mirror of
https://github.com/yuzu-emu/mbedtls.git
synced 2024-11-26 01:15:43 +01:00
Fixed client certificate handling with TLS 1.2
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e667c98fb1
commit
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@ -192,6 +192,11 @@
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#define SSL_SIG_RSA 1
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/*
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* Client Certificate Types
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*/
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#define SSL_CERT_TYPE_RSA_SIGN 1
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/*
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* Message, alert and handshake types
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*/
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@ -351,6 +356,8 @@ struct _ssl_handshake_params
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* Handshake specific crypto variables
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*/
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int sig_alg; /*!< Signature algorithm */
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int cert_type; /*!< Requested cert type */
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int verify_sig_alg; /*!< Signature algorithm for verify */
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#if defined(POLARSSL_DHM_C)
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dhm_context dhm_ctx; /*!< DHM key exchange */
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#endif
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@ -891,15 +891,19 @@ static int ssl_parse_server_key_exchange( ssl_context *ssl )
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static int ssl_parse_certificate_request( ssl_context *ssl )
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{
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int ret;
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unsigned char *buf, *p;
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size_t n = 0;
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size_t cert_type_len = 0, sig_alg_len = 0, dn_len = 0;
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SSL_DEBUG_MSG( 2, ( "=> parse certificate request" ) );
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/*
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* 0 . 0 handshake type
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* 1 . 3 handshake length
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* 4 . 5 SSL version
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* 6 . 6 cert type count
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* 7 .. n-1 cert types
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* 4 . 4 cert type count
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* 5 .. m-1 cert types
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* m .. m+1 sig alg length (TLS 1.2 only)
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* m+1 .. n-1 SignatureAndHashAlgorithms (TLS 1.2 only)
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* n .. n+1 length of all DNs
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* n+2 .. n+3 length of DN 1
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* n+4 .. ... Distinguished Name #1
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@ -926,6 +930,70 @@ static int ssl_parse_certificate_request( ssl_context *ssl )
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SSL_DEBUG_MSG( 3, ( "got %s certificate request",
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ssl->client_auth ? "a" : "no" ) );
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if( ssl->client_auth == 0 )
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goto exit;
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// TODO: handshake_failure alert for an anonymous server to request
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// client authentication
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buf = ssl->in_msg;
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// Retrieve cert types
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//
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cert_type_len = buf[4];
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n = cert_type_len;
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if( ssl->in_hslen < 6 + n )
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{
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SSL_DEBUG_MSG( 1, ( "bad certificate request message" ) );
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return( POLARSSL_ERR_SSL_BAD_HS_CERTIFICATE_REQUEST );
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}
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p = buf + 4;
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while( cert_type_len > 0 )
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{
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if( *p == SSL_CERT_TYPE_RSA_SIGN )
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{
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ssl->handshake->cert_type = SSL_CERT_TYPE_RSA_SIGN;
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break;
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}
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cert_type_len--;
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p++;
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}
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if( ssl->handshake->cert_type == 0 )
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{
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SSL_DEBUG_MSG( 1, ( "no known cert_type provided" ) );
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return( POLARSSL_ERR_SSL_BAD_HS_CERTIFICATE_REQUEST );
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}
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if( ssl->minor_ver == SSL_MINOR_VERSION_3 )
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{
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sig_alg_len = ( ( buf[5 + n] << 8 )
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| ( buf[6 + n] ) );
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p = buf + 7 + n;
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n += sig_alg_len;
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if( ssl->in_hslen < 6 + n )
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{
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SSL_DEBUG_MSG( 1, ( "bad certificate request message" ) );
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return( POLARSSL_ERR_SSL_BAD_HS_CERTIFICATE_REQUEST );
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}
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}
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dn_len = ( ( buf[7 + n] << 8 )
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| ( buf[8 + n] ) );
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n += dn_len;
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if( ssl->in_hslen != 9 + n )
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{
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SSL_DEBUG_MSG( 1, ( "bad certificate request message" ) );
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return( POLARSSL_ERR_SSL_BAD_HS_CERTIFICATE_REQUEST );
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}
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exit:
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SSL_DEBUG_MSG( 2, ( "<= parse certificate request" ) );
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return( 0 );
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@ -1102,25 +1170,6 @@ static int ssl_write_certificate_verify( ssl_context *ssl )
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return( 0 );
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}
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if( ssl->minor_ver == SSL_MINOR_VERSION_3 )
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{
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// TODO TLS1.2 Should be based on allowed signature algorithm received in
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// Certificate Request according to RFC 5246. But OpenSSL only allows
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// SHA256 and SHA384. Find out why OpenSSL does this.
