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|
/*
* Licensed under GPLv2, see file LICENSE in this source tree.
*
* Copyright (C) 2017 Denys Vlasenko
*/
//config:config TLS
//config: bool "tls (debugging)"
//config: default n
//applet:IF_TLS(APPLET(tls, BB_DIR_USR_BIN, BB_SUID_DROP))
//kbuild:lib-$(CONFIG_TLS) += tls.o
////kbuild:lib-$(CONFIG_TLS) += tls_ciphers.o
////kbuild:lib-$(CONFIG_TLS) += tls_aes.o
////kbuild:lib-$(CONFIG_TLS) += tls_aes_gcm.o
//usage:#define tls_trivial_usage
//usage: "HOST[:PORT]"
//usage:#define tls_full_usage "\n\n"
#include "libbb.h"
//#include "tls_cryptoapi.h"
//#include "tls_ciphers.h"
#if 1
# define dbg(...) fprintf(stderr, __VA_ARGS__)
#else
# define dbg(...) ((void)0)
#endif
#define RECORD_TYPE_CHANGE_CIPHER_SPEC 20
#define RECORD_TYPE_ALERT 21
#define RECORD_TYPE_HANDSHAKE 22
#define RECORD_TYPE_APPLICATION_DATA 23
#define HANDSHAKE_HELLO_REQUEST 0
#define HANDSHAKE_CLIENT_HELLO 1
#define HANDSHAKE_SERVER_HELLO 2
#define HANDSHAKE_HELLO_VERIFY_REQUEST 3
#define HANDSHAKE_NEW_SESSION_TICKET 4
#define HANDSHAKE_CERTIFICATE 11
#define HANDSHAKE_SERVER_KEY_EXCHANGE 12
#define HANDSHAKE_CERTIFICATE_REQUEST 13
#define HANDSHAKE_SERVER_HELLO_DONE 14
#define HANDSHAKE_CERTIFICATE_VERIFY 15
#define HANDSHAKE_CLIENT_KEY_EXCHANGE 16
#define HANDSHAKE_FINISHED 20
#define SSL_NULL_WITH_NULL_NULL 0x0000
#define SSL_RSA_WITH_NULL_MD5 0x0001
#define SSL_RSA_WITH_NULL_SHA 0x0002
#define SSL_RSA_WITH_RC4_128_MD5 0x0004
#define SSL_RSA_WITH_RC4_128_SHA 0x0005
#define SSL_RSA_WITH_3DES_EDE_CBC_SHA 0x000A /* 10 */
#define TLS_RSA_WITH_AES_128_CBC_SHA 0x002F /* 47 */
#define TLS_RSA_WITH_AES_256_CBC_SHA 0x0035 /* 53 */
#define TLS_EMPTY_RENEGOTIATION_INFO_SCSV 0x00FF
#define TLS_RSA_WITH_IDEA_CBC_SHA 0x0007 /* 7 */
#define SSL_DHE_RSA_WITH_3DES_EDE_CBC_SHA 0x0016 /* 22 */
#define SSL_DH_anon_WITH_RC4_128_MD5 0x0018 /* 24 */
#define SSL_DH_anon_WITH_3DES_EDE_CBC_SHA 0x001B /* 27 */
#define TLS_DHE_RSA_WITH_AES_128_CBC_SHA 0x0033 /* 51 */
#define TLS_DHE_RSA_WITH_AES_256_CBC_SHA 0x0039 /* 57 */
#define TLS_DHE_RSA_WITH_AES_128_CBC_SHA256 0x0067 /* 103 */
#define TLS_DHE_RSA_WITH_AES_256_CBC_SHA256 0x006B /* 107 */
#define TLS_DH_anon_WITH_AES_128_CBC_SHA 0x0034 /* 52 */
#define TLS_DH_anon_WITH_AES_256_CBC_SHA 0x003A /* 58 */
#define TLS_RSA_WITH_AES_128_CBC_SHA256 0x003C /* 60 */
#define TLS_RSA_WITH_AES_256_CBC_SHA256 0x003D /* 61 */
#define TLS_RSA_WITH_SEED_CBC_SHA 0x0096 /* 150 */
#define TLS_PSK_WITH_AES_128_CBC_SHA 0x008C /* 140 */
#define TLS_PSK_WITH_AES_128_CBC_SHA256 0x00AE /* 174 */
#define TLS_PSK_WITH_AES_256_CBC_SHA384 0x00AF /* 175 */
#define TLS_PSK_WITH_AES_256_CBC_SHA 0x008D /* 141 */
#define TLS_DHE_PSK_WITH_AES_128_CBC_SHA 0x0090 /* 144 */
#define TLS_DHE_PSK_WITH_AES_256_CBC_SHA 0x0091 /* 145 */
#define TLS_ECDH_ECDSA_WITH_AES_128_CBC_SHA 0xC004 /* 49156 */
#define TLS_ECDH_ECDSA_WITH_AES_256_CBC_SHA 0xC005 /* 49157 */
#define TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA 0xC009 /* 49161 */
#define TLS_ECDHE_ECDSA_WITH_AES_256_CBC_SHA 0xC00A /* 49162 */
#define TLS_ECDHE_RSA_WITH_3DES_EDE_CBC_SHA 0xC012 /* 49170 */
#define TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA 0xC013 /* 49171 */
#define TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA 0xC014 /* 49172 */
#define TLS_ECDH_RSA_WITH_AES_128_CBC_SHA 0xC00E /* 49166 */
