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Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001/*
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01002 * Copyright (C) 2017 Denys Vlasenko
Denys Vlasenko11d00962017-01-15 00:12:42 +01003 *
4 * Licensed under GPLv2, see file LICENSE in this source tree.
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01005 */
6//config:config TLS
Denys Vlasenko9a647c32017-01-23 01:08:16 +01007//config: bool #No description makes it a hidden option
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01008//config: default n
9
Denys Vlasenkoceff6b02017-01-14 12:49:32 +010010//kbuild:lib-$(CONFIG_TLS) += tls.o
Denys Vlasenko11d00962017-01-15 00:12:42 +010011//kbuild:lib-$(CONFIG_TLS) += tls_pstm.o
12//kbuild:lib-$(CONFIG_TLS) += tls_pstm_montgomery_reduce.o
13//kbuild:lib-$(CONFIG_TLS) += tls_pstm_mul_comba.o
14//kbuild:lib-$(CONFIG_TLS) += tls_pstm_sqr_comba.o
Denys Vlasenkob7e9ae62017-01-18 17:20:27 +010015//kbuild:lib-$(CONFIG_TLS) += tls_aes.o
Denys Vlasenko83e5c622018-11-23 17:21:38 +010016//kbuild:lib-$(CONFIG_TLS) += tls_aesgcm.o
Denys Vlasenkobddb6542018-11-13 02:16:24 +010017//kbuild:lib-$(CONFIG_TLS) += tls_rsa.o
18//kbuild:lib-$(CONFIG_TLS) += tls_fe.o
Denys Vlasenkoceff6b02017-01-14 12:49:32 +010019
Denys Vlasenko11d00962017-01-15 00:12:42 +010020#include "tls.h"
Denys Vlasenkoceff6b02017-01-14 12:49:32 +010021
Denys Vlasenkoca7cdd42018-11-26 00:17:10 +010022// works against "openssl s_server -cipher NULL"
23// and against wolfssl-3.9.10-stable/examples/server/server.c:
24#define ALLOW_RSA_NULL_SHA256 0 // for testing (does everything except encrypting)
25
Denys Vlasenko83e5c622018-11-23 17:21:38 +010026//Tested against kernel.org:
Denys Vlasenko49ecee02017-01-24 16:00:54 +010027//#define CIPHER_ID TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA // ok, recvs SERVER_KEY_EXCHANGE *** matrixssl uses this on my box
28//#define CIPHER_ID TLS_RSA_WITH_AES_256_CBC_SHA256 // ok, no SERVER_KEY_EXCHANGE
29//#define CIPHER_ID TLS_DH_anon_WITH_AES_256_CBC_SHA // SSL_ALERT_HANDSHAKE_FAILURE
30//^^^^^^^^^^^^^^^^^^^^^^^ (tested b/c this one doesn't req server certs... no luck, server refuses it)
31//#define CIPHER_ID TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384 // SSL_ALERT_HANDSHAKE_FAILURE
32//#define CIPHER_ID TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256 // SSL_ALERT_HANDSHAKE_FAILURE
33//#define CIPHER_ID TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384 // ok, recvs SERVER_KEY_EXCHANGE
34//#define CIPHER_ID TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256
35//#define CIPHER_ID TLS_ECDH_ECDSA_WITH_AES_256_GCM_SHA384
36//#define CIPHER_ID TLS_ECDH_ECDSA_WITH_AES_128_GCM_SHA256 // SSL_ALERT_HANDSHAKE_FAILURE
37//#define CIPHER_ID TLS_ECDH_RSA_WITH_AES_256_GCM_SHA384
38//#define CIPHER_ID TLS_ECDH_RSA_WITH_AES_128_GCM_SHA256 // SSL_ALERT_HANDSHAKE_FAILURE
39//#define CIPHER_ID TLS_RSA_WITH_AES_256_GCM_SHA384 // ok, no SERVER_KEY_EXCHANGE
Denys Vlasenko83e5c622018-11-23 17:21:38 +010040//#define CIPHER_ID TLS_RSA_WITH_AES_128_GCM_SHA256 // ok, no SERVER_KEY_EXCHANGE
Denys Vlasenko49ecee02017-01-24 16:00:54 +010041
Denys Vlasenko49ecee02017-01-24 16:00:54 +010042// works against wolfssl-3.9.10-stable/examples/server/server.c
43// works for kernel.org
44// does not work for cdn.kernel.org (e.g. downloading an actual tarball, not a web page)
45// getting alert 40 "handshake failure" at once
46// with GNU Wget 1.18, they agree on TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256 (0xC02F) cipher
Denys Vlasenko2eb04292018-11-26 16:39:19 +010047// fail: openssl s_client -connect cdn.kernel.org:443 -debug -tls1_2 -cipher AES256-SHA256
48// fail: openssl s_client -connect cdn.kernel.org:443 -debug -tls1_2 -cipher AES256-GCM-SHA384
49// fail: openssl s_client -connect cdn.kernel.org:443 -debug -tls1_2 -cipher AES128-SHA256
50// ok: openssl s_client -connect cdn.kernel.org:443 -debug -tls1_2 -cipher AES128-GCM-SHA256
51// ok: openssl s_client -connect cdn.kernel.org:443 -debug -tls1_2 -cipher AES128-SHA
Denys Vlasenko49ecee02017-01-24 16:00:54 +010052// (TLS_RSA_WITH_AES_128_CBC_SHA - in TLS 1.2 it's mandated to be always supported)
Denys Vlasenkoca7cdd42018-11-26 00:17:10 +010053//#define CIPHER_ID1 TLS_RSA_WITH_AES_256_CBC_SHA256 //0x003D
Denys Vlasenko89193f92017-01-24 18:08:07 +010054// Works with "wget https://cdn.kernel.org/pub/linux/kernel/v4.x/linux-4.9.5.tar.xz"
Denys Vlasenkoca7cdd42018-11-26 00:17:10 +010055//#define CIPHER_ID2 TLS_RSA_WITH_AES_128_CBC_SHA //0x002F
Denys Vlasenko49ecee02017-01-24 16:00:54 +010056
Denys Vlasenkod2923b32018-11-24 21:26:20 +010057// bug #11456:
Denys Vlasenko83e5c622018-11-23 17:21:38 +010058// ftp.openbsd.org only supports ECDHE-RSA-AESnnn-GCM-SHAnnn or ECDHE-RSA-CHACHA20-POLY1305
Denys Vlasenkoca7cdd42018-11-26 00:17:10 +010059//#define CIPHER_ID3 TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256 //0xC02F
Denys Vlasenkoab3c5e42018-11-25 00:53:19 +010060// host is.gd accepts only ECDHE-ECDSA-foo (the simplest which works: ECDHE-ECDSA-AES128-SHA 0xC009)
Denys Vlasenkoca7cdd42018-11-26 00:17:10 +010061//#define CIPHER_ID4 TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA //0xC009
Denys Vlasenko83e5c622018-11-23 17:21:38 +010062
Denys Vlasenko49ecee02017-01-24 16:00:54 +010063
Denys Vlasenko89193f92017-01-24 18:08:07 +010064#define TLS_DEBUG 0
65#define TLS_DEBUG_HASH 0
66#define TLS_DEBUG_DER 0
67#define TLS_DEBUG_FIXED_SECRETS 0
Denys Vlasenkob5bf1912017-01-23 16:12:17 +010068#if 0
69# define dump_raw_out(...) dump_hex(__VA_ARGS__)
70#else
71# define dump_raw_out(...) ((void)0)
72#endif
73#if 0
74# define dump_raw_in(...) dump_hex(__VA_ARGS__)
75#else
76# define dump_raw_in(...) ((void)0)
77#endif
Denys Vlasenkoe2cb3b92017-01-17 16:53:36 +010078
79#if TLS_DEBUG
Denys Vlasenkoceff6b02017-01-14 12:49:32 +010080# define dbg(...) fprintf(stderr, __VA_ARGS__)
81#else
82# define dbg(...) ((void)0)
83#endif
84
Denys Vlasenkoc8ba23b2017-01-18 06:45:50 +010085#if TLS_DEBUG_DER
86# define dbg_der(...) fprintf(stderr, __VA_ARGS__)
87#else
88# define dbg_der(...) ((void)0)
89#endif
90
Denys Vlasenkoa33b0082018-11-25 14:28:32 +010091
92//TLS 1.2
93#define TLS_MAJ 3
94#define TLS_MIN 3
95
Denys Vlasenko98066662018-02-06 13:33:00 +010096#define RECORD_TYPE_CHANGE_CIPHER_SPEC 20 /* 0x14 */
97#define RECORD_TYPE_ALERT 21 /* 0x15 */
98#define RECORD_TYPE_HANDSHAKE 22 /* 0x16 */
99#define RECORD_TYPE_APPLICATION_DATA 23 /* 0x17 */
Denys Vlasenkoceff6b02017-01-14 12:49:32 +0100100
Denys Vlasenko98066662018-02-06 13:33:00 +0100101#define HANDSHAKE_HELLO_REQUEST 0 /* 0x00 */
102#define HANDSHAKE_CLIENT_HELLO 1 /* 0x01 */
103#define HANDSHAKE_SERVER_HELLO 2 /* 0x02 */
104#define HANDSHAKE_HELLO_VERIFY_REQUEST 3 /* 0x03 */
105#define HANDSHAKE_NEW_SESSION_TICKET 4 /* 0x04 */
106#define HANDSHAKE_CERTIFICATE 11 /* 0x0b */
107#define HANDSHAKE_SERVER_KEY_EXCHANGE 12 /* 0x0c */
108#define HANDSHAKE_CERTIFICATE_REQUEST 13 /* 0x0d */
109#define HANDSHAKE_SERVER_HELLO_DONE 14 /* 0x0e */
110#define HANDSHAKE_CERTIFICATE_VERIFY 15 /* 0x0f */
111#define HANDSHAKE_CLIENT_KEY_EXCHANGE 16 /* 0x10 */
112#define HANDSHAKE_FINISHED 20 /* 0x14 */
Denys Vlasenko11d00962017-01-15 00:12:42 +0100113
Denys Vlasenko5df3b122018-11-04 21:25:41 +0100114#define TLS_EMPTY_RENEGOTIATION_INFO_SCSV 0x00FF /* not a real cipher id... */
115
Denys Vlasenkoceff6b02017-01-14 12:49:32 +0100116#define SSL_NULL_WITH_NULL_NULL 0x0000
117#define SSL_RSA_WITH_NULL_MD5 0x0001
118#define SSL_RSA_WITH_NULL_SHA 0x0002
119#define SSL_RSA_WITH_RC4_128_MD5 0x0004
120#define SSL_RSA_WITH_RC4_128_SHA 0x0005
Denys Vlasenkoceff6b02017-01-14 12:49:32 +0100121#define TLS_RSA_WITH_IDEA_CBC_SHA 0x0007 /* 7 */
Denys Vlasenko5df3b122018-11-04 21:25:41 +0100122#define SSL_RSA_WITH_3DES_EDE_CBC_SHA 0x000A /* 10 */
123
Denys Vlasenkoceff6b02017-01-14 12:49:32 +0100124#define SSL_DHE_RSA_WITH_3DES_EDE_CBC_SHA 0x0016 /* 22 */
125#define SSL_DH_anon_WITH_RC4_128_MD5 0x0018 /* 24 */
126#define SSL_DH_anon_WITH_3DES_EDE_CBC_SHA 0x001B /* 27 */
Denys Vlasenko5df3b122018-11-04 21:25:41 +0100127#define TLS_RSA_WITH_AES_128_CBC_SHA 0x002F /*SSLv3 Kx=RSA Au=RSA Enc=AES(128) Mac=SHA1 */
Denys Vlasenkoceff6b02017-01-14 12:49:32 +0100128#define TLS_DHE_RSA_WITH_AES_128_CBC_SHA 0x0033 /* 51 */
Denys Vlasenkoceff6b02017-01-14 12:49:32 +0100129#define TLS_DH_anon_WITH_AES_128_CBC_SHA 0x0034 /* 52 */
Denys Vlasenko5df3b122018-11-04 21:25:41 +0100130#define TLS_RSA_WITH_AES_256_CBC_SHA 0x0035 /* 53 */
131#define TLS_DHE_RSA_WITH_AES_256_CBC_SHA 0x0039 /* 57 */
Denys Vlasenkoceff6b02017-01-14 12:49:32 +0100132#define TLS_DH_anon_WITH_AES_256_CBC_SHA 0x003A /* 58 */
Denys Vlasenko5df3b122018-11-04 21:25:41 +0100133#define TLS_RSA_WITH_NULL_SHA256 0x003B /* 59 */
Denys Vlasenkoceff6b02017-01-14 12:49:32 +0100134#define TLS_RSA_WITH_AES_128_CBC_SHA256 0x003C /* 60 */
135#define TLS_RSA_WITH_AES_256_CBC_SHA256 0x003D /* 61 */
Denys Vlasenko5df3b122018-11-04 21:25:41 +0100136#define TLS_DHE_RSA_WITH_AES_128_CBC_SHA256 0x0067 /* 103 */
137#define TLS_DHE_RSA_WITH_AES_256_CBC_SHA256 0x006B /* 107 */
Denys Vlasenkoceff6b02017-01-14 12:49:32 +0100138#define TLS_PSK_WITH_AES_128_CBC_SHA 0x008C /* 140 */
Denys Vlasenkoceff6b02017-01-14 12:49:32 +0100139#define TLS_PSK_WITH_AES_256_CBC_SHA 0x008D /* 141 */
140#define TLS_DHE_PSK_WITH_AES_128_CBC_SHA 0x0090 /* 144 */
141#define TLS_DHE_PSK_WITH_AES_256_CBC_SHA 0x0091 /* 145 */
Denys Vlasenko5df3b122018-11-04 21:25:41 +0100142#define TLS_RSA_WITH_SEED_CBC_SHA 0x0096 /* 150 */
Denys Vlasenko330d7f52018-11-25 17:27:48 +0100143#define TLS_RSA_WITH_AES_128_GCM_SHA256 0x009C /*TLSv1.2 Kx=RSA Au=RSA Enc=AESGCM(128) Mac=AEAD */
144#define TLS_RSA_WITH_AES_256_GCM_SHA384 0x009D /*TLSv1.2 Kx=RSA Au=RSA Enc=AESGCM(256) Mac=AEAD */
145#define TLS_DHE_RSA_WITH_AES_128_GCM_SHA256 0x009E /*TLSv1.2 Kx=DH Au=RSA Enc=AESGCM(128) Mac=AEAD */
146#define TLS_DHE_RSA_WITH_AES_256_GCM_SHA384 0x009F /*TLSv1.2 Kx=DH Au=RSA Enc=AESGCM(256) Mac=AEAD */
Denys Vlasenko8a46c742018-11-26 17:33:17 +0100147#define TLS_DH_anon_WITH_AES_128_GCM_SHA256 0x00A6 /* RFC 5288 */
148#define TLS_DH_anon_WITH_AES_256_GCM_SHA384 0x00A7 /* RFC 5288 */
Denys Vlasenko5df3b122018-11-04 21:25:41 +0100149#define TLS_PSK_WITH_AES_128_CBC_SHA256 0x00AE /* 174 */
150#define TLS_PSK_WITH_AES_256_CBC_SHA384 0x00AF /* 175 */
Denys Vlasenkoceff6b02017-01-14 12:49:32 +0100151#define TLS_ECDH_ECDSA_WITH_AES_128_CBC_SHA 0xC004 /* 49156 */
152#define TLS_ECDH_ECDSA_WITH_AES_256_CBC_SHA 0xC005 /* 49157 */
Denys Vlasenko9b0ce4d2018-11-04 20:53:54 +0100153#define TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA 0xC009 /*TLSv1 Kx=ECDH Au=ECDSA Enc=AES(128) Mac=SHA1 */
154#define TLS_ECDHE_ECDSA_WITH_AES_256_CBC_SHA 0xC00A /*TLSv1 Kx=ECDH Au=ECDSA Enc=AES(256) Mac=SHA1 */
Denys Vlasenko5df3b122018-11-04 21:25:41 +0100155#define TLS_ECDH_RSA_WITH_AES_128_CBC_SHA 0xC00E /* 49166 */
156#define TLS_ECDH_RSA_WITH_AES_256_CBC_SHA 0xC00F /* 49167 */
Denys Vlasenkoceff6b02017-01-14 12:49:32 +0100157#define TLS_ECDHE_RSA_WITH_3DES_EDE_CBC_SHA 0xC012 /* 49170 */
Denys Vlasenko9b0ce4d2018-11-04 20:53:54 +0100158#define TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA 0xC013 /*TLSv1 Kx=ECDH Au=RSA Enc=AES(128) Mac=SHA1 */
159#define TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA 0xC014 /*TLSv1 Kx=ECDH Au=RSA Enc=AES(256) Mac=SHA1 */
Denys Vlasenko8a46c742018-11-26 17:33:17 +0100160#define TLS_ECDH_anon_WITH_AES_128_CBC_SHA 0xC018 /* RFC 4492 */
161#define TLS_ECDH_anon_WITH_AES_256_CBC_SHA 0xC019 /* RFC 4492 */
Denys Vlasenko9b0ce4d2018-11-04 20:53:54 +0100162#define TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA256 0xC023 /*TLSv1.2 Kx=ECDH Au=ECDSA Enc=AES(128) Mac=SHA256 */
163#define TLS_ECDHE_ECDSA_WITH_AES_256_CBC_SHA384 0xC024 /*TLSv1.2 Kx=ECDH Au=ECDSA Enc=AES(256) Mac=SHA384 */
Denys Vlasenkoceff6b02017-01-14 12:49:32 +0100164#define TLS_ECDH_ECDSA_WITH_AES_128_CBC_SHA256 0xC025 /* 49189 */
165#define TLS_ECDH_ECDSA_WITH_AES_256_CBC_SHA384 0xC026 /* 49190 */
Denys Vlasenko9b0ce4d2018-11-04 20:53:54 +0100166#define TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA256 0xC027 /*TLSv1.2 Kx=ECDH Au=RSA Enc=AES(128) Mac=SHA256 */
167#define TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA384 0xC028 /*TLSv1.2 Kx=ECDH Au=RSA Enc=AES(256) Mac=SHA384 */
Denys Vlasenkoceff6b02017-01-14 12:49:32 +0100168#define TLS_ECDH_RSA_WITH_AES_128_CBC_SHA256 0xC029 /* 49193 */
169#define TLS_ECDH_RSA_WITH_AES_256_CBC_SHA384 0xC02A /* 49194 */
Denys Vlasenko7a18b952017-01-23 16:37:04 +0100170/* RFC 5288 "AES Galois Counter Mode (GCM) Cipher Suites for TLS" */
Denys Vlasenko9b0ce4d2018-11-04 20:53:54 +0100171#define TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256 0xC02B /*TLSv1.2 Kx=ECDH Au=ECDSA Enc=AESGCM(128) Mac=AEAD */
172#define TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384 0xC02C /*TLSv1.2 Kx=ECDH Au=ECDSA Enc=AESGCM(256) Mac=AEAD */
Denys Vlasenkoceff6b02017-01-14 12:49:32 +0100173#define TLS_ECDH_ECDSA_WITH_AES_128_GCM_SHA256 0xC02D /* 49197 */
174#define TLS_ECDH_ECDSA_WITH_AES_256_GCM_SHA384 0xC02E /* 49198 */
Denys Vlasenko9b0ce4d2018-11-04 20:53:54 +0100175#define TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256 0xC02F /*TLSv1.2 Kx=ECDH Au=RSA Enc=AESGCM(128) Mac=AEAD */
176#define TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384 0xC030 /*TLSv1.2 Kx=ECDH Au=RSA Enc=AESGCM(256) Mac=AEAD */
Denys Vlasenkoceff6b02017-01-14 12:49:32 +0100177#define TLS_ECDH_RSA_WITH_AES_128_GCM_SHA256 0xC031 /* 49201 */
178#define TLS_ECDH_RSA_WITH_AES_256_GCM_SHA384 0xC032 /* 49202 */
Denys Vlasenkodffc8ff2018-11-27 10:35:10 +0100179#define TLS_ECDHE_PSK_WITH_AES_128_CBC_SHA 0xC035
180#define TLS_ECDHE_PSK_WITH_AES_256_CBC_SHA 0xC036
181#define TLS_ECDHE_PSK_WITH_AES_128_CBC_SHA256 0xC037
182#define TLS_ECDHE_PSK_WITH_AES_256_CBC_SHA384 0xC038
Denys Vlasenkoceff6b02017-01-14 12:49:32 +0100183
Denys Vlasenko9b0ce4d2018-11-04 20:53:54 +0100184/* From http://wiki.mozilla.org/Security/Server_Side_TLS */
185/* and 'openssl ciphers -V -stdname' */
Denys Vlasenko9b0ce4d2018-11-04 20:53:54 +0100186#define TLS_RSA_WITH_AES_128_CCM 0xC09C /*TLSv1.2 Kx=RSA Au=RSA Enc=AESCCM(128) Mac=AEAD */
187#define TLS_RSA_WITH_AES_256_CCM 0xC09D /*TLSv1.2 Kx=RSA Au=RSA Enc=AESCCM(256) Mac=AEAD */
Denys Vlasenko9b0ce4d2018-11-04 20:53:54 +0100188#define TLS_DHE_RSA_WITH_AES_128_CCM 0xC09E /*TLSv1.2 Kx=DH Au=RSA Enc=AESCCM(128) Mac=AEAD */
Denys Vlasenko5df3b122018-11-04 21:25:41 +0100189#define TLS_DHE_RSA_WITH_AES_256_CCM 0xC09F /*TLSv1.2 Kx=DH Au=RSA Enc=AESCCM(256) Mac=AEAD */
Denys Vlasenko9b0ce4d2018-11-04 20:53:54 +0100190#define TLS_RSA_WITH_AES_128_CCM_8 0xC0A0 /*TLSv1.2 Kx=RSA Au=RSA Enc=AESCCM8(128) Mac=AEAD */
191#define TLS_RSA_WITH_AES_256_CCM_8 0xC0A1 /*TLSv1.2 Kx=RSA Au=RSA Enc=AESCCM8(256) Mac=AEAD */
192#define TLS_DHE_RSA_WITH_AES_128_CCM_8 0xC0A2 /*TLSv1.2 Kx=DH Au=RSA Enc=AESCCM8(128) Mac=AEAD */
193#define TLS_DHE_RSA_WITH_AES_256_CCM_8 0xC0A3 /*TLSv1.2 Kx=DH Au=RSA Enc=AESCCM8(256) Mac=AEAD */
Denys Vlasenko9b0ce4d2018-11-04 20:53:54 +0100194#define TLS_ECDHE_ECDSA_WITH_AES_128_CCM 0xC0AC /*TLSv1.2 Kx=ECDH Au=ECDSA Enc=AESCCM(128) Mac=AEAD */
195#define TLS_ECDHE_ECDSA_WITH_AES_256_CCM 0xC0AD /*TLSv1.2 Kx=ECDH Au=ECDSA Enc=AESCCM(256) Mac=AEAD */
196#define TLS_ECDHE_ECDSA_WITH_AES_128_CCM_8 0xC0AE /*TLSv1.2 Kx=ECDH Au=ECDSA Enc=AESCCM8(128) Mac=AEAD */
197#define TLS_ECDHE_ECDSA_WITH_AES_256_CCM_8 0xC0AF /*TLSv1.2 Kx=ECDH Au=ECDSA Enc=AESCCM8(256) Mac=AEAD */
Denys Vlasenkoa33b0082018-11-25 14:28:32 +0100198#define TLS_ECDHE_RSA_WITH_CHACHA20_POLY1305_SHA256 0xCCA8 /*TLSv1.2 Kx=ECDH Au=RSA Enc=CHACHA20/POLY1305(256) Mac=AEAD */
199#define TLS_ECDHE_ECDSA_WITH_CHACHA20_POLY1305_SHA256 0xCCA9 /*TLSv1.2 Kx=ECDH Au=ECDSA Enc=CHACHA20/POLY1305(256) Mac=AEAD */
200#define TLS_DHE_RSA_WITH_CHACHA20_POLY1305_SHA256 0xCCAA /*TLSv1.2 Kx=DH Au=RSA Enc=CHACHA20/POLY1305(256) Mac=AEAD */
Denys Vlasenko9b0ce4d2018-11-04 20:53:54 +0100201
Denys Vlasenkob29d0452018-11-04 21:18:29 +0100202#define TLS_AES_128_GCM_SHA256 0x1301 /*TLSv1.3 Kx=any Au=any Enc=AESGCM(128) Mac=AEAD */
Denys Vlasenko9b0ce4d2018-11-04 20:53:54 +0100203#define TLS_AES_256_GCM_SHA384 0x1302 /*TLSv1.3 Kx=any Au=any Enc=AESGCM(256) Mac=AEAD */
204#define TLS_CHACHA20_POLY1305_SHA256 0x1303 /*TLSv1.3 Kx=any Au=any Enc=CHACHA20/POLY1305(256) Mac=AEAD */
Denys Vlasenko9b0ce4d2018-11-04 20:53:54 +0100205#define TLS_AES_128_CCM_SHA256 0x1304 /*TLSv1.3 Kx=any Au=any Enc=AESCCM(128) Mac=AEAD */
206
Denys Vlasenko49ecee02017-01-24 16:00:54 +0100207/* Might go to libbb.h */
208#define TLS_MAX_CRYPTBLOCK_SIZE 16
209#define TLS_MAX_OUTBUF (1 << 14)
Denys Vlasenkoceff6b02017-01-14 12:49:32 +0100210
Denys Vlasenko9a6897a2017-01-16 23:26:33 +0100211enum {
Denys Vlasenko49ecee02017-01-24 16:00:54 +0100212 SHA_INSIZE = 64,
213 SHA1_OUTSIZE = 20,
214 SHA256_OUTSIZE = 32,
215
Denys Vlasenko49ecee02017-01-24 16:00:54 +0100216 AES128_KEYSIZE = 16,
217 AES256_KEYSIZE = 32,
218
Denys Vlasenko38972a82017-01-20 19:11:14 +0100219 RSA_PREMASTER_SIZE = 48,
220
Denys Vlasenkoa0aae9f2017-01-20 14:12:10 +0100221 RECHDR_LEN = 5,
222
Denys Vlasenko38972a82017-01-20 19:11:14 +0100223 /* 8 = 3+5. 3 extra bytes result in record data being 32-bit aligned */
Denys Vlasenko83e5c622018-11-23 17:21:38 +0100224 OUTBUF_PFX = 8 + AES_BLOCK_SIZE, /* header + IV */
Denys Vlasenko49ecee02017-01-24 16:00:54 +0100225 OUTBUF_SFX = TLS_MAX_MAC_SIZE + TLS_MAX_CRYPTBLOCK_SIZE, /* MAC + padding */
Denys Vlasenko39161392017-01-20 20:27:06 +0100226
Denys Vlasenkod4681c72018-11-26 10:33:23 +0100227 // RFC 5246:
Denys Vlasenko39161392017-01-20 20:27:06 +0100228 // | 6.2.1. Fragmentation
229 // | The record layer fragments information blocks into TLSPlaintext
230 // | records carrying data in chunks of 2^14 bytes or less. Client
231 // | message boundaries are not preserved in the record layer (i.e.,
232 // | multiple client messages of the same ContentType MAY be coalesced
233 // | into a single TLSPlaintext record, or a single message MAY be
234 // | fragmented across several records)
235 // |...