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//
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if( ssl->session_negotiate->ciphersuite == TLS_RSA_WITH_AES_256_GCM_SHA384 ||
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ssl->session_negotiate->ciphersuite == TLS_DHE_RSA_WITH_AES_256_GCM_SHA384 )
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{
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hash_id = SIG_RSA_SHA384;
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hashlen = 48;
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}
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else
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{
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hash_id = SIG_RSA_SHA256;
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hashlen = 32;
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}
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}
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if( ssl->rsa_key == NULL )
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{
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SSL_DEBUG_MSG( 1, ( "got no private key" ) );
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@ -1132,23 +1181,52 @@ static int ssl_write_certificate_verify( ssl_context *ssl )
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*/
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ssl->handshake->calc_verify( ssl, hash );
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if ( ssl->rsa_key )
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n = ssl->rsa_key_len ( ssl->rsa_key );
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if( ssl->minor_ver == SSL_MINOR_VERSION_3 )
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if( ssl->minor_ver != SSL_MINOR_VERSION_3 )
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{
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// TODO TLS1.2 Should be based on allowed signature algorithm received in
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// Certificate Request according to RFC 5246. But OpenSSL only allows
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// SHA256 and SHA384. Find out why OpenSSL does this.
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//
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/*
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* digitally-signed struct {
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* opaque md5_hash[16];
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* opaque sha_hash[20];
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* };
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*
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* md5_hash
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* MD5(handshake_messages);
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*
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* sha_hash
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* SHA(handshake_messages);
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*/
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hashlen = 36;
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hash_id = SIG_RSA_RAW;
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}
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else
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{
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/*
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* digitally-signed struct {
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* opaque handshake_messages[handshake_messages_length];
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* };
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*
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* Taking shortcut here. We assume that the server always allows the
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* PRF Hash function and has sent it in the allowed signature
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* algorithms list received in the Certificate Request message.
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*
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* Until we encounter a server that does not, we will take this
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* shortcut.
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*
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* Reason: Otherwise we should have running hashes for SHA512 and SHA224
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* in order to satisfy 'weird' needs from the server side.
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*/
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if( ssl->session_negotiate->ciphersuite == TLS_RSA_WITH_AES_256_GCM_SHA384 ||
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ssl->session_negotiate->ciphersuite == TLS_DHE_RSA_WITH_AES_256_GCM_SHA384 )
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{
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hash_id = SIG_RSA_SHA384;
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hashlen = 48;
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ssl->out_msg[4] = SSL_HASH_SHA384;
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ssl->out_msg[5] = SSL_SIG_RSA;
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}
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else
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{
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hash_id = SIG_RSA_SHA256;
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hashlen = 32;
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ssl->out_msg[4] = SSL_HASH_SHA256;
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ssl->out_msg[5] = SSL_SIG_RSA;
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}
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@ -1156,6 +1234,9 @@ static int ssl_write_certificate_verify( ssl_context *ssl )
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offset = 2;
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}
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if ( ssl->rsa_key )
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n = ssl->rsa_key_len ( ssl->rsa_key );
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ssl->out_msg[4 + offset] = (unsigned char)( n >> 8 );
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ssl->out_msg[5 + offset] = (unsigned char)( n );
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@ -689,7 +689,7 @@ static int ssl_write_server_hello( ssl_context *ssl )
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static int ssl_write_certificate_request( ssl_context *ssl )
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{
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int ret;
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size_t n;
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size_t n = 0, dn_size, total_dn_size;
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unsigned char *buf, *p;
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const x509_cert *crt;
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@ -707,7 +707,9 @@ static int ssl_write_certificate_request( ssl_context *ssl )
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* 0 . 0 handshake type
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* 1 . 3 handshake length
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* 4 . 4 cert type count
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* 5 .. n-1 cert types
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* 5 .. m-1 cert types
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* m .. m+1 sig alg length (TLS 1.2 only)
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* m+1 .. n-1 SignatureAndHashAlgorithms (TLS 1.2 only)
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* n .. n+1 length of all DNs
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* n+2 .. n+3 length of DN 1
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* n+4 .. ... Distinguished Name #1
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@ -720,30 +722,60 @@ static int ssl_write_certificate_request( ssl_context *ssl )
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* At the moment, only RSA certificates are supported
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*/
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*p++ = 1;
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*p++ = 1;
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*p++ = SSL_CERT_TYPE_RSA_SIGN;
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/*
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* Add signature_algorithms for verify (TLS 1.2)
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* Only add current running algorithm that is already required for
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* requested ciphersuite.