#define TLS_ECDH_RSA_WITH_AES_256_CBC_SHA 0xC00F /* 49167 */
#define TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA256 0xC023 /* 49187 */
#define TLS_ECDHE_ECDSA_WITH_AES_256_CBC_SHA384 0xC024 /* 49188 */
#define TLS_ECDH_ECDSA_WITH_AES_128_CBC_SHA256 0xC025 /* 49189 */
#define TLS_ECDH_ECDSA_WITH_AES_256_CBC_SHA384 0xC026 /* 49190 */
#define TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA256 0xC027 /* 49191 */
#define TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA384 0xC028 /* 49192 */
#define TLS_ECDH_RSA_WITH_AES_128_CBC_SHA256 0xC029 /* 49193 */
#define TLS_ECDH_RSA_WITH_AES_256_CBC_SHA384 0xC02A /* 49194 */
#define TLS_RSA_WITH_AES_128_GCM_SHA256 0x009C /* 156 */
#define TLS_RSA_WITH_AES_256_GCM_SHA384 0x009D /* 157 */
#define TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256 0xC02B /* 49195 */
#define TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384 0xC02C /* 49196 */
#define TLS_ECDH_ECDSA_WITH_AES_128_GCM_SHA256 0xC02D /* 49197 */
#define TLS_ECDH_ECDSA_WITH_AES_256_GCM_SHA384 0xC02E /* 49198 */
#define TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256 0xC02F /* 49199 */
#define TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384 0xC030 /* 49200 */
#define TLS_ECDH_RSA_WITH_AES_128_GCM_SHA256 0xC031 /* 49201 */
#define TLS_ECDH_RSA_WITH_AES_256_GCM_SHA384 0xC032 /* 49202 */
//Tested against kernel.org:
//TLS 1.1
//#define TLS_MAJ 3
//#define TLS_MIN 2
//#define CIPHER_ID TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA // ok, recvs SERVER_KEY_EXCHANGE
//TLS 1.2
#define TLS_MAJ 3
#define TLS_MIN 3
//#define CIPHER_ID TLS_RSA_WITH_AES_256_CBC_SHA256 // ok, no SERVER_KEY_EXCHANGE
// All GCMs:
//#define CIPHER_ID TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384 // SSL_ALERT_HANDSHAKE_FAILURE
//#define CIPHER_ID TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256 // SSL_ALERT_HANDSHAKE_FAILURE
//#define CIPHER_ID TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384 // ok, recvs SERVER_KEY_EXCHANGE
//#define CIPHER_ID TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256
//#define CIPHER_ID TLS_ECDH_ECDSA_WITH_AES_256_GCM_SHA384
//#define CIPHER_ID TLS_ECDH_ECDSA_WITH_AES_128_GCM_SHA256 // SSL_ALERT_HANDSHAKE_FAILURE
//#define CIPHER_ID TLS_ECDH_RSA_WITH_AES_256_GCM_SHA384
//#define CIPHER_ID TLS_ECDH_RSA_WITH_AES_128_GCM_SHA256 // SSL_ALERT_HANDSHAKE_FAILURE
//#define CIPHER_ID TLS_RSA_WITH_AES_256_GCM_SHA384 // ok, no SERVER_KEY_EXCHANGE
#define CIPHER_ID TLS_RSA_WITH_AES_128_GCM_SHA256 // ok, no SERVER_KEY_EXCHANGE
//#define CIPHER_ID TLS_DH_anon_WITH_AES_256_CBC_SHA // SSL_ALERT_HANDSHAKE_FAILURE
// (tested b/c this one doesn't req server certs... no luck)
//test TLS_RSA_WITH_AES_128_CBC_SHA, in tls 1.2 it's mandated to be always supported
struct transport_hdr {
uint8_t type;
uint8_t proto_maj, proto_min;
uint8_t len16_hi, len16_lo;
};
typedef struct tls_state {
int fd;
uint8_t *pubkey;
int pubkey_len;
int insize;
int tail;
// RFC 5246
// |6.2.1. Fragmentation
// | The record layer fragments information blocks into TLSPlaintext
// | records carrying data in chunks of 2^14 bytes or less. Client
// | message boundaries are not preserved in the record layer (i.e.,
// | multiple client messages of the same ContentType MAY be coalesced
// | into a single TLSPlaintext record, or a single message MAY be
// | fragmented across several records)
// |...
