn1_octet_string(&seq, reinterpret_cast<uint8_t *>(s3->hs_buf->data), s3->hs_buf->length) || !serialize_features(&seq) || !CBB_flush(out) || !ssl->method->get_message(ssl, &msg) || !ssl_client_hello_init(ssl, out_hello, msg.body)) { return false; } return true; } bool SSL_decline_handoff(SSL *ssl) { const SSL3_STATE *const s3 = ssl->s3; if (!ssl->server || s3->hs == nullptr || s3->rwstate != SSL_ERROR_HANDOFF) { return false; } s3->hs->config->handoff = false; return true; } // apply_remote_features reads a list of supported features from |in| and // (possibly) reconfigures |ssl| to disallow the negotation of features whose // support has not been indicated. (This prevents the the handshake from // committing to features that are not supported on the handoff/handback side.) static bool apply_remote_features(SSL *ssl, CBS *in) { CBS ciphers; if (!CBS_get_asn1(in, &ciphers, CBS_ASN1_OCTETSTRING)) { return false; } bssl::UniquePtr<STACK_OF(SSL_CIPHER)> supported(sk_SSL_CIPHER_new_null()); while (CBS_len(&ciphers)) { uint16_t id; if (!CBS_get_u16(&ciphers, &id)) { return false; } const SSL_CIPHER *cipher = SSL_get_cipher_by_value(id); if (!cipher) { continue; } if (!sk_SSL_CIPHER_push(supported.get(), cipher)) { return false; } } STACK_OF(SSL_CIPHER) *configured = ssl->config->cipher_list ? ssl->config->cipher_list->ciphers.get() : ssl->ctx->cipher_list->ciphers.get(); bssl::UniquePtr<STACK_OF(SSL_CIPHER)> unsupported(sk_SSL_CIPHER_new_null()); for (const SSL_CIPHER *configured_cipher : configured) { if (sk_SSL_CIPHER_find(supported.get(), nullptr, configured_cipher)) { continue; } if (!sk_SSL_CIPHER_push(unsupported.get(), configured_cipher)) { return false; } } if (sk_SSL_CIPHER_num(unsupported.get()) && !ssl->config->cipher_list) { ssl->config->cipher_list = bssl::MakeUnique<SSLCipherPreferenceList>(); if (!ssl->config->cipher_list->Init(*ssl->ctx->cipher_list)) { return false; } } for (const SSL_CIPHER *unsupported_cipher : unsupported.get()) { ssl->config->cipher_list->Remove(unsupported_cipher); } if (sk_SSL_CIPHER_num(SSL_get_ciphers(ssl)) == 0) { return false; } CBS curves; if (!CBS_get_asn1(in, &curves, CBS_ASN1_OCTETSTRING)) { return false; } Array<uint16_t> supported_curves; if (!supported_curves.Init(CBS_len(&curves) / 2)) { return false; } size_t idx = 0; while (CBS_len(&curves)) { uint16_t curve; if (!CBS_get_u16(&curves, &curve)) { return false; } supported_curves[idx++] = curve; } Span<const uint16_t> configured_curves = tls1_get_grouplist(ssl->s3->hs.get()); Array<uint16_t> new_configured_curves; if (!new_configured_curves.Init(configured_curves.size())) { return false; } idx = 0; for (uint16_t configured_curve : configured_curves) { bool ok = false; for (uint16_t supported_curve : supported_curves) { if (supported_curve == configured_curve) { ok = true; break; } } if (ok) { new_configured_curves[idx++] = configured_curve; } } if (idx == 0) { return false; } new_configured_curves.Shrink(idx); ssl->config->supported_group_list = std::move(new_configured_curves); CBS alps; CBS_init(&alps, nullptr, 0); if (!CBS_get_optional_asn1(in, &alps, /*out_present=*/nullptr, kHandoffTagALPS)) { return false; } bool supports_alps = false; while (CBS_len(&alps) != 0) { uint16_t id; if (!CBS_get_u16(&alps, &id)) { return false; } // For now, we only support one ALPS code point, so we only need to extract // a boolean signal from the feature list. if (id == TLSEXT_TYPE_application_settings) { supports_alps = true; break; } } if (!supports_alps) { ssl->config->alps_configs.clear(); } return true; } // uses_disallowed_feature returns true iff |ssl| enables a feature that // disqualifies it for split handshakes. static bool uses_disallowed_feature(const SSL *ssl) { return ssl->method->is_dtls || (ssl->config->cert && ssl->config->cert->dc) || ssl->config->quic_transport_params.size() > 0 || ssl->ctx->ech_keys; } bool SSL_apply_handoff(SSL *ssl, Span<const uint8_t> handoff) { if (uses_disallowed_feature(ssl)) { return false; } CBS seq, handoff_cbs(handoff); uint64_t handoff_version; if (!CBS_get_asn1(&handoff_cbs, &seq, CBS_ASN1_SEQUENCE) || !CBS_get_asn1_uint64(&seq, &handoff_version) || handoff_version != kHandoffVersion) { return false; } CBS transcript, hs_buf; if (!CBS_get_asn1(&seq, &transcript, CBS_ASN1_OCTETSTRING) || !CBS_get_asn1(&seq, &hs_buf, CBS_ASN1_OCTETSTRING) || !apply_remote_features(ssl, &seq)) { return false; } SSL_set_accept_state(ssl); SSL3_STATE *const s3 = ssl->s3; s3->v2_hello_done = true; s3->has_message = true; s3->hs_buf.reset(BUF_MEM_new()); if (!s3->hs_buf || !BUF_MEM_append(s3->hs_buf.get(), CBS_data(&hs_buf), CBS_len(&hs_buf))) { return false; } if (CBS_len(&transcript) != 0) { s3->hs->transcript.Update(transcript); s3->is_v2_hello = true; } s3->hs->handback = true; return true; } bool SSL_serialize_handback(const SSL *ssl, CBB *out) { if (!ssl->server || uses_disallowed_feature(ssl)) { return false; } const SSL3_STATE *const s3 = ssl->s3; SSL_HANDSHAKE *const hs = s3->hs.get(); handback_t type; switch (hs->state) { case state12_read_change_cipher_spec: type = handback_after_session_resumption; break; case state12_read_client_certificate: type = handback_after_ecdhe; break; case state12_finish_server_handshake: type = handback_after_handshake; break; case state12_tls13: if (hs->tls13_state != state13_send_half_rtt_ticket) { return false; } type = handback_tls13; break; default: return false; } size_t hostname_len = 0; if (s3->hostname) { hostname_len = strlen(s3->hostname.get()); } Span<const uint8_t> transcript; if (type != handback_after_handshake) { transcript = s3->hs->transcript.buffer(); } size_t write_iv_len = 0; const uint8_t *write_iv = nullptr; if ((type == handback_after_session_resumption || type == handback_after_handshake) && ssl->version == TLS1_VERSION && SSL_CIPHER_is_block_cipher(s3->aead_write_ctx->cipher()) && !s3->aead_write_ctx->GetIV(&write_iv, &write_iv_len)) { return false; } size_t read_iv_len = 0; const uint8_t *read_iv = nullptr; if (type == handback_after_handshake && ssl->version == TLS1_VERSION && SSL_CIPHER_is_block_cipher(s3->aead_read_ctx->cipher()) && !s3->aead_read_ctx->GetIV(&read_iv, &read_iv_len)) { return false; } // TODO(mab): make sure everything is serialized. CBB seq, key_share; const SSL_SESSION *session; if (type == handback_tls13) { session = hs->new_session.get(); } else { session = s3->session_reused ? ssl->session.get() : hs->new_session.get(); } static const uint8_t kUnusedChannelID[64] = {0}; if (!CBB_add_asn1(out, &seq, CBS_ASN1_SEQUENCE) || !CBB_add_asn1_uint64(&seq, kHandbackVersion) || !CBB_add_asn1_uint64(&seq, type) || !CBB_add_asn1_octet_string(&seq, s3->read_sequence, sizeof(s3->read_sequence)) || !CBB_add_asn1_octet_string(&seq, s3->write_sequence, sizeof(s3->write_sequence)) || !CBB_add_asn1_octet_string(&seq, s3->server_random, sizeof(s3->server_random)) || !CBB_add_asn1_octet_string(&seq, s3->client_random, sizeof(s3->client_random)) || !CBB_add_asn1_octet_string(&seq, read_iv, read_iv_len) || !CBB_add_asn1_octet_string(&seq, write_iv, write_iv_len) || !CBB_add_asn1_bool(&seq, s3->session_reused) || !CBB_add_asn1_bool(&seq, hs->channel_id_negotiated) || !ssl_session_serialize(session, &seq) || !CBB_add_asn1_octet_string(&seq, s3->next_proto_negotiated.data(), s3->next_proto_negotiated.size()) || !CBB_add_asn1_octet_string(&seq, s3->alpn_selected.data(), s3->alpn_selected.size()) || !CBB_add_asn1_octet_string( &seq, reinterpret_cast<uint8_t *>(s3->hostname.get()), hostname_len) || !CBB_add_asn1_octet_string(&seq, kUnusedChannelID, sizeof(kUnusedChannelID)) || // These two fields were historically |token_binding_negotiated| and // |negotiated_token_binding_param|. !CBB_add_asn1_bool(&seq, 0) || !CBB_add_asn1_uint64(&seq, 0) || !CBB_add_asn1_bool(&seq, s3->hs->next_proto_neg_seen) || !CBB_add_asn1_bool(&seq, s3->hs->cert_request) || !CBB_add_asn1_bool(&seq, s3->hs->extended_master_secret) || !CBB_add_asn1_bool(&seq, s3->hs->ticket_expected) || !CBB_add_asn1_uint64(&seq, SSL_CIPHER_get_id(s3->hs->new_cipher)) || !CBB_add_asn1_octet_string(&seq, transcript.data(), transcript.size()) || !CBB_add_asn1(&seq, &key_share, CBS_ASN1_SEQUENCE)) { return false; } if (type == handback_after_ecdhe && !s3->hs->key_shares[0]->Serialize(&key_share)) { return false; } if (type == handback_tls13) { early_data_t early_data; // Check early data invariants. if (ssl->enable_early_data == (s3->early_data_reason == ssl_early_data_disabled)) { return false; } if (hs->early_data_offered) { if (s3->early_data_accepted && !s3->skip_early_data) { early_data = early_data_accepted; } else if (!s3->early_data_accepted && !s3->skip_early_data) { early_data = early_data_rejected_hrr; } else if (!s3->early_data_accepted && s3->skip_early_data) { early_data = early_data_skipped; } else { return false; } } else if (!s3->early_data_accepted && !s3->skip_early_data) { early_data = early_data_not_offered; } else { return false; } if (!CBB_add_asn1_octet_string(&seq, hs->client_traffic_secret_0().data(), hs->client_traffic_secret_0().size()) || !CBB_add_asn1_octet_string(&seq, hs->server_traffic_secret_0().data(), hs->server_traffic_secret_0().size()) || !CBB_add_asn1_octet_string(&seq, hs->client_handshake_secret().data(), hs->client_handshake_secret().size()) || !CBB_add_asn1_octet_string(&seq, hs->server_handshake_secret().data(), hs->server_handshake_secret().size()) || !CBB_add_asn1_octet_string(&seq, hs->secret().data(), hs->secret().size()) || !CBB_add_asn1_octet_string(&seq, s3->exporter_secret, s3->exporter_secret_len) || !CBB_add_asn1_bool(&seq, s3->used_hello_retry_request) || !CBB_add_asn1_bool(&seq, hs->accept_psk_mode) || !CBB_add_asn1_int64(&seq, s3->ticket_age_skew) || !CBB_add_asn1_uint64(&seq, s3->early_data_reason) || !CBB_add_asn1_uint64(&seq, early_data)) { return false; } if (early_data == early_data_accepted && !CBB_add_asn1_octet_string(&seq, hs->early_traffic_secret().data(), hs->early_traffic_secret().size())) { return false; } } return CBB_flush(out); } static bool CopyExact(Span<uint8_t> out, const CBS *in) { if (CBS_len(in) != out.size()) { return false; } OPENSSL_memcpy(out.data(), CBS_data(in), out.size()); return true; } bool SSL_apply_handback(SSL *ssl, Span<const uint8_t> handback) { if (ssl->do_handshake != nullptr || ssl->method->is_dtls) { return false; } SSL3_STATE *const s3 = ssl->s3; uint64_t handback_version, unused_token_binding_param, cipher, type_u64; CBS seq, read_seq, write_seq, server_rand, client_rand, read_iv, write_iv, next_proto, alpn, hostname, unused_channel_id, transcript, key_share; int session_reused, channel_id_negotiated, cert_request, extended_master_secret, ticket_expected, unused_token_binding, next_proto_neg_seen; SSL_SESSION *session = nullptr; CBS handback_cbs(handback); if (!CBS_get_asn1(&handback_cbs, &seq, CBS_ASN1_SEQUENCE) || !CBS_get_asn1_uint64(&seq, &handback_version) || handback_version != kHandbackVersion || !CBS_get_asn1_uint64(&seq, &type_u64) || type_u64 > handback_max_value) { return false; } handback_t type = static_cast<handback_t>(type_u64); if (!CBS_get_asn1(&seq, &read_seq, CBS_ASN1_OCTETSTRING) || CBS_len(&read_seq) != sizeof(s3->read_sequence) || !CBS_get_asn1(&seq, &write_seq, CBS_ASN1_OCTETSTRING) || CBS_len(&write_seq) != sizeof(s3->write_sequence) || !CBS_get_asn1(&seq, &server_rand, CBS_ASN1_OCTETSTRING) || CBS_len(&server_rand) != sizeof(s3->server_random) || !CBS_copy_bytes(&server_rand, s3->server_random, sizeof(s3->server_random)) || !CBS_get_asn1(&seq, &client_rand, CBS_ASN1_OCTETSTRING) || CBS_len(&client_rand) != sizeof(s3->client_random) || !CBS_copy_bytes(&client_rand, s3->client_random, sizeof(s3->client_random)) || !CBS_get_asn1(&seq, &read_iv, CBS_ASN1_OCTETSTRING) || !CBS_get_asn1(&seq, &write_iv, CBS_ASN1_OCTETSTRING) || !CBS_get_asn1_bool(&seq, &session_reused) || !CBS_get_asn1_bool(&seq, &channel_id_negotiated)) { return false; } s3->hs = ssl_handshake_new(ssl); SSL_HANDSHAKE *const hs = s3->hs.get(); if (!session_reused || type == handback_tls13) { hs->new_session = SSL_SESSION_parse(&seq, ssl->ctx->x509_method, ssl->ctx->pool); session = hs->new_session.get(); } else { ssl->session = SSL_SESSION_parse(&seq, ssl->ctx->x509_method, ssl->ctx->pool); session = ssl->session.get(); } if (!session || !CBS_get_asn1(&seq, &next_proto, CBS_ASN1_OCTETSTRING) || !CBS_get_asn1(&seq, &alpn, CBS_ASN1_OCTETSTRING) || !CBS_get_asn1(&seq, &hostname, CBS_ASN1_OCTETSTRING) || !CBS_get_asn1(&seq, &unused_channel_id, CBS_ASN1_OCTETSTRING) || !CBS_get_asn1_bool(&seq, &unused_token_binding) || !CBS_get_asn1_uint64(&seq, &unused_token_binding_param) || !CBS_get_asn1_bool(&seq, &next_proto_neg_seen) || !CBS_get_asn1_bool(&seq, &cert_request) || !CBS_get_asn1_bool(&seq, &extended_master_secret) || !CBS_get_asn1_bool(&seq, &ticket_expected) || !CBS_get_asn1_uint64(&seq, &cipher)) { return false; } if ((hs->new_cipher = SSL_get_cipher_by_value(static_cast<uint16_t>(cipher))) == nullptr) { return false; } if (!CBS_get_asn1(&seq, &transcript, CBS_ASN1_OCTETSTRING) || !CBS_get_asn1(&seq, &key_share, CBS_ASN1_SEQUENCE)) { return false; } CBS client_handshake_secret, server_handshake_secret, client_traffic_secret_0, server_traffic_secret_0, secret, exporter_secret, early_traffic_secret; if (type == handback_tls13) { int used_hello_retry_request, accept_psk_mode; uint64_t early_data, early_data_reason; int64_t ticket_age_skew; if (!CBS_get_asn1(&seq, &client_traffic_secret_0, CBS_ASN1_OCTETSTRING) || !CBS_get_asn1(&seq, &server_traffic_secret_0, CBS_ASN1_OCTETSTRING) || !CBS_get_asn1(&seq, &client_handshake_secret, CBS_ASN1_OCTETSTRING) || !CBS_get_asn1(&seq, &server_handshake_secret, CBS_ASN1_OCTETSTRING) || !CBS_get_asn1(&seq, &secret, CBS_ASN1_OCTETSTRING) || !CBS_get_asn1(&seq, &exporter_secret, CBS_ASN1_OCTETSTRING) || !CBS_get_asn1_bool(&seq, &used_hello_retry_request) || !CBS_get_asn1_bool(&seq, &accept_psk_mode) || !CBS_get_asn1_int64(&seq, &ticket_age_skew) || !CBS_get_asn1_uint64(&seq, &early_data_reason) || early_data_reason > ssl_early_data_reason_max_value || !CBS_get_asn1_uint64(&seq, &early_data) || early_data > early_data_max_value) { return false; } early_data_t early_data_type = static_cast<early_data_t>(early_data); if (early_data_type == early_data_accepted && !CBS_get_asn1(&seq, &early_traffic_secret, CBS_ASN1_OCTETSTRING)) { return false; } if (ticket_age_skew > std::numeric_limits<int32_t>::max() || ticket_age_skew < std::numeric_limits<int32_t>::min()) { return false; } s3->ticket_age_skew = static_cast<int32_t>(ticket_age_skew); s3->used_hello_retry_request = used_hello_retry_request; hs->accept_psk_mode = accept_psk_mode; s3->early_data_reason = static_cast<ssl_early_data_reason_t>(early_data_reason); ssl->enable_early_data = s3->early_data_reason != ssl_early_data_disabled; s3->skip_early_data = false; s3->early_data_accepted = false; hs->early_data_offered = false; switch (early_data_type) { case early_data_not_offered: break; case early_data_accepted: s3->early_data_accepted = true; hs->early_data_offered = true; hs->can_early_write = true; hs->can_early_read = true; hs->in_early_data = true; break; case early_data_rejected_hrr: hs->early_data_offered = true; break; case early_data_skipped: s3->skip_early_data = true; hs->early_data_offered = true; break; default: return false; } } else { s3->early_data_reason = ssl_early_data_protocol_version; } ssl->version = session->ssl_version; s3->have_version = true; if (!ssl_method_supports_version(ssl->method, ssl->version) || session->cipher != hs->new_cipher || ssl_protocol_version(ssl) < SSL_CIPHER_get_min_version(session->cipher) || SSL_CIPHER_get_max_version(session->cipher) < ssl_protocol_version(ssl)) { return false; } ssl->do_handshake = ssl_server_handshake; ssl->server = true; switch (type) { case handback_after_session_resumption: hs->state = state12_read_change_cipher_spec; if (!session_reused) { return false; } break; case handback_after_ecdhe: hs->state = state12_read_client_certificate; if (session_reused) { return false; } break; case handback_after_handshake: hs->state = state12_finish_server_handshake; break; case handback_tls13: hs->state = state12_tls13; hs->tls13_state = state13_send_half_rtt_ticket; break; default: return false; } s3->session_reused = session_reused; hs->channel_id_negotiated = channel_id_negotiated; s3->next_proto_negotiated.CopyFrom(next_proto); s3->alpn_selected.CopyFrom(alpn); const size_t hostname_len = CBS_len(&hostname); if (hostname_len == 0) { s3->hostname.reset(); } else { char *hostname_str = nullptr; if (!CBS_strdup(&hostname, &hostname_str)) { return false; } s3->hostname.reset(hostname_str); } hs->next_proto_neg_seen = next_proto_neg_seen; hs->wait = ssl_hs_flush; hs->extended_master_secret = extended_master_secret; hs->ticket_expected = ticket_expected; s3->aead_write_ctx->SetVersionIfNullCipher(ssl->version); hs->cert_request = cert_request; if (type != handback_after_handshake && (!hs->transcript.Init() || !hs->transcript.InitHash(ssl_protocol_version(ssl), hs->new_cipher) || !hs->transcript.Update(transcript))) { return false; } if (type == handback_tls13) { hs->ResizeSecrets(hs->transcript.DigestLen()); if (!CopyExact(hs->client_traffic_secret_0(), &client_traffic_secret_0) || !CopyExact(hs->server_traffic_secret_0(), &server_traffic_secret_0) || !CopyExact(hs->client_handshake_secret(), &client_handshake_secret) || !CopyExact(hs->server_handshake_secret(), &server_handshake_secret) || !CopyExact(hs->secret(), &secret) || !CopyExact({s3->exporter_secret, hs->transcript.DigestLen()}, &exporter_secret)) { return false; } s3->exporter_secret_len = CBS_len(&exporter_secret); if (s3->early_data_accepted && !CopyExact(hs->early_traffic_secret(), &early_traffic_secret)) { return false; } } Array<uint8_t> key_block; switch (type) { case handback_after_session_resumption: // The write keys are installed after server Finished, but the client // keys must wait for ChangeCipherSpec. if (!tls1_configure_aead(ssl, evp_aead_seal, &key_block, session, write_iv)) { return false; } break; case handback_after_ecdhe: // The premaster secret is not yet computed, so install no keys. break; case handback_after_handshake: // The handshake is complete, so both keys are installed. if (!tls1_configure_aead(ssl, evp_aead_seal, &key_block, session, write_iv) || !tls1_configure_aead(ssl, evp_aead_open, &key_block, session, read_iv)) { return false; } break; case handback_tls13: // After server Finished, the application write keys are installed, but // none of the read keys. The read keys are installed in the state machine // immediately after processing handback. if (!tls13_set_traffic_key(ssl, ssl_encryption_application, evp_aead_seal, hs->new_session.get(), hs->server_traffic_secret_0())) { return false; } break; } if (!CopyExact({s3->read_sequence, sizeof(s3->read_sequence)}, &read_seq) || !CopyExact({s3->write_sequence, sizeof(s3->write_sequence)}, &write_seq)) { return false; } if (type == handback_after_ecdhe && (hs->key_shares[0] = SSLKeyShare::Create(&key_share)) == nullptr) { return false; } return true; // Trailing data allowed for extensibility. } BSSL_NAMESPACE_END using namespace bssl; int SSL_serialize_capabilities(const SSL *ssl, CBB *out) { CBB seq; if (!CBB_add_asn1(out, &seq, CBS_ASN1_SEQUENCE) || !serialize_features(&seq) || // !CBB_flush(out)) { return 0; } return 1; } int SSL_request_handshake_hints(SSL *ssl, const uint8_t *client_hello, size_t client_hello_len, const uint8_t *capabilities, size_t capabilities_len) { if (SSL_is_dtls(ssl)) { OPENSSL_PUT_ERROR(SSL, ERR_R_SHOULD_NOT_HAVE_BEEN_CALLED); return 0; } CBS cbs, seq; CBS_init(&cbs, capabilities, capabilities_len); UniquePtr<SSL_HANDSHAKE_HINTS> hints = MakeUnique<SSL_HANDSHAKE_HINTS>(); if (hints == nullptr || !CBS_get_asn1(&cbs, &seq, CBS_ASN1_SEQUENCE) || !apply_remote_features(ssl, &seq)) { return 0; } SSL3_STATE *const s3 = ssl->s3; s3->v2_hello_done = true; s3->has_message = true; Array<uint8_t> client_hello_msg; ScopedCBB client_hello_cbb; CBB client_hello_body; if (!ssl->method->init_message(ssl, client_hello_cbb.get(), &client_hello_body, SSL3_MT_CLIENT_HELLO) || !CBB_add_bytes(&client_hello_body, client_hello, client_hello_len) || !ssl->method->finish_message(ssl, client_hello_cbb.get(), &client_hello_msg)) { return 0; } s3->hs_buf.reset(BUF_MEM_new()); if (!s3->hs_buf || !BUF_MEM_append(s3->hs_buf.get(), client_hello_msg.data(), client_hello_msg.size())) { return 0; } s3->hs->hints_requested = true; s3->hs->hints = std::move(hints); return 1; } // |SSL_HANDSHAKE_HINTS| is serialized as the following ASN.1 structure. We use // implicit tagging to make it a little more compact. // // HandshakeHints ::= SEQUENCE { // serverRandom [0] IMPLICIT OCTET STRING OPTIONAL, // keyShareHint [1] IMPLICIT KeyShareHint OPTIONAL, // signatureHint [2] IMPLICIT SignatureHint OPTIONAL, // -- At most one of decryptedPSKHint or ignorePSKHint may be present. It // -- corresponds to the first entry in pre_shared_keys. TLS 1.2 session // -- tickets will use a separate hint, to ensure the caller does not mix // -- them up. // decryptedPSKHint [3] IMPLICIT OCTET STRING OPTIONAL, // ignorePSKHint [4] IMPLICIT NULL OPTIONAL, // compressCertificateHint [5] IMPLICIT CompressCertificateHint OPTIONAL, // } // // KeyShareHint ::= SEQUENCE { // groupId INTEGER, // publicKey OCTET STRING, // secret OCTET STRING, // } // // SignatureHint ::= SEQUENCE { // algorithm INTEGER, // input OCTET STRING, // subjectPublicKeyInfo OCTET STRING, // signature OCTET STRING, // } // // CompressCertificateHint ::= SEQUENCE { // algorithm INTEGER, // input OCTET STRING, // compressed OCTET STRING, // } // HandshakeHints tags. static const unsigned kServerRandomTag = CBS_ASN1_CONTEXT_SPECIFIC | 0; static const unsigned kKeyShareHintTag = CBS_ASN1_CONSTRUCTED | CBS_ASN1_CONTEXT_SPECIFIC | 1; static const unsigned kSignatureHintTag = CBS_ASN1_CONSTRUCTED | CBS_ASN1_CONTEXT_SPECIFIC | 2; static const unsigned kDecryptedPSKTag = CBS_ASN1_CONTEXT_SPECIFIC | 3; static const unsigned kIgnorePSKTag = CBS_ASN1_CONTEXT_SPECIFIC | 4; static const unsigned kCompressCertificateTag = CBS_ASN1_CONTEXT_SPECIFIC | 5; int SSL_serialize_handshake_hints(const SSL *ssl, CBB *out) { const SSL_HANDSHAKE *hs = ssl->s3->hs.get(); if (!ssl->server || !hs->hints_requested) { OPENSSL_PUT_ERROR(SSL, ERR_R_SHOULD_NOT_HAVE_BEEN_CALLED); return 0; } const SSL_HANDSHAKE_HINTS *hints = hs->hints.get(); CBB seq, child; if (!CBB_add_asn1(out, &seq, CBS_ASN1_SEQUENCE)) { return 0; } if (!hints->server_random.empty()) { if (!CBB_add_asn1(&seq, &child, kServerRandomTag) || !CBB_add_bytes(&child, hints->server_random.data(), hints->server_random.size())) { return 0; } } if (hints->key_share_group_id != 0 && !hints->key_share_public_key.empty() && !hints->key_share_secret.empty()) { if (!CBB_add_asn1(&seq, &child, kKeyShareHintTag) || !CBB_add_asn1_uint64(&child, hints->key_share_group_id) || !CBB_add_asn1_octet_string(&child, hints->key_share_public_key.data(), hints->key_share_public_key.size()) || !CBB_add_asn1_octet_string(&child, hints->key_share_secret.data(), hints->key_share_secret.size())) { return 0; } } if (hints->signature_algorithm != 0 && !hints->signature_input.empty() && !hints->signature.empty()) { if (!CBB_add_asn1(&seq, &child, kSignatureHintTag) || !CBB_add_asn1_uint64(&child, hints->signature_algorithm) || !CBB_add_asn1_octet_string(&child, hints->signature_input.data(), hints->signature_input.size()) || !CBB_add_asn1_octet_string(&child, hints->signature_spki.data(), hints->signature_spki.size()) || !CBB_add_asn1_octet_string(&child, hints->signature.data(), hints->signature.size())) { return 0; } } if (!hints->decrypted_psk.empty()) { if (!CBB_add_asn1(&seq, &child, kDecryptedPSKTag) || !CBB_add_bytes(&child, hints->decrypted_psk.data(), hints->decrypted_psk.size())) { return 0; } } if (hints->ignore_psk && // !CBB_add_asn1(&seq, &child, kIgnorePSKTag)) { return 0; } if (hints->cert_compression_alg_id != 0 && !hints->cert_compression_input.empty() && !hints->cert_compression_output.empty()) { if (!CBB_add_asn1(&seq, &child, kCompressCertificateTag) || !CBB_add_asn1_uint64(&child, hints->cert_compression_alg_id) || !CBB_add_asn1_octet_string(&child, hints->cert_compression_input.data(), hints->cert_compression_input.size()) || !CBB_add_asn1_octet_string(&child, hints->cert_compression_output.data(), hints->cert_compression_output.size())) { return 0; } } return CBB_flush(out); } int SSL_set_handshake_hints(SSL *ssl, const uint8_t *hints, size_t hints_len) { if (SSL_is_dtls(ssl)) { OPENSSL_PUT_ERROR(SSL, ERR_R_SHOULD_NOT_HAVE_BEEN_CALLED); return 0; } UniquePtr<SSL_HANDSHAKE_HINTS> hints_obj = MakeUnique<SSL_HANDSHAKE_HINTS>(); if (hints_obj == nullptr) { return 0; } CBS cbs, seq, server_random, key_share, signature_hint, ticket, ignore_psk, cert_compression; int has_server_random, has_key_share, has_signature_hint, has_ticket, has_ignore_psk, has_cert_compression; CBS_init(&cbs, hints, hints_len); if (!CBS_get_asn1(&cbs, &seq, CBS_ASN1_SEQUENCE) || !CBS_get_optional_asn1(&seq, &server_random, &has_server_random, kServerRandomTag) || !CBS_get_optional_asn1(&seq, &key_share, &has_key_share, kKeyShareHintTag) || !CBS_get_optional_asn1(&seq, &signature_hint, &has_signature_hint, kSignatureHintTag) || !CBS_get_optional_asn1(&seq, &ticket, &has_ticket, kDecryptedPSKTag) || !CBS_get_optional_asn1(&seq, &ignore_psk, &has_ignore_psk, kIgnorePSKTag) || !CBS_get_optional_asn1(&seq, &cert_compression, &has_cert_compression, kCompressCertificateTag)) { OPENSSL_PUT_ERROR(SSL, SSL_R_COULD_NOT_PARSE_HINTS); return 0; } if (has_server_random && !hints_obj->server_random.CopyFrom(server_random)) { return 0; } if (has_key_share) { uint64_t group_id; CBS public_key, secret; if (!CBS_get_asn1_uint64(&key_share, &group_id) || // group_id == 0 || group_id > 0xffff || !CBS_get_asn1(&key_share, &public_key, CBS_ASN1_OCTETSTRING) || !hints_obj->key_share_public_key.CopyFrom(public_key) || !CBS_get_asn1(&key_share, &secret, CBS_ASN1_OCTETSTRING) || !hints_obj->key_share_secret.CopyFrom(secret)) { OPENSSL_PUT_ERROR(SSL, SSL_R_COULD_NOT_PARSE_HINTS); return 0; } hints_obj->key_share_group_id = static_cast<uint16_t>(group_id); } if (has_signature_hint) { uint64_t sig_alg; CBS input, spki, signature; if (!CBS_get_asn1_uint64(&signature_hint, &sig_alg) || // sig_alg == 0 || sig_alg > 0xffff || !CBS_get_asn1(&signature_hint, &input, CBS_ASN1_OCTETSTRING) || !hints_obj->signature_input.CopyFrom(input) || !CBS_get_asn1(&signature_hint, &spki, CBS_ASN1_OCTETSTRING) || !hints_obj->signature_spki.CopyFrom(spki) || !CBS_get_asn1(&signature_hint, &signature, CBS_ASN1_OCTETSTRING) || !hints_obj->signature.CopyFrom(signature)) { OPENSSL_PUT_ERROR(SSL, SSL_R_COULD_NOT_PARSE_HINTS); return 0; } hints_obj->signature_algorithm = static_cast<uint16_t>(sig_alg); } if (has_ticket && !hints_obj->decrypted_psk.CopyFrom(ticket)) { return 0; } if (has_ignore_psk) { if (CBS_len(&ignore_psk) != 0) { return 0; } hints_obj->ignore_psk = true; } if (has_cert_compression) { uint64_t alg; CBS input, output; if (!CBS_get_asn1_uint64(&cert_compression, &alg) || // alg == 0 || alg > 0xffff || !CBS_get_asn1(&cert_compression, &input, CBS_ASN1_OCTETSTRING) || !hints_obj->cert_compression_input.CopyFrom(input) || !CBS_get_asn1(&cert_compression, &output, CBS_ASN1_OCTETSTRING) || !hints_obj->cert_compression_output.CopyFrom(output)) { OPENSSL_PUT_ERROR(SSL, SSL_R_COULD_NOT_PARSE_HINTS); return 0; } hints_obj->cert_compression_alg_id = static_cast<uint16_t>(alg); } ssl->s3->hs->hints = std::move(hints_obj); return 1; }