236 // | length
237 // | The length (in bytes) of the following TLSPlaintext.fragment.
238 // | The length MUST NOT exceed 2^14.
239 // |...
240 // | 6.2.2. Record Compression and Decompression
241 // |...
242 // | Compression must be lossless and may not increase the content length
243 // | by more than 1024 bytes. If the decompression function encounters a
244 // | TLSCompressed.fragment that would decompress to a length in excess of
245 // | 2^14 bytes, it MUST report a fatal decompression failure error.
246 // |...
247 // | length
248 // | The length (in bytes) of the following TLSCompressed.fragment.
249 // | The length MUST NOT exceed 2^14 + 1024.
250 // |...
251 // | 6.2.3. Record Payload Protection
252 // | The encryption and MAC functions translate a TLSCompressed
253 // | structure into a TLSCiphertext. The decryption functions reverse
254 // | the process. The MAC of the record also includes a sequence
255 // | number so that missing, extra, or repeated messages are
256 // | detectable.
257 // |...
258 // | length
259 // | The length (in bytes) of the following TLSCiphertext.fragment.
260 // | The length MUST NOT exceed 2^14 + 2048.
Denys Vlasenko49ecee02017-01-24 16:00:54 +0100261 MAX_INBUF = RECHDR_LEN + (1 << 14) + 2048,
Denys Vlasenkoa33b0082018-11-25 14:28:32 +0100262
263 /* Bits for tls->flags */
264 NEED_EC_KEY = 1 << 0,
265 GOT_CERT_RSA_KEY_ALG = 1 << 1,
266 GOT_CERT_ECDSA_KEY_ALG = 1 << 2, // so far unused
267 GOT_EC_KEY = 1 << 3,
Denys Vlasenkoca7cdd42018-11-26 00:17:10 +0100268 ENCRYPTION_AESGCM = 1 << 4, // else AES-SHA (or NULL-SHA if ALLOW_RSA_NULL_SHA256=1)
Denys Vlasenkoeb53d012018-11-25 14:45:55 +0100269 ENCRYPT_ON_WRITE = 1 << 5,
Denys Vlasenko9a6897a2017-01-16 23:26:33 +0100270};
271
Denys Vlasenkob1003f72017-01-14 13:57:16 +0100272struct record_hdr {
Denys Vlasenkoceff6b02017-01-14 12:49:32 +0100273 uint8_t type;
274 uint8_t proto_maj, proto_min;
275 uint8_t len16_hi, len16_lo;
276};
277
Denys Vlasenko9a647c32017-01-23 01:08:16 +0100278struct tls_handshake_data {
Denys Vlasenko49ecee02017-01-24 16:00:54 +0100279 /* In bbox, md5/sha1/sha256 ctx's are the same structure */
280 md5sha_ctx_t handshake_hash_ctx;
281
Denys Vlasenko7a18b952017-01-23 16:37:04 +0100282 uint8_t client_and_server_rand32[2 * 32];
283 uint8_t master_secret[48];
Denys Vlasenkobddb6542018-11-13 02:16:24 +0100284
Denys Vlasenkodd2577f2017-01-20 22:48:41 +0100285//TODO: store just the DER key here, parse/use/delete it when sending client key
286//this way it will stay key type agnostic here.
Denys Vlasenko11d00962017-01-15 00:12:42 +0100287 psRsaKey_t server_rsa_pub_key;
Denys Vlasenkobddb6542018-11-13 02:16:24 +0100288 uint8_t ecc_pub_key32[32];
Denys Vlasenko49ecee02017-01-24 16:00:54 +0100289
Denys Vlasenko83e5c622018-11-23 17:21:38 +0100290/* HANDSHAKE HASH: */
291 //unsigned saved_client_hello_size;
292 //uint8_t saved_client_hello[1];
Denys Vlasenko9a647c32017-01-23 01:08:16 +0100293};
Denys Vlasenkoceff6b02017-01-14 12:49:32 +0100294
Denys Vlasenkoe2cb3b92017-01-17 16:53:36 +0100295
296static unsigned get24be(const uint8_t *p)
297{
298 return 0x100*(0x100*p[0] + p[1]) + p[2];
299}
300
301#if TLS_DEBUG
Denys Vlasenkoeb53d012018-11-25 14:45:55 +0100302/* Nondestructively see the current hash value */
Denys Vlasenko838b88c2018-11-25 18:52:47 +0100303# if TLS_DEBUG_HASH
Denys Vlasenkoeb53d012018-11-25 14:45:55 +0100304static unsigned sha_peek(md5sha_ctx_t *ctx, void *buffer)
305{
306 md5sha_ctx_t ctx_copy = *ctx; /* struct copy */
307 return sha_end(&ctx_copy, buffer);
308}
Denys Vlasenko838b88c2018-11-25 18:52:47 +0100309# endif
Denys Vlasenkoeb53d012018-11-25 14:45:55 +0100310
Denys Vlasenkoe2cb3b92017-01-17 16:53:36 +0100311static void dump_hex(const char *fmt, const void *vp, int len)
312{
313 char hexbuf[32 * 1024 + 4];
314 const uint8_t *p = vp;
315
316 bin2hex(hexbuf, (void*)p, len)[0] = '\0';
317 dbg(fmt, hexbuf);
318}
319
320static void dump_tls_record(const void *vp, int len)
321{
322 const uint8_t *p = vp;
323
324 while (len > 0) {
325 unsigned xhdr_len;
Denys Vlasenkoa0aae9f2017-01-20 14:12:10 +0100326 if (len < RECHDR_LEN) {
Denys Vlasenkoe2cb3b92017-01-17 16:53:36 +0100327 dump_hex("< |%s|\n", p, len);
328 return;
329 }
330 xhdr_len = 0x100*p[3] + p[4];
331 dbg("< hdr_type:%u ver:%u.%u len:%u", p[0], p[1], p[2], xhdr_len);
Denys Vlasenkoa0aae9f2017-01-20 14:12:10 +0100332 p += RECHDR_LEN;
333 len -= RECHDR_LEN;
334 if (len >= 4 && p[-RECHDR_LEN] == RECORD_TYPE_HANDSHAKE) {
Denys Vlasenkoe2cb3b92017-01-17 16:53:36 +0100335 unsigned len24 = get24be(p + 1);
336 dbg(" type:%u len24:%u", p[0], len24);
337 }
338 if (xhdr_len > len)
339 xhdr_len = len;
340 dump_hex(" |%s|\n", p, xhdr_len);
341 p += xhdr_len;
342 len -= xhdr_len;
343 }
344}
Denys Vlasenko38972a82017-01-20 19:11:14 +0100345#else
346# define dump_hex(...) ((void)0)
347# define dump_tls_record(...) ((void)0)
Denys Vlasenkoe2cb3b92017-01-17 16:53:36 +0100348#endif
349
Denys Vlasenko624066f2018-11-23 19:24:57 +0100350void FAST_FUNC tls_get_random(void *buf, unsigned len)
Denys Vlasenko11d00962017-01-15 00:12:42 +0100351{
352 if (len != open_read_close("/dev/urandom", buf, len))
353 xfunc_die();
354}
355
Denys Vlasenko941440c2018-11-24 13:51:46 +0100356static void xorbuf3(void *dst, const void *src1, const void *src2, unsigned count)
357{
358 uint8_t *d = dst;
359 const uint8_t *s1 = src1;
360 const uint8_t* s2 = src2;
361 while (count--)
362 *d++ = *s1++ ^ *s2++;
363}
364
365void FAST_FUNC xorbuf(void *dst, const void *src, unsigned count)
366{
367 xorbuf3(dst, dst, src, count);
368}
369
Denys Vlasenko03569bc2018-11-24 14:08:29 +0100370void FAST_FUNC xorbuf_aligned_AES_BLOCK_SIZE(void *dst, const void *src)
371{
372 unsigned long *d = dst;
373 const unsigned long *s = src;
374 d[0] ^= s[0];
375#if ULONG_MAX <= 0xffffffffffffffff
376 d[1] ^= s[1];
377 #if ULONG_MAX == 0xffffffff
378 d[2] ^= s[2];
379 d[3] ^= s[3];
380 #endif
381#endif
382}
383
Denys Vlasenko49ecee02017-01-24 16:00:54 +0100384#if !TLS_DEBUG_HASH
385# define hash_handshake(tls, fmt, buffer, len) \
386 hash_handshake(tls, buffer, len)
Denys Vlasenkoc8ba23b2017-01-18 06:45:50 +0100387#endif
Denys Vlasenko49ecee02017-01-24 16:00:54 +0100388static void hash_handshake(tls_state_t *tls, const char *fmt, const void *buffer, unsigned len)
389{
390 md5sha_hash(&tls->hsd->handshake_hash_ctx, buffer, len);
391#if TLS_DEBUG_HASH
392 {
393 uint8_t h[TLS_MAX_MAC_SIZE];
394 dump_hex(fmt, buffer, len);
395 dbg(" (%u bytes) ", (int)len);
396 len = sha_peek(&tls->hsd->handshake_hash_ctx, h);
397 if (len == SHA1_OUTSIZE)
398 dump_hex("sha1:%s\n", h, len);
399 else
400 if (len == SHA256_OUTSIZE)
401 dump_hex("sha256:%s\n", h, len);
402 else
403 dump_hex("sha???:%s\n", h, len);
404 }
405#endif
406}
Denys Vlasenkoe2cb3b92017-01-17 16:53:36 +0100407
Denys Vlasenkod4681c72018-11-26 10:33:23 +0100408// RFC 2104:
Denys Vlasenkofe0588d2017-01-17 17:04:24 +0100409// HMAC(key, text) based on a hash H (say, sha256) is:
410// ipad = [0x36 x INSIZE]
411// opad = [0x5c x INSIZE]
412// HMAC(key, text) = H((key XOR opad) + H((key XOR ipad) + text))
413//
414// H(key XOR opad) and H(key XOR ipad) can be precomputed
415// if we often need HMAC hmac with the same key.
416//
417// text is often given in disjoint pieces.
Denys Vlasenko89193f92017-01-24 18:08:07 +0100418typedef struct hmac_precomputed {
419 md5sha_ctx_t hashed_key_xor_ipad;
420 md5sha_ctx_t hashed_key_xor_opad;
421} hmac_precomputed_t;
422
Denys Vlasenko636c3b62017-04-03 17:43:44 +0200423typedef void md5sha_begin_func(md5sha_ctx_t *ctx) FAST_FUNC;
424static void hmac_begin(hmac_precomputed_t *pre, uint8_t *key, unsigned key_size, md5sha_begin_func *begin)
Denys Vlasenkofe0588d2017-01-17 17:04:24 +0100425{
Denys Vlasenko49ecee02017-01-24 16:00:54 +0100426 uint8_t key_xor_ipad[SHA_INSIZE];
427 uint8_t key_xor_opad[SHA_INSIZE];
Denys Vlasenkod4681c72018-11-26 10:33:23 +0100428// uint8_t tempkey[SHA1_OUTSIZE < SHA256_OUTSIZE ? SHA256_OUTSIZE : SHA1_OUTSIZE];
Denys Vlasenko49ecee02017-01-24 16:00:54 +0100429 unsigned i;
Denys Vlasenkofe0588d2017-01-17 17:04:24 +0100430
Denys Vlasenkofe0588d2017-01-17 17:04:24 +0100431 // "The authentication key can be of any length up to INSIZE, the
432 // block length of the hash function. Applications that use keys longer
433 // than INSIZE bytes will first hash the key using H and then use the
434 // resultant OUTSIZE byte string as the actual key to HMAC."
Denys Vlasenko49ecee02017-01-24 16:00:54 +0100435 if (key_size > SHA_INSIZE) {
Denys Vlasenkod4681c72018-11-26 10:33:23 +0100436 bb_error_msg_and_die("HMAC key>64"); //does not happen (yet?)
437// md5sha_ctx_t ctx;
438// begin(&ctx);
439// md5sha_hash(&ctx, key, key_size);
440// key_size = sha_end(&ctx, tempkey);
441// //key = tempkey; - right? RIGHT? why does it work without this?
442// // because SHA_INSIZE is 64, but hmac() is always called with
443// // key_size = tls->MAC_size = SHA1/256_OUTSIZE (20 or 32),
444// // and prf_hmac_sha256() -> hmac_sha256() key sizes are:
445// // - RSA_PREMASTER_SIZE is 48
446// // - CURVE25519_KEYSIZE is 32
447// // - master_secret[] is 48
Denys Vlasenkofe0588d2017-01-17 17:04:24 +0100448 }
449
450 for (i = 0; i < key_size; i++) {
451 key_xor_ipad[i] = key[i] ^ 0x36;
452 key_xor_opad[i] = key[i] ^ 0x5c;
453 }
Denys Vlasenko49ecee02017-01-24 16:00:54 +0100454 for (; i < SHA_INSIZE; i++) {
Denys Vlasenkofe0588d2017-01-17 17:04:24 +0100455 key_xor_ipad[i] = 0x36;
456 key_xor_opad[i] = 0x5c;
457 }
Denys Vlasenkofe0588d2017-01-17 17:04:24 +0100458
Denys Vlasenko636c3b62017-04-03 17:43:44 +0200459 begin(&pre->hashed_key_xor_ipad);
460 begin(&pre->hashed_key_xor_opad);
Denys Vlasenko89193f92017-01-24 18:08:07 +0100461 md5sha_hash(&pre->hashed_key_xor_ipad, key_xor_ipad, SHA_INSIZE);
462 md5sha_hash(&pre->hashed_key_xor_opad, key_xor_opad, SHA_INSIZE);
463}
464
Denys Vlasenkod9f6c3b2018-11-26 15:55:41 +0100465static unsigned hmac_sha_precomputed_v(
466 hmac_precomputed_t *pre,
467 uint8_t *out,
468 va_list va)
469{
470 uint8_t *text;
471 unsigned len;
472
473 /* pre->hashed_key_xor_ipad contains unclosed "H((key XOR ipad) +" state */
474 /* pre->hashed_key_xor_opad contains unclosed "H((key XOR opad) +" state */
475
476 /* calculate out = H((key XOR ipad) + text) */
477 while ((text = va_arg(va, uint8_t*)) != NULL) {
478 unsigned text_size = va_arg(va, unsigned);
479 md5sha_hash(&pre->hashed_key_xor_ipad, text, text_size);
480 }
481 len = sha_end(&pre->hashed_key_xor_ipad, out);
482
483 /* out = H((key XOR opad) + out) */
484 md5sha_hash(&pre->hashed_key_xor_opad, out, len);
485 return sha_end(&pre->hashed_key_xor_opad, out);
486}
487
488static unsigned hmac_sha_precomputed(hmac_precomputed_t *pre_init, uint8_t *out, ...)
489{
490 hmac_precomputed_t pre;
491 va_list va;
492 unsigned len;
493
494 va_start(va, out);
495 pre = *pre_init; /* struct copy */
496 len = hmac_sha_precomputed_v(&pre, out, va);
497 va_end(va);
498 return len;
499}
500
Denys Vlasenko89193f92017-01-24 18:08:07 +0100501static unsigned hmac(tls_state_t *tls, uint8_t *out, uint8_t *key, unsigned key_size, ...)