// | length
// | The length (in bytes) of the following TLSPlaintext.fragment.
// | The length MUST NOT exceed 2^14.
// |...
// | 6.2.2. Record Compression and Decompression
// |...
// | Compression must be lossless and may not increase the content length
// | by more than 1024 bytes. If the decompression function encounters a
// | TLSCompressed.fragment that would decompress to a length in excess of
// | 2^14 bytes, it MUST report a fatal decompression failure error.
// |...
// | length
// | The length (in bytes) of the following TLSCompressed.fragment.
// | The length MUST NOT exceed 2^14 + 1024.
//
// Since our buffer also contains 5-byte headers, make it a bit bigger:
uint8_t inbuf[18*1024];
} tls_state_t;
static
tls_state_t *new_tls_state(void)
{
tls_state_t *tls = xzalloc(sizeof(*tls));
tls->fd = -1;
return tls;
}
static unsigned get24be(const uint8_t *p)
{
return 0x100*(0x100*p[0] + p[1]) + p[2];
}
static void dump(const void *vp, int len)
{
char hexbuf[32 * 1024 + 4];
const uint8_t *p = vp;
while (len > 0) {
unsigned xhdr_len;
if (len < 5) {
bin2hex(hexbuf, (void*)p, len)[0] = '\0';
dbg("< |%s|\n", hexbuf);
return;
}
xhdr_len = 0x100*p[3] + p[4];
dbg("< hdr_type:%u ver:%u.%u len:%u", p[0], p[1], p[2], xhdr_len);
p += 5;
len -= 5;
if (len >= 4 && p[-5] == RECORD_TYPE_HANDSHAKE) {
unsigned len24 = get24be(p + 1);
dbg(" type:%u len24:%u", p[0], len24);
}
if (xhdr_len > len)
xhdr_len = len;
bin2hex(hexbuf, (void*)p, xhdr_len)[0] = '\0';
dbg(" |%s|\n", hexbuf);
p += xhdr_len;
len -= xhdr_len;
}
}
static void tls_error_die(tls_state_t *tls)
{
dump(tls->inbuf, tls->insize + tls->tail);
xfunc_die();
}
static int xread_tls_block(tls_state_t *tls)
{
int len;
int total;
int target;
dbg("insize:%u tail:%u\n", tls->insize, tls->tail);
memmove(tls->inbuf, tls->inbuf + tls->insize, tls->tail);
errno = 0;
total = tls->tail;
target = sizeof(tls->inbuf);
for (;;) {
if (total >= sizeof(struct transport_hdr) && target == sizeof(tls->inbuf)) {
struct transport_hdr *xhdr = (void*)tls->inbuf;
target = sizeof(*xhdr) + (0x100 * xhdr->len16_hi + xhdr->len16_lo);
}
/* if total >= target, we have a full packet (and possibly more)... */
if (target - total <= 0)
break;
len = safe_read(tls->fd, tls->inbuf + total, sizeof(tls->inbuf) - total);
if (len <= 0)
bb_perror_msg_and_die("short read");
total += len;
}
tls->tail = -(target - total);
tls->insize = target;
target -= sizeof(struct transport_hdr);
dbg("got block len:%u\n", target);
return target;
}
static void send_client_hello(tls_state_t *tls)
{
struct client_hello {
struct transport_hdr xhdr;
uint8_t type;
uint8_t len24_hi, len24_mid, len24_lo;
uint8_t proto_maj, proto_min;
uint8_t rand32[32];
uint8_t session_id_len;
/* uint8_t session_id[]; */
uint8_t cipherid_len16_hi, cipherid_len16_lo;
uint8_t cipherid[2 * 1]; /* actually variable */
uint8_t comprtypes_len;
uint8_t comprtypes[1]; /* actually variable */
};
struct client_hello hello;
memset(&hello, 0, sizeof(hello));
hello.xhdr.type = RECORD_TYPE_HANDSHAKE;
hello.xhdr.proto_maj = TLS_MAJ;
hello.xhdr.proto_min = TLS_MIN;
hello.xhdr.len16_hi = (sizeof(hello) - sizeof(hello.xhdr)) >> 8;
hello.xhdr.len16_lo = (sizeof(hello) - sizeof(hello.xhdr));
hello.type = HANDSHAKE_CLIENT_HELLO;
hello.len24_mid = (sizeof(hello) - sizeof(hello.xhdr) - 4) >> 8;
hello.len24_lo = (sizeof(hello) - sizeof(hello.xhdr) - 4);
hello.proto_maj = TLS_MAJ;