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*
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* Length is always 2
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*/
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if( ssl->max_minor_ver == SSL_MINOR_VERSION_3 )
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{
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ssl->handshake->verify_sig_alg = SSL_HASH_SHA256;
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*p++ = 0;
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*p++ = 2;
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if( ssl->session_negotiate->ciphersuite == TLS_RSA_WITH_AES_256_GCM_SHA384 ||
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ssl->session_negotiate->ciphersuite == TLS_DHE_RSA_WITH_AES_256_GCM_SHA384 )
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{
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ssl->handshake->verify_sig_alg = SSL_HASH_SHA384;
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}
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*p++ = ssl->handshake->verify_sig_alg;
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*p++ = SSL_SIG_RSA;
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n += 4;
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}
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p += 2;
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crt = ssl->ca_chain;
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total_dn_size = 2;
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while( crt != NULL )
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{
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if( p - buf > 4096 )
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break;
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n = crt->subject_raw.len;
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*p++ = (unsigned char)( n >> 8 );
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*p++ = (unsigned char)( n );
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memcpy( p, crt->subject_raw.p, n );
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dn_size = crt->subject_raw.len;
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*p++ = (unsigned char)( dn_size >> 8 );
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*p++ = (unsigned char)( dn_size );
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memcpy( p, crt->subject_raw.p, dn_size );
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p += dn_size;
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SSL_DEBUG_BUF( 3, "requested DN", p, n );
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p += n; crt = crt->next;
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SSL_DEBUG_BUF( 3, "requested DN", p, dn_size );
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total_dn_size += dn_size;
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crt = crt->next;
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}
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ssl->out_msglen = n = p - buf;
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ssl->out_msglen = p - buf;
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ssl->out_msgtype = SSL_MSG_HANDSHAKE;
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ssl->out_msg[0] = SSL_HS_CERTIFICATE_REQUEST;
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ssl->out_msg[6] = (unsigned char)( ( n - 8 ) >> 8 );
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ssl->out_msg[7] = (unsigned char)( ( n - 8 ) );
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ssl->out_msg[6 + n] = (unsigned char)( total_dn_size >> 8 );
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ssl->out_msg[7 + n] = (unsigned char)( total_dn_size );
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ret = ssl_write_record( ssl );
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@ -1170,8 +1202,10 @@ static int ssl_parse_client_key_exchange( ssl_context *ssl )
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static int ssl_parse_certificate_verify( ssl_context *ssl )
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{
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int ret;
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size_t n1, n2;
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size_t n = 0, n1, n2;
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unsigned char hash[48];
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int hash_id;
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unsigned int hashlen;
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SSL_DEBUG_MSG( 2, ( "=> parse certificate verify" ) );
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@ -1204,17 +1238,49 @@ static int ssl_parse_certificate_verify( ssl_context *ssl )
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return( POLARSSL_ERR_SSL_BAD_HS_CERTIFICATE_VERIFY );
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}
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n1 = ssl->session_negotiate->peer_cert->rsa.len;
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n2 = ( ssl->in_msg[4] << 8 ) | ssl->in_msg[5];
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if( ssl->minor_ver == SSL_MINOR_VERSION_3 )
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{
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/*
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* As server we know we either have SSL_HASH_SHA384 or
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* SSL_HASH_SHA256
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*/
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if( ssl->in_msg[4] != ssl->handshake->verify_sig_alg ||
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ssl->in_msg[5] != SSL_SIG_RSA )
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{
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SSL_DEBUG_MSG( 1, ( "peer not adhering to requested sig_alg for verify message" ) );
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return( POLARSSL_ERR_SSL_BAD_HS_CERTIFICATE_VERIFY );
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}
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if( n1 + 6 != ssl->in_hslen || n1 != n2 )
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if( ssl->handshake->verify_sig_alg == SSL_HASH_SHA384 )
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{
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hashlen = 48;
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hash_id = SIG_RSA_SHA384;
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}
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else
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{
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hashlen = 32;
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hash_id = SIG_RSA_SHA256;
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}
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n += 2;
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}
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else
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{
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hashlen = 36;
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hash_id = SIG_RSA_RAW;
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}
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n1 = ssl->session_negotiate->peer_cert->rsa.len;
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n2 = ( ssl->in_msg[4 + n] << 8 ) | ssl->in_msg[5 + 2];
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if( n + n1 + 6 != ssl->in_hslen || n1 != n2 )
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{
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SSL_DEBUG_MSG( 1, ( "bad certificate verify message" ) );
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return( POLARSSL_ERR_SSL_BAD_HS_CERTIFICATE_VERIFY );
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}
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ret = rsa_pkcs1_verify( &ssl->session_negotiate->peer_cert->rsa, RSA_PUBLIC,
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SIG_RSA_RAW, 36, hash, ssl->in_msg + 6 );
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hash_id, hashlen, hash, ssl->in_msg + 6 + n );
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if( ret != 0 )
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{
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SSL_DEBUG_RET( 1, "rsa_pkcs1_verify", ret );
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