502{
503 hmac_precomputed_t pre;
504 va_list va;
505 unsigned len;
506
507 va_start(va, key_size);
508
Denys Vlasenko636c3b62017-04-03 17:43:44 +0200509 hmac_begin(&pre, key, key_size,
510 (tls->MAC_size == SHA256_OUTSIZE)
511 ? sha256_begin
512 : sha1_begin
513 );
Denys Vlasenko89193f92017-01-24 18:08:07 +0100514 len = hmac_sha_precomputed_v(&pre, out, va);
515
Denys Vlasenkofe0588d2017-01-17 17:04:24 +0100516 va_end(va);
Denys Vlasenko89193f92017-01-24 18:08:07 +0100517 return len;
518}
519
Denys Vlasenkofe0588d2017-01-17 17:04:24 +0100520// RFC 5246:
521// 5. HMAC and the Pseudorandom Function
522//...
523// In this section, we define one PRF, based on HMAC. This PRF with the
524// SHA-256 hash function is used for all cipher suites defined in this
525// document and in TLS documents published prior to this document when
526// TLS 1.2 is negotiated.
Denys Vlasenko89193f92017-01-24 18:08:07 +0100527// ^^^^^^^^^^^^^ IMPORTANT!
Denys Vlasenkod4681c72018-11-26 10:33:23 +0100528// PRF uses sha256 regardless of cipher for all ciphers
529// defined by RFC 5246. It's not sha1 for AES_128_CBC_SHA!
530// However, for _SHA384 ciphers, it's sha384. See RFC 5288,5289.
Denys Vlasenkofe0588d2017-01-17 17:04:24 +0100531//...
532// P_hash(secret, seed) = HMAC_hash(secret, A(1) + seed) +
533// HMAC_hash(secret, A(2) + seed) +
534// HMAC_hash(secret, A(3) + seed) + ...
535// where + indicates concatenation.
536// A() is defined as:
537// A(0) = seed
538// A(1) = HMAC_hash(secret, A(0)) = HMAC_hash(secret, seed)
539// A(i) = HMAC_hash(secret, A(i-1))
540// P_hash can be iterated as many times as necessary to produce the
541// required quantity of data. For example, if P_SHA256 is being used to
542// create 80 bytes of data, it will have to be iterated three times
543// (through A(3)), creating 96 bytes of output data; the last 16 bytes
544// of the final iteration will then be discarded, leaving 80 bytes of
545// output data.
546//
547// TLS's PRF is created by applying P_hash to the secret as:
548//
549// PRF(secret, label, seed) = P_<hash>(secret, label + seed)
550//
551// The label is an ASCII string.
Denys Vlasenkod4681c72018-11-26 10:33:23 +0100552//
553// RFC 5288:
554// For cipher suites ending with _SHA256, the PRF is the TLS PRF
555// with SHA-256 as the hash function.
556// For cipher suites ending with _SHA384, the PRF is the TLS PRF
557// with SHA-384 as the hash function.
Denys Vlasenko89193f92017-01-24 18:08:07 +0100558static void prf_hmac_sha256(/*tls_state_t *tls,*/
Denys Vlasenkofe0588d2017-01-17 17:04:24 +0100559 uint8_t *outbuf, unsigned outbuf_size,
560 uint8_t *secret, unsigned secret_size,
561 const char *label,
562 uint8_t *seed, unsigned seed_size)
563{
Denys Vlasenkod9f6c3b2018-11-26 15:55:41 +0100564 hmac_precomputed_t pre;
Denys Vlasenko49ecee02017-01-24 16:00:54 +0100565 uint8_t a[TLS_MAX_MAC_SIZE];
Denys Vlasenkofe0588d2017-01-17 17:04:24 +0100566 uint8_t *out_p = outbuf;
567 unsigned label_size = strlen(label);
Denys Vlasenko229d3c42017-04-03 21:53:29 +0200568 unsigned MAC_size = SHA256_OUTSIZE;
Denys Vlasenkofe0588d2017-01-17 17:04:24 +0100569
570 /* In P_hash() calculation, "seed" is "label + seed": */
571#define SEED label, label_size, seed, seed_size
Denys Vlasenko49ecee02017-01-24 16:00:54 +0100572#define A a, MAC_size
Denys Vlasenkofe0588d2017-01-17 17:04:24 +0100573
Denys Vlasenkod9f6c3b2018-11-26 15:55:41 +0100574 hmac_begin(&pre, secret, secret_size, sha256_begin);
575
Denys Vlasenkofe0588d2017-01-17 17:04:24 +0100576 /* A(1) = HMAC_hash(secret, seed) */
Denys Vlasenkod9f6c3b2018-11-26 15:55:41 +0100577 hmac_sha_precomputed(&pre, a, SEED, NULL);
Denys Vlasenkofe0588d2017-01-17 17:04:24 +0100578
Denys Vlasenko229d3c42017-04-03 21:53:29 +0200579 for (;;) {
Denys Vlasenkofe0588d2017-01-17 17:04:24 +0100580 /* HMAC_hash(secret, A(1) + seed) */
Denys Vlasenko49ecee02017-01-24 16:00:54 +0100581 if (outbuf_size <= MAC_size) {
Denys Vlasenkofe0588d2017-01-17 17:04:24 +0100582 /* Last, possibly incomplete, block */
583 /* (use a[] as temp buffer) */
Denys Vlasenkod9f6c3b2018-11-26 15:55:41 +0100584 hmac_sha_precomputed(&pre, a, A, SEED, NULL);
Denys Vlasenkofe0588d2017-01-17 17:04:24 +0100585 memcpy(out_p, a, outbuf_size);
586 return;
587 }
588 /* Not last block. Store directly to result buffer */
Denys Vlasenkod9f6c3b2018-11-26 15:55:41 +0100589 hmac_sha_precomputed(&pre, out_p, A, SEED, NULL);
Denys Vlasenko49ecee02017-01-24 16:00:54 +0100590 out_p += MAC_size;
591 outbuf_size -= MAC_size;
Denys Vlasenkofe0588d2017-01-17 17:04:24 +0100592 /* A(2) = HMAC_hash(secret, A(1)) */
Denys Vlasenkod9f6c3b2018-11-26 15:55:41 +0100593 hmac_sha_precomputed(&pre, a, A, NULL);
Denys Vlasenkofe0588d2017-01-17 17:04:24 +0100594 }
595#undef A
596#undef SECRET
597#undef SEED
598}
599
Denys Vlasenkob5bf1912017-01-23 16:12:17 +0100600static void bad_record_die(tls_state_t *tls, const char *expected, int len)
601{
Denys Vlasenko1500b3a2017-01-24 17:06:10 +0100602 bb_error_msg("got bad TLS record (len:%d) while expecting %s", len, expected);
Denys Vlasenkob5bf1912017-01-23 16:12:17 +0100603 if (len > 0) {
604 uint8_t *p = tls->inbuf;
Denys Vlasenko98066662018-02-06 13:33:00 +0100605 if (len > 99)
606 len = 99; /* don't flood, a few lines should be enough */
607 do {
Denys Vlasenkob5bf1912017-01-23 16:12:17 +0100608 fprintf(stderr, " %02x", *p++);
Denys Vlasenko1500b3a2017-01-24 17:06:10 +0100609 len--;
Denys Vlasenko98066662018-02-06 13:33:00 +0100610 } while (len != 0);
Denys Vlasenkob5bf1912017-01-23 16:12:17 +0100611 fputc('\n', stderr);
612 }
613 xfunc_die();
614}
615
Denys Vlasenko1500b3a2017-01-24 17:06:10 +0100616static void tls_error_die(tls_state_t *tls, int line)
Denys Vlasenko936e83e2017-01-16 04:25:01 +0100617{
Denys Vlasenko39161392017-01-20 20:27:06 +0100618 dump_tls_record(tls->inbuf, tls->ofs_to_buffered + tls->buffered_size);
Denys Vlasenko1500b3a2017-01-24 17:06:10 +0100619 bb_error_msg_and_die("tls error at line %d cipher:%04x", line, tls->cipher_id);
Denys Vlasenko38972a82017-01-20 19:11:14 +0100620}
Denys Vlasenko1500b3a2017-01-24 17:06:10 +0100621#define tls_error_die(tls) tls_error_die(tls, __LINE__)
Denys Vlasenko38972a82017-01-20 19:11:14 +0100622
Denys Vlasenko39161392017-01-20 20:27:06 +0100623#if 0 //UNUSED
624static void tls_free_inbuf(tls_state_t *tls)
625{
626 if (tls->buffered_size == 0) {
627 free(tls->inbuf);
628 tls->inbuf_size = 0;
629 tls->inbuf = NULL;
630 }
631}
632#endif
633
Denys Vlasenko38972a82017-01-20 19:11:14 +0100634static void tls_free_outbuf(tls_state_t *tls)
635{
636 free(tls->outbuf);
637 tls->outbuf_size = 0;
638 tls->outbuf = NULL;
Denys Vlasenkofe0588d2017-01-17 17:04:24 +0100639}
640
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +0100641static void *tls_get_outbuf(tls_state_t *tls, int len)
642{
Denys Vlasenko49ecee02017-01-24 16:00:54 +0100643 if (len > TLS_MAX_OUTBUF)
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +0100644 xfunc_die();
Denys Vlasenko49ecee02017-01-24 16:00:54 +0100645 len += OUTBUF_PFX + OUTBUF_SFX;
646 if (tls->outbuf_size < len) {
647 tls->outbuf_size = len;
648 tls->outbuf = xrealloc(tls->outbuf, len);
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +0100649 }
650 return tls->outbuf + OUTBUF_PFX;
651}
652
Denys Vlasenkod5a04052018-11-13 11:58:53 +0100653static void *tls_get_zeroed_outbuf(tls_state_t *tls, int len)
654{
655 void *record = tls_get_outbuf(tls, len);
656 memset(record, 0, len);
657 return record;
658}
659
Denys Vlasenko83e5c622018-11-23 17:21:38 +0100660static void xwrite_encrypted_and_hmac_signed(tls_state_t *tls, unsigned size, unsigned type)
Denys Vlasenkofe0588d2017-01-17 17:04:24 +0100661{
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +0100662 uint8_t *buf = tls->outbuf + OUTBUF_PFX;
663 struct record_hdr *xhdr;
Denys Vlasenkoe7863f32017-01-20 17:59:25 +0100664 uint8_t padding_length;
Denys Vlasenko9a6897a2017-01-16 23:26:33 +0100665
Denys Vlasenkoa0aae9f2017-01-20 14:12:10 +0100666 xhdr = (void*)(buf - RECHDR_LEN);
Denys Vlasenkoca7cdd42018-11-26 00:17:10 +0100667 if (!ALLOW_RSA_NULL_SHA256 /* if "no encryption" can't be selected */
Denys Vlasenko5d561ef2017-04-04 01:41:15 +0200668 || tls->cipher_id != TLS_RSA_WITH_NULL_SHA256 /* or if it wasn't selected */
669 ) {
Denys Vlasenko83e5c622018-11-23 17:21:38 +0100670 xhdr = (void*)(buf - RECHDR_LEN - AES_BLOCK_SIZE); /* place for IV */
Denys Vlasenko5d561ef2017-04-04 01:41:15 +0200671 }
Denys Vlasenkoc8ba23b2017-01-18 06:45:50 +0100672
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +0100673 xhdr->type = type;
674 xhdr->proto_maj = TLS_MAJ;
675 xhdr->proto_min = TLS_MIN;
Denys Vlasenko54b927d2017-01-20 21:19:38 +0100676 /* fake unencrypted record len for MAC calculation */
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +0100677 xhdr->len16_hi = size >> 8;
678 xhdr->len16_lo = size & 0xff;
679
680 /* Calculate MAC signature */
Denys Vlasenko49ecee02017-01-24 16:00:54 +0100681 hmac(tls, buf + size, /* result */
682 tls->client_write_MAC_key, tls->MAC_size,
683 &tls->write_seq64_be, sizeof(tls->write_seq64_be),
684 xhdr, RECHDR_LEN,
685 buf, size,
686 NULL
687 );
Denys Vlasenkoc8ba23b2017-01-18 06:45:50 +0100688 tls->write_seq64_be = SWAP_BE64(1 + SWAP_BE64(tls->write_seq64_be));
Denys Vlasenko9a6897a2017-01-16 23:26:33 +0100689
Denys Vlasenko49ecee02017-01-24 16:00:54 +0100690 size += tls->MAC_size;
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +0100691
Denys Vlasenkod4681c72018-11-26 10:33:23 +0100692 // RFC 5246:
Denys Vlasenkoe7863f32017-01-20 17:59:25 +0100693 // 6.2.3.1. Null or Standard Stream Cipher
694 //
695 // Stream ciphers (including BulkCipherAlgorithm.null; see Appendix A.6)
696 // convert TLSCompressed.fragment structures to and from stream
697 // TLSCiphertext.fragment structures.
698 //
699 // stream-ciphered struct {
700 // opaque content[TLSCompressed.length];
701 // opaque MAC[SecurityParameters.mac_length];
702 // } GenericStreamCipher;
703 //
704 // The MAC is generated as:
705 // MAC(MAC_write_key, seq_num +
706 // TLSCompressed.type +
707 // TLSCompressed.version +
708 // TLSCompressed.length +
709 // TLSCompressed.fragment);
710 // where "+" denotes concatenation.
711 // seq_num
712 // The sequence number for this record.
713 // MAC
714 // The MAC algorithm specified by SecurityParameters.mac_algorithm.
715 //
716 // Note that the MAC is computed before encryption. The stream cipher
717 // encrypts the entire block, including the MAC.
718 //...
719 // Appendix C. Cipher Suite Definitions
720 //...
721 // MAC Algorithm mac_length mac_key_length
722 // -------- ----------- ---------- --------------
723 // SHA HMAC-SHA1 20 20
724 // SHA256 HMAC-SHA256 32 32
Denys Vlasenkoca7cdd42018-11-26 00:17:10 +0100725 if (ALLOW_RSA_NULL_SHA256
Denys Vlasenko5d561ef2017-04-04 01:41:15 +0200726 && tls->cipher_id == TLS_RSA_WITH_NULL_SHA256
727 ) {
Denys Vlasenkob5dfc3d2017-01-18 20:37:24 +0100728 /* No encryption, only signing */
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +0100729 xhdr->len16_hi = size >> 8;
730 xhdr->len16_lo = size & 0xff;
Denys Vlasenkoe7863f32017-01-20 17:59:25 +0100731 dump_raw_out(">> %s\n", xhdr, RECHDR_LEN + size);
Denys Vlasenko9a647c32017-01-23 01:08:16 +0100732 xwrite(tls->ofd, xhdr, RECHDR_LEN + size);
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +0100733 dbg("wrote %u bytes (NULL crypt, SHA256 hash)\n", size);
Denys Vlasenkob5dfc3d2017-01-18 20:37:24 +0100734 return;
735 }
736
Denys Vlasenkob5dfc3d2017-01-18 20:37:24 +0100737 // 6.2.3.2. CBC Block Cipher
738 // For block ciphers (such as 3DES or AES), the encryption and MAC
739 // functions convert TLSCompressed.fragment structures to and from block
740 // TLSCiphertext.fragment structures.
741 // struct {
742 // opaque IV[SecurityParameters.record_iv_length];
743 // block-ciphered struct {
744 // opaque content[TLSCompressed.length];
745 // opaque MAC[SecurityParameters.mac_length];
746 // uint8 padding[GenericBlockCipher.padding_length];
747 // uint8 padding_length;
748 // };
749 // } GenericBlockCipher;
750 //...
751 // IV
752 // The Initialization Vector (IV) SHOULD be chosen at random, and
753 // MUST be unpredictable. Note that in versions of TLS prior to 1.1,
754 // there was no IV field (...). For block ciphers, the IV length is
755 // of length SecurityParameters.record_iv_length, which is equal to the
756 // SecurityParameters.block_size.
757 // padding
758 // Padding that is added to force the length of the plaintext to be
759 // an integral multiple of the block cipher's block length.
760 // padding_length
761 // The padding length MUST be such that the total size of the
762 // GenericBlockCipher structure is a multiple of the cipher's block
763 // length. Legal values range from zero to 255, inclusive.
764 //...
765 // Appendix C. Cipher Suite Definitions
766 //...
767 // Key IV Block
768 // Cipher Type Material Size Size
769 // ------------ ------ -------- ---- -----
Denys Vlasenkob5dfc3d2017-01-18 20:37:24 +0100770 // AES_128_CBC Block 16 16 16
771 // AES_256_CBC Block 32 16 16
Denys Vlasenkob5dfc3d2017-01-18 20:37:24 +0100772
Denys Vlasenko83e5c622018-11-23 17:21:38 +0100773 tls_get_random(buf - AES_BLOCK_SIZE, AES_BLOCK_SIZE); /* IV */
Denys Vlasenko98066662018-02-06 13:33:00 +0100774 dbg("before crypt: 5 hdr + %u data + %u hash bytes\n",
775 size - tls->MAC_size, tls->MAC_size);
776
777 /* Fill IV and padding in outbuf */
Denys Vlasenkob5dfc3d2017-01-18 20:37:24 +0100778 // RFC is talking nonsense:
Denys Vlasenko7a18b952017-01-23 16:37:04 +0100779 // "Padding that is added to force the length of the plaintext to be
780 // an integral multiple of the block cipher's block length."
Denys Vlasenkob5dfc3d2017-01-18 20:37:24 +0100781 // WRONG. _padding+padding_length_, not just _padding_,
782 // pads the data.
783 // IOW: padding_length is the last byte of padding[] array,
784 // contrary to what RFC depicts.
785 //
786 // What actually happens is that there is always padding.
787 // If you need one byte to reach BLOCKSIZE, this byte is 0x00.
788 // If you need two bytes, they are both 0x01.
789 // If you need three, they are 0x02,0x02,0x02. And so on.
790 // If you need no bytes to reach BLOCKSIZE, you have to pad a full
791 // BLOCKSIZE with bytes of value (BLOCKSIZE-1).
792 // It's ok to have more than minimum padding, but we do minimum.