hello.proto_min = TLS_MIN;
//fillrand(hello.rand32, sizeof(hello.rand32));
open_read_close("/dev/urandom", hello.rand32, sizeof(hello.rand32));
//hello.session_id_len = 0;
//hello.cipherid_len16_hi = 0;
hello.cipherid_len16_lo = 2;
hello.cipherid[0] = CIPHER_ID >> 8;
hello.cipherid[1] = CIPHER_ID & 0xff;
hello.comprtypes_len = 1;
//hello.comprtypes[0] = 0;
xwrite(tls->fd, &hello, sizeof(hello));
}
static void get_server_hello_or_die(tls_state_t *tls)
{
struct server_hello {
struct transport_hdr xhdr;
uint8_t type;
uint8_t len24_hi, len24_mid, len24_lo;
uint8_t proto_maj, proto_min;
uint8_t rand32[32]; /* first 4 bytes are unix time in BE format */
uint8_t session_id_len;
uint8_t session_id[32];
uint8_t cipherid_hi, cipherid_lo;
uint8_t comprtype;
/* extensions may follow, but only those which client offered in its Hello */
};
struct server_hello *hp;
int len;
len = xread_tls_block(tls);
hp = (void*)tls->inbuf;
if (len != 74 /* TODO: if we accept extensions, should be < instead of != */
|| hp->xhdr.type != RECORD_TYPE_HANDSHAKE
|| hp->xhdr.proto_maj != TLS_MAJ
|| hp->xhdr.proto_min != TLS_MIN
) {
/* example: RECORD_TYPE_ALERT if server can't support our ciphers */
tls_error_die(tls);
}
dbg("got HANDSHAKE\n");
// 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|
// SvHl len=70 maj.min unixtime^^^ 28randbytes^^^^^^^^^^^^^^^^^^^^^^^^^^^^_^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^_^^^ slen sid32bytes^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ cipSel comprSel
if (hp->type != HANDSHAKE_SERVER_HELLO
|| hp->len24_hi != 0
|| hp->len24_mid != 0
|| hp->len24_lo != 70
|| hp->proto_maj != TLS_MAJ
|| hp->proto_min != TLS_MIN
|| hp->session_id_len != 32
|| hp->cipherid_hi != (CIPHER_ID >> 8)
|| hp->cipherid_lo != (CIPHER_ID & 0xff)
|| hp->comprtype != 0
) {
tls_error_die(tls);
}
dbg("got SERVER_HELLO\n");
}
static unsigned get_der_len(uint8_t **bodyp, uint8_t *der, uint8_t *end)
{
unsigned len;
if (end - der < 2)
xfunc_die();
// if ((der[0] & 0x1f) == 0x1f) /* not single-byte item code? */
// xfunc_die();
len = der[1]; /* maybe it's short len */
if (len >= 0x80) {
/* no */
if (len != 0x82) {
/* 0x80 is "0 bytes of len", invalid DER: must use short len if can */
/* 0x81 is "1 byte of len", invalid DER */
/* >0x82 is "3+ bytes of len", should not happen realistically */
xfunc_die();
}
if (end - der < 4)
xfunc_die();
/* it's "ii 82 xx yy" */
len = 0x100*der[2] + der[3];
if (len < 0x80)
xfunc_die(); /* invalid DER: must use short len if can */
der += 2; /* skip [code]+[82]+[2byte_len] */
}
der += 2; /* skip [code]+[1byte_len] */
if (end - der < len)
xfunc_die();
*bodyp = der;
return len;
}
static uint8_t *enter_der_item(uint8_t *der, uint8_t **endp)
{
uint8_t *new_der;
unsigned len = get_der_len(&new_der, der, *endp);
dbg("entered der @%p:0x%02x len:%u inner_byte @%p:0x%02x\n", der, der[0], len, new_der, new_der[0]);
/* Move "end" position to cover only this item */
*endp = new_der + len;
return new_der;
}
static uint8_t *skip_der_item(uint8_t *der, uint8_t *end)
{
uint8_t *new_der;
unsigned len = get_der_len(&new_der, der, end);
/* Skip body */
new_der += len;
dbg("skipped der 0x%02x, next byte 0x%02x\n", der[0], new_der[0]);
return new_der;
}
static void *find_key_in_der_cert(int *key_len, uint8_t *der, int len)
{
/* Example: partial decode of kernel.org certificate in DER format.
