/* * wpa_supplicant: TLSv1 client (RFC 2246) * Copyright (c) 2006, Jouni Malinen * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as * published by the Free Software Foundation. * * Alternatively, this software may be distributed under the terms of BSD * license. * * See README and COPYING for more details. */ #include "includes.h" #include "common.h" #include "base64.h" #include "md5.h" #include "sha1.h" #include "crypto.h" #include "tls.h" #include "tlsv1_common.h" #include "tlsv1_client.h" #include "x509v3.h" /* TODO: * Support for a message fragmented across several records (RFC 2246, 6.2.1) */ struct tlsv1_client { enum { CLIENT_HELLO, SERVER_HELLO, SERVER_CERTIFICATE, SERVER_KEY_EXCHANGE, SERVER_CERTIFICATE_REQUEST, SERVER_HELLO_DONE, CLIENT_KEY_EXCHANGE, CHANGE_CIPHER_SPEC, SERVER_CHANGE_CIPHER_SPEC, SERVER_FINISHED, ACK_FINISHED, ESTABLISHED, FAILED } state; struct tlsv1_record_layer rl; u8 session_id[TLS_SESSION_ID_MAX_LEN]; size_t session_id_len; u8 client_random[TLS_RANDOM_LEN]; u8 server_random[TLS_RANDOM_LEN]; u8 master_secret[TLS_MASTER_SECRET_LEN]; u8 alert_level; u8 alert_description; unsigned int certificate_requested:1; unsigned int session_resumed:1; unsigned int ticket:1; unsigned int ticket_key:1; struct crypto_public_key *server_rsa_key; struct crypto_hash *verify_md5_client; struct crypto_hash *verify_sha1_client; struct crypto_hash *verify_md5_server; struct crypto_hash *verify_sha1_server; struct crypto_hash *verify_md5_cert; struct crypto_hash *verify_sha1_cert; #define MAX_CIPHER_COUNT 30 u16 cipher_suites[MAX_CIPHER_COUNT]; size_t num_cipher_suites; u16 prev_cipher_suite; u8 *client_hello_ext; size_t client_hello_ext_len; /* The prime modulus used for Diffie-Hellman */ u8 *dh_p; size_t dh_p_len; /* The generator used for Diffie-Hellman */ u8 *dh_g; size_t dh_g_len; /* The server's Diffie-Hellman public value */ u8 *dh_ys; size_t dh_ys_len; struct x509_certificate *trusted_certs; struct x509_certificate *client_cert; struct crypto_private_key *client_key; }; static int tls_derive_keys(struct tlsv1_client *conn, const u8 *pre_master_secret, size_t pre_master_secret_len); static int tls_process_server_key_exchange(struct tlsv1_client *conn, u8 ct, const u8 *in_data, size_t *in_len); static int tls_process_certificate_request(struct tlsv1_client *conn, u8 ct, const u8 *in_data, size_t *in_len); static int tls_process_server_hello_done(struct tlsv1_client *conn, u8 ct, const u8 *in_data, size_t *in_len); static void tls_alert(struct tlsv1_client *conn, u8 level, u8 description) { conn->alert_level = level; conn->alert_description = description; } static void tls_verify_hash_add(struct tlsv1_client *conn, const u8 *buf, size_t len) { if (conn->verify_md5_client && conn->verify_sha1_client) { crypto_hash_update(conn->verify_md5_client, buf, len); crypto_hash_update(conn->verify_sha1_client, buf, len); } if (conn->verify_md5_server && conn->verify_sha1_server) { crypto_hash_update(conn->verify_md5_server, buf, len); crypto_hash_update(conn->verify_sha1_server, buf, len); } if (conn->verify_md5_cert && conn->verify_sha1_cert) { crypto_hash_update(conn->verify_md5_cert, buf, len); crypto_hash_update(conn->verify_sha1_cert, buf, len); } } static u8 * tls_send_alert(struct tlsv1_client *conn, u8 level, u8 description, size_t *out_len) { u8 *alert, *pos, *length; wpa_printf(MSG_DEBUG, "TLSv1: Send Alert(%d:%d)", level, description); *out_len = 0; alert = os_malloc(10); if (alert == NULL) return NULL; pos = alert; /* TLSPlaintext */ /* ContentType type */ *pos++ = TLS_CONTENT_TYPE_ALERT; /* ProtocolVersion version */ WPA_PUT_BE16(pos, TLS_VERSION); pos += 2; /* uint16 length (to be filled) */ length = pos; pos += 2; /* opaque fragment[TLSPlaintext.length] */ /* Alert */ /* AlertLevel level */ *pos++ = level; /* AlertDescription description */ *pos++ = description; WPA_PUT_BE16(length, pos - length - 2); *out_len = pos - alert; return alert; } static u8 * tls_send_client_hello(struct tlsv1_client *conn, size_t *out_len) { u8 *hello, *end, *pos, *hs_length, *hs_start, *rhdr; struct os_time now; size_t len, i; wpa_printf(MSG_DEBUG, "TLSv1: Send ClientHello"); *out_len = 0; os_get_time(&now); WPA_PUT_BE32(conn->client_random, now.sec); if (os_get_random(conn->client_random + 4, TLS_RANDOM_LEN - 4)) { wpa_printf(MSG_ERROR, "TLSv1: Could not generate " "client_random"); return NULL; } wpa_hexdump(MSG_MSGDUMP, "TLSv1: client_random", conn->client_random, TLS_RANDOM_LEN); len = 100 + conn->num_cipher_suites * 2 + conn->client_hello_ext_len; hello = os_malloc(len); if (hello == NULL) return NULL; end = hello + len; rhdr = hello; pos = rhdr + TLS_RECORD_HEADER_LEN; /* opaque fragment[TLSPlaintext.length] */ /* Handshake */ hs_start = pos; /* HandshakeType msg_type */ *pos++ = TLS_HANDSHAKE_TYPE_CLIENT_HELLO; /* uint24 length (to be filled) */ hs_length = pos; pos += 3; /* body - ClientHello */ /* ProtocolVersion client_version */ WPA_PUT_BE16(pos, TLS_VERSION); pos += 2; /* Random random: uint32 gmt_unix_time, opaque random_bytes */ os_memcpy(pos, conn->client_random, TLS_RANDOM_LEN); pos += TLS_RANDOM_LEN; /* SessionID session_id */ *pos++ = conn->session_id_len; os_memcpy(pos, conn->session_id, conn->session_id_len); pos += conn->session_id_len; /* CipherSuite cipher_suites<2..2^16-1> */ WPA_PUT_BE16(pos, 2 * conn->num_cipher_suites); pos += 2; for (i = 0; i < conn->num_cipher_suites; i++) { WPA_PUT_BE16(pos, conn->cipher_suites[i]); pos += 2; } /* CompressionMethod compression_methods<1..2^8-1> */ *pos++ = 1; *pos++ = TLS_COMPRESSION_NULL; if (conn->client_hello_ext) { os_memcpy(pos, conn->client_hello_ext, conn->client_hello_ext_len); pos += conn->client_hello_ext_len; } WPA_PUT_BE24(hs_length, pos - hs_length - 3); tls_verify_hash_add(conn, hs_start, pos - hs_start); if (tlsv1_record_send(&conn->rl, TLS_CONTENT_TYPE_HANDSHAKE, rhdr, end - rhdr, pos - hs_start, out_len) < 0) { wpa_printf(MSG_DEBUG, "TLSv1: Failed to create TLS record"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); os_free(hello); return NULL; } conn->state = SERVER_HELLO; return hello; } static int tls_process_server_hello(struct tlsv1_client *conn, u8 ct, const u8 *in_data, size_t *in_len) { const u8 *pos, *end; size_t left, len, i; u16 cipher_suite; if (ct != TLS_CONTENT_TYPE_HANDSHAKE) { wpa_printf(MSG_DEBUG, "TLSv1: Expected Handshake; " "received content type 0x%x", ct); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_UNEXPECTED_MESSAGE); return -1; } pos = in_data; left = *in_len; if (left < 4) goto decode_error; /* HandshakeType msg_type */ if (*pos != TLS_HANDSHAKE_TYPE_SERVER_HELLO) { wpa_printf(MSG_DEBUG, "TLSv1: Received unexpected handshake " "message %d (expected ServerHello)", *pos); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_UNEXPECTED_MESSAGE); return -1; } wpa_printf(MSG_DEBUG, "TLSv1: Received ServerHello"); pos++; /* uint24 length */ len = WPA_GET_BE24(pos); pos += 3; left -= 4; if (len > left) goto decode_error; /* body - ServerHello */ wpa_hexdump(MSG_MSGDUMP, "TLSv1: ServerHello", pos, len); end = pos + len; /* ProtocolVersion server_version */ if (end - pos < 2) goto decode_error; if (WPA_GET_BE16(pos) != TLS_VERSION) { wpa_printf(MSG_DEBUG, "TLSv1: Unexpected protocol version in " "ServerHello"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_PROTOCOL_VERSION); return -1; } pos += 2; /* Random random */ if (end - pos < TLS_RANDOM_LEN) goto decode_error; os_memcpy(conn->server_random, pos, TLS_RANDOM_LEN); pos += TLS_RANDOM_LEN; wpa_hexdump(MSG_MSGDUMP, "TLSv1: server_random", conn->server_random, TLS_RANDOM_LEN); /* SessionID session_id */ if (end - pos < 1) goto decode_error; if (end - pos < 1 + *pos || *pos > TLS_SESSION_ID_MAX_LEN) goto decode_error; if (conn->session_id_len && conn->session_id_len == *pos && os_memcmp(conn->session_id, pos + 1, conn->session_id_len) == 0) { pos += 1 + conn->session_id_len; wpa_printf(MSG_DEBUG, "TLSv1: Resuming old session"); conn->session_resumed = 1; } else { conn->session_id_len = *pos; pos++; os_memcpy(conn->session_id, pos, conn->session_id_len); pos += conn->session_id_len; } wpa_hexdump(MSG_MSGDUMP, "TLSv1: session_id", conn->session_id, conn->session_id_len); /* CipherSuite cipher_suite */ if (end - pos < 2) goto decode_error; cipher_suite = WPA_GET_BE16(pos); pos += 2; for (i = 0; i < conn->num_cipher_suites; i++) { if (cipher_suite == conn->cipher_suites[i]) break; } if (i == conn->num_cipher_suites) { wpa_printf(MSG_INFO, "TLSv1: Server selected unexpected " "cipher suite 0x%04x", cipher_suite); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_ILLEGAL_PARAMETER); return -1; } if (conn->session_resumed && cipher_suite != conn->prev_cipher_suite) { wpa_printf(MSG_DEBUG, "TLSv1: Server selected a different " "cipher suite for a resumed connection (0x%04x != " "0x%04x)", cipher_suite, conn->prev_cipher_suite); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_ILLEGAL_PARAMETER); return -1; } if (tlsv1_record_set_cipher_suite(&conn->rl, cipher_suite) < 0) { wpa_printf(MSG_DEBUG, "TLSv1: Failed to set CipherSuite for " "record layer"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); return -1; } conn->prev_cipher_suite = cipher_suite; if (conn->session_resumed || conn->ticket_key) tls_derive_keys(conn, NULL, 0); /* CompressionMethod compression_method */ if (end - pos < 1) goto decode_error; if (*pos != TLS_COMPRESSION_NULL) { wpa_printf(MSG_INFO, "TLSv1: Server selected unexpected " "compression 0x%02x", *pos); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_ILLEGAL_PARAMETER); return -1; } pos++; if (end != pos) { wpa_hexdump(MSG_DEBUG, "TLSv1: Unexpected extra data in the " "end of ServerHello", pos, end - pos); goto decode_error; } *in_len = end - in_data; conn->state = (conn->session_resumed || conn->ticket) ? SERVER_CHANGE_CIPHER_SPEC : SERVER_CERTIFICATE; return 0; decode_error: wpa_printf(MSG_DEBUG, "TLSv1: Failed to decode ServerHello"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_DECODE_ERROR); return -1; } static int tls_server_key_exchange_allowed(struct tlsv1_client *conn) { const struct tls_cipher_suite *suite; /* RFC 2246, Section 7.4.3 */ suite = tls_get_cipher_suite(conn->rl.cipher_suite); if (suite == NULL) return 0; switch (suite->key_exchange) { case TLS_KEY_X_DHE_DSS: case TLS_KEY_X_DHE_DSS_EXPORT: case TLS_KEY_X_DHE_RSA: case TLS_KEY_X_DHE_RSA_EXPORT: case TLS_KEY_X_DH_anon_EXPORT: case TLS_KEY_X_DH_anon: return 1; case TLS_KEY_X_RSA_EXPORT: return 1 /* FIX: public key len > 512 bits */; default: return 0; } } static int tls_process_certificate(struct tlsv1_client *conn, u8 ct, const u8 *in_data, size_t *in_len) { const u8 *pos, *end; size_t left, len, list_len, cert_len, idx; u8 type; struct x509_certificate *chain = NULL, *last = NULL, *cert; int reason; if (ct != TLS_CONTENT_TYPE_HANDSHAKE) { wpa_printf(MSG_DEBUG, "TLSv1: Expected Handshake; " "received content type 0x%x", ct); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_UNEXPECTED_MESSAGE); return -1; } pos = in_data; left = *in_len; if (left < 4) { wpa_printf(MSG_DEBUG, "TLSv1: Too short Certificate message " "(len=%lu)", (unsigned long) left); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_DECODE_ERROR); return -1; } type = *pos++; len = WPA_GET_BE24(pos); pos += 3; left -= 4; if (len > left) { wpa_printf(MSG_DEBUG, "TLSv1: Unexpected Certificate message " "length (len=%lu != left=%lu)", (unsigned long) len, (unsigned long) left); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_DECODE_ERROR); return -1; } if (type == TLS_HANDSHAKE_TYPE_SERVER_KEY_EXCHANGE) return tls_process_server_key_exchange(conn, ct, in_data, in_len); if (type == TLS_HANDSHAKE_TYPE_CERTIFICATE_REQUEST) return tls_process_certificate_request(conn, ct, in_data, in_len); if (type == TLS_HANDSHAKE_TYPE_SERVER_HELLO_DONE) return tls_process_server_hello_done(conn, ct, in_data, in_len); if (type != TLS_HANDSHAKE_TYPE_CERTIFICATE) { wpa_printf(MSG_DEBUG, "TLSv1: Received unexpected handshake " "message %d (expected Certificate/" "ServerKeyExchange/CertificateRequest/" "ServerHelloDone)", type); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_UNEXPECTED_MESSAGE); return -1; } wpa_printf(MSG_DEBUG, "TLSv1: Received Certificate (certificate_list len %lu)", (unsigned long) len); /* * opaque ASN.1Cert<2^24-1>; * * struct { * ASN.1Cert certificate_list<1..2^24-1>; * } Certificate; */ end = pos + len; if (end - pos < 3) { wpa_printf(MSG_DEBUG, "TLSv1: Too short Certificate " "(left=%lu)", (unsigned long) left); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_DECODE_ERROR); return -1; } list_len = WPA_GET_BE24(pos); pos += 3; if ((size_t) (end - pos) != list_len) { wpa_printf(MSG_DEBUG, "TLSv1: Unexpected certificate_list " "length (len=%lu left=%lu)", (unsigned long) list_len, (unsigned long) (end - pos)); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_DECODE_ERROR); return -1; } idx = 0; while (pos < end) { if (end - pos < 3) { wpa_printf(MSG_DEBUG, "TLSv1: Failed to parse " "certificate_list"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_DECODE_ERROR); x509_certificate_chain_free(chain); return -1; } cert_len = WPA_GET_BE24(pos); pos += 3; if ((size_t) (end - pos) < cert_len) { wpa_printf(MSG_DEBUG, "TLSv1: Unexpected certificate " "length (len=%lu left=%lu)", (unsigned long) cert_len, (unsigned long) (end - pos)); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_DECODE_ERROR); x509_certificate_chain_free(chain); return -1; } wpa_printf(MSG_DEBUG, "TLSv1: Certificate %lu (len %lu)", (unsigned long) idx, (unsigned long) cert_len); if (idx == 0) { crypto_public_key_free(conn->server_rsa_key); if (tls_parse_cert(pos, cert_len, &conn->server_rsa_key)) { wpa_printf(MSG_DEBUG, "TLSv1: Failed to parse " "the certificate"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_BAD_CERTIFICATE); x509_certificate_chain_free(chain); return -1; } } cert = x509_certificate_parse(pos, cert_len); if (cert == NULL) { wpa_printf(MSG_DEBUG, "TLSv1: Failed to parse " "the certificate"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_BAD_CERTIFICATE); x509_certificate_chain_free(chain); return -1; } if (last == NULL) chain = cert; else last->next = cert; last = cert; idx++; pos += cert_len; } if (x509_certificate_chain_validate(conn->trusted_certs, chain, &reason) < 0) { int tls_reason; wpa_printf(MSG_DEBUG, "TLSv1: Server certificate chain " "validation failed (reason=%d)", reason); switch (reason) { case X509_VALIDATE_BAD_CERTIFICATE: tls_reason = TLS_ALERT_BAD_CERTIFICATE; break; case X509_VALIDATE_UNSUPPORTED_CERTIFICATE: tls_reason = TLS_ALERT_UNSUPPORTED_CERTIFICATE; break; case X509_VALIDATE_CERTIFICATE_REVOKED: tls_reason = TLS_ALERT_CERTIFICATE_REVOKED; break; case X509_VALIDATE_CERTIFICATE_EXPIRED: tls_reason = TLS_ALERT_CERTIFICATE_EXPIRED; break; case X509_VALIDATE_CERTIFICATE_UNKNOWN: tls_reason = TLS_ALERT_CERTIFICATE_UNKNOWN; break; case X509_VALIDATE_UNKNOWN_CA: tls_reason = TLS_ALERT_UNKNOWN_CA; break; default: tls_reason = TLS_ALERT_BAD_CERTIFICATE; break; } tls_alert(conn, TLS_ALERT_LEVEL_FATAL, tls_reason); x509_certificate_chain_free(chain); return -1; } x509_certificate_chain_free(chain); *in_len = end - in_data; conn->state = SERVER_KEY_EXCHANGE; return 0; } static void tlsv1_client_free_dh(struct tlsv1_client *conn) { os_free(conn->dh_p); os_free(conn->dh_g); os_free(conn->dh_ys); conn->dh_p = conn->dh_g = conn->dh_ys = NULL; } static int tlsv1_process_diffie_hellman(struct tlsv1_client *conn, const u8 *buf, size_t len) { const u8 *pos, *end; tlsv1_client_free_dh(conn); pos = buf; end = buf + len; if (end - pos < 3) goto fail; conn->dh_p_len = WPA_GET_BE16(pos); pos += 2; if (conn->dh_p_len == 0 || end - pos < (int) conn->dh_p_len) goto fail; conn->dh_p = os_malloc(conn->dh_p_len); if (conn->dh_p == NULL) goto fail; os_memcpy(conn->dh_p, pos, conn->dh_p_len); pos += conn->dh_p_len; wpa_hexdump(MSG_DEBUG, "TLSv1: DH p (prime)", conn->dh_p, conn->dh_p_len); if (end - pos < 3) goto fail; conn->dh_g_len = WPA_GET_BE16(pos); pos += 2; if (conn->dh_g_len == 0 || end - pos < (int) conn->dh_g_len) goto fail; conn->dh_g = os_malloc(conn->dh_g_len); if (conn->dh_g == NULL) goto fail; os_memcpy(conn->dh_g, pos, conn->dh_g_len); pos += conn->dh_g_len; wpa_hexdump(MSG_DEBUG, "TLSv1: DH g (generator)", conn->dh_g, conn->dh_g_len); if (conn->dh_g_len == 1 && conn->dh_g[0] < 2) goto fail; if (end - pos < 3) goto fail; conn->dh_ys_len = WPA_GET_BE16(pos); pos += 2; if (conn->dh_ys_len == 0 || end - pos < (int) conn->dh_ys_len) goto fail; conn->dh_ys = os_malloc(conn->dh_ys_len); if (conn->dh_ys == NULL) goto fail; os_memcpy(conn->dh_ys, pos, conn->dh_ys_len); pos += conn->dh_ys_len; wpa_hexdump(MSG_DEBUG, "TLSv1: DH Ys (server's public value)", conn->dh_ys, conn->dh_ys_len); return 0; fail: tlsv1_client_free_dh(conn); return -1; } static int tls_process_server_key_exchange(struct tlsv1_client *conn, u8 ct, const u8 *in_data, size_t *in_len) { const u8 *pos, *end; size_t left, len; u8 type; const struct tls_cipher_suite *suite; if (ct != TLS_CONTENT_TYPE_HANDSHAKE) { wpa_printf(MSG_DEBUG, "TLSv1: Expected Handshake; " "received content type 0x%x", ct); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_UNEXPECTED_MESSAGE); return -1; } pos = in_data; left = *in_len; if (left < 4) { wpa_printf(MSG_DEBUG, "TLSv1: Too short ServerKeyExchange " "(Left=%lu)", (unsigned long) left); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_DECODE_ERROR); return -1; } type = *pos++; len = WPA_GET_BE24(pos); pos += 3; left -= 4; if (len > left) { wpa_printf(MSG_DEBUG, "TLSv1: Mismatch in ServerKeyExchange " "length (len=%lu != left=%lu)", (unsigned long) len, (unsigned long) left); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_DECODE_ERROR); return -1; } end = pos + len; if (type == TLS_HANDSHAKE_TYPE_CERTIFICATE_REQUEST) return tls_process_certificate_request(conn, ct, in_data, in_len); if (type == TLS_HANDSHAKE_TYPE_SERVER_HELLO_DONE) return tls_process_server_hello_done(conn, ct, in_data, in_len); if (type != TLS_HANDSHAKE_TYPE_SERVER_KEY_EXCHANGE) { wpa_printf(MSG_DEBUG, "TLSv1: Received unexpected handshake " "message %d (expected ServerKeyExchange/" "CertificateRequest/ServerHelloDone)", type); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_UNEXPECTED_MESSAGE); return -1; } wpa_printf(MSG_DEBUG, "TLSv1: Received ServerKeyExchange"); if (!tls_server_key_exchange_allowed(conn)) { wpa_printf(MSG_DEBUG, "TLSv1: ServerKeyExchange not allowed " "with the selected cipher suite"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_UNEXPECTED_MESSAGE); return -1; } wpa_hexdump(MSG_DEBUG, "TLSv1: ServerKeyExchange", pos, len); suite = tls_get_cipher_suite(conn->rl.cipher_suite); if (suite && suite->key_exchange == TLS_KEY_X_DH_anon) { if (tlsv1_process_diffie_hellman(conn, pos, len) < 0) { tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_DECODE_ERROR); return -1; } } else { wpa_printf(MSG_DEBUG, "TLSv1: UnexpectedServerKeyExchange"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_UNEXPECTED_MESSAGE); return -1; } *in_len = end - in_data; conn->state = SERVER_CERTIFICATE_REQUEST; return 0; } static int tls_process_certificate_request(struct tlsv1_client *conn, u8 ct, const u8 *in_data, size_t *in_len) { const u8 *pos, *end; size_t left, len; u8 type; if (ct != TLS_CONTENT_TYPE_HANDSHAKE) { wpa_printf(MSG_DEBUG, "TLSv1: Expected Handshake; " "received content type 0x%x", ct); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_UNEXPECTED_MESSAGE); return -1; } pos = in_data; left = *in_len; if (left < 4) { wpa_printf(MSG_DEBUG, "TLSv1: Too short CertificateRequest " "(left=%lu)", (unsigned long) left); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_DECODE_ERROR); return -1; } type = *pos++; len = WPA_GET_BE24(pos); pos += 3; left -= 4; if (len > left) { wpa_printf(MSG_DEBUG, "TLSv1: Mismatch in CertificateRequest " "length (len=%lu != left=%lu)", (unsigned long) len, (unsigned long) left); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_DECODE_ERROR); return -1; } end = pos + len; if (type == TLS_HANDSHAKE_TYPE_SERVER_HELLO_DONE) return tls_process_server_hello_done(conn, ct, in_data, in_len); if (type != TLS_HANDSHAKE_TYPE_CERTIFICATE_REQUEST) { wpa_printf(MSG_DEBUG, "TLSv1: Received unexpected handshake " "message %d (expected CertificateRequest/" "ServerHelloDone)", type); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_UNEXPECTED_MESSAGE); return -1; } wpa_printf(MSG_DEBUG, "TLSv1: Received CertificateRequest"); conn->certificate_requested = 1; *in_len = end - in_data; conn->state = SERVER_HELLO_DONE; return 0; } static int tls_process_server_hello_done(struct tlsv1_client *conn, u8 ct, const u8 *in_data, size_t *in_len) { const u8 *pos, *end; size_t left, len; u8 type; if (ct != TLS_CONTENT_TYPE_HANDSHAKE) { wpa_printf(MSG_DEBUG, "TLSv1: Expected Handshake; " "received content type 0x%x", ct); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_UNEXPECTED_MESSAGE); return -1; } pos = in_data; left = *in_len; if (left < 4) { wpa_printf(MSG_DEBUG, "TLSv1: Too short ServerHelloDone " "(left=%lu)", (unsigned long) left); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_DECODE_ERROR); return -1; } type = *pos++; len = WPA_GET_BE24(pos); pos += 3; left -= 4; if (len > left) { wpa_printf(MSG_DEBUG, "TLSv1: Mismatch in ServerHelloDone " "length (len=%lu != left=%lu)", (unsigned long) len, (unsigned long) left); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_DECODE_ERROR); return -1; } end = pos + len; if (type != TLS_HANDSHAKE_TYPE_SERVER_HELLO_DONE) { wpa_printf(MSG_DEBUG, "TLSv1: Received unexpected handshake " "message %d (expected ServerHelloDone)", type); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_UNEXPECTED_MESSAGE); return -1; } wpa_printf(MSG_DEBUG, "TLSv1: Received ServerHelloDone"); *in_len = end - in_data; conn->state = CLIENT_KEY_EXCHANGE; return 0; } static int tls_process_server_change_cipher_spec(struct tlsv1_client *conn, u8 ct, const u8 *in_data, size_t *in_len) { const u8 *pos; size_t left; if (ct != TLS_CONTENT_TYPE_CHANGE_CIPHER_SPEC) { wpa_printf(MSG_DEBUG, "TLSv1: Expected ChangeCipherSpec; " "received content type 0x%x", ct); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_UNEXPECTED_MESSAGE); return -1; } pos = in_data; left = *in_len; if (left < 1) { wpa_printf(MSG_DEBUG, "TLSv1: Too short ChangeCipherSpec"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_DECODE_ERROR); return -1; } if (*pos != TLS_CHANGE_CIPHER_SPEC) { wpa_printf(MSG_DEBUG, "TLSv1: Expected ChangeCipherSpec; " "received data 0x%x", *pos); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_UNEXPECTED_MESSAGE); return -1; } wpa_printf(MSG_DEBUG, "TLSv1: Received ChangeCipherSpec"); if (tlsv1_record_change_read_cipher(&conn->rl) < 0) { wpa_printf(MSG_DEBUG, "TLSv1: Failed to change read cipher " "for record layer"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); return -1; } *in_len = pos + 1 - in_data; conn->state = SERVER_FINISHED; return 0; } static int tls_process_server_finished(struct tlsv1_client *conn, u8 ct, const u8 *in_data, size_t *in_len) { const u8 *pos, *end; size_t left, len, hlen; u8 verify_data[TLS_VERIFY_DATA_LEN]; u8 hash[MD5_MAC_LEN + SHA1_MAC_LEN]; if (ct != TLS_CONTENT_TYPE_HANDSHAKE) { wpa_printf(MSG_DEBUG, "TLSv1: Expected Finished; " "received content type 0x%x", ct); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_UNEXPECTED_MESSAGE); return -1; } pos = in_data; left = *in_len; if (left < 4) { wpa_printf(MSG_DEBUG, "TLSv1: Too short record (left=%lu) for " "Finished", (unsigned long) left); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_DECODE_ERROR); return -1; } if (pos[0] != TLS_HANDSHAKE_TYPE_FINISHED) { wpa_printf(MSG_DEBUG, "TLSv1: Expected Finished; received " "type 0x%x", pos[0]); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_UNEXPECTED_MESSAGE); return -1; } len = WPA_GET_BE24(pos + 1); pos += 4; left -= 4; if (len > left) { wpa_printf(MSG_DEBUG, "TLSv1: Too short buffer for Finished " "(len=%lu > left=%lu)", (unsigned long) len, (unsigned long) left); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_DECODE_ERROR); return -1; } end = pos + len; if (len != TLS_VERIFY_DATA_LEN) { wpa_printf(MSG_DEBUG, "TLSv1: Unexpected verify_data length " "in Finished: %lu (expected %d)", (unsigned long) len, TLS_VERIFY_DATA_LEN); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_DECODE_ERROR); return -1; } wpa_hexdump(MSG_MSGDUMP, "TLSv1: verify_data in Finished", pos, TLS_VERIFY_DATA_LEN); hlen = MD5_MAC_LEN; if (conn->verify_md5_server == NULL || crypto_hash_finish(conn->verify_md5_server, hash, &hlen) < 0) { tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); conn->verify_md5_server = NULL; crypto_hash_finish(conn->verify_sha1_server, NULL, NULL); conn->verify_sha1_server = NULL; return -1; } conn->verify_md5_server = NULL; hlen = SHA1_MAC_LEN; if (conn->verify_sha1_server == NULL || crypto_hash_finish(conn->verify_sha1_server, hash + MD5_MAC_LEN, &hlen) < 0) { conn->verify_sha1_server = NULL; tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); return -1; } conn->verify_sha1_server = NULL; if (tls_prf(conn->master_secret, TLS_MASTER_SECRET_LEN, "server finished", hash, MD5_MAC_LEN + SHA1_MAC_LEN, verify_data, TLS_VERIFY_DATA_LEN)) { wpa_printf(MSG_DEBUG, "TLSv1: Failed to derive verify_data"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_DECRYPT_ERROR); return -1; } wpa_hexdump_key(MSG_DEBUG, "TLSv1: verify_data (server)", verify_data, TLS_VERIFY_DATA_LEN); if (os_memcmp(pos, verify_data, TLS_VERIFY_DATA_LEN) != 0) { wpa_printf(MSG_INFO, "TLSv1: Mismatch in verify_data"); return -1; } wpa_printf(MSG_DEBUG, "TLSv1: Received Finished"); *in_len = end - in_data; conn->state = (conn->session_resumed || conn->ticket) ? CHANGE_CIPHER_SPEC : ACK_FINISHED; return 0; } static int tls_derive_pre_master_secret(u8 *pre_master_secret) { WPA_PUT_BE16(pre_master_secret, TLS_VERSION); if (os_get_random(pre_master_secret + 2, TLS_PRE_MASTER_SECRET_LEN - 2)) return -1; return 0; } static int tls_derive_keys(struct tlsv1_client *conn, const u8 *pre_master_secret, size_t pre_master_secret_len) { u8 seed[2 * TLS_RANDOM_LEN]; u8 key_block[TLS_MAX_KEY_BLOCK_LEN]; u8 *pos; size_t key_block_len; if (pre_master_secret) { wpa_hexdump_key(MSG_MSGDUMP, "TLSv1: pre_master_secret", pre_master_secret, pre_master_secret_len); os_memcpy(seed, conn->client_random, TLS_RANDOM_LEN); os_memcpy(seed + TLS_RANDOM_LEN, conn->server_random, TLS_RANDOM_LEN); if (tls_prf(pre_master_secret, pre_master_secret_len, "master secret", seed, 2 * TLS_RANDOM_LEN, conn->master_secret, TLS_MASTER_SECRET_LEN)) { wpa_printf(MSG_DEBUG, "TLSv1: Failed to derive " "master_secret"); return -1; } wpa_hexdump_key(MSG_MSGDUMP, "TLSv1: master_secret", conn->master_secret, TLS_MASTER_SECRET_LEN); } os_memcpy(seed, conn->server_random, TLS_RANDOM_LEN); os_memcpy(seed + TLS_RANDOM_LEN, conn->client_random, TLS_RANDOM_LEN); key_block_len = 2 * (conn->rl.hash_size + conn->rl.key_material_len + conn->rl.iv_size); if (tls_prf(conn->master_secret, TLS_MASTER_SECRET_LEN, "key expansion", seed, 2 * TLS_RANDOM_LEN, key_block, key_block_len)) { wpa_printf(MSG_DEBUG, "TLSv1: Failed to derive key_block"); return -1; } wpa_hexdump_key(MSG_MSGDUMP, "TLSv1: key_block", key_block, key_block_len); pos = key_block; /* client_write_MAC_secret */ os_memcpy(conn->rl.write_mac_secret, pos, conn->rl.hash_size); pos += conn->rl.hash_size; /* server_write_MAC_secret */ os_memcpy(conn->rl.read_mac_secret, pos, conn->rl.hash_size); pos += conn->rl.hash_size; /* client_write_key */ os_memcpy(conn->rl.write_key, pos, conn->rl.key_material_len); pos += conn->rl.key_material_len; /* server_write_key */ os_memcpy(conn->rl.read_key, pos, conn->rl.key_material_len); pos += conn->rl.key_material_len; /* client_write_IV */ os_memcpy(conn->rl.write_iv, pos, conn->rl.iv_size); pos += conn->rl.iv_size; /* server_write_IV */ os_memcpy(conn->rl.read_iv, pos, conn->rl.iv_size); pos += conn->rl.iv_size; return 0; } static int tls_write_client_certificate(struct tlsv1_client *conn, u8 **msgpos, u8 *end) { u8 *pos, *rhdr, *hs_start, *hs_length, *cert_start; size_t rlen; struct x509_certificate *cert; pos = *msgpos; wpa_printf(MSG_DEBUG, "TLSv1: Send Certificate"); rhdr = pos; pos += TLS_RECORD_HEADER_LEN; /* opaque fragment[TLSPlaintext.length] */ /* Handshake */ hs_start = pos; /* HandshakeType msg_type */ *pos++ = TLS_HANDSHAKE_TYPE_CERTIFICATE; /* uint24 length (to be filled) */ hs_length = pos; pos += 3; /* body - Certificate */ /* uint24 length (to be filled) */ cert_start = pos; pos += 3; cert = conn->client_cert; while (cert) { if (pos + 3 + cert->cert_len > end) { wpa_printf(MSG_DEBUG, "TLSv1: Not enough buffer space " "for Certificate (cert_len=%lu left=%lu)", (unsigned long) cert->cert_len, (unsigned long) (end - pos)); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); return -1; } WPA_PUT_BE24(pos, cert->cert_len); pos += 3; os_memcpy(pos, cert->cert_start, cert->cert_len); pos += cert->cert_len; if (x509_certificate_self_signed(cert)) break; cert = x509_certificate_get_subject(conn->trusted_certs, &cert->issuer); } if (cert == conn->client_cert || cert == NULL) { /* * Client was not configured with all the needed certificates * to form a full certificate chain. The server may fail to * validate the chain unless it is configured with all the * missing CA certificates. */ wpa_printf(MSG_DEBUG, "TLSv1: Full client certificate chain " "not configured - validation may fail"); } WPA_PUT_BE24(cert_start, pos - cert_start - 3); WPA_PUT_BE24(hs_length, pos - hs_length - 3); if (tlsv1_record_send(&conn->rl, TLS_CONTENT_TYPE_HANDSHAKE, rhdr, end - rhdr, pos - hs_start, &rlen) < 0) { wpa_printf(MSG_DEBUG, "TLSv1: Failed to generate a record"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); return -1; } pos = rhdr + rlen; tls_verify_hash_add(conn, hs_start, pos - hs_start); *msgpos = pos; return 0; } static int tlsv1_key_x_anon_dh(struct tlsv1_client *conn, u8 **pos, u8 *end) { #ifdef EAP_FAST /* ClientDiffieHellmanPublic */ u8 *csecret, *csecret_start, *dh_yc, *shared; size_t csecret_len, dh_yc_len, shared_len; csecret_len = conn->dh_p_len; csecret = os_malloc(csecret_len); if (csecret == NULL) { wpa_printf(MSG_DEBUG, "TLSv1: Failed to allocate " "memory for Yc (Diffie-Hellman)"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); return -1; } if (os_get_random(csecret, csecret_len)) { wpa_printf(MSG_DEBUG, "TLSv1: Failed to get random " "data for Diffie-Hellman"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); os_free(csecret); return -1; } if (os_memcmp(csecret, conn->dh_p, csecret_len) > 0) csecret[0] = 0; /* make sure Yc < p */ csecret_start = csecret; while (csecret_len > 1 && *csecret_start == 0) { csecret_start++; csecret_len--; } wpa_hexdump_key(MSG_DEBUG, "TLSv1: DH client's secret value", csecret_start, csecret_len); /* Yc = g^csecret mod p */ dh_yc_len = conn->dh_p_len; dh_yc = os_malloc(dh_yc_len); if (dh_yc == NULL) { wpa_printf(MSG_DEBUG, "TLSv1: Failed to allocate " "memory for Diffie-Hellman"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); os_free(csecret); return -1; } crypto_mod_exp(conn->dh_g, conn->dh_g_len, csecret_start, csecret_len, conn->dh_p, conn->dh_p_len, dh_yc, &dh_yc_len); wpa_hexdump(MSG_DEBUG, "TLSv1: DH Yc (client's public value)", dh_yc, dh_yc_len); WPA_PUT_BE16(*pos, dh_yc_len); *pos += 2; if (*pos + dh_yc_len > end) { wpa_printf(MSG_DEBUG, "TLSv1: Not enough room in the " "message buffer for Yc"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); os_free(csecret); os_free(dh_yc); return -1; } os_memcpy(*pos, dh_yc, dh_yc_len); *pos += dh_yc_len; os_free(dh_yc); shared_len = conn->dh_p_len; shared = os_malloc(shared_len); if (shared == NULL) { wpa_printf(MSG_DEBUG, "TLSv1: Could not allocate memory for " "DH"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); os_free(csecret); return -1; } /* shared = Ys^csecret mod p */ crypto_mod_exp(conn->dh_ys, conn->dh_ys_len, csecret_start, csecret_len, conn->dh_p, conn->dh_p_len, shared, &shared_len); wpa_hexdump_key(MSG_DEBUG, "TLSv1: Shared secret from DH key exchange", shared, shared_len); os_memset(csecret_start, 0, csecret_len); os_free(csecret); if (tls_derive_keys(conn, shared, shared_len)) { wpa_printf(MSG_DEBUG, "TLSv1: Failed to derive keys"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); os_free(shared); return -1; } os_memset(shared, 0, shared_len); os_free(shared); tlsv1_client_free_dh(conn); return 0; #else /* EAP_FAST */ tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); return -1; #endif /* EAP_FAST */ } static int tlsv1_key_x_rsa(struct tlsv1_client *conn, u8 **pos, u8 *end) { u8 pre_master_secret[TLS_PRE_MASTER_SECRET_LEN]; size_t clen; int res; if (tls_derive_pre_master_secret(pre_master_secret) < 0 || tls_derive_keys(conn, pre_master_secret, TLS_PRE_MASTER_SECRET_LEN)) { wpa_printf(MSG_DEBUG, "TLSv1: Failed to derive keys"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); return -1; } /* EncryptedPreMasterSecret */ if (conn->server_rsa_key == NULL) { wpa_printf(MSG_DEBUG, "TLSv1: No server RSA key to " "use for encrypting pre-master secret"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); return -1; } /* RSA encrypted value is encoded with PKCS #1 v1.5 block type 2. */ *pos += 2; clen = end - *pos; res = crypto_public_key_encrypt_pkcs1_v15( conn->server_rsa_key, pre_master_secret, TLS_PRE_MASTER_SECRET_LEN, *pos, &clen); os_memset(pre_master_secret, 0, TLS_PRE_MASTER_SECRET_LEN); if (res < 0) { wpa_printf(MSG_DEBUG, "TLSv1: RSA encryption failed"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); return -1; } WPA_PUT_BE16(*pos - 2, clen); wpa_hexdump(MSG_MSGDUMP, "TLSv1: Encrypted pre_master_secret", *pos, clen); *pos += clen; return 0; } static int tls_write_client_key_exchange(struct tlsv1_client *conn, u8 **msgpos, u8 *end) { u8 *pos, *rhdr, *hs_start, *hs_length; size_t rlen; tls_key_exchange keyx; const struct tls_cipher_suite *suite; suite = tls_get_cipher_suite(conn->rl.cipher_suite); if (suite == NULL) keyx = TLS_KEY_X_NULL; else keyx = suite->key_exchange; pos = *msgpos; wpa_printf(MSG_DEBUG, "TLSv1: Send ClientKeyExchange"); rhdr = pos; pos += TLS_RECORD_HEADER_LEN; /* opaque fragment[TLSPlaintext.length] */ /* Handshake */ hs_start = pos; /* HandshakeType msg_type */ *pos++ = TLS_HANDSHAKE_TYPE_CLIENT_KEY_EXCHANGE; /* uint24 length (to be filled) */ hs_length = pos; pos += 3; /* body - ClientKeyExchange */ if (keyx == TLS_KEY_X_DH_anon) { if (tlsv1_key_x_anon_dh(conn, &pos, end) < 0) return -1; } else { if (tlsv1_key_x_rsa(conn, &pos, end) < 0) return -1; } WPA_PUT_BE24(hs_length, pos - hs_length - 3); if (tlsv1_record_send(&conn->rl, TLS_CONTENT_TYPE_HANDSHAKE, rhdr, end - rhdr, pos - hs_start, &rlen) < 0) { wpa_printf(MSG_DEBUG, "TLSv1: Failed to create a record"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); return -1; } pos = rhdr + rlen; tls_verify_hash_add(conn, hs_start, pos - hs_start); *msgpos = pos; return 0; } static int tls_write_client_certificate_verify(struct tlsv1_client *conn, u8 **msgpos, u8 *end) { u8 *pos, *rhdr, *hs_start, *hs_length, *signed_start; size_t rlen, hlen, clen; u8 hash[MD5_MAC_LEN + SHA1_MAC_LEN], *hpos; enum { SIGN_ALG_RSA, SIGN_ALG_DSA } alg = SIGN_ALG_RSA; pos = *msgpos; wpa_printf(MSG_DEBUG, "TLSv1: Send CertificateVerify"); rhdr = pos; pos += TLS_RECORD_HEADER_LEN; /* Handshake */ hs_start = pos; /* HandshakeType msg_type */ *pos++ = TLS_HANDSHAKE_TYPE_CERTIFICATE_VERIFY; /* uint24 length (to be filled) */ hs_length = pos; pos += 3; /* * RFC 2246: 7.4.3 and 7.4.8: * Signature signature * * RSA: * digitally-signed struct { * opaque md5_hash[16]; * opaque sha_hash[20]; * }; * * DSA: * digitally-signed struct { * opaque sha_hash[20]; * }; * * The hash values are calculated over all handshake messages sent or * received starting at ClientHello up to, but not including, this * CertificateVerify message, including the type and length fields of * the handshake messages. */ hpos = hash; if (alg == SIGN_ALG_RSA) { hlen = MD5_MAC_LEN; if (conn->verify_md5_cert == NULL || crypto_hash_finish(conn->verify_md5_cert, hpos, &hlen) < 0) { tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); conn->verify_md5_cert = NULL; crypto_hash_finish(conn->verify_sha1_cert, NULL, NULL); conn->verify_sha1_cert = NULL; return -1; } hpos += MD5_MAC_LEN; } else crypto_hash_finish(conn->verify_md5_cert, NULL, NULL); conn->verify_md5_cert = NULL; hlen = SHA1_MAC_LEN; if (conn->verify_sha1_cert == NULL || crypto_hash_finish(conn->verify_sha1_cert, hpos, &hlen) < 0) { conn->verify_sha1_cert = NULL; tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); return -1; } conn->verify_sha1_cert = NULL; if (alg == SIGN_ALG_RSA) hlen += MD5_MAC_LEN; wpa_hexdump(MSG_MSGDUMP, "TLSv1: CertificateVerify hash", hash, hlen); /* * RFC 2246, 4.7: * In digital signing, one-way hash functions are used as input for a * signing algorithm. A digitally-signed element is encoded as an * opaque vector <0..2^16-1>, where the length is specified by the * signing algorithm and key. * * In RSA signing, a 36-byte structure of two hashes (one SHA and one * MD5) is signed (encrypted with the private key). It is encoded with * PKCS #1 block type 0 or type 1 as described in [PKCS1]. */ signed_start = pos; /* length to be filled */ pos += 2; clen = end - pos; if (crypto_private_key_sign_pkcs1(conn->client_key, hash, hlen, pos, &clen) < 0) { wpa_printf(MSG_DEBUG, "TLSv1: Failed to sign hash (PKCS #1)"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); return -1; } WPA_PUT_BE16(signed_start, clen); pos += clen; WPA_PUT_BE24(hs_length, pos - hs_length - 3); if (tlsv1_record_send(&conn->rl, TLS_CONTENT_TYPE_HANDSHAKE, rhdr, end - rhdr, pos - hs_start, &rlen) < 0) { wpa_printf(MSG_DEBUG, "TLSv1: Failed to generate a record"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); return -1; } pos = rhdr + rlen; tls_verify_hash_add(conn, hs_start, pos - hs_start); *msgpos = pos; return 0; } static int tls_write_client_change_cipher_spec(struct tlsv1_client *conn, u8 **msgpos, u8 *end) { u8 *pos, *rhdr; size_t rlen; pos = *msgpos; wpa_printf(MSG_DEBUG, "TLSv1: Send ChangeCipherSpec"); rhdr = pos; pos += TLS_RECORD_HEADER_LEN; *pos = TLS_CHANGE_CIPHER_SPEC; if (tlsv1_record_send(&conn->rl, TLS_CONTENT_TYPE_CHANGE_CIPHER_SPEC, rhdr, end - rhdr, 1, &rlen) < 0) { wpa_printf(MSG_DEBUG, "TLSv1: Failed to create a record"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); return -1; } if (tlsv1_record_change_write_cipher(&conn->rl) < 0) { wpa_printf(MSG_DEBUG, "TLSv1: Failed to set write cipher for " "record layer"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); return -1; } *msgpos = rhdr + rlen; return 0; } static int tls_write_client_finished(struct tlsv1_client *conn, u8 **msgpos, u8 *end) { u8 *pos, *rhdr, *hs_start, *hs_length; size_t rlen, hlen; u8 verify_data[TLS_VERIFY_DATA_LEN]; u8 hash[MD5_MAC_LEN + SHA1_MAC_LEN]; pos = *msgpos; wpa_printf(MSG_DEBUG, "TLSv1: Send Finished"); /* Encrypted Handshake Message: Finished */ hlen = MD5_MAC_LEN; if (conn->verify_md5_client == NULL || crypto_hash_finish(conn->verify_md5_client, hash, &hlen) < 0) { tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); conn->verify_md5_client = NULL; crypto_hash_finish(conn->verify_sha1_client, NULL, NULL); conn->verify_sha1_client = NULL; return -1; } conn->verify_md5_client = NULL; hlen = SHA1_MAC_LEN; if (conn->verify_sha1_client == NULL || crypto_hash_finish(conn->verify_sha1_client, hash + MD5_MAC_LEN, &hlen) < 0) { conn->verify_sha1_client = NULL; tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); return -1; } conn->verify_sha1_client = NULL; if (tls_prf(conn->master_secret, TLS_MASTER_SECRET_LEN, "client finished", hash, MD5_MAC_LEN + SHA1_MAC_LEN, verify_data, TLS_VERIFY_DATA_LEN)) { wpa_printf(MSG_DEBUG, "TLSv1: Failed to generate verify_data"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); return -1; } wpa_hexdump_key(MSG_DEBUG, "TLSv1: verify_data (client)", verify_data, TLS_VERIFY_DATA_LEN); rhdr = pos; pos += TLS_RECORD_HEADER_LEN; /* Handshake */ hs_start = pos; /* HandshakeType msg_type */ *pos++ = TLS_HANDSHAKE_TYPE_FINISHED; /* uint24 length (to be filled) */ hs_length = pos; pos += 3; os_memcpy(pos, verify_data, TLS_VERIFY_DATA_LEN); pos += TLS_VERIFY_DATA_LEN; WPA_PUT_BE24(hs_length, pos - hs_length - 3); tls_verify_hash_add(conn, hs_start, pos - hs_start); if (tlsv1_record_send(&conn->rl, TLS_CONTENT_TYPE_HANDSHAKE, rhdr, end - rhdr, pos - hs_start, &rlen) < 0) { wpa_printf(MSG_DEBUG, "TLSv1: Failed to create a record"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); return -1; } pos = rhdr + rlen; *msgpos = pos; return 0; } static size_t tls_client_cert_chain_der_len(struct tlsv1_client *conn) { size_t len = 0; struct x509_certificate *cert; cert = conn->client_cert; while (cert) { len += 3 + cert->cert_len; if (x509_certificate_self_signed(cert)) break; cert = x509_certificate_get_subject(conn->trusted_certs, &cert->issuer); } return len; } static u8 * tls_send_client_key_exchange(struct tlsv1_client *conn, size_t *out_len) { u8 *msg, *end, *pos; size_t msglen; *out_len = 0; msglen = 1000; if (conn->certificate_requested) msglen += tls_client_cert_chain_der_len(conn); msg = os_malloc(msglen); if (msg == NULL) return NULL; pos = msg; end = msg + msglen; if (conn->certificate_requested) { if (tls_write_client_certificate(conn, &pos, end) < 0) { os_free(msg); return NULL; } } if (tls_write_client_key_exchange(conn, &pos, end) < 0 || (conn->certificate_requested && conn->client_key && tls_write_client_certificate_verify(conn, &pos, end) < 0) || tls_write_client_change_cipher_spec(conn, &pos, end) < 0 || tls_write_client_finished(conn, &pos, end) < 0) { os_free(msg); return NULL; } *out_len = pos - msg; conn->state = SERVER_CHANGE_CIPHER_SPEC; return msg; } static u8 * tls_send_change_cipher_spec(struct tlsv1_client *conn, size_t *out_len) { u8 *msg, *end, *pos; *out_len = 0; msg = os_malloc(1000); if (msg == NULL) return NULL; pos = msg; end = msg + 1000; if (tls_write_client_change_cipher_spec(conn, &pos, end) < 0 || tls_write_client_finished(conn, &pos, end) < 0) { os_free(msg); return NULL; } *out_len = pos - msg; wpa_printf(MSG_DEBUG, "TLSv1: Session resumption completed " "successfully"); conn->state = ESTABLISHED; return msg; } static int tlsv1_client_process_handshake(struct tlsv1_client *conn, u8 ct, const u8 *buf, size_t *len) { if (ct == TLS_CONTENT_TYPE_HANDSHAKE && *len >= 4 && buf[0] == TLS_HANDSHAKE_TYPE_HELLO_REQUEST) { size_t hr_len = WPA_GET_BE24(buf + 1); if (hr_len > *len - 4) { wpa_printf(MSG_DEBUG, "TLSv1: HelloRequest underflow"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_DECODE_ERROR); return -1; } wpa_printf(MSG_DEBUG, "TLSv1: Ignored HelloRequest"); *len = 4 + hr_len; return 0; } switch (conn->state) { case SERVER_HELLO: if (tls_process_server_hello(conn, ct, buf, len)) return -1; break; case SERVER_CERTIFICATE: if (tls_process_certificate(conn, ct, buf, len)) return -1; break; case SERVER_KEY_EXCHANGE: if (tls_process_server_key_exchange(conn, ct, buf, len)) return -1; break; case SERVER_CERTIFICATE_REQUEST: if (tls_process_certificate_request(conn, ct, buf, len)) return -1; break; case SERVER_HELLO_DONE: if (tls_process_server_hello_done(conn, ct, buf, len)) return -1; break; case SERVER_CHANGE_CIPHER_SPEC: if (tls_process_server_change_cipher_spec(conn, ct, buf, len)) return -1; break; case SERVER_FINISHED: if (tls_process_server_finished(conn, ct, buf, len)) return -1; break; default: wpa_printf(MSG_DEBUG, "TLSv1: Unexpected state %d " "while processing received message", conn->state); return -1; } if (ct == TLS_CONTENT_TYPE_HANDSHAKE) tls_verify_hash_add(conn, buf, *len); return 0; } /** * tlsv1_client_handshake - Process TLS handshake * @conn: TLSv1 client connection data from tlsv1_client_init() * @in_data: Input data from TLS peer * @in_len: Input data length * @out_len: Length of the output buffer. * Returns: Pointer to output data, %NULL on failure */ u8 * tlsv1_client_handshake(struct tlsv1_client *conn, const u8 *in_data, size_t in_len, size_t *out_len) { const u8 *pos, *end; u8 *msg = NULL, *in_msg, *in_pos, *in_end, alert, ct; size_t in_msg_len; if (conn->state == CLIENT_HELLO) { if (in_len) return NULL; return tls_send_client_hello(conn, out_len); } if (in_data == NULL || in_len == 0) return NULL; pos = in_data; end = in_data + in_len; in_msg = os_malloc(in_len); if (in_msg == NULL) return NULL; /* Each received packet may include multiple records */ while (pos < end) { in_msg_len = in_len; if (tlsv1_record_receive(&conn->rl, pos, end - pos, in_msg, &in_msg_len, &alert)) { wpa_printf(MSG_DEBUG, "TLSv1: Processing received " "record failed"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, alert); goto failed; } ct = pos[0]; in_pos = in_msg; in_end = in_msg + in_msg_len; /* Each received record may include multiple messages of the * same ContentType. */ while (in_pos < in_end) { in_msg_len = in_end - in_pos; if (tlsv1_client_process_handshake(conn, ct, in_pos, &in_msg_len) < 0) goto failed; in_pos += in_msg_len; } pos += TLS_RECORD_HEADER_LEN + WPA_GET_BE16(pos + 3); } os_free(in_msg); in_msg = NULL; switch (conn->state) { case CLIENT_KEY_EXCHANGE: msg = tls_send_client_key_exchange(conn, out_len); break; case CHANGE_CIPHER_SPEC: msg = tls_send_change_cipher_spec(conn, out_len); break; case ACK_FINISHED: wpa_printf(MSG_DEBUG, "TLSv1: Handshake completed " "successfully"); conn->state = ESTABLISHED; /* Need to return something to get final TLS ACK. */ msg = os_malloc(1); *out_len = 0; break; default: wpa_printf(MSG_DEBUG, "TLSv1: Unexpected state %d while " "generating reply", conn->state); break; } failed: os_free(in_msg); if (conn->alert_level) { conn->state = FAILED; os_free(msg); msg = tls_send_alert(conn, conn->alert_level, conn->alert_description, out_len); } return msg; } /** * tlsv1_client_encrypt - Encrypt data into TLS tunnel * @conn: TLSv1 client connection data from tlsv1_client_init() * @in_data: Pointer to plaintext data to be encrypted * @in_len: Input buffer length * @out_data: Pointer to output buffer (encrypted TLS data) * @out_len: Maximum out_data length * Returns: Number of bytes written to out_data, -1 on failure * * This function is used after TLS handshake has been completed successfully to * send data in the encrypted tunnel. */ int tlsv1_client_encrypt(struct tlsv1_client *conn, const u8 *in_data, size_t in_len, u8 *out_data, size_t out_len) { size_t rlen; wpa_hexdump_key(MSG_MSGDUMP, "TLSv1: Plaintext AppData", in_data, in_len); os_memcpy(out_data + TLS_RECORD_HEADER_LEN, in_data, in_len); if (tlsv1_record_send(&conn->rl, TLS_CONTENT_TYPE_APPLICATION_DATA, out_data, out_len, in_len, &rlen) < 0) { wpa_printf(MSG_DEBUG, "TLSv1: Failed to create a record"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); return -1; } return rlen; } /** * tlsv1_client_decrypt - Decrypt data from TLS tunnel * @conn: TLSv1 client connection data from tlsv1_client_init() * @in_data: Pointer to input buffer (encrypted TLS data) * @in_len: Input buffer length * @out_data: Pointer to output buffer (decrypted data from TLS tunnel) * @out_len: Maximum out_data length * Returns: Number of bytes written to out_data, -1 on failure * * This function is used after TLS handshake has been completed successfully to * receive data from the encrypted tunnel. */ int tlsv1_client_decrypt(struct tlsv1_client *conn, const u8 *in_data, size_t in_len, u8 *out_data, size_t out_len) { const u8 *in_end, *pos; int res; u8 alert, *out_end, *out_pos; size_t olen; pos = in_data; in_end = in_data + in_len; out_pos = out_data; out_end = out_data + out_len; while (pos < in_end) { if (pos[0] != TLS_CONTENT_TYPE_APPLICATION_DATA) { wpa_printf(MSG_DEBUG, "TLSv1: Unexpected content type " "0x%x", pos[0]); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_UNEXPECTED_MESSAGE); return -1; } olen = out_end - out_pos; res = tlsv1_record_receive(&conn->rl, pos, in_end - pos, out_pos, &olen, &alert); if (res < 0) { wpa_printf(MSG_DEBUG, "TLSv1: Record layer processing " "failed"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, alert); return -1; } out_pos += olen; if (out_pos > out_end) { wpa_printf(MSG_DEBUG, "TLSv1: Buffer not large enough " "for processing the received record"); tls_alert(conn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_INTERNAL_ERROR); return -1; } pos += TLS_RECORD_HEADER_LEN + WPA_GET_BE16(pos + 3); } return out_pos - out_data; } /** * tlsv1_client_global_init - Initialize TLSv1 client * Returns: 0 on success, -1 on failure * * This function must be called before using any other TLSv1 client functions. */ int tlsv1_client_global_init(void) { return crypto_global_init(); } /** * tlsv1_client_global_deinit - Deinitialize TLSv1 client * * This function can be used to deinitialize the TLSv1 client that was * initialized by calling tlsv1_client_global_init(). No TLSv1 client functions * can be called after this before calling tlsv1_client_global_init() again. */ void tlsv1_client_global_deinit(void) { crypto_global_deinit(); } static void tlsv1_client_free_verify_hashes(struct tlsv1_client *conn) { crypto_hash_finish(conn->verify_md5_client, NULL, NULL); crypto_hash_finish(conn->verify_md5_server, NULL, NULL); crypto_hash_finish(conn->verify_md5_cert, NULL, NULL); crypto_hash_finish(conn->verify_sha1_client, NULL, NULL); crypto_hash_finish(conn->verify_sha1_server, NULL, NULL); crypto_hash_finish(conn->verify_sha1_cert, NULL, NULL); conn->verify_md5_client = NULL; conn->verify_md5_server = NULL; conn->verify_md5_cert = NULL; conn->verify_sha1_client = NULL; conn->verify_sha1_server = NULL; conn->verify_sha1_cert = NULL; } static int tlsv1_client_init_verify_hashes(struct tlsv1_client *conn) { conn->verify_md5_client = crypto_hash_init(CRYPTO_HASH_ALG_MD5, NULL, 0); conn->verify_md5_server = crypto_hash_init(CRYPTO_HASH_ALG_MD5, NULL, 0); conn->verify_md5_cert = crypto_hash_init(CRYPTO_HASH_ALG_MD5, NULL, 0); conn->verify_sha1_client = crypto_hash_init(CRYPTO_HASH_ALG_SHA1, NULL, 0); conn->verify_sha1_server = crypto_hash_init(CRYPTO_HASH_ALG_SHA1, NULL, 0); conn->verify_sha1_cert = crypto_hash_init(CRYPTO_HASH_ALG_SHA1, NULL, 0); if (conn->verify_md5_client == NULL || conn->verify_md5_server == NULL || conn->verify_md5_cert == NULL || conn->verify_sha1_client == NULL || conn->verify_sha1_server == NULL || conn->verify_sha1_cert == NULL) { tlsv1_client_free_verify_hashes(conn); return -1; } return 0; } /** * tlsv1_client_init - Initialize TLSv1 client connection * Returns: Pointer to TLSv1 client connection data or %NULL on failure */ struct tlsv1_client * tlsv1_client_init(void) { struct tlsv1_client *conn; size_t count; u16 *suites; conn = os_zalloc(sizeof(*conn)); if (conn == NULL) return NULL; conn->state = CLIENT_HELLO; if (tlsv1_client_init_verify_hashes(conn) < 0) { wpa_printf(MSG_DEBUG, "TLSv1: Failed to initialize verify " "hash"); os_free(conn); return NULL; } count = 0; suites = conn->cipher_suites; #ifndef CONFIG_CRYPTO_INTERNAL suites[count++] = TLS_RSA_WITH_AES_256_CBC_SHA; #endif /* CONFIG_CRYPTO_INTERNAL */ suites[count++] = TLS_RSA_WITH_AES_128_CBC_SHA; suites[count++] = TLS_RSA_WITH_3DES_EDE_CBC_SHA; suites[count++] = TLS_RSA_WITH_RC4_128_SHA; suites[count++] = TLS_RSA_WITH_RC4_128_MD5; conn->num_cipher_suites = count; return conn; } /** * tlsv1_client_deinit - Deinitialize TLSv1 client connection * @conn: TLSv1 client connection data from tlsv1_client_init() */ void tlsv1_client_deinit(struct tlsv1_client *conn) { crypto_public_key_free(conn->server_rsa_key); tlsv1_record_set_cipher_suite(&conn->rl, TLS_NULL_WITH_NULL_NULL); tlsv1_record_change_write_cipher(&conn->rl); tlsv1_record_change_read_cipher(&conn->rl); tlsv1_client_free_verify_hashes(conn); os_free(conn->client_hello_ext); tlsv1_client_free_dh(conn); x509_certificate_chain_free(conn->trusted_certs); x509_certificate_chain_free(conn->client_cert); crypto_private_key_free(conn->client_key); os_free(conn); } /** * tlsv1_client_established - Check whether connection has been established * @conn: TLSv1 client connection data from tlsv1_client_init() * Returns: 1 if connection is established, 0 if not */ int tlsv1_client_established(struct tlsv1_client *conn) { return conn->state == ESTABLISHED; } /** * tlsv1_client_prf - Use TLS-PRF to derive keying material * @conn: TLSv1 client connection data from tlsv1_client_init() * @label: Label (e.g., description of the key) for PRF * @server_random_first: seed is 0 = client_random|server_random, * 1 = server_random|client_random * @out: Buffer for output data from TLS-PRF * @out_len: Length of the output buffer * Returns: 0 on success, -1 on failure */ int tlsv1_client_prf(struct tlsv1_client *conn, const char *label, int server_random_first, u8 *out, size_t out_len) { u8 seed[2 * TLS_RANDOM_LEN]; if (conn->state != ESTABLISHED) return -1; if (server_random_first) { os_memcpy(seed, conn->server_random, TLS_RANDOM_LEN); os_memcpy(seed + TLS_RANDOM_LEN, conn->client_random, TLS_RANDOM_LEN); } else { os_memcpy(seed, conn->client_random, TLS_RANDOM_LEN); os_memcpy(seed + TLS_RANDOM_LEN, conn->server_random, TLS_RANDOM_LEN); } return tls_prf(conn->master_secret, TLS_MASTER_SECRET_LEN, label, seed, 2 * TLS_RANDOM_LEN, out, out_len); } /** * tlsv1_client_get_cipher - Get current cipher name * @conn: TLSv1 client connection data from tlsv1_client_init() * @buf: Buffer for the cipher name * @buflen: buf size * Returns: 0 on success, -1 on failure * * Get the name of the currently used cipher. */ int tlsv1_client_get_cipher(struct tlsv1_client *conn, char *buf, size_t buflen) { char *cipher; switch (conn->rl.cipher_suite) { case TLS_RSA_WITH_RC4_128_MD5: cipher = "RC4-MD5"; break; case TLS_RSA_WITH_RC4_128_SHA: cipher = "RC4-SHA"; break; case TLS_RSA_WITH_DES_CBC_SHA: cipher = "DES-CBC-SHA"; break; case TLS_RSA_WITH_3DES_EDE_CBC_SHA: cipher = "DES-CBC3-SHA"; break; default: return -1; } os_snprintf(buf, buflen, "%s", cipher); return 0; } /** * tlsv1_client_shutdown - Shutdown TLS connection * @conn: TLSv1 client connection data from tlsv1_client_init() * Returns: 0 on success, -1 on failure */ int tlsv1_client_shutdown(struct tlsv1_client *conn) { conn->state = CLIENT_HELLO; tlsv1_client_free_verify_hashes(conn); if (tlsv1_client_init_verify_hashes(conn) < 0) { wpa_printf(MSG_DEBUG, "TLSv1: Failed to re-initialize verify " "hash"); return -1; } tlsv1_record_set_cipher_suite(&conn->rl, TLS_NULL_WITH_NULL_NULL); tlsv1_record_change_write_cipher(&conn->rl); tlsv1_record_change_read_cipher(&conn->rl); conn->certificate_requested = 0; crypto_public_key_free(conn->server_rsa_key); conn->server_rsa_key = NULL; conn->session_resumed = 0; return 0; } /** * tlsv1_client_resumed - Was session resumption used * @conn: TLSv1 client connection data from tlsv1_client_init() * Returns: 1 if current session used session resumption, 0 if not */ int tlsv1_client_resumed(struct tlsv1_client *conn) { return !!conn->session_resumed; } /** * tlsv1_client_hello_ext - Set TLS extension for ClientHello * @conn: TLSv1 client connection data from tlsv1_client_init() * @ext_type: Extension type * @data: Extension payload (%NULL to remove extension) * @data_len: Extension payload length * Returns: 0 on success, -1 on failure */ int tlsv1_client_hello_ext(struct tlsv1_client *conn, int ext_type, const u8 *data, size_t data_len) { u8 *pos; conn->ticket = 0; os_free(conn->client_hello_ext); conn->client_hello_ext = NULL; conn->client_hello_ext_len = 0; if (data == NULL || data_len == 0) return 0; pos = conn->client_hello_ext = os_malloc(6 + data_len); if (pos == NULL) return -1; WPA_PUT_BE16(pos, 4 + data_len); pos += 2; WPA_PUT_BE16(pos, ext_type); pos += 2; WPA_PUT_BE16(pos, data_len); pos += 2; os_memcpy(pos, data, data_len); conn->client_hello_ext_len = 6 + data_len; if (ext_type == TLS_EXT_PAC_OPAQUE) { conn->ticket = 1; wpa_printf(MSG_DEBUG, "TLSv1: Using session ticket"); } return 0; } /** * tlsv1_client_get_keys - Get master key and random data from TLS connection * @conn: TLSv1 client connection data from tlsv1_client_init() * @keys: Structure of key/random data (filled on success) * Returns: 0 on success, -1 on failure */ int tlsv1_client_get_keys(struct tlsv1_client *conn, struct tls_keys *keys) { os_memset(keys, 0, sizeof(*keys)); if (conn->state == CLIENT_HELLO) return -1; keys->client_random = conn->client_random; keys->client_random_len = TLS_RANDOM_LEN; if (conn->state != SERVER_HELLO) { keys->server_random = conn->server_random; keys->server_random_len = TLS_RANDOM_LEN; keys->master_key = conn->master_secret; keys->master_key_len = TLS_MASTER_SECRET_LEN; } return 0; } /** * tlsv1_client_set_master_key - Configure master secret for TLS connection * @conn: TLSv1 client connection data from tlsv1_client_init() * @key: TLS pre-master-secret * @key_len: length of key in bytes * Returns: 0 on success, -1 on failure */ int tlsv1_client_set_master_key(struct tlsv1_client *conn, const u8 *key, size_t key_len) { if (key_len > TLS_MASTER_SECRET_LEN) return -1; wpa_hexdump_key(MSG_MSGDUMP, "TLSv1: master_secret from session " "ticket", key, key_len); os_memcpy(conn->master_secret, key, key_len); conn->ticket_key = 1; return 0; } /** * tlsv1_client_get_keyblock_size - Get TLS key_block size * @conn: TLSv1 client connection data from tlsv1_client_init() * Returns: Size of the key_block for the negotiated cipher suite or -1 on * failure */ int tlsv1_client_get_keyblock_size(struct tlsv1_client *conn) { if (conn->state == CLIENT_HELLO || conn->state == SERVER_HELLO) return -1; return 2 * (conn->rl.hash_size + conn->rl.key_material_len + conn->rl.iv_size); } /** * tlsv1_client_set_cipher_list - Configure acceptable cipher suites * @conn: TLSv1 client connection data from tlsv1_client_init() * @ciphers: Zero (TLS_CIPHER_NONE) terminated list of allowed ciphers * (TLS_CIPHER_*). * Returns: 0 on success, -1 on failure */ int tlsv1_client_set_cipher_list(struct tlsv1_client *conn, u8 *ciphers) { #ifdef EAP_FAST size_t count; u16 *suites; /* TODO: implement proper configuration of cipher suites */ if (ciphers[0] == TLS_CIPHER_ANON_DH_AES128_SHA) { count = 0; suites = conn->cipher_suites; suites[count++] = TLS_DH_anon_WITH_AES_256_CBC_SHA; suites[count++] = TLS_DH_anon_WITH_AES_128_CBC_SHA; suites[count++] = TLS_DH_anon_WITH_3DES_EDE_CBC_SHA; suites[count++] = TLS_DH_anon_WITH_RC4_128_MD5; suites[count++] = TLS_DH_anon_WITH_DES_CBC_SHA; conn->num_cipher_suites = count; } return 0; #else /* EAP_FAST */ return -1; #endif /* EAP_FAST */ } static int tlsv1_client_add_cert_der(struct x509_certificate **chain, const u8 *buf, size_t len) { struct x509_certificate *cert; char name[128]; cert = x509_certificate_parse(buf, len); if (cert == NULL) { wpa_printf(MSG_INFO, "TLSv1: %s - failed to parse certificate", __func__); return -1; } cert->next = *chain; *chain = cert; x509_name_string(&cert->subject, name, sizeof(name)); wpa_printf(MSG_DEBUG, "TLSv1: Added certificate: %s", name); return 0; } static const char *pem_cert_begin = "-----BEGIN CERTIFICATE-----"; static const char *pem_cert_end = "-----END CERTIFICATE-----"; static const u8 * search_tag(const char *tag, const u8 *buf, size_t len) { size_t i, plen; plen = os_strlen(tag); if (len < plen) return NULL; for (i = 0; i < len - plen; i++) { if (os_memcmp(buf + i, tag, plen) == 0) return buf + i; } return NULL; } static int tlsv1_client_add_cert(struct x509_certificate **chain, const u8 *buf, size_t len) { const u8 *pos, *end; unsigned char *der; size_t der_len; pos = search_tag(pem_cert_begin, buf, len); if (!pos) { wpa_printf(MSG_DEBUG, "TLSv1: No PEM certificate tag found - " "assume DER format"); return tlsv1_client_add_cert_der(chain, buf, len); } wpa_printf(MSG_DEBUG, "TLSv1: Converting PEM format certificate into " "DER format"); while (pos) { pos += os_strlen(pem_cert_begin); end = search_tag(pem_cert_end, pos, buf + len - pos); if (end == NULL) { wpa_printf(MSG_INFO, "TLSv1: Could not find PEM " "certificate end tag (%s)", pem_cert_end); return -1; } der = base64_decode(pos, end - pos, &der_len); if (der == NULL) { wpa_printf(MSG_INFO, "TLSv1: Could not decode PEM " "certificate"); return -1; } if (tlsv1_client_add_cert_der(chain, der, der_len) < 0) { wpa_printf(MSG_INFO, "TLSv1: Failed to parse PEM " "certificate after DER conversion"); os_free(der); return -1; } os_free(der); end += os_strlen(pem_cert_end); pos = search_tag(pem_cert_begin, end, buf + len - end); } return 0; } static int tlsv1_client_set_cert_chain(struct x509_certificate **chain, const char *cert, const u8 *cert_blob, size_t cert_blob_len) { if (cert_blob) return tlsv1_client_add_cert(chain, cert_blob, cert_blob_len); if (cert) { u8 *buf; size_t len; int ret; buf = (u8 *) os_readfile(cert, &len); if (buf == NULL) { wpa_printf(MSG_INFO, "TLSv1: Failed to read '%s'", cert); return -1; } ret = tlsv1_client_add_cert(chain, buf, len); os_free(buf); return ret; } return 0; } /** * tlsv1_client_set_ca_cert - Set trusted CA certificate(s) * @conn: TLSv1 client connection data from tlsv1_client_init() * @cert: File or reference name for X.509 certificate in PEM or DER format * @cert_blob: cert as inlined data or %NULL if not used * @cert_blob_len: ca_cert_blob length * @path: Path to CA certificates (not yet supported) * Returns: 0 on success, -1 on failure */ int tlsv1_client_set_ca_cert(struct tlsv1_client *conn, const char *cert, const u8 *cert_blob, size_t cert_blob_len, const char *path) { if (tlsv1_client_set_cert_chain(&conn->trusted_certs, cert, cert_blob, cert_blob_len) < 0) return -1; if (path) { /* TODO: add support for reading number of certificate files */ wpa_printf(MSG_INFO, "TLSv1: Use of CA certificate directory " "not yet supported"); return -1; } return 0; } /** * tlsv1_client_set_client_cert - Set client certificate * @conn: TLSv1 client connection data from tlsv1_client_init() * @cert: File or reference name for X.509 certificate in PEM or DER format * @cert_blob: cert as inlined data or %NULL if not used * @cert_blob_len: ca_cert_blob length * Returns: 0 on success, -1 on failure */ int tlsv1_client_set_client_cert(struct tlsv1_client *conn, const char *cert, const u8 *cert_blob, size_t cert_blob_len) { return tlsv1_client_set_cert_chain(&conn->client_cert, cert, cert_blob, cert_blob_len); } static int tlsv1_client_set_key(struct tlsv1_client *conn, const u8 *key, size_t len) { conn->client_key = crypto_private_key_import(key, len); if (conn->client_key == NULL) { wpa_printf(MSG_INFO, "TLSv1: Failed to parse private key"); return -1; } return 0; } /** * tlsv1_client_set_private_key - Set client private key * @conn: TLSv1 client connection data from tlsv1_client_init() * @private_key: File or reference name for the key in PEM or DER format * @private_key_passwd: Passphrase for decrypted private key, %NULL if no * passphrase is used. * @private_key_blob: private_key as inlined data or %NULL if not used * @private_key_blob_len: private_key_blob length * Returns: 0 on success, -1 on failure */ int tlsv1_client_set_private_key(struct tlsv1_client *conn, const char *private_key, const char *private_key_passwd, const u8 *private_key_blob, size_t private_key_blob_len) { crypto_private_key_free(conn->client_key); conn->client_key = NULL; if (private_key_blob) return tlsv1_client_set_key(conn, private_key_blob, private_key_blob_len); if (private_key) { u8 *buf; size_t len; int ret; buf = (u8 *) os_readfile(private_key, &len); if (buf == NULL) { wpa_printf(MSG_INFO, "TLSv1: Failed to read '%s'", private_key); return -1; } ret = tlsv1_client_set_key(conn, buf, len); os_free(buf); return ret; } return 0; }