Denys Vlasenko83e5c622018-11-23 17:21:38 +0100793 padding_length = (~size) & (AES_BLOCK_SIZE - 1);
Denys Vlasenkob5dfc3d2017-01-18 20:37:24 +0100794 do {
Denys Vlasenko54b927d2017-01-20 21:19:38 +0100795 buf[size++] = padding_length; /* padding */
Denys Vlasenko83e5c622018-11-23 17:21:38 +0100796 } while ((size & (AES_BLOCK_SIZE - 1)) != 0);
Denys Vlasenkob5dfc3d2017-01-18 20:37:24 +0100797
798 /* Encrypt content+MAC+padding in place */
Denys Vlasenkoc31b54f2017-02-04 16:23:49 +0100799 aes_cbc_encrypt(
Denys Vlasenkod2923b32018-11-24 21:26:20 +0100800 &tls->aes_encrypt, /* selects 128/256 */
Denys Vlasenko83e5c622018-11-23 17:21:38 +0100801 buf - AES_BLOCK_SIZE, /* IV */
Denys Vlasenkoc31b54f2017-02-04 16:23:49 +0100802 buf, size, /* plaintext */
803 buf /* ciphertext */
804 );
Denys Vlasenkob5dfc3d2017-01-18 20:37:24 +0100805
806 /* Write out */
807 dbg("writing 5 + %u IV + %u encrypted bytes, padding_length:0x%02x\n",
Denys Vlasenko83e5c622018-11-23 17:21:38 +0100808 AES_BLOCK_SIZE, size, padding_length);
809 size += AES_BLOCK_SIZE; /* + IV */
Denys Vlasenkob5dfc3d2017-01-18 20:37:24 +0100810 xhdr->len16_hi = size >> 8;
811 xhdr->len16_lo = size & 0xff;
Denys Vlasenkoe7863f32017-01-20 17:59:25 +0100812 dump_raw_out(">> %s\n", xhdr, RECHDR_LEN + size);
Denys Vlasenko9a647c32017-01-23 01:08:16 +0100813 xwrite(tls->ofd, xhdr, RECHDR_LEN + size);
Denys Vlasenkoa0aae9f2017-01-20 14:12:10 +0100814 dbg("wrote %u bytes\n", (int)RECHDR_LEN + size);
Denys Vlasenkoceff6b02017-01-14 12:49:32 +0100815}
816
Denys Vlasenko83e5c622018-11-23 17:21:38 +0100817/* Example how GCM encryption combines nonce, aad, input and generates
818 * "header | exp_nonce | encrypted output | tag":
819 * nonce:0d 6a 26 31 00 00 00 00 00 00 00 01 (implicit 4 bytes (derived from master secret), then explicit 8 bytes)
820 * aad: 00 00 00 00 00 00 00 01 17 03 03 00 1c
821 * in: 47 45 54 20 2f 69 6e 64 65 78 2e 68 74 6d 6c 20 48 54 54 50 2f 31 2e 30 0d 0a 0d 0a "GET /index.html HTTP/1.0\r\n\r\n" (0x1c bytes)
822 * out: f7 8a b2 8f 78 0e f6 d5 76 17 2e b5 6d 46 59 56 8b 46 9f 0b d9 2c 35 28 13 66 19 be
823 * tag: c2 86 ce 4a 50 4a d0 aa 50 b3 76 5c 49 2a 3f 33
824 * sent: 17 03 03 00 34|00 00 00 00 00 00 00 01|f7 8a b2 8f 78 0e f6 d5 76 17 2e b5 6d 46 59 56 8b 46 9f 0b d9 2c 35 28 13 66 19 be|c2 86 ce 4a 50 4a d0 aa 50 b3 76 5c 49 2a 3f 33
825 * .............................................^^ buf points here
826 */
827static void xwrite_encrypted_aesgcm(tls_state_t *tls, unsigned size, unsigned type)
828{
Denys Vlasenkoecc90902018-11-23 18:31:26 +0100829#define COUNTER(v) (*(uint32_t*)(v + 12))
830
Denys Vlasenko03569bc2018-11-24 14:08:29 +0100831 uint8_t aad[13 + 3] ALIGNED_long; /* +3 creates [16] buffer, simplifying GHASH() */
832 uint8_t nonce[12 + 4] ALIGNED_long; /* +4 creates space for AES block counter */
833 uint8_t scratch[AES_BLOCK_SIZE] ALIGNED_long; //[16]
834 uint8_t authtag[AES_BLOCK_SIZE] ALIGNED_long; //[16]
Denys Vlasenko83e5c622018-11-23 17:21:38 +0100835 uint8_t *buf;
836 struct record_hdr *xhdr;
837 unsigned remaining;
838 unsigned cnt;
Denys Vlasenko219c9d42018-11-23 18:48:20 +0100839 uint64_t t64;
Denys Vlasenko83e5c622018-11-23 17:21:38 +0100840
841 buf = tls->outbuf + OUTBUF_PFX; /* see above for the byte it points to */
842 dump_hex("xwrite_encrypted_aesgcm plaintext:%s\n", buf, size);
843
844 xhdr = (void*)(buf - 8 - RECHDR_LEN);
845 xhdr->type = type; /* do it here so that "type" param no longer used */
846
847 aad[8] = type;
848 aad[9] = TLS_MAJ;
849 aad[10] = TLS_MIN;
850 aad[11] = size >> 8;
Denys Vlasenkoecc90902018-11-23 18:31:26 +0100851 /* set aad[12], and clear aad[13..15] */
852 COUNTER(aad) = SWAP_LE32(size & 0xff);
Denys Vlasenko83e5c622018-11-23 17:21:38 +0100853
Denys Vlasenko219c9d42018-11-23 18:48:20 +0100854 memcpy(nonce, tls->client_write_IV, 4);
855 t64 = tls->write_seq64_be;
856 move_to_unaligned64(nonce + 4, t64);
857 move_to_unaligned64(aad, t64);
858 move_to_unaligned64(buf - 8, t64);
Denys Vlasenko83e5c622018-11-23 17:21:38 +0100859 /* seq64 is not used later in this func, can increment here */
Denys Vlasenko219c9d42018-11-23 18:48:20 +0100860 tls->write_seq64_be = SWAP_BE64(1 + SWAP_BE64(t64));
Denys Vlasenko83e5c622018-11-23 17:21:38 +0100861
Denys Vlasenko83e5c622018-11-23 17:21:38 +0100862 cnt = 1;
863 remaining = size;
864 while (remaining != 0) {
865 unsigned n;
866
867 cnt++;
868 COUNTER(nonce) = htonl(cnt); /* yes, first cnt here is 2 (!) */
869 aes_encrypt_one_block(&tls->aes_encrypt, nonce, scratch);
870 n = remaining > AES_BLOCK_SIZE ? AES_BLOCK_SIZE : remaining;
871 xorbuf(buf, scratch, n);
872 buf += n;
873 remaining -= n;
874 }
875
Denys Vlasenkoecc90902018-11-23 18:31:26 +0100876 aesgcm_GHASH(tls->H, aad, /*sizeof(aad),*/ tls->outbuf + OUTBUF_PFX, size, authtag /*, sizeof(authtag)*/);
Denys Vlasenko83e5c622018-11-23 17:21:38 +0100877 COUNTER(nonce) = htonl(1);
878 aes_encrypt_one_block(&tls->aes_encrypt, nonce, scratch);
Denys Vlasenko03569bc2018-11-24 14:08:29 +0100879 xorbuf_aligned_AES_BLOCK_SIZE(authtag, scratch);
Denys Vlasenko83e5c622018-11-23 17:21:38 +0100880
881 memcpy(buf, authtag, sizeof(authtag));
Denys Vlasenko83e5c622018-11-23 17:21:38 +0100882
883 /* Write out */
884 xhdr = (void*)(tls->outbuf + OUTBUF_PFX - 8 - RECHDR_LEN);
885 size += 8 + sizeof(authtag);
886 /*xhdr->type = type; - already is */
887 xhdr->proto_maj = TLS_MAJ;
888 xhdr->proto_min = TLS_MIN;
889 xhdr->len16_hi = size >> 8;
890 xhdr->len16_lo = size & 0xff;
891 size += RECHDR_LEN;
892 dump_raw_out(">> %s\n", xhdr, size);
893 xwrite(tls->ofd, xhdr, size);
894 dbg("wrote %u bytes\n", size);
Denys Vlasenkobe5ca422018-11-25 14:03:59 +0100895#undef COUNTER
Denys Vlasenko83e5c622018-11-23 17:21:38 +0100896}
897
898static void xwrite_encrypted(tls_state_t *tls, unsigned size, unsigned type)
899{
900 if (!(tls->flags & ENCRYPTION_AESGCM)) {
901 xwrite_encrypted_and_hmac_signed(tls, size, type);
902 return;
903 }
904 xwrite_encrypted_aesgcm(tls, size, type);
905}
906
Denys Vlasenko49ecee02017-01-24 16:00:54 +0100907static void xwrite_handshake_record(tls_state_t *tls, unsigned size)
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +0100908{
Denys Vlasenko83e5c622018-11-23 17:21:38 +0100909 uint8_t *buf = tls->outbuf + OUTBUF_PFX;
910 struct record_hdr *xhdr = (void*)(buf - RECHDR_LEN);
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +0100911
Denys Vlasenko83e5c622018-11-23 17:21:38 +0100912 xhdr->type = RECORD_TYPE_HANDSHAKE;
913 xhdr->proto_maj = TLS_MAJ;
914 xhdr->proto_min = TLS_MIN;
915 xhdr->len16_hi = size >> 8;
916 xhdr->len16_lo = size & 0xff;
917 dump_raw_out(">> %s\n", xhdr, RECHDR_LEN + size);
918 xwrite(tls->ofd, xhdr, RECHDR_LEN + size);
919 dbg("wrote %u bytes\n", (int)RECHDR_LEN + size);
Denys Vlasenko49ecee02017-01-24 16:00:54 +0100920}
921
922static void xwrite_and_update_handshake_hash(tls_state_t *tls, unsigned size)
923{
Denys Vlasenkoeb53d012018-11-25 14:45:55 +0100924 if (!(tls->flags & ENCRYPT_ON_WRITE)) {
Denys Vlasenko49ecee02017-01-24 16:00:54 +0100925 uint8_t *buf;
926
927 xwrite_handshake_record(tls, size);
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +0100928 /* Handshake hash does not include record headers */
Denys Vlasenko49ecee02017-01-24 16:00:54 +0100929 buf = tls->outbuf + OUTBUF_PFX;
930 hash_handshake(tls, ">> hash:%s", buf, size);
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +0100931 return;
932 }
933 xwrite_encrypted(tls, size, RECORD_TYPE_HANDSHAKE);
934}
935
Denys Vlasenko38972a82017-01-20 19:11:14 +0100936static int tls_has_buffered_record(tls_state_t *tls)
937{
Denys Vlasenko39161392017-01-20 20:27:06 +0100938 int buffered = tls->buffered_size;
Denys Vlasenko38972a82017-01-20 19:11:14 +0100939 struct record_hdr *xhdr;
940 int rec_size;
941
942 if (buffered < RECHDR_LEN)
943 return 0;
Denys Vlasenko39161392017-01-20 20:27:06 +0100944 xhdr = (void*)(tls->inbuf + tls->ofs_to_buffered);
Denys Vlasenko38972a82017-01-20 19:11:14 +0100945 rec_size = RECHDR_LEN + (0x100 * xhdr->len16_hi + xhdr->len16_lo);
946 if (buffered < rec_size)
947 return 0;
948 return rec_size;
949}
950
Denys Vlasenkob5bf1912017-01-23 16:12:17 +0100951static const char *alert_text(int code)
952{
953 switch (code) {
954 case 20: return "bad MAC";
955 case 50: return "decode error";
956 case 51: return "decrypt error";
957 case 40: return "handshake failure";
958 case 112: return "unrecognized name";
959 }
960 return itoa(code);
961}
962
Denys Vlasenko83e5c622018-11-23 17:21:38 +0100963static void tls_aesgcm_decrypt(tls_state_t *tls, uint8_t *buf, int size)
964{
Denys Vlasenkoecc90902018-11-23 18:31:26 +0100965#define COUNTER(v) (*(uint32_t*)(v + 12))
966
Denys Vlasenko03569bc2018-11-24 14:08:29 +0100967 //uint8_t aad[13 + 3] ALIGNED_long; /* +3 creates [16] buffer, simplifying GHASH() */
968 uint8_t nonce[12 + 4] ALIGNED_long; /* +4 creates space for AES block counter */
969 uint8_t scratch[AES_BLOCK_SIZE] ALIGNED_long; //[16]
970 //uint8_t authtag[AES_BLOCK_SIZE] ALIGNED_long; //[16]
Denys Vlasenko83e5c622018-11-23 17:21:38 +0100971 unsigned remaining;
972 unsigned cnt;
973
Denys Vlasenko219c9d42018-11-23 18:48:20 +0100974 //memcpy(aad, buf, 8);
Denys Vlasenko83e5c622018-11-23 17:21:38 +0100975 //aad[8] = type;
976 //aad[9] = TLS_MAJ;
977 //aad[10] = TLS_MIN;
978 //aad[11] = size >> 8;
Denys Vlasenkoecc90902018-11-23 18:31:26 +0100979 ///* set aad[12], and clear aad[13..15] */
980 //COUNTER(aad) = SWAP_LE32(size & 0xff);
Denys Vlasenko83e5c622018-11-23 17:21:38 +0100981
982 memcpy(nonce, tls->server_write_IV, 4);
983 memcpy(nonce + 4, buf, 8);
Denys Vlasenko83e5c622018-11-23 17:21:38 +0100984
Denys Vlasenko83e5c622018-11-23 17:21:38 +0100985 cnt = 1;
986 remaining = size;
987 while (remaining != 0) {
988 unsigned n;
989
990 cnt++;
991 COUNTER(nonce) = htonl(cnt); /* yes, first cnt here is 2 (!) */
992 aes_encrypt_one_block(&tls->aes_decrypt, nonce, scratch);
993 n = remaining > AES_BLOCK_SIZE ? AES_BLOCK_SIZE : remaining;
Denys Vlasenko941440c2018-11-24 13:51:46 +0100994 xorbuf3(buf, scratch, buf + 8, n);
Denys Vlasenko83e5c622018-11-23 17:21:38 +0100995 buf += n;
996 remaining -= n;
997 }
998
Denys Vlasenko941440c2018-11-24 13:51:46 +0100999 //aesgcm_GHASH(tls->H, aad, tls->inbuf + RECHDR_LEN, size, authtag);
Denys Vlasenko83e5c622018-11-23 17:21:38 +01001000 //COUNTER(nonce) = htonl(1);
1001 //aes_encrypt_one_block(&tls->aes_encrypt, nonce, scratch);
Denys Vlasenko03569bc2018-11-24 14:08:29 +01001002 //xorbuf_aligned_AES_BLOCK_SIZE(authtag, scratch);
Denys Vlasenko83e5c622018-11-23 17:21:38 +01001003
1004 //memcmp(buf, authtag, sizeof(authtag)) || DIE("HASH DOES NOT MATCH!");
1005#undef COUNTER
1006}
1007
Denys Vlasenko98066662018-02-06 13:33:00 +01001008static int tls_xread_record(tls_state_t *tls, const char *expected)
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001009{
Denys Vlasenkob1003f72017-01-14 13:57:16 +01001010 struct record_hdr *xhdr;
Denys Vlasenkocccf8e72017-01-19 00:20:45 +01001011 int sz;
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001012 int total;
1013 int target;
1014
Denys Vlasenkoa0aae9f2017-01-20 14:12:10 +01001015 again:
Denys Vlasenko39161392017-01-20 20:27:06 +01001016 dbg("ofs_to_buffered:%u buffered_size:%u\n", tls->ofs_to_buffered, tls->buffered_size);
1017 total = tls->buffered_size;
Denys Vlasenkoe7863f32017-01-20 17:59:25 +01001018 if (total != 0) {
Denys Vlasenko39161392017-01-20 20:27:06 +01001019 memmove(tls->inbuf, tls->inbuf + tls->ofs_to_buffered, total);
1020 //dbg("<< remaining at %d [%d] ", tls->ofs_to_buffered, total);
Denys Vlasenkoe7863f32017-01-20 17:59:25 +01001021 //dump_raw_in("<< %s\n", tls->inbuf, total);
1022 }
1023 errno = 0;
Denys Vlasenko39161392017-01-20 20:27:06 +01001024 target = MAX_INBUF;
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001025 for (;;) {
Denys Vlasenko39161392017-01-20 20:27:06 +01001026 int rem;
1027
1028 if (total >= RECHDR_LEN && target == MAX_INBUF) {
Denys Vlasenkob1003f72017-01-14 13:57:16 +01001029 xhdr = (void*)tls->inbuf;
Denys Vlasenkoa0aae9f2017-01-20 14:12:10 +01001030 target = RECHDR_LEN + (0x100 * xhdr->len16_hi + xhdr->len16_lo);
Denys Vlasenko98066662018-02-06 13:33:00 +01001031
1032 if (target > MAX_INBUF /* malformed input (too long) */
1033 || xhdr->proto_maj != TLS_MAJ
1034 || xhdr->proto_min != TLS_MIN
1035 ) {
1036 sz = total < target ? total : target;
Denys Vlasenko98066662018-02-06 13:33:00 +01001037 bad_record_die(tls, expected, sz);
Denys Vlasenkob1003f72017-01-14 13:57:16 +01001038 }
Denys Vlasenkoe7863f32017-01-20 17:59:25 +01001039 dbg("xhdr type:%d ver:%d.%d len:%d\n",
1040 xhdr->type, xhdr->proto_maj, xhdr->proto_min,
1041 0x100 * xhdr->len16_hi + xhdr->len16_lo
1042 );
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001043 }
1044 /* if total >= target, we have a full packet (and possibly more)... */
Denys Vlasenkob1003f72017-01-14 13:57:16 +01001045 if (total - target >= 0)
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001046 break;
Denys Vlasenko39161392017-01-20 20:27:06 +01001047 /* input buffer is grown only as needed */
1048 rem = tls->inbuf_size - total;
1049 if (rem == 0) {
1050 tls->inbuf_size += MAX_INBUF / 8;
1051 if (tls->inbuf_size > MAX_INBUF)
1052 tls->inbuf_size = MAX_INBUF;
1053 dbg("inbuf_size:%d\n", tls->inbuf_size);
1054 rem = tls->inbuf_size - total;
1055 tls->inbuf = xrealloc(tls->inbuf, tls->inbuf_size);
1056 }
Denys Vlasenko9a647c32017-01-23 01:08:16 +01001057 sz = safe_read(tls->ifd, tls->inbuf + total, rem);
Denys Vlasenkoa0aae9f2017-01-20 14:12:10 +01001058 if (sz <= 0) {
1059 if (sz == 0 && total == 0) {
1060 /* "Abrupt" EOF, no TLS shutdown (seen from kernel.org) */
1061 dbg("EOF (without TLS shutdown) from peer\n");
Denys Vlasenko39161392017-01-20 20:27:06 +01001062 tls->buffered_size = 0;
Denys Vlasenkoa0aae9f2017-01-20 14:12:10 +01001063 goto end;
1064 }
1065 bb_perror_msg_and_die("short read, have only %d", total);
1066 }
Denys Vlasenkoe7863f32017-01-20 17:59:25 +01001067 dump_raw_in("<< %s\n", tls->inbuf + total, sz);
Denys Vlasenkocccf8e72017-01-19 00:20:45 +01001068 total += sz;
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001069 }
Denys Vlasenko39161392017-01-20 20:27:06 +01001070 tls->buffered_size = total - target;
1071 tls->ofs_to_buffered = target;
1072 //dbg("<< stashing at %d [%d] ", tls->ofs_to_buffered, tls->buffered_size);
1073 //dump_hex("<< %s\n", tls->inbuf + tls->ofs_to_buffered, tls->buffered_size);
Denys Vlasenkoa0aae9f2017-01-20 14:12:10 +01001074
1075 sz = target - RECHDR_LEN;
Denys Vlasenkocccf8e72017-01-19 00:20:45 +01001076
1077 /* Needs to be decrypted? */
Denys Vlasenko83e5c622018-11-23 17:21:38 +01001078 if (tls->min_encrypted_len_on_read != 0) {
1079 if (sz < (int)tls->min_encrypted_len_on_read)
1080 bb_error_msg_and_die("bad encrypted len:%u", sz);
Denys Vlasenkocccf8e72017-01-19 00:20:45 +01001081
Denys Vlasenko83e5c622018-11-23 17:21:38 +01001082 if (tls->flags & ENCRYPTION_AESGCM) {
1083 /* AESGCM */
1084 uint8_t *p = tls->inbuf + RECHDR_LEN;
1085
1086 sz -= 8 + AES_BLOCK_SIZE; /* we will overwrite nonce, drop hash */
1087 tls_aesgcm_decrypt(tls, p, sz);
Denys Vlasenko83e5c622018-11-23 17:21:38 +01001088 dbg("encrypted size:%u\n", sz);
1089 } else
1090 if (tls->min_encrypted_len_on_read > tls->MAC_size) {
1091 /* AES+SHA */
1092 uint8_t *p = tls->inbuf + RECHDR_LEN;
1093 int padding_len;
1094
1095 if (sz & (AES_BLOCK_SIZE-1))
1096 bb_error_msg_and_die("bad encrypted len:%u", sz);
1097
1098 /* Decrypt content+MAC+padding, moving it over IV in the process */
1099 sz -= AES_BLOCK_SIZE; /* we will overwrite IV now */
1100 aes_cbc_decrypt(
Denys Vlasenko5e4236d2018-11-23 18:02:44 +01001101 &tls->aes_decrypt, /* selects 128/256 */
Denys Vlasenko83e5c622018-11-23 17:21:38 +01001102 p, /* IV */
1103 p + AES_BLOCK_SIZE, sz, /* ciphertext */
1104 p /* plaintext */
1105 );
1106 padding_len = p[sz - 1];
1107 dbg("encrypted size:%u type:0x%02x padding_length:0x%02x\n", sz, p[0], padding_len);
1108 padding_len++;
1109 sz -= tls->MAC_size + padding_len; /* drop MAC and padding */
1110 } else {
1111 /* if nonzero, then it's TLS_RSA_WITH_NULL_SHA256: drop MAC */
1112 /* else: no encryption yet on input, subtract zero = NOP */
1113 sz -= tls->min_encrypted_len_on_read;
Denys Vlasenkocccf8e72017-01-19 00:20:45 +01001114 }
Denys Vlasenkocccf8e72017-01-19 00:20:45 +01001115 }
Denys Vlasenko0af52652017-01-20 21:23:10 +01001116 if (sz < 0)
1117 bb_error_msg_and_die("encrypted data too short");
Denys Vlasenkoe2cb3b92017-01-17 16:53:36 +01001118
Denys Vlasenkoa0aae9f2017-01-20 14:12:10 +01001119 //dump_hex("<< %s\n", tls->inbuf, RECHDR_LEN + sz);
1120
1121 xhdr = (void*)tls->inbuf;
1122 if (xhdr->type == RECORD_TYPE_ALERT && sz >= 2) {
1123 uint8_t *p = tls->inbuf + RECHDR_LEN;
1124 dbg("ALERT size:%d level:%d description:%d\n", sz, p[0], p[1]);
Denys Vlasenkob5bf1912017-01-23 16:12:17 +01001125 if (p[0] == 2) { /* fatal */
1126 bb_error_msg_and_die("TLS %s from peer (alert code %d): %s",
1127 "error",
1128 p[1], alert_text(p[1])
1129 );
1130 }
Denys Vlasenko54b927d2017-01-20 21:19:38 +01001131 if (p[0] == 1) { /* warning */
1132 if (p[1] == 0) { /* "close_notify" warning: it's EOF */
Denys Vlasenkoa0aae9f2017-01-20 14:12:10 +01001133 dbg("EOF (TLS encoded) from peer\n");
1134 sz = 0;
1135 goto end;
1136 }
Denys Vlasenkob5bf1912017-01-23 16:12:17 +01001137//This possibly needs to be cached and shown only if
1138//a fatal alert follows
1139// bb_error_msg("TLS %s from peer (alert code %d): %s",
1140// "warning",
1141// p[1], alert_text(p[1])
1142// );
Denys Vlasenkoa0aae9f2017-01-20 14:12:10 +01001143 /* discard it, get next record */
1144 goto again;
1145 }
Denys Vlasenkob5bf1912017-01-23 16:12:17 +01001146 /* p[0] not 1 or 2: not defined in protocol */
Denys Vlasenkoa0aae9f2017-01-20 14:12:10 +01001147 sz = 0;
1148 goto end;
1149 }
1150
Denys Vlasenkoe2cb3b92017-01-17 16:53:36 +01001151 /* RFC 5246 is not saying it explicitly, but sha256 hash
Denys Vlasenkofe0588d2017-01-17 17:04:24 +01001152 * in our FINISHED record must include data of incoming packets too!