* SEQ 0x05ac/1452 bytes (Certificate): 308205ac
* SEQ 0x0494/1172 bytes (tbsCertificate): 30820494
* [ASN_CONTEXT_SPECIFIC | ASN_CONSTRUCTED | 0] 3 bytes: a003
* INTEGER (version): 0201 02
* INTEGER 0x11 bytes (serialNumber): 0211 00 9f85bf664b0cddafca508679501b2be4
* //^^^^^^note: matrixSSL also allows [ASN_CONTEXT_SPECIFIC | ASN_PRIMITIVE | 2] = 0x82 type
* SEQ 0x0d bytes (signatureAlgo): 300d
* OID 9 bytes: 0609 2a864886f70d01010b (OID_SHA256_RSA_SIG 42.134.72.134.247.13.1.1.11)
* NULL: 0500
* SEQ 0x5f bytes (issuer): 305f
* SET 11 bytes: 310b
* SEQ 9 bytes: 3009
* OID 3 bytes: 0603 550406
* Printable string "FR": 1302 4652
* SET 14 bytes: 310e
* SEQ 12 bytes: 300c
* OID 3 bytes: 0603 550408
* Printable string "Paris": 1305 5061726973
* SET 14 bytes: 310e
* SEQ 12 bytes: 300c
* OID 3 bytes: 0603 550407
* Printable string "Paris": 1305 5061726973
* SET 14 bytes: 310e
* SEQ 12 bytes: 300c
* OID 3 bytes: 0603 55040a
* Printable string "Gandi": 1305 47616e6469
* SET 32 bytes: 3120
* SEQ 30 bytes: 301e
* OID 3 bytes: 0603 550403
* Printable string "Gandi Standard SSL CA 2": 1317
* 47616e6469205374616e646172642053534c2043412032
* SEQ 30 bytes (validity): 301e
* TIME "161011000000Z": 170d 3136313031313030303030305a
* TIME "191011235959Z": 170d 3139313031313233353935395a
* SEQ 0x5b/91 bytes (subject): 305b //I did not decode this
* 3121301f060355040b1318446f6d61696e20436f
* 6e74726f6c2056616c6964617465643121301f06
* 0355040b1318506f73697469766553534c204d75
* 6c74692d446f6d61696e31133011060355040313
* 0a6b65726e656c2e6f7267
* SEQ 0x01a2/418 bytes (subjectPublicKeyInfo): 308201a2
* SEQ 13 bytes (algorithm): 300d
* OID 9 bytes: 0609 2a864886f70d010101 (OID_RSA_KEY_ALG 42.134.72.134.247.13.1.1.1)
* NULL: 0500
* BITSTRING 0x018f/399 bytes (publicKey): 0382018f
* ????: 00
* //after the zero byte, it appears key itself uses DER encoding:
* SEQ 0x018a/394 bytes: 3082018a
* INTEGER 0x0181/385 bytes (modulus): 02820181
* 00b1ab2fc727a3bef76780c9349bf3
* ...24 more blocks of 15 bytes each...
* 90e895291c6bc8693b65
* INTEGER 3 bytes (exponent): 0203 010001
* [ASN_CONTEXT_SPECIFIC | ASN_CONSTRUCTED | 0x3] 0x01e5 bytes (X509v3 extensions): a38201e5
* SEQ 0x01e1 bytes: 308201e1
* ...