Denys Vlasenkoe2cb3b92017-01-17 16:53:36 +01001153 */
Denys Vlasenko49ecee02017-01-24 16:00:54 +01001154 if (tls->inbuf[0] == RECORD_TYPE_HANDSHAKE
Denys Vlasenko83e5c622018-11-23 17:21:38 +01001155/* HANDSHAKE HASH: */
1156 // && do_we_know_which_hash_to_use /* server_hello() might not know it in the future! */
Denys Vlasenko49ecee02017-01-24 16:00:54 +01001157 ) {
1158 hash_handshake(tls, "<< hash:%s", tls->inbuf + RECHDR_LEN, sz);
Denys Vlasenkoe2cb3b92017-01-17 16:53:36 +01001159 }
Denys Vlasenkoa0aae9f2017-01-20 14:12:10 +01001160 end:
Denys Vlasenkocccf8e72017-01-19 00:20:45 +01001161 dbg("got block len:%u\n", sz);
1162 return sz;
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001163}
1164
Denys Vlasenkode7b5bb2018-11-13 11:44:32 +01001165static void binary_to_pstm(pstm_int *pstm_n, uint8_t *bin_ptr, unsigned len)
1166{
1167 pstm_init_for_read_unsigned_bin(/*pool:*/ NULL, pstm_n, len);
1168 pstm_read_unsigned_bin(pstm_n, bin_ptr, len);
1169 //return bin_ptr + len;
1170}
1171
Denys Vlasenkofe0588d2017-01-17 17:04:24 +01001172/*
1173 * DER parsing routines
1174 */
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001175static unsigned get_der_len(uint8_t **bodyp, uint8_t *der, uint8_t *end)
1176{
Denys Vlasenko2a17d1f2017-01-14 22:38:25 +01001177 unsigned len, len1;
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001178
1179 if (end - der < 2)
1180 xfunc_die();
1181// if ((der[0] & 0x1f) == 0x1f) /* not single-byte item code? */
1182// xfunc_die();
1183
1184 len = der[1]; /* maybe it's short len */
1185 if (len >= 0x80) {
Denys Vlasenko9a6897a2017-01-16 23:26:33 +01001186 /* no, it's long */
Denys Vlasenko2a17d1f2017-01-14 22:38:25 +01001187
Denys Vlasenko9a6897a2017-01-16 23:26:33 +01001188 if (len == 0x80 || end - der < (int)(len - 0x7e)) {
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001189 /* 0x80 is "0 bytes of len", invalid DER: must use short len if can */
Denys Vlasenko9a6897a2017-01-16 23:26:33 +01001190 /* need 3 or 4 bytes for 81, 82 */
1191 xfunc_die();
1192 }
1193
1194 len1 = der[2]; /* if (len == 0x81) it's "ii 81 xx", fetch xx */
1195 if (len > 0x82) {
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001196 /* >0x82 is "3+ bytes of len", should not happen realistically */
1197 xfunc_die();
1198 }
Denys Vlasenko9a6897a2017-01-16 23:26:33 +01001199 if (len == 0x82) { /* it's "ii 82 xx yy" */
1200 len1 = 0x100*len1 + der[3];
1201 der += 1; /* skip [yy] */
1202 }
Denys Vlasenko2a17d1f2017-01-14 22:38:25 +01001203 der += 1; /* skip [xx] */
1204 len = len1;
Denys Vlasenkob1003f72017-01-14 13:57:16 +01001205// if (len < 0x80)
1206// xfunc_die(); /* invalid DER: must use short len if can */
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001207 }
Denys Vlasenko2a17d1f2017-01-14 22:38:25 +01001208 der += 2; /* skip [code]+[1byte] */
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001209
Denys Vlasenko2a17d1f2017-01-14 22:38:25 +01001210 if (end - der < (int)len)
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001211 xfunc_die();
1212 *bodyp = der;
1213
1214 return len;
1215}
1216
1217static uint8_t *enter_der_item(uint8_t *der, uint8_t **endp)
1218{
1219 uint8_t *new_der;
1220 unsigned len = get_der_len(&new_der, der, *endp);
Denys Vlasenkoc8ba23b2017-01-18 06:45:50 +01001221 dbg_der("entered der @%p:0x%02x len:%u inner_byte @%p:0x%02x\n", der, der[0], len, new_der, new_der[0]);
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001222 /* Move "end" position to cover only this item */
1223 *endp = new_der + len;
1224 return new_der;
1225}
1226
1227static uint8_t *skip_der_item(uint8_t *der, uint8_t *end)
1228{
1229 uint8_t *new_der;
1230 unsigned len = get_der_len(&new_der, der, end);
1231 /* Skip body */
1232 new_der += len;
Denys Vlasenkoc8ba23b2017-01-18 06:45:50 +01001233 dbg_der("skipped der 0x%02x, next byte 0x%02x\n", der[0], new_der[0]);
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001234 return new_der;
1235}
1236
Denys Vlasenko11d00962017-01-15 00:12:42 +01001237static void der_binary_to_pstm(pstm_int *pstm_n, uint8_t *der, uint8_t *end)
1238{
Denys Vlasenkof78ad092017-01-15 00:18:22 +01001239 uint8_t *bin_ptr;
1240 unsigned len = get_der_len(&bin_ptr, der, end);
Denys Vlasenko11d00962017-01-15 00:12:42 +01001241
Denys Vlasenkoc8ba23b2017-01-18 06:45:50 +01001242 dbg_der("binary bytes:%u, first:0x%02x\n", len, bin_ptr[0]);
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001243 binary_to_pstm(pstm_n, bin_ptr, len);
Denys Vlasenko11d00962017-01-15 00:12:42 +01001244}
1245
1246static void find_key_in_der_cert(tls_state_t *tls, uint8_t *der, int len)
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001247{
Denys Vlasenkob1003f72017-01-14 13:57:16 +01001248/* Certificate is a DER-encoded data structure. Each DER element has a length,
1249 * which makes it easy to skip over large compound elements of any complexity
1250 * without parsing them. Example: partial decode of kernel.org certificate:
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001251 * SEQ 0x05ac/1452 bytes (Certificate): 308205ac
1252 * SEQ 0x0494/1172 bytes (tbsCertificate): 30820494
1253 * [ASN_CONTEXT_SPECIFIC | ASN_CONSTRUCTED | 0] 3 bytes: a003
1254 * INTEGER (version): 0201 02
1255 * INTEGER 0x11 bytes (serialNumber): 0211 00 9f85bf664b0cddafca508679501b2be4
1256 * //^^^^^^note: matrixSSL also allows [ASN_CONTEXT_SPECIFIC | ASN_PRIMITIVE | 2] = 0x82 type
1257 * SEQ 0x0d bytes (signatureAlgo): 300d
1258 * OID 9 bytes: 0609 2a864886f70d01010b (OID_SHA256_RSA_SIG 42.134.72.134.247.13.1.1.11)
1259 * NULL: 0500
1260 * SEQ 0x5f bytes (issuer): 305f
1261 * SET 11 bytes: 310b
1262 * SEQ 9 bytes: 3009
1263 * OID 3 bytes: 0603 550406
1264 * Printable string "FR": 1302 4652
1265 * SET 14 bytes: 310e
1266 * SEQ 12 bytes: 300c
1267 * OID 3 bytes: 0603 550408
1268 * Printable string "Paris": 1305 5061726973
1269 * SET 14 bytes: 310e
1270 * SEQ 12 bytes: 300c
1271 * OID 3 bytes: 0603 550407
1272 * Printable string "Paris": 1305 5061726973
1273 * SET 14 bytes: 310e
1274 * SEQ 12 bytes: 300c
1275 * OID 3 bytes: 0603 55040a
1276 * Printable string "Gandi": 1305 47616e6469
1277 * SET 32 bytes: 3120
1278 * SEQ 30 bytes: 301e
1279 * OID 3 bytes: 0603 550403
Denys Vlasenkob1003f72017-01-14 13:57:16 +01001280 * Printable string "Gandi Standard SSL CA 2": 1317 47616e6469205374616e646172642053534c2043412032
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001281 * SEQ 30 bytes (validity): 301e
1282 * TIME "161011000000Z": 170d 3136313031313030303030305a
1283 * TIME "191011235959Z": 170d 3139313031313233353935395a
1284 * SEQ 0x5b/91 bytes (subject): 305b //I did not decode this
1285 * 3121301f060355040b1318446f6d61696e20436f
1286 * 6e74726f6c2056616c6964617465643121301f06
1287 * 0355040b1318506f73697469766553534c204d75
1288 * 6c74692d446f6d61696e31133011060355040313
1289 * 0a6b65726e656c2e6f7267
1290 * SEQ 0x01a2/418 bytes (subjectPublicKeyInfo): 308201a2
1291 * SEQ 13 bytes (algorithm): 300d
1292 * OID 9 bytes: 0609 2a864886f70d010101 (OID_RSA_KEY_ALG 42.134.72.134.247.13.1.1.1)
1293 * NULL: 0500
1294 * BITSTRING 0x018f/399 bytes (publicKey): 0382018f
1295 * ????: 00
1296 * //after the zero byte, it appears key itself uses DER encoding:
1297 * SEQ 0x018a/394 bytes: 3082018a
1298 * INTEGER 0x0181/385 bytes (modulus): 02820181
1299 * 00b1ab2fc727a3bef76780c9349bf3
1300 * ...24 more blocks of 15 bytes each...
1301 * 90e895291c6bc8693b65
1302 * INTEGER 3 bytes (exponent): 0203 010001
1303 * [ASN_CONTEXT_SPECIFIC | ASN_CONSTRUCTED | 0x3] 0x01e5 bytes (X509v3 extensions): a38201e5
1304 * SEQ 0x01e1 bytes: 308201e1
1305 * ...
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001306 * Certificate is a sequence of three elements:
1307 * tbsCertificate (SEQ)
1308 * signatureAlgorithm (AlgorithmIdentifier)
1309 * signatureValue (BIT STRING)
1310 *
1311 * In turn, tbsCertificate is a sequence of:
1312 * version
1313 * serialNumber
1314 * signatureAlgo (AlgorithmIdentifier)
1315 * issuer (Name, has complex structure)
1316 * validity (Validity, SEQ of two Times)
1317 * subject (Name)
1318 * subjectPublicKeyInfo (SEQ)
1319 * ...
1320 *
1321 * subjectPublicKeyInfo is a sequence of:
1322 * algorithm (AlgorithmIdentifier)
1323 * publicKey (BIT STRING)
1324 *
Denys Vlasenkob1003f72017-01-14 13:57:16 +01001325 * We need Certificate.tbsCertificate.subjectPublicKeyInfo.publicKey
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001326 *
1327 * Example of an ECDSA key:
1328 * SEQ 0x59 bytes (subjectPublicKeyInfo): 3059
1329 * SEQ 0x13 bytes (algorithm): 3013
1330 * OID 7 bytes: 0607 2a8648ce3d0201 (OID_ECDSA_KEY_ALG 42.134.72.206.61.2.1)
1331 * OID 8 bytes: 0608 2a8648ce3d030107 (OID_EC_prime256v1 42.134.72.206.61.3.1.7)
1332 * BITSTRING 0x42 bytes (publicKey): 0342
1333 * 0004 53af f65e 50cc 7959 7e29 0171 c75c
1334 * 7335 e07d f45b 9750 b797 3a38 aebb 2ac6
1335 * 8329 2748 e77e 41cb d482 2ce6 05ec a058
1336 * f3ab d561 2f4c d845 9ad3 7252 e3de bd3b
1337 * 9012
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001338 */
1339 uint8_t *end = der + len;
1340
1341 /* enter "Certificate" item: [der, end) will be only Cert */
1342 der = enter_der_item(der, &end);
1343
1344 /* enter "tbsCertificate" item: [der, end) will be only tbsCert */
1345 der = enter_der_item(der, &end);
1346
Ivan Abrea5cb4f902018-06-24 20:04:57 +02001347 /*
1348 * Skip version field only if it is present. For a v1 certificate, the
1349 * version field won't be present since v1 is the default value for the
1350 * version field and fields with default values should be omitted (see
1351 * RFC 5280 sections 4.1 and 4.1.2.1). If the version field is present
1352 * it will have a tag class of 2 (context-specific), bit 6 as 1
1353 * (constructed), and a tag number of 0 (see ITU-T X.690 sections 8.1.2
1354 * and 8.14).
1355 */
Denys Vlasenko084bac42018-11-05 00:18:18 +01001356 /* bits 7-6: 10 */
1357 /* bit 5: 1 */
1358 /* bits 4-0: 00000 */
1359 if (der[0] == 0xa0)
Ivan Abrea5cb4f902018-06-24 20:04:57 +02001360 der = skip_der_item(der, end); /* version */
Ivan Abrea5cb4f902018-06-24 20:04:57 +02001361
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001362 /* skip up to subjectPublicKeyInfo */
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001363 der = skip_der_item(der, end); /* serialNumber */
1364 der = skip_der_item(der, end); /* signatureAlgo */
1365 der = skip_der_item(der, end); /* issuer */
1366 der = skip_der_item(der, end); /* validity */
1367 der = skip_der_item(der, end); /* subject */
1368
Denys Vlasenko11d00962017-01-15 00:12:42 +01001369 /* enter subjectPublicKeyInfo */
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001370 der = enter_der_item(der, &end);
Denys Vlasenko11d00962017-01-15 00:12:42 +01001371 { /* check subjectPublicKeyInfo.algorithm */
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001372 static const uint8_t OID_RSA_KEY_ALG[] = {
Denys Vlasenko11d00962017-01-15 00:12:42 +01001373 0x30,0x0d, // SEQ 13 bytes
Denys Vlasenkode7b5bb2018-11-13 11:44:32 +01001374 0x06,0x09, 0x2a,0x86,0x48,0x86,0xf7,0x0d,0x01,0x01,0x01, //OID_RSA_KEY_ALG 42.134.72.134.247.13.1.1.1
Denys Vlasenko11d00962017-01-15 00:12:42 +01001375 //0x05,0x00, // NULL
1376 };
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001377 static const uint8_t OID_ECDSA_KEY_ALG[] = {
1378 0x30,0x13, // SEQ 0x13 bytes
1379 0x06,0x07, 0x2a,0x86,0x48,0xce,0x3d,0x02,0x01, //OID_ECDSA_KEY_ALG 42.134.72.206.61.2.1
Denys Vlasenkode7b5bb2018-11-13 11:44:32 +01001380 //allow any curve code for now...
1381 // 0x06,0x08, 0x2a,0x86,0x48,0xce,0x3d,0x03,0x01,0x07, //OID_EC_prime256v1 42.134.72.206.61.3.1.7
1382 //RFC 3279:
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001383 //42.134.72.206.61.3 is ellipticCurve
1384 //42.134.72.206.61.3.0 is c-TwoCurve
1385 //42.134.72.206.61.3.1 is primeCurve
Denys Vlasenkode7b5bb2018-11-13 11:44:32 +01001386 //42.134.72.206.61.3.1.7 is curve_secp256r1
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001387 };
1388 if (memcmp(der, OID_RSA_KEY_ALG, sizeof(OID_RSA_KEY_ALG)) == 0) {
1389 dbg("RSA key\n");
Denys Vlasenko83e5c622018-11-23 17:21:38 +01001390 tls->flags |= GOT_CERT_RSA_KEY_ALG;
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001391 } else
1392 if (memcmp(der, OID_ECDSA_KEY_ALG, sizeof(OID_ECDSA_KEY_ALG)) == 0) {
1393 dbg("ECDSA key\n");
Denys Vlasenkoa33b0082018-11-25 14:28:32 +01001394 //UNUSED: tls->flags |= GOT_CERT_ECDSA_KEY_ALG;
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001395 } else
Denys Vlasenko83e5c622018-11-23 17:21:38 +01001396 bb_error_msg_and_die("not RSA or ECDSA cert");
Denys Vlasenko11d00962017-01-15 00:12:42 +01001397 }
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001398
Denys Vlasenko83e5c622018-11-23 17:21:38 +01001399 if (tls->flags & GOT_CERT_RSA_KEY_ALG) {
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001400 /* parse RSA key: */
1401 //based on getAsnRsaPubKey(), pkcs1ParsePrivBin() is also of note
1402 /* skip subjectPublicKeyInfo.algorithm */
1403 der = skip_der_item(der, end);
1404 /* enter subjectPublicKeyInfo.publicKey */
Denys Vlasenkode7b5bb2018-11-13 11:44:32 +01001405 //die_if_not_this_der_type(der, end, 0x03); /* must be BITSTRING */
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001406 der = enter_der_item(der, &end);
1407
1408 dbg("key bytes:%u, first:0x%02x\n", (int)(end - der), der[0]);
1409 if (end - der < 14)
1410 xfunc_die();
1411 /* example format:
1412 * ignore bits: 00
1413 * SEQ 0x018a/394 bytes: 3082018a
1414 * INTEGER 0x0181/385 bytes (modulus): 02820181 XX...XXX
1415 * INTEGER 3 bytes (exponent): 0203 010001
1416 */
1417 if (*der != 0) /* "ignore bits", should be 0 */
1418 xfunc_die();
1419 der++;
1420 der = enter_der_item(der, &end); /* enter SEQ */
1421 /* memset(tls->hsd->server_rsa_pub_key, 0, sizeof(tls->hsd->server_rsa_pub_key)); - already is */
1422 der_binary_to_pstm(&tls->hsd->server_rsa_pub_key.N, der, end); /* modulus */
1423 der = skip_der_item(der, end);
1424 der_binary_to_pstm(&tls->hsd->server_rsa_pub_key.e, der, end); /* exponent */
1425 tls->hsd->server_rsa_pub_key.size = pstm_unsigned_bin_size(&tls->hsd->server_rsa_pub_key.N);
1426 dbg("server_rsa_pub_key.size:%d\n", tls->hsd->server_rsa_pub_key.size);
1427 }
Denys Vlasenkode7b5bb2018-11-13 11:44:32 +01001428 /* else: ECDSA key. It is not used for generating encryption keys,
1429 * it is used only to sign the EC public key (which comes in ServerKey message).
1430 * Since we do not verify cert validity, verifying signature on EC public key
1431 * wouldn't add any security. Thus, we do nothing here.
1432 */
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001433}
1434
Denys Vlasenko3f8ecd92017-01-15 14:16:51 +01001435/*
1436 * TLS Handshake routines
1437 */
Denys Vlasenkodd2577f2017-01-20 22:48:41 +01001438static int tls_xread_handshake_block(tls_state_t *tls, int min_len)
Denys Vlasenkofe0588d2017-01-17 17:04:24 +01001439{
1440 struct record_hdr *xhdr;
Denys Vlasenko98066662018-02-06 13:33:00 +01001441 int len = tls_xread_record(tls, "handshake record");
Denys Vlasenkofe0588d2017-01-17 17:04:24 +01001442
1443 xhdr = (void*)tls->inbuf;
1444 if (len < min_len
1445 || xhdr->type != RECORD_TYPE_HANDSHAKE
Denys Vlasenkofe0588d2017-01-17 17:04:24 +01001446 ) {
Denys Vlasenkob5bf1912017-01-23 16:12:17 +01001447 bad_record_die(tls, "handshake record", len);
Denys Vlasenkofe0588d2017-01-17 17:04:24 +01001448 }
1449 dbg("got HANDSHAKE\n");
1450 return len;
1451}
1452
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +01001453static ALWAYS_INLINE void fill_handshake_record_hdr(void *buf, unsigned type, unsigned len)
Denys Vlasenko5d1662e2017-01-17 18:17:27 +01001454{
1455 struct handshake_hdr {
Denys Vlasenko5d1662e2017-01-17 18:17:27 +01001456 uint8_t type;
1457 uint8_t len24_hi, len24_mid, len24_lo;
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +01001458 } *h = buf;
Denys Vlasenko5d1662e2017-01-17 18:17:27 +01001459
1460 len -= 4;
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +01001461 h->type = type;
Denys Vlasenko5d1662e2017-01-17 18:17:27 +01001462 h->len24_hi = len >> 16;
1463 h->len24_mid = len >> 8;
1464 h->len24_lo = len & 0xff;
Denys Vlasenko5d1662e2017-01-17 18:17:27 +01001465}
1466
Denys Vlasenko49ecee02017-01-24 16:00:54 +01001467static void send_client_hello_and_alloc_hsd(tls_state_t *tls, const char *sni)
Denys Vlasenko3f8ecd92017-01-15 14:16:51 +01001468{
Denys Vlasenko2eb04292018-11-26 16:39:19 +01001469#define NUM_CIPHERS (13 + ALLOW_RSA_NULL_SHA256)
Denys Vlasenkoca7cdd42018-11-26 00:17:10 +01001470 static const uint8_t ciphers[] = {
1471 0x00,(1 + NUM_CIPHERS) * 2, //len16_be
1472 0x00,0xFF, //not a cipher - TLS_EMPTY_RENEGOTIATION_INFO_SCSV
1473 /* ^^^^^^ RFC 5746 Renegotiation Indication Extension - some servers will refuse to work with us otherwise */
1474 0xC0,0x09, // 1 TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA - ok: wget https://is.gd/
1475 0xC0,0x0A, // 2 TLS_ECDHE_ECDSA_WITH_AES_256_CBC_SHA - ok: wget https://is.gd/
1476 0xC0,0x13, // 3 TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA - ok: openssl s_server ... -cipher ECDHE-RSA-AES128-SHA
Denys Vlasenko2eb04292018-11-26 16:39:19 +01001477 0xC0,0x14, // 4 TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA - ok: openssl s_server ... -cipher ECDHE-RSA-AES256-SHA (might fail with older openssl)
1478 0xC0,0x23, // 5 TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA256 - ok: wget https://is.gd/
Denys Vlasenkoca7cdd42018-11-26 00:17:10 +01001479 // 0xC0,0x24, // TLS_ECDHE_ECDSA_WITH_AES_256_CBC_SHA384 - can't do SHA384 yet
Denys Vlasenko2eb04292018-11-26 16:39:19 +01001480 0xC0,0x27, // 6 TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA256 - ok: openssl s_server ... -cipher ECDHE-RSA-AES128-SHA256
Denys Vlasenkoca7cdd42018-11-26 00:17:10 +01001481 // 0xC0,0x28, // TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA384 - can't do SHA384 yet
Denys Vlasenko2eb04292018-11-26 16:39:19 +01001482 0xC0,0x2B, // 7 TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256 - ok: wget https://is.gd/
Denys Vlasenkoca7cdd42018-11-26 00:17:10 +01001483 // 0xC0,0x2C, // TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384 - wget https://is.gd/: "TLS error from peer (alert code 20): bad MAC"
Denys Vlasenkod4681c72018-11-26 10:33:23 +01001484//TODO: GCM_SHA384 ciphers can be supported, only need sha384-based PRF?
Denys Vlasenko2eb04292018-11-26 16:39:19 +01001485 0xC0,0x2F, // 8 TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256 - ok: openssl s_server ... -cipher ECDHE-RSA-AES128-GCM-SHA256
Denys Vlasenkoca7cdd42018-11-26 00:17:10 +01001486 // 0xC0,0x30, // TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384 - openssl s_server ... -cipher ECDHE-RSA-AES256-GCM-SHA384: "decryption failed or bad record mac"
1487 //possibly these too:
1488 // 0xC0,0x35, // TLS_ECDHE_PSK_WITH_AES_128_CBC_SHA
1489 // 0xC0,0x36, // TLS_ECDHE_PSK_WITH_AES_256_CBC_SHA
1490 // 0xC0,0x37, // TLS_ECDHE_PSK_WITH_AES_128_CBC_SHA256
1491 // 0xC0,0x38, // TLS_ECDHE_PSK_WITH_AES_256_CBC_SHA384 - can't do SHA384 yet
Denys Vlasenko2eb04292018-11-26 16:39:19 +01001492 0x00,0x2F, // 9 TLS_RSA_WITH_AES_128_CBC_SHA - ok: openssl s_server ... -cipher AES128-SHA
1493 0x00,0x35, //10 TLS_RSA_WITH_AES_256_CBC_SHA - ok: openssl s_server ... -cipher AES256-SHA
1494 0x00,0x3C, //11 TLS_RSA_WITH_AES_128_CBC_SHA256 - ok: openssl s_server ... -cipher AES128-SHA256
1495 0x00,0x3D, //12 TLS_RSA_WITH_AES_256_CBC_SHA256 - ok: openssl s_server ... -cipher AES256-SHA256
1496 0x00,0x9C, //13 TLS_RSA_WITH_AES_128_GCM_SHA256 - ok: openssl s_server ... -cipher AES128-GCM-SHA256
Denys Vlasenkoca7cdd42018-11-26 00:17:10 +01001497 // 0x00,0x9D, // TLS_RSA_WITH_AES_256_GCM_SHA384 - openssl s_server ... -cipher AES256-GCM-SHA384: "decryption failed or bad record mac"
1498#if ALLOW_RSA_NULL_SHA256
1499 0x00,0x3B, // TLS_RSA_WITH_NULL_SHA256
1500#endif
1501 0x01,0x00, //not a cipher - comprtypes_len, comprtype
1502 };
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001503 static const uint8_t supported_groups[] = {
1504 0x00,0x0a, //extension_type: "supported_groups"
1505 0x00,0x04, //ext len
1506 0x00,0x02, //list len
Denys Vlasenkod4681c72018-11-26 10:33:23 +01001507 0x00,0x1d, //curve_x25519 (RFC 7748)
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001508 //0x00,0x17, //curve_secp256r1
1509 //0x00,0x18, //curve_secp384r1
1510 //0x00,0x19, //curve_secp521r1
1511 };
1512 //static const uint8_t signature_algorithms[] = {
1513 // 000d
1514 // 0020
1515 // 001e
1516 // 0601 0602 0603 0501 0502 0503 0401 0402 0403 0301 0302 0303 0201 0202 0203
1517 //};
1518
Denys Vlasenko3f8ecd92017-01-15 14:16:51 +01001519 struct client_hello {
Denys Vlasenko3f8ecd92017-01-15 14:16:51 +01001520 uint8_t type;
1521 uint8_t len24_hi, len24_mid, len24_lo;
1522 uint8_t proto_maj, proto_min;
1523 uint8_t rand32[32];
1524 uint8_t session_id_len;
1525 /* uint8_t session_id[]; */
1526 uint8_t cipherid_len16_hi, cipherid_len16_lo;
Denys Vlasenkoca7cdd42018-11-26 00:17:10 +01001527 uint8_t cipherid[(1 + NUM_CIPHERS) * 2]; /* actually variable */
Denys Vlasenko3f8ecd92017-01-15 14:16:51 +01001528 uint8_t comprtypes_len;
1529 uint8_t comprtypes[1]; /* actually variable */
Denys Vlasenkodd2577f2017-01-20 22:48:41 +01001530 /* Extensions (SNI shown):
1531 * hi,lo // len of all extensions
Denys Vlasenkob5bf1912017-01-23 16:12:17 +01001532 * 00,00 // extension_type: "Server Name"
1533 * 00,0e // list len (there can be more than one SNI)
1534 * 00,0c // len of 1st Server Name Indication
1535 * 00 // name type: host_name
1536 * 00,09 // name len
Denys Vlasenkodd2577f2017-01-20 22:48:41 +01001537 * "localhost" // name
1538 */
Denys Vlasenkob5bf1912017-01-23 16:12:17 +01001539// GNU Wget 1.18 to cdn.kernel.org sends these extensions:
1540// 0055
1541// 0005 0005 0100000000 - status_request
1542// 0000 0013 0011 00 000e 63646e 2e 6b65726e656c 2e 6f7267 - server_name
1543// ff01 0001 00 - renegotiation_info
1544// 0023 0000 - session_ticket
1545// 000a 0008 0006001700180019 - supported_groups
1546// 000b 0002 0100 - ec_point_formats
Denys Vlasenko98066662018-02-06 13:33:00 +01001547// 000d 0016 0014 0401 0403 0501 0503 0601 0603 0301 0303 0201 0203 - signature_algorithms
1548// wolfssl library sends this option, RFC 7627 (closes a security weakness, some servers may require it. TODO?):
1549// 0017 0000 - extended master secret
Denys Vlasenko3f8ecd92017-01-15 14:16:51 +01001550 };
Denys Vlasenkodd2577f2017-01-20 22:48:41 +01001551 struct client_hello *record;
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001552 uint8_t *ptr;
Denys Vlasenkodd2577f2017-01-20 22:48:41 +01001553 int len;
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001554 int ext_len;
1555 int sni_len = sni ? strnlen(sni, 127 - 5) : 0;
Denys Vlasenko3f8ecd92017-01-15 14:16:51 +01001556
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001557 ext_len = 0;
1558 /* is.gd responds with "handshake failure" to our hello if there's no supported_groups element */
1559 ext_len += sizeof(supported_groups);
Denys Vlasenkodd2577f2017-01-20 22:48:41 +01001560 if (sni_len)
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001561 ext_len += 9 + sni_len;
1562
1563 /* +2 is for "len of all extensions" 2-byte field */
1564 len = sizeof(*record) + 2 + ext_len;
Denys Vlasenkod5a04052018-11-13 11:58:53 +01001565 record = tls_get_zeroed_outbuf(tls, len);
Denys Vlasenkob5bf1912017-01-23 16:12:17 +01001566
Denys Vlasenkodd2577f2017-01-20 22:48:41 +01001567 fill_handshake_record_hdr(record, HANDSHAKE_CLIENT_HELLO, len);
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +01001568 record->proto_maj = TLS_MAJ; /* the "requested" version of the protocol, */
1569 record->proto_min = TLS_MIN; /* can be higher than one in record headers */
1570 tls_get_random(record->rand32, sizeof(record->rand32));
Denys Vlasenkoa0aae9f2017-01-20 14:12:10 +01001571 if (TLS_DEBUG_FIXED_SECRETS)
1572 memset(record->rand32, 0x11, sizeof(record->rand32));
Denys Vlasenkodd2577f2017-01-20 22:48:41 +01001573 /* record->session_id_len = 0; - already is */
Denys Vlasenkob5bf1912017-01-23 16:12:17 +01001574
Denys Vlasenkoca7cdd42018-11-26 00:17:10 +01001575 BUILD_BUG_ON(sizeof(ciphers) != 2 + (1 + NUM_CIPHERS) * 2 + 2);
1576 memcpy(&record->cipherid_len16_hi, ciphers, sizeof(ciphers));
Denys Vlasenko3f8ecd92017-01-15 14:16:51 +01001577
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001578 ptr = (void*)(record + 1);
1579 *ptr++ = ext_len >> 8;
1580 *ptr++ = ext_len;
Denys Vlasenkodd2577f2017-01-20 22:48:41 +01001581 if (sni_len) {
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001582 //ptr[0] = 0; //
1583 //ptr[1] = 0; //extension_type
1584 //ptr[2] = 0; //
1585 ptr[3] = sni_len + 5; //list len
1586 //ptr[4] = 0; //
1587 ptr[5] = sni_len + 3; //len of 1st SNI
1588 //ptr[6] = 0; //name type
1589 //ptr[7] = 0; //
1590 ptr[8] = sni_len; //name len
1591 ptr = mempcpy(&ptr[9], sni, sni_len);
Denys Vlasenkodd2577f2017-01-20 22:48:41 +01001592 }
Denys Vlasenkode7b5bb2018-11-13 11:44:32 +01001593 memcpy(ptr, supported_groups, sizeof(supported_groups));
Denys Vlasenko19e695e2017-01-20 14:27:58 +01001594
Denys Vlasenko83e5c622018-11-23 17:21:38 +01001595 tls->hsd = xzalloc(sizeof(*tls->hsd));
1596 /* HANDSHAKE HASH: ^^^ + len if need to save saved_client_hello */
1597 memcpy(tls->hsd->client_and_server_rand32, record->rand32, sizeof(record->rand32));
1598/* HANDSHAKE HASH:
Denys Vlasenko49ecee02017-01-24 16:00:54 +01001599 tls->hsd->saved_client_hello_size = len;
1600 memcpy(tls->hsd->saved_client_hello, record, len);
Denys Vlasenko83e5c622018-11-23 17:21:38 +01001601 */
1602 dbg(">> CLIENT_HELLO\n");
1603 /* Can hash immediately only if we know which MAC hash to use.
1604 * So far we do know: it's sha256:
1605 */
1606 sha256_begin(&tls->hsd->handshake_hash_ctx);
1607 xwrite_and_update_handshake_hash(tls, len);
1608 /* if this would become infeasible: save tls->hsd->saved_client_hello,
1609 * use "xwrite_handshake_record(tls, len)" here,
1610 * and hash saved_client_hello later.
1611 */
Denys Vlasenko3f8ecd92017-01-15 14:16:51 +01001612}
1613
1614static void get_server_hello(tls_state_t *tls)
1615{
1616 struct server_hello {
1617 struct record_hdr xhdr;
1618 uint8_t type;
1619 uint8_t len24_hi, len24_mid, len24_lo;
1620 uint8_t proto_maj, proto_min;
1621 uint8_t rand32[32]; /* first 4 bytes are unix time in BE format */
1622 uint8_t session_id_len;
1623 uint8_t session_id[32];
1624 uint8_t cipherid_hi, cipherid_lo;
1625 uint8_t comprtype;
1626 /* extensions may follow, but only those which client offered in its Hello */
1627 };
Denys Vlasenkodd2577f2017-01-20 22:48:41 +01001628
Denys Vlasenko3f8ecd92017-01-15 14:16:51 +01001629 struct server_hello *hp;
Denys Vlasenko9a6897a2017-01-16 23:26:33 +01001630 uint8_t *cipherid;
Denys Vlasenkoca7cdd42018-11-26 00:17:10 +01001631 uint8_t cipherid1;
Denys Vlasenko49ecee02017-01-24 16:00:54 +01001632 int len, len24;
Denys Vlasenko3f8ecd92017-01-15 14:16:51 +01001633
Denys Vlasenko5b05d9d2017-02-03 18:19:59 +01001634 len = tls_xread_handshake_block(tls, 74 - 32);
Denys Vlasenko3f8ecd92017-01-15 14:16:51 +01001635
1636 hp = (void*)tls->inbuf;
1637 // 74 bytes:
1638 // 02 000046 03|03 58|78|cf|c1 50|a5|49|ee|7e|29|48|71|fe|97|fa|e8|2d|19|87|72|90|84|9d|37|a3|f0|cb|6f|5f|e3|3c|2f |20 |d8|1a|78|96|52|d6|91|01|24|b3|d6|5b|b7|d0|6c|b3|e1|78|4e|3c|95|de|74|a0|ba|eb|a7|3a|ff|bd|a2|bf |00|9c |00|
1639 //SvHl len=70 maj.min unixtime^^^ 28randbytes^^^^^^^^^^^^^^^^^^^^^^^^^^^^_^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^_^^^ slen sid32bytes^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ cipSel comprSel
1640 if (hp->type != HANDSHAKE_SERVER_HELLO
1641 || hp->len24_hi != 0
1642 || hp->len24_mid != 0
Denys Vlasenko9a6897a2017-01-16 23:26:33 +01001643 /* hp->len24_lo checked later */
Denys Vlasenko3f8ecd92017-01-15 14:16:51 +01001644 || hp->proto_maj != TLS_MAJ
1645 || hp->proto_min != TLS_MIN
Denys Vlasenko3f8ecd92017-01-15 14:16:51 +01001646 ) {
Denys Vlasenkob5bf1912017-01-23 16:12:17 +01001647 bad_record_die(tls, "'server hello'", len);
Denys Vlasenko3f8ecd92017-01-15 14:16:51 +01001648 }
Denys Vlasenko9a6897a2017-01-16 23:26:33 +01001649
1650 cipherid = &hp->cipherid_hi;
Denys Vlasenko49ecee02017-01-24 16:00:54 +01001651 len24 = hp->len24_lo;
Denys Vlasenko9a6897a2017-01-16 23:26:33 +01001652 if (hp->session_id_len != 32) {
1653 if (hp->session_id_len != 0)
Denys Vlasenko5b05d9d2017-02-03 18:19:59 +01001654 bad_record_die(tls, "'server hello'", len);
Denys Vlasenko9a6897a2017-01-16 23:26:33 +01001655
1656 // session_id_len == 0: no session id
1657 // "The server
1658 // may return an empty session_id to indicate that the session will
1659 // not be cached and therefore cannot be resumed."
1660 cipherid -= 32;
Denys Vlasenko49ecee02017-01-24 16:00:54 +01001661 len24 += 32; /* what len would be if session id would be present */
Denys Vlasenko9a6897a2017-01-16 23:26:33 +01001662 }
1663
Denys Vlasenkoca7cdd42018-11-26 00:17:10 +01001664 if (len24 < 70)
Denys Vlasenko5b05d9d2017-02-03 18:19:59 +01001665 bad_record_die(tls, "'server hello'", len);
Denys Vlasenko5d1662e2017-01-17 18:17:27 +01001666 dbg("<< SERVER_HELLO\n");
Denys Vlasenko49ecee02017-01-24 16:00:54 +01001667
Denys Vlasenko9a647c32017-01-23 01:08:16 +01001668 memcpy(tls->hsd->client_and_server_rand32 + 32, hp->rand32, sizeof(hp->rand32));
Denys Vlasenko49ecee02017-01-24 16:00:54 +01001669
Denys Vlasenkoca7cdd42018-11-26 00:17:10 +01001670 /* Set up encryption params based on selected cipher */
1671#if 0
1672 0xC0,0x09, // 1 TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA - ok: wget https://is.gd/
1673 0xC0,0x0A, // 2 TLS_ECDHE_ECDSA_WITH_AES_256_CBC_SHA - ok: wget https://is.gd/
1674 0xC0,0x13, // 3 TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA - ok: openssl s_server ... -cipher ECDHE-RSA-AES128-SHA
Denys Vlasenko2eb04292018-11-26 16:39:19 +01001675 0xC0,0x14, // 4 TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA - ok: openssl s_server ... -cipher ECDHE-RSA-AES256-SHA (might fail with older openssl)
1676 0xC0,0x23, // 5 TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA256 - ok: wget https://is.gd/
Denys Vlasenkoca7cdd42018-11-26 00:17:10 +01001677 // 0xC0,0x24, // TLS_ECDHE_ECDSA_WITH_AES_256_CBC_SHA384 - can't do SHA384 yet
Denys Vlasenko2eb04292018-11-26 16:39:19 +01001678 0xC0,0x27, // 6 TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA256 - ok: openssl s_server ... -cipher ECDHE-RSA-AES128-SHA256
Denys Vlasenkoca7cdd42018-11-26 00:17:10 +01001679 // 0xC0,0x28, // TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA384 - can't do SHA384 yet
Denys Vlasenko2eb04292018-11-26 16:39:19 +01001680 0xC0,0x2B, // 7 TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256 - ok: wget https://is.gd/
Denys Vlasenkoca7cdd42018-11-26 00:17:10 +01001681 // 0xC0,0x2C, // TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384 - wget https://is.gd/: "TLS error from peer (alert code 20): bad MAC"
Denys Vlasenko2eb04292018-11-26 16:39:19 +01001682 0xC0,0x2F, // 8 TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256 - ok: openssl s_server ... -cipher ECDHE-RSA-AES128-GCM-SHA256
Denys Vlasenkoca7cdd42018-11-26 00:17:10 +01001683 // 0xC0,0x30, // TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384 - openssl s_server ... -cipher ECDHE-RSA-AES256-GCM-SHA384: "decryption failed or bad record mac"
1684 //possibly these too:
1685 // 0xC0,0x35, // TLS_ECDHE_PSK_WITH_AES_128_CBC_SHA
1686 // 0xC0,0x36, // TLS_ECDHE_PSK_WITH_AES_256_CBC_SHA
1687 // 0xC0,0x37, // TLS_ECDHE_PSK_WITH_AES_128_CBC_SHA256
1688 // 0xC0,0x38, // TLS_ECDHE_PSK_WITH_AES_256_CBC_SHA384 - can't do SHA384 yet
Denys Vlasenko2eb04292018-11-26 16:39:19 +01001689 0x00,0x2F, // 9 TLS_RSA_WITH_AES_128_CBC_SHA - ok: openssl s_server ... -cipher AES128-SHA
1690 0x00,0x35, //10 TLS_RSA_WITH_AES_256_CBC_SHA - ok: openssl s_server ... -cipher AES256-SHA
1691 0x00,0x3C, //11 TLS_RSA_WITH_AES_128_CBC_SHA256 - ok: openssl s_server ... -cipher AES128-SHA256
1692 0x00,0x3D, //12 TLS_RSA_WITH_AES_256_CBC_SHA256 - ok: openssl s_server ... -cipher AES256-SHA256
1693 0x00,0x9C, //13 TLS_RSA_WITH_AES_128_GCM_SHA256 - ok: openssl s_server ... -cipher AES128-GCM-SHA256
Denys Vlasenkoca7cdd42018-11-26 00:17:10 +01001694 // 0x00,0x9D, // TLS_RSA_WITH_AES_256_GCM_SHA384 - openssl s_server ... -cipher AES256-GCM-SHA384: "decryption failed or bad record mac"
1695 0x00,0x3B, // TLS_RSA_WITH_NULL_SHA256
1696#endif
1697 cipherid1 = cipherid[1];
Denys Vlasenko60f78402018-11-26 16:30:22 +01001698 tls->cipher_id = 0x100 * cipherid[0] + cipherid1;
Denys Vlasenkoca7cdd42018-11-26 00:17:10 +01001699 tls->key_size = AES256_KEYSIZE;
1700 tls->MAC_size = SHA256_OUTSIZE;
1701 /*tls->IV_size = 0; - already is */
1702 if (cipherid[0] == 0xC0) {
1703 /* All C0xx are ECDHE */
1704 tls->flags |= NEED_EC_KEY;
1705 if (cipherid1 & 1) {
1706 /* Odd numbered C0xx use AES128 (even ones use AES256) */
1707 tls->key_size = AES128_KEYSIZE;
1708 }
1709 if (cipherid1 <= 0x14) {
1710 tls->MAC_size = SHA1_OUTSIZE;
1711 } else
1712 if (cipherid1 >= 0x2B && cipherid1 <= 0x30) {
1713 /* C02B,2C,2F,30 are AES-GCM */
1714 tls->flags |= ENCRYPTION_AESGCM;
1715 tls->MAC_size = 0;
1716 tls->IV_size = 4;
1717 }
1718 } else {
1719 /* All 00xx are RSA */
1720 if (cipherid1 == 0x2F
1721 || cipherid1 == 0x3C
1722 || cipherid1 == 0x9C
1723 ) {
1724 tls->key_size = AES128_KEYSIZE;
1725 }
1726 if (cipherid1 <= 0x35) {
1727 tls->MAC_size = SHA1_OUTSIZE;
1728 } else
Denys Vlasenko60f78402018-11-26 16:30:22 +01001729 if (cipherid1 == 0x9C /*|| cipherid1 == 0x9D*/) {
Denys Vlasenkoca7cdd42018-11-26 00:17:10 +01001730 /* 009C,9D are AES-GCM */
1731 tls->flags |= ENCRYPTION_AESGCM;
1732 tls->MAC_size = 0;
1733 tls->IV_size = 4;
1734 }
1735 }
Denys Vlasenko60f78402018-11-26 16:30:22 +01001736 dbg("server chose cipher %04x\n", tls->cipher_id);
Denys Vlasenkoca7cdd42018-11-26 00:17:10 +01001737 dbg("key_size:%u MAC_size:%u IV_size:%u\n", tls->key_size, tls->MAC_size, tls->IV_size);
Denys Vlasenko49ecee02017-01-24 16:00:54 +01001738
Denys Vlasenko89193f92017-01-24 18:08:07 +01001739 /* Handshake hash eventually destined to FINISHED record
1740 * is sha256 regardless of cipher
1741 * (at least for all ciphers defined by RFC5246).
1742 * It's not sha1 for AES_128_CBC_SHA - only MAC is sha1, not this hash.
1743 */
Denys Vlasenko83e5c622018-11-23 17:21:38 +01001744/* HANDSHAKE HASH:
Denys Vlasenko89193f92017-01-24 18:08:07 +01001745 sha256_begin(&tls->hsd->handshake_hash_ctx);
Denys Vlasenko49ecee02017-01-24 16:00:54 +01001746 hash_handshake(tls, ">> client hello hash:%s",
1747 tls->hsd->saved_client_hello, tls->hsd->saved_client_hello_size
1748 );
1749 hash_handshake(tls, "<< server hello hash:%s",
1750 tls->inbuf + RECHDR_LEN, len
1751 );
Denys Vlasenko83e5c622018-11-23 17:21:38 +01001752 */
Denys Vlasenko3f8ecd92017-01-15 14:16:51 +01001753}
1754
1755static void get_server_cert(tls_state_t *tls)
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001756{
Denys Vlasenkob1003f72017-01-14 13:57:16 +01001757 struct record_hdr *xhdr;
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001758 uint8_t *certbuf;
1759 int len, len1;
1760
Denys Vlasenkodd2577f2017-01-20 22:48:41 +01001761 len = tls_xread_handshake_block(tls, 10);
Denys Vlasenkoc5540d62017-01-15 02:17:03 +01001762
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001763 xhdr = (void*)tls->inbuf;
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001764 certbuf = (void*)(xhdr + 1);
1765 if (certbuf[0] != HANDSHAKE_CERTIFICATE)
Denys Vlasenko98066662018-02-06 13:33:00 +01001766 bad_record_die(tls, "certificate", len);
Denys Vlasenko5d1662e2017-01-17 18:17:27 +01001767 dbg("<< CERTIFICATE\n");
Denys Vlasenkob1003f72017-01-14 13:57:16 +01001768 // 4392 bytes:
1769 // 0b 00|11|24 00|11|21 00|05|b0 30|82|05|ac|30|82|04|94|a0|03|02|01|02|02|11|00|9f|85|bf|66|4b|0c|dd|af|ca|50|86|79|50|1b|2b|e4|30|0d...
1770 //Cert len=4388 ChainLen CertLen^ DER encoded X509 starts here. openssl x509 -in FILE -inform DER -noout -text
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001771 len1 = get24be(certbuf + 1);
1772 if (len1 > len - 4) tls_error_die(tls);
1773 len = len1;
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001774 len1 = get24be(certbuf + 4);
1775 if (len1 > len - 3) tls_error_die(tls);
1776 len = len1;
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01001777 len1 = get24be(certbuf + 7);
1778 if (len1 > len - 3) tls_error_die(tls);
1779 len = len1;
1780
1781 if (len)
Denys Vlasenko11d00962017-01-15 00:12:42 +01001782 find_key_in_der_cert(tls, certbuf + 10, len);
1783}
1784
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001785/* On input, len is known to be >= 4.
1786 * The record is known to be SERVER_KEY_EXCHANGE.
1787 */
1788static void process_server_key(tls_state_t *tls, int len)
1789{
1790 struct record_hdr *xhdr;
1791 uint8_t *keybuf;
1792 int len1;
1793 uint32_t t32;
1794
1795 xhdr = (void*)tls->inbuf;
1796 keybuf = (void*)(xhdr + 1);
1797//seen from is.gd: it selects curve_x25519:
Denys Vlasenko4e46b982018-11-18 19:50:24 +01001798// 0c 00006e //SERVER_KEY_EXCHANGE, len
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001799// 03 //curve_type: named curve
1800// 001d //curve_x25519
1801//server-chosen EC point, and then signed_params
Denys Vlasenko4e46b982018-11-18 19:50:24 +01001802// (RFC 8422: "A hash of the params, with the signature
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001803// appropriate to that hash applied. The private key corresponding
1804// to the certified public key in the server's Certificate message is
1805// used for signing.")
1806//follow. Format unclear/guessed:
1807// 20 //eccPubKeyLen
1808// 25511923d73b70dd2f60e66ba2f3fda31a9c25170963c7a3a972e481dbb2835d //eccPubKey (32bytes)
1809// 0203 //hashSigAlg: 2:SHA1 (4:SHA256 5:SHA384 6:SHA512), 3:ECDSA (1:RSA)
1810// 0046 //len (16bit)
1811// 30 44 //SEQ, len
1812// 02 20 //INTEGER, len
1813// 2e18e7c2a9badd0a70cd3059a6ab114539b9f5163568911147386cd77ed7c412 //32bytes
1814//this item ^^^^^ is sometimes 33 bytes (with all container sizes also +1)
1815// 02 20 //INTEGER, len
1816// 64523d6216cb94c43c9b20e377d8c52c55be6703fd6730a155930c705eaf3af6 //32bytes
1817//same about this item ^^^^^
Denys Vlasenko4e46b982018-11-18 19:50:24 +01001818
Denys Vlasenko83e5c622018-11-23 17:21:38 +01001819//seen from ftp.openbsd.org
Denys Vlasenko4e46b982018-11-18 19:50:24 +01001820//(which only accepts ECDHE-RSA-AESnnn-GCM-SHAnnn and ECDHE-RSA-CHACHA20-POLY1305 ciphers):
1821// 0c 000228 //SERVER_KEY_EXCHANGE, len
1822// 03 //curve_type: named curve
1823// 001d //curve_x25519
1824// 20 //eccPubKeyLen
1825// eef7a15c43b71a4c7eaa48a39369399cc4332e569ec90a83274cc92596705c1a //eccPubKey
1826// 0401 //hashSigAlg: 4:SHA256, 1:RSA
1827// 0200 //len
1828// //0x200 bytes follow
1829
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001830 /* Get and verify length */
1831 len1 = get24be(keybuf + 1);
1832 if (len1 > len - 4) tls_error_die(tls);
1833 len = len1;
1834 if (len < (1+2+1+32)) tls_error_die(tls);
1835 keybuf += 4;
1836
1837 /* So far we only support curve_x25519 */
1838 move_from_unaligned32(t32, keybuf);
1839 if (t32 != htonl(0x03001d20))
Denys Vlasenkode7b5bb2018-11-13 11:44:32 +01001840 bb_error_msg_and_die("elliptic curve is not x25519");
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001841
1842 memcpy(tls->hsd->ecc_pub_key32, keybuf + 4, 32);
Denys Vlasenko83e5c622018-11-23 17:21:38 +01001843 tls->flags |= GOT_EC_KEY;
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001844 dbg("got eccPubKey\n");
1845}
1846
Denys Vlasenko1500b3a2017-01-24 17:06:10 +01001847static void send_empty_client_cert(tls_state_t *tls)
1848{
1849 struct client_empty_cert {
1850 uint8_t type;
1851 uint8_t len24_hi, len24_mid, len24_lo;
1852 uint8_t cert_chain_len24_hi, cert_chain_len24_mid, cert_chain_len24_lo;
1853 };
1854 struct client_empty_cert *record;
1855
Denys Vlasenkod5a04052018-11-13 11:58:53 +01001856 record = tls_get_zeroed_outbuf(tls, sizeof(*record));
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001857 //fill_handshake_record_hdr(record, HANDSHAKE_CERTIFICATE, sizeof(*record));
1858 //record->cert_chain_len24_hi = 0;
1859 //record->cert_chain_len24_mid = 0;
1860 //record->cert_chain_len24_lo = 0;
Denys Vlasenkode7b5bb2018-11-13 11:44:32 +01001861 // same as above:
Denys Vlasenkod5a04052018-11-13 11:58:53 +01001862 record->type = HANDSHAKE_CERTIFICATE;
1863 record->len24_lo = 3;
Denys Vlasenko1500b3a2017-01-24 17:06:10 +01001864
1865 dbg(">> CERTIFICATE\n");
1866 xwrite_and_update_handshake_hash(tls, sizeof(*record));
1867}
1868
Denys Vlasenko11d00962017-01-15 00:12:42 +01001869static void send_client_key_exchange(tls_state_t *tls)
1870{
Denys Vlasenko11d00962017-01-15 00:12:42 +01001871 struct client_key_exchange {
Denys Vlasenko11d00962017-01-15 00:12:42 +01001872 uint8_t type;
1873 uint8_t len24_hi, len24_mid, len24_lo;
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001874 uint8_t key[2 + 4 * 1024]; // size??
Denys Vlasenko11d00962017-01-15 00:12:42 +01001875 };
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +01001876//FIXME: better size estimate
Denys Vlasenkod5a04052018-11-13 11:58:53 +01001877 struct client_key_exchange *record = tls_get_zeroed_outbuf(tls, sizeof(*record));
Denys Vlasenko38972a82017-01-20 19:11:14 +01001878 uint8_t rsa_premaster[RSA_PREMASTER_SIZE];
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001879 uint8_t x25519_premaster[CURVE25519_KEYSIZE];
1880 uint8_t *premaster;
1881 int premaster_size;
Denys Vlasenkoe2cb3b92017-01-17 16:53:36 +01001882 int len;
Denys Vlasenko11d00962017-01-15 00:12:42 +01001883
Denys Vlasenko83e5c622018-11-23 17:21:38 +01001884 if (!(tls->flags & NEED_EC_KEY)) {
1885 /* RSA */
1886 if (!(tls->flags & GOT_CERT_RSA_KEY_ALG))
1887 bb_error_msg("server cert is not RSA");
1888
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001889 tls_get_random(rsa_premaster, sizeof(rsa_premaster));
1890 if (TLS_DEBUG_FIXED_SECRETS)
1891 memset(rsa_premaster, 0x44, sizeof(rsa_premaster));
1892 // RFC 5246
1893 // "Note: The version number in the PreMasterSecret is the version
1894 // offered by the client in the ClientHello.client_version, not the
1895 // version negotiated for the connection."
1896 rsa_premaster[0] = TLS_MAJ;
1897 rsa_premaster[1] = TLS_MIN;
1898 dump_hex("premaster:%s\n", rsa_premaster, sizeof(rsa_premaster));
1899 len = psRsaEncryptPub(/*pool:*/ NULL,
1900 /* psRsaKey_t* */ &tls->hsd->server_rsa_pub_key,
1901 rsa_premaster, /*inlen:*/ sizeof(rsa_premaster),
1902 record->key + 2, sizeof(record->key) - 2,
1903 data_param_ignored
1904 );
1905 /* keylen16 exists for RSA (in TLS, not in SSL), but not for some other key types */
1906 record->key[0] = len >> 8;
1907 record->key[1] = len & 0xff;
1908 len += 2;
1909 premaster = rsa_premaster;
1910 premaster_size = sizeof(rsa_premaster);
1911 } else {
Denys Vlasenko83e5c622018-11-23 17:21:38 +01001912 /* ECDHE */
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001913 static const uint8_t basepoint9[CURVE25519_KEYSIZE] = {9};
1914 uint8_t privkey[CURVE25519_KEYSIZE]; //[32]
1915
Denys Vlasenko83e5c622018-11-23 17:21:38 +01001916 if (!(tls->flags & GOT_EC_KEY))
1917 bb_error_msg("server did not provide EC key");
1918
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001919 /* Generate random private key, see RFC 7748 */
1920 tls_get_random(privkey, sizeof(privkey));
1921 privkey[0] &= 0xf8;
1922 privkey[CURVE25519_KEYSIZE-1] = ((privkey[CURVE25519_KEYSIZE-1] & 0x7f) | 0x40);
1923
1924 /* Compute public key */
1925 curve25519(record->key + 1, privkey, basepoint9);
1926
1927 /* Compute premaster using peer's public key */
1928 dbg("computing x25519_premaster\n");
1929 curve25519(x25519_premaster, privkey, tls->hsd->ecc_pub_key32);
1930
1931 len = CURVE25519_KEYSIZE;
1932 record->key[0] = len;
1933 len++;
1934 premaster = x25519_premaster;
1935 premaster_size = sizeof(x25519_premaster);
1936 }
1937
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +01001938 record->type = HANDSHAKE_CLIENT_KEY_EXCHANGE;
Denys Vlasenkod5a04052018-11-13 11:58:53 +01001939 /* record->len24_hi = 0; - already is */
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +01001940 record->len24_mid = len >> 8;
1941 record->len24_lo = len & 0xff;
Denys Vlasenkoe2cb3b92017-01-17 16:53:36 +01001942 len += 4;
Denys Vlasenko11d00962017-01-15 00:12:42 +01001943
Denys Vlasenkoc8ba23b2017-01-18 06:45:50 +01001944 dbg(">> CLIENT_KEY_EXCHANGE\n");
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +01001945 xwrite_and_update_handshake_hash(tls, len);
Denys Vlasenko936e83e2017-01-16 04:25:01 +01001946
Denys Vlasenkoe2cb3b92017-01-17 16:53:36 +01001947 // RFC 5246
1948 // For all key exchange methods, the same algorithm is used to convert
1949 // the pre_master_secret into the master_secret. The pre_master_secret
1950 // should be deleted from memory once the master_secret has been
1951 // computed.
1952 // master_secret = PRF(pre_master_secret, "master secret",
1953 // ClientHello.random + ServerHello.random)
1954 // [0..47];
1955 // The master secret is always exactly 48 bytes in length. The length
1956 // of the premaster secret will vary depending on key exchange method.
Denys Vlasenko89193f92017-01-24 18:08:07 +01001957 prf_hmac_sha256(/*tls,*/
Denys Vlasenko9a647c32017-01-23 01:08:16 +01001958 tls->hsd->master_secret, sizeof(tls->hsd->master_secret),
Denys Vlasenkobddb6542018-11-13 02:16:24 +01001959 premaster, premaster_size,
Denys Vlasenko936e83e2017-01-16 04:25:01 +01001960 "master secret",
Denys Vlasenko9a647c32017-01-23 01:08:16 +01001961 tls->hsd->client_and_server_rand32, sizeof(tls->hsd->client_and_server_rand32)
Denys Vlasenko936e83e2017-01-16 04:25:01 +01001962 );
Denys Vlasenko9a647c32017-01-23 01:08:16 +01001963 dump_hex("master secret:%s\n", tls->hsd->master_secret, sizeof(tls->hsd->master_secret));
Denys Vlasenko9a6897a2017-01-16 23:26:33 +01001964
Denys Vlasenkoe2cb3b92017-01-17 16:53:36 +01001965 // RFC 5246
1966 // 6.3. Key Calculation
1967 //
1968 // The Record Protocol requires an algorithm to generate keys required
1969 // by the current connection state (see Appendix A.6) from the security
1970 // parameters provided by the handshake protocol.
1971 //
1972 // The master secret is expanded into a sequence of secure bytes, which
1973 // is then split to a client write MAC key, a server write MAC key, a
1974 // client write encryption key, and a server write encryption key. Each
1975 // of these is generated from the byte sequence in that order. Unused
1976 // values are empty. Some AEAD ciphers may additionally require a
1977 // client write IV and a server write IV (see Section 6.2.3.3).
1978 //
1979 // When keys and MAC keys are generated, the master secret is used as an
1980 // entropy source.
1981 //
1982 // To generate the key material, compute
1983 //
1984 // key_block = PRF(SecurityParameters.master_secret,
1985 // "key expansion",
1986 // SecurityParameters.server_random +
1987 // SecurityParameters.client_random);
1988 //
1989 // until enough output has been generated. Then, the key_block is
1990 // partitioned as follows:
1991 //
1992 // client_write_MAC_key[SecurityParameters.mac_key_length]
1993 // server_write_MAC_key[SecurityParameters.mac_key_length]
1994 // client_write_key[SecurityParameters.enc_key_length]
1995 // server_write_key[SecurityParameters.enc_key_length]
1996 // client_write_IV[SecurityParameters.fixed_iv_length]
1997 // server_write_IV[SecurityParameters.fixed_iv_length]
1998 {
1999 uint8_t tmp64[64];
Denys Vlasenkob5dfc3d2017-01-18 20:37:24 +01002000
2001 /* make "server_rand32 + client_rand32" */
Denys Vlasenko9a647c32017-01-23 01:08:16 +01002002 memcpy(&tmp64[0] , &tls->hsd->client_and_server_rand32[32], 32);
2003 memcpy(&tmp64[32], &tls->hsd->client_and_server_rand32[0] , 32);
Denys Vlasenko9a6897a2017-01-16 23:26:33 +01002004
Denys Vlasenko89193f92017-01-24 18:08:07 +01002005 prf_hmac_sha256(/*tls,*/
Denys Vlasenko83e5c622018-11-23 17:21:38 +01002006 tls->client_write_MAC_key, 2 * (tls->MAC_size + tls->key_size + tls->IV_size),
Denys Vlasenkob5dfc3d2017-01-18 20:37:24 +01002007 // also fills:
Denys Vlasenko49ecee02017-01-24 16:00:54 +01002008 // server_write_MAC_key[]
2009 // client_write_key[]
2010 // server_write_key[]
Denys Vlasenko83e5c622018-11-23 17:21:38 +01002011 // client_write_IV[]
2012 // server_write_IV[]
Denys Vlasenko9a647c32017-01-23 01:08:16 +01002013 tls->hsd->master_secret, sizeof(tls->hsd->master_secret),
Denys Vlasenkoe2cb3b92017-01-17 16:53:36 +01002014 "key expansion",
2015 tmp64, 64
2016 );
Denys Vlasenko49ecee02017-01-24 16:00:54 +01002017 tls->client_write_key = tls->client_write_MAC_key + (2 * tls->MAC_size);
2018 tls->server_write_key = tls->client_write_key + tls->key_size;
Denys Vlasenko83e5c622018-11-23 17:21:38 +01002019 tls->client_write_IV = tls->server_write_key + tls->key_size;
2020 tls->server_write_IV = tls->client_write_IV + tls->IV_size;
Denys Vlasenkoe2cb3b92017-01-17 16:53:36 +01002021 dump_hex("client_write_MAC_key:%s\n",
Denys Vlasenko49ecee02017-01-24 16:00:54 +01002022 tls->client_write_MAC_key, tls->MAC_size
Denys Vlasenkoe2cb3b92017-01-17 16:53:36 +01002023 );
Denys Vlasenkob5dfc3d2017-01-18 20:37:24 +01002024 dump_hex("client_write_key:%s\n",
Denys Vlasenko49ecee02017-01-24 16:00:54 +01002025 tls->client_write_key, tls->key_size
Denys Vlasenkob5dfc3d2017-01-18 20:37:24 +01002026 );
Denys Vlasenko83e5c622018-11-23 17:21:38 +01002027 dump_hex("client_write_IV:%s\n",
2028 tls->client_write_IV, tls->IV_size
2029 );
Denys Vlasenko5e4236d2018-11-23 18:02:44 +01002030
Denys Vlasenko83e5c622018-11-23 17:21:38 +01002031 aes_setkey(&tls->aes_decrypt, tls->server_write_key, tls->key_size);
Denys Vlasenko5e4236d2018-11-23 18:02:44 +01002032 aes_setkey(&tls->aes_encrypt, tls->client_write_key, tls->key_size);
2033 {
2034 uint8_t iv[AES_BLOCK_SIZE];
2035 memset(iv, 0, AES_BLOCK_SIZE);
2036 aes_encrypt_one_block(&tls->aes_encrypt, iv, tls->H);
2037 }
Denys Vlasenkoe2cb3b92017-01-17 16:53:36 +01002038 }
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01002039}
2040
Denys Vlasenkoe69d78c2017-01-17 17:24:11 +01002041static const uint8_t rec_CHANGE_CIPHER_SPEC[] = {
2042 RECORD_TYPE_CHANGE_CIPHER_SPEC, TLS_MAJ, TLS_MIN, 00, 01,
2043 01
2044};
2045
Denys Vlasenkoc5540d62017-01-15 02:17:03 +01002046static void send_change_cipher_spec(tls_state_t *tls)
2047{
Denys Vlasenkoe2cb3b92017-01-17 16:53:36 +01002048 dbg(">> CHANGE_CIPHER_SPEC\n");
Denys Vlasenko9a647c32017-01-23 01:08:16 +01002049 xwrite(tls->ofd, rec_CHANGE_CIPHER_SPEC, sizeof(rec_CHANGE_CIPHER_SPEC));
Denys Vlasenkoc5540d62017-01-15 02:17:03 +01002050}
2051
Denys Vlasenko3f8ecd92017-01-15 14:16:51 +01002052// 7.4.9. Finished
2053// A Finished message is always sent immediately after a change
2054// cipher spec message to verify that the key exchange and
2055// authentication processes were successful. It is essential that a
2056// change cipher spec message be received between the other handshake
2057// messages and the Finished message.
2058//...
2059// The Finished message is the first one protected with the just
2060// negotiated algorithms, keys, and secrets. Recipients of Finished
2061// messages MUST verify that the contents are correct. Once a side
2062// has sent its Finished message and received and validated the
2063// Finished message from its peer, it may begin to send and receive
2064// application data over the connection.
2065//...
2066// struct {
2067// opaque verify_data[verify_data_length];
2068// } Finished;
2069//
2070// verify_data
2071// PRF(master_secret, finished_label, Hash(handshake_messages))
2072// [0..verify_data_length-1];
2073//
2074// finished_label
2075// For Finished messages sent by the client, the string
2076// "client finished". For Finished messages sent by the server,
2077// the string "server finished".
2078//
2079// Hash denotes a Hash of the handshake messages. For the PRF
2080// defined in Section 5, the Hash MUST be the Hash used as the basis
2081// for the PRF. Any cipher suite which defines a different PRF MUST
2082// also define the Hash to use in the Finished computation.
2083//
2084// In previous versions of TLS, the verify_data was always 12 octets
2085// long. In the current version of TLS, it depends on the cipher
2086// suite. Any cipher suite which does not explicitly specify
2087// verify_data_length has a verify_data_length equal to 12. This
2088// includes all existing cipher suites.
Denys Vlasenkoe2cb3b92017-01-17 16:53:36 +01002089static void send_client_finished(tls_state_t *tls)
2090{
Denys Vlasenkoc8ba23b2017-01-18 06:45:50 +01002091 struct finished {
Denys Vlasenko936e83e2017-01-16 04:25:01 +01002092 uint8_t type;
2093 uint8_t len24_hi, len24_mid, len24_lo;
2094 uint8_t prf_result[12];
2095 };
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +01002096 struct finished *record = tls_get_outbuf(tls, sizeof(*record));
Denys Vlasenko49ecee02017-01-24 16:00:54 +01002097 uint8_t handshake_hash[TLS_MAX_MAC_SIZE];
2098 unsigned len;
Denys Vlasenko936e83e2017-01-16 04:25:01 +01002099
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +01002100 fill_handshake_record_hdr(record, HANDSHAKE_FINISHED, sizeof(*record));
Denys Vlasenko936e83e2017-01-16 04:25:01 +01002101
Denys Vlasenkoeb53d012018-11-25 14:45:55 +01002102 len = sha_end(&tls->hsd->handshake_hash_ctx, handshake_hash);
2103
Denys Vlasenko89193f92017-01-24 18:08:07 +01002104 prf_hmac_sha256(/*tls,*/
Denys Vlasenko49ecee02017-01-24 16:00:54 +01002105 record->prf_result, sizeof(record->prf_result),
2106 tls->hsd->master_secret, sizeof(tls->hsd->master_secret),
2107 "client finished",
2108 handshake_hash, len
Denys Vlasenko936e83e2017-01-16 04:25:01 +01002109 );
Denys Vlasenko9a647c32017-01-23 01:08:16 +01002110 dump_hex("from secret: %s\n", tls->hsd->master_secret, sizeof(tls->hsd->master_secret));
Denys Vlasenkoe2cb3b92017-01-17 16:53:36 +01002111 dump_hex("from labelSeed: %s", "client finished", sizeof("client finished")-1);
Denys Vlasenkoc8ba23b2017-01-18 06:45:50 +01002112 dump_hex("%s\n", handshake_hash, sizeof(handshake_hash));
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +01002113 dump_hex("=> digest: %s\n", record->prf_result, sizeof(record->prf_result));
Denys Vlasenko9a6897a2017-01-16 23:26:33 +01002114
Denys Vlasenkoc8ba23b2017-01-18 06:45:50 +01002115 dbg(">> FINISHED\n");
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +01002116 xwrite_encrypted(tls, sizeof(*record), RECORD_TYPE_HANDSHAKE);
Denys Vlasenko3f8ecd92017-01-15 14:16:51 +01002117}
2118
Denys Vlasenko9a647c32017-01-23 01:08:16 +01002119void FAST_FUNC tls_handshake(tls_state_t *tls, const char *sni)
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01002120{
2121 // Client RFC 5246 Server
2122 // (*) - optional messages, not always sent
2123 //
2124 // ClientHello ------->
2125 // ServerHello
2126 // Certificate*
2127 // ServerKeyExchange*
2128 // CertificateRequest*
2129 // <------- ServerHelloDone
2130 // Certificate*
2131 // ClientKeyExchange
2132 // CertificateVerify*
2133 // [ChangeCipherSpec]
2134 // Finished ------->
2135 // [ChangeCipherSpec]
2136 // <------- Finished
2137 // Application Data <------> Application Data
2138 int len;
Denys Vlasenko98066662018-02-06 13:33:00 +01002139 int got_cert_req;
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01002140
Denys Vlasenko49ecee02017-01-24 16:00:54 +01002141 send_client_hello_and_alloc_hsd(tls, sni);
Denys Vlasenko3f8ecd92017-01-15 14:16:51 +01002142 get_server_hello(tls);
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01002143
Denys Vlasenko38972a82017-01-20 19:11:14 +01002144 // RFC 5246
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01002145 // The server MUST send a Certificate message whenever the agreed-
2146 // upon key exchange method uses certificates for authentication
2147 // (this includes all key exchange methods defined in this document
2148 // except DH_anon). This message will always immediately follow the
2149 // ServerHello message.
2150 //
2151 // IOW: in practice, Certificate *always* follows.
2152 // (for example, kernel.org does not even accept DH_anon cipher id)
Denys Vlasenko3f8ecd92017-01-15 14:16:51 +01002153 get_server_cert(tls);
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01002154
Denys Vlasenkodd2577f2017-01-20 22:48:41 +01002155 len = tls_xread_handshake_block(tls, 4);
Denys Vlasenkoa0aae9f2017-01-20 14:12:10 +01002156 if (tls->inbuf[RECHDR_LEN] == HANDSHAKE_SERVER_KEY_EXCHANGE) {
Denys Vlasenkob1003f72017-01-14 13:57:16 +01002157 // 459 bytes:
2158 // 0c 00|01|c7 03|00|17|41|04|87|94|2e|2f|68|d0|c9|f4|97|a8|2d|ef|ed|67|ea|c6|f3|b3|56|47|5d|27|b6|bd|ee|70|25|30|5e|b0|8e|f6|21|5a...
2159 //SvKey len=455^
Denys Vlasenko11d00962017-01-15 00:12:42 +01002160 // with TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA: 461 bytes:
2161 // 0c 00|01|c9 03|00|17|41|04|cd|9b|b4|29|1f|f6|b0|c2|84|82|7f|29|6a|47|4e|ec|87|0b|c1|9c|69|e1|f8|c6|d0|53|e9|27|90|a5|c8|02|15|75...
Denys Vlasenkobddb6542018-11-13 02:16:24 +01002162 //
2163 // RFC 8422 5.4. Server Key Exchange
2164 // This message is sent when using the ECDHE_ECDSA, ECDHE_RSA, and
2165 // ECDH_anon key exchange algorithms.
2166 // This message is used to convey the server's ephemeral ECDH public key
2167 // (and the corresponding elliptic curve domain parameters) to the
2168 // client.
Denys Vlasenko5d1662e2017-01-17 18:17:27 +01002169 dbg("<< SERVER_KEY_EXCHANGE len:%u\n", len);
Denys Vlasenkobddb6542018-11-13 02:16:24 +01002170 dump_raw_in("<< %s\n", tls->inbuf, RECHDR_LEN + len);
Denys Vlasenko83e5c622018-11-23 17:21:38 +01002171 if (tls->flags & NEED_EC_KEY)
Denys Vlasenkobddb6542018-11-13 02:16:24 +01002172 process_server_key(tls, len);
2173
2174 // read next handshake block
Denys Vlasenko1500b3a2017-01-24 17:06:10 +01002175 len = tls_xread_handshake_block(tls, 4);
Denys Vlasenkoc5540d62017-01-15 02:17:03 +01002176 }
Denys Vlasenko5d1662e2017-01-17 18:17:27 +01002177
Denys Vlasenko98066662018-02-06 13:33:00 +01002178 got_cert_req = (tls->inbuf[RECHDR_LEN] == HANDSHAKE_CERTIFICATE_REQUEST);
2179 if (got_cert_req) {
Denys Vlasenko1500b3a2017-01-24 17:06:10 +01002180 dbg("<< CERTIFICATE_REQUEST\n");
2181 // RFC 5246: "If no suitable certificate is available,
2182 // the client MUST send a certificate message containing no
2183 // certificates. That is, the certificate_list structure has a
2184 // length of zero. ...
2185 // Client certificates are sent using the Certificate structure
2186 // defined in Section 7.4.2."
2187 // (i.e. the same format as server certs)
Denys Vlasenko98066662018-02-06 13:33:00 +01002188
2189 /*send_empty_client_cert(tls); - WRONG (breaks handshake hash calc) */
2190 /* need to hash _all_ server replies first, up to ServerHelloDone */
Denys Vlasenko1500b3a2017-01-24 17:06:10 +01002191 len = tls_xread_handshake_block(tls, 4);
2192 }
Denys Vlasenko5d1662e2017-01-17 18:17:27 +01002193
Denys Vlasenko1500b3a2017-01-24 17:06:10 +01002194 if (tls->inbuf[RECHDR_LEN] != HANDSHAKE_SERVER_HELLO_DONE) {
2195 bad_record_die(tls, "'server hello done'", len);
2196 }
Denys Vlasenkoe69d78c2017-01-17 17:24:11 +01002197 // 0e 000000 (len:0)
Denys Vlasenko5d1662e2017-01-17 18:17:27 +01002198 dbg("<< SERVER_HELLO_DONE\n");
Denys Vlasenkoe69d78c2017-01-17 17:24:11 +01002199
Denys Vlasenko98066662018-02-06 13:33:00 +01002200 if (got_cert_req)
2201 send_empty_client_cert(tls);
2202
Denys Vlasenkoe69d78c2017-01-17 17:24:11 +01002203 send_client_key_exchange(tls);
2204
2205 send_change_cipher_spec(tls);
Denys Vlasenkocccf8e72017-01-19 00:20:45 +01002206 /* from now on we should send encrypted */
2207 /* tls->write_seq64_be = 0; - already is */
Denys Vlasenkoeb53d012018-11-25 14:45:55 +01002208 tls->flags |= ENCRYPT_ON_WRITE;
Denys Vlasenkoe69d78c2017-01-17 17:24:11 +01002209
2210 send_client_finished(tls);
2211
2212 /* Get CHANGE_CIPHER_SPEC */
Denys Vlasenko98066662018-02-06 13:33:00 +01002213 len = tls_xread_record(tls, "switch to encrypted traffic");
Denys Vlasenkoe69d78c2017-01-17 17:24:11 +01002214 if (len != 1 || memcmp(tls->inbuf, rec_CHANGE_CIPHER_SPEC, 6) != 0)
Denys Vlasenko1500b3a2017-01-24 17:06:10 +01002215 bad_record_die(tls, "switch to encrypted traffic", len);
Denys Vlasenko5d1662e2017-01-17 18:17:27 +01002216 dbg("<< CHANGE_CIPHER_SPEC\n");
Denys Vlasenko83e5c622018-11-23 17:21:38 +01002217
Denys Vlasenkoca7cdd42018-11-26 00:17:10 +01002218 if (ALLOW_RSA_NULL_SHA256
Denys Vlasenko5d561ef2017-04-04 01:41:15 +02002219 && tls->cipher_id == TLS_RSA_WITH_NULL_SHA256
2220 ) {
Denys Vlasenko49ecee02017-01-24 16:00:54 +01002221 tls->min_encrypted_len_on_read = tls->MAC_size;
Denys Vlasenko83e5c622018-11-23 17:21:38 +01002222 } else
2223 if (!(tls->flags & ENCRYPTION_AESGCM)) {
2224 unsigned mac_blocks = (unsigned)(tls->MAC_size + AES_BLOCK_SIZE-1) / AES_BLOCK_SIZE;
Denys Vlasenko89193f92017-01-24 18:08:07 +01002225 /* all incoming packets now should be encrypted and have
2226 * at least IV + (MAC padded to blocksize):
2227 */
Denys Vlasenko83e5c622018-11-23 17:21:38 +01002228 tls->min_encrypted_len_on_read = AES_BLOCK_SIZE + (mac_blocks * AES_BLOCK_SIZE);
2229 } else {
2230 tls->min_encrypted_len_on_read = 8 + AES_BLOCK_SIZE;
Denys Vlasenko89193f92017-01-24 18:08:07 +01002231 }
Denys Vlasenko83e5c622018-11-23 17:21:38 +01002232 dbg("min_encrypted_len_on_read: %u\n", tls->min_encrypted_len_on_read);
Denys Vlasenkoe69d78c2017-01-17 17:24:11 +01002233
2234 /* Get (encrypted) FINISHED from the server */
Denys Vlasenko98066662018-02-06 13:33:00 +01002235 len = tls_xread_record(tls, "'server finished'");
Denys Vlasenkoa0aae9f2017-01-20 14:12:10 +01002236 if (len < 4 || tls->inbuf[RECHDR_LEN] != HANDSHAKE_FINISHED)
Denys Vlasenko98066662018-02-06 13:33:00 +01002237 bad_record_die(tls, "'server finished'", len);
Denys Vlasenko5d1662e2017-01-17 18:17:27 +01002238 dbg("<< FINISHED\n");
Denys Vlasenkoe69d78c2017-01-17 17:24:11 +01002239 /* application data can be sent/received */
Denys Vlasenko9a647c32017-01-23 01:08:16 +01002240
2241 /* free handshake data */
Denys Vlasenkoa6192f32018-11-25 16:17:26 +01002242 psRsaKey_clear(&tls->hsd->server_rsa_pub_key);
Denys Vlasenko9a647c32017-01-23 01:08:16 +01002243// if (PARANOIA)
Denys Vlasenko49ecee02017-01-24 16:00:54 +01002244// memset(tls->hsd, 0, tls->hsd->hsd_size);
Denys Vlasenko9a647c32017-01-23 01:08:16 +01002245 free(tls->hsd);
2246 tls->hsd = NULL;
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01002247}
2248
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +01002249static void tls_xwrite(tls_state_t *tls, int len)
2250{
2251 dbg(">> DATA\n");
2252 xwrite_encrypted(tls, len, RECORD_TYPE_APPLICATION_DATA);
2253}
2254
Denys Vlasenko936e83e2017-01-16 04:25:01 +01002255// To run a test server using openssl:
Denys Vlasenko936e83e2017-01-16 04:25:01 +01002256// openssl req -x509 -newkey rsa:$((4096/4*3)) -keyout key.pem -out server.pem -nodes -days 99999 -subj '/CN=localhost'
Denys Vlasenko2eb04292018-11-26 16:39:19 +01002257// openssl s_server -key key.pem -cert server.pem -debug -tls1_2
Denys Vlasenkocccf8e72017-01-19 00:20:45 +01002258//
2259// Unencryped SHA256 example:
2260// openssl req -x509 -newkey rsa:$((4096/4*3)) -keyout key.pem -out server.pem -nodes -days 99999 -subj '/CN=localhost'
Denys Vlasenko2eb04292018-11-26 16:39:19 +01002261// openssl s_server -key key.pem -cert server.pem -debug -tls1_2 -cipher NULL
2262// openssl s_client -connect 127.0.0.1:4433 -debug -tls1_2 -cipher NULL-SHA256
Denys Vlasenko936e83e2017-01-16 04:25:01 +01002263
Denys Vlasenko403f2992018-02-06 15:15:08 +01002264void FAST_FUNC tls_run_copy_loop(tls_state_t *tls, unsigned flags)
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01002265{
Denys Vlasenko38972a82017-01-20 19:11:14 +01002266 int inbuf_size;
2267 const int INBUF_STEP = 4 * 1024;
Denys Vlasenko0ec4d082017-02-16 16:27:39 +01002268 struct pollfd pfds[2];
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01002269
Denys Vlasenko0ec4d082017-02-16 16:27:39 +01002270 pfds[0].fd = STDIN_FILENO;
2271 pfds[0].events = POLLIN;
2272 pfds[1].fd = tls->ifd;
2273 pfds[1].events = POLLIN;
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +01002274
Denys Vlasenko38972a82017-01-20 19:11:14 +01002275 inbuf_size = INBUF_STEP;
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +01002276 for (;;) {
2277 int nread;
2278
Denys Vlasenko0ec4d082017-02-16 16:27:39 +01002279 if (safe_poll(pfds, 2, -1) < 0)
2280 bb_perror_msg_and_die("poll");
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +01002281
Denys Vlasenko0ec4d082017-02-16 16:27:39 +01002282 if (pfds[0].revents) {
Denys Vlasenkoa0aae9f2017-01-20 14:12:10 +01002283 void *buf;
2284
2285 dbg("STDIN HAS DATA\n");
Denys Vlasenko38972a82017-01-20 19:11:14 +01002286 buf = tls_get_outbuf(tls, inbuf_size);
2287 nread = safe_read(STDIN_FILENO, buf, inbuf_size);
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +01002288 if (nread < 1) {
Denys Vlasenko38972a82017-01-20 19:11:14 +01002289 /* We'd want to do this: */
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +01002290 /* Close outgoing half-connection so they get EOF,
Denys Vlasenko38972a82017-01-20 19:11:14 +01002291 * but leave incoming alone so we can see response
2292 */
Denys Vlasenko9a647c32017-01-23 01:08:16 +01002293 //shutdown(tls->ofd, SHUT_WR);
Denys Vlasenko38972a82017-01-20 19:11:14 +01002294 /* But TLS has no way to encode this,
2295 * doubt it's ok to do it "raw"
2296 */
Denys Vlasenko0ec4d082017-02-16 16:27:39 +01002297 pfds[0].fd = -1;
Denys Vlasenko39161392017-01-20 20:27:06 +01002298 tls_free_outbuf(tls); /* mem usage optimization */
Denys Vlasenko403f2992018-02-06 15:15:08 +01002299 if (flags & TLSLOOP_EXIT_ON_LOCAL_EOF)
2300 break;
Denys Vlasenko38972a82017-01-20 19:11:14 +01002301 } else {
2302 if (nread == inbuf_size) {
2303 /* TLS has per record overhead, if input comes fast,
2304 * read, encrypt and send bigger chunks
2305 */
2306 inbuf_size += INBUF_STEP;
Denys Vlasenko49ecee02017-01-24 16:00:54 +01002307 if (inbuf_size > TLS_MAX_OUTBUF)
2308 inbuf_size = TLS_MAX_OUTBUF;
Denys Vlasenko38972a82017-01-20 19:11:14 +01002309 }
2310 tls_xwrite(tls, nread);
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +01002311 }
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +01002312 }
Denys Vlasenko0ec4d082017-02-16 16:27:39 +01002313 if (pfds[1].revents) {
Denys Vlasenkoa0aae9f2017-01-20 14:12:10 +01002314 dbg("NETWORK HAS DATA\n");
Denys Vlasenko38972a82017-01-20 19:11:14 +01002315 read_record:
Denys Vlasenko98066662018-02-06 13:33:00 +01002316 nread = tls_xread_record(tls, "encrypted data");
Denys Vlasenko38972a82017-01-20 19:11:14 +01002317 if (nread < 1) {
2318 /* TLS protocol has no real concept of one-sided shutdowns:
2319 * if we get "TLS EOF" from the peer, writes will fail too
2320 */
Denys Vlasenko0ec4d082017-02-16 16:27:39 +01002321 //pfds[1].fd = -1;
Denys Vlasenko38972a82017-01-20 19:11:14 +01002322 //close(STDOUT_FILENO);
Denys Vlasenko39161392017-01-20 20:27:06 +01002323 //tls_free_inbuf(tls); /* mem usage optimization */
Denys Vlasenko38972a82017-01-20 19:11:14 +01002324 //continue;
2325 break;
2326 }
2327 if (tls->inbuf[0] != RECORD_TYPE_APPLICATION_DATA)
Denys Vlasenko98066662018-02-06 13:33:00 +01002328 bad_record_die(tls, "encrypted data", nread);
Denys Vlasenkoa0aae9f2017-01-20 14:12:10 +01002329 xwrite(STDOUT_FILENO, tls->inbuf + RECHDR_LEN, nread);
Denys Vlasenko38972a82017-01-20 19:11:14 +01002330 /* We may already have a complete next record buffered,
2331 * can process it without network reads (and possible blocking)
2332 */
2333 if (tls_has_buffered_record(tls))
2334 goto read_record;
Denys Vlasenkoabbf17a2017-01-20 03:15:09 +01002335 }
2336 }
Denys Vlasenkoceff6b02017-01-14 12:49:32 +01002337}