* Certificate is a DER-encoded data structure. Each DER element has a length,
* which makes it easy to skip over large compound elements of any complexity
* without parsing them.
*
* Certificate is a sequence of three elements:
* tbsCertificate (SEQ)
* signatureAlgorithm (AlgorithmIdentifier)
* signatureValue (BIT STRING)
*
* In turn, tbsCertificate is a sequence of:
* version
* serialNumber
* signatureAlgo (AlgorithmIdentifier)
* issuer (Name, has complex structure)
* validity (Validity, SEQ of two Times)
* subject (Name)
* subjectPublicKeyInfo (SEQ)
* ...
*
* subjectPublicKeyInfo is a sequence of:
* algorithm (AlgorithmIdentifier)
* publicKey (BIT STRING)
*
* Essentially, we want subjectPublicKeyInfo.publicKey
*/
uint8_t *end = der + len;
/* enter "Certificate" item: [der, end) will be only Cert */
der = enter_der_item(der, &end);
/* enter "tbsCertificate" item: [der, end) will be only tbsCert */
der = enter_der_item(der, &end);
/* skip up to subjectPublicKeyInfo */
der = skip_der_item(der, end); /* version */
der = skip_der_item(der, end); /* serialNumber */
der = skip_der_item(der, end); /* signatureAlgo */
der = skip_der_item(der, end); /* issuer */
der = skip_der_item(der, end); /* validity */
der = skip_der_item(der, end); /* subject */
/* enter "subjectPublicKeyInfo" */
der = enter_der_item(der, &end);
/* skip "subjectPublicKeyInfo.algorithm" */
der = skip_der_item(der, end);
/* enter "subjectPublicKeyInfo.publicKey" */
// die_if_not_this_der_type(der, end, 0x03); /* must be BITSTRING */
der = enter_der_item(der, &end);
/* return a copy */
*key_len = end - der;
dbg("copying key bytes:%u, first:0x%02x\n", *key_len, der[0]);
return xmemdup(der, *key_len);
}
static void get_server_cert_or_die(tls_state_t *tls)
{
struct transport_hdr *xhdr;
uint8_t *certbuf;
int len, len1;
len = xread_tls_block(tls);
xhdr = (void*)tls->inbuf;
if (len < sizeof(*xhdr) + 10
|| xhdr->type != RECORD_TYPE_HANDSHAKE
|| xhdr->proto_maj != TLS_MAJ
|| xhdr->proto_min != TLS_MIN
) {
tls_error_die(tls);
}
dbg("got HANDSHAKE\n");
certbuf = (void*)(xhdr + 1);
if (certbuf[0] != HANDSHAKE_CERTIFICATE)
tls_error_die(tls);
dbg("got CERTIFICATE\n");
// 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... (4392 bytes)
// Cert len=4388 ChainLen CertLen^ DER encoded X509 starts here. openssl x509 -in FILE -inform DER -noout -text
len1 = get24be(certbuf + 1);
if (len1 > len - 4) tls_error_die(tls);
len = len1;
len1 = get24be(certbuf + 4);
if (len1 > len - 3) tls_error_die(tls);
len = len1;
len1 = get24be(certbuf + 7);
if (len1 > len - 3) tls_error_die(tls);
len = len1;
if (len)
tls->pubkey = find_key_in_der_cert(&tls->pubkey_len, certbuf + 10, len);
}
static void tls_handshake(tls_state_t *tls)
{
// Client RFC 5246 Server
// (*) - optional messages, not always sent
//
// ClientHello ------->
// ServerHello
// Certificate*
// ServerKeyExchange*
// CertificateRequest*
// <------- ServerHelloDone
// Certificate*
// ClientKeyExchange
// CertificateVerify*
// [ChangeCipherSpec]
// Finished ------->
// [ChangeCipherSpec]
// <------- Finished
// Application Data <------> Application Data
int len;
send_client_hello(tls);
#if 0 /* dump */
for (;;) {
uint8_t buf[16*1024];
sleep(2);
len = recv(tls->fd, buf, sizeof(buf), 0); //MSG_DONTWAIT);
if (len < 0) {
if (errno == EAGAIN)
continue;
bb_perror_msg_and_die("recv");
}
if (len == 0)
break;
dump(buf, len);
}
#endif
get_server_hello_or_die(tls);
//RFC 5246
// The server MUST send a Certificate message whenever the agreed-
// upon key exchange method uses certificates for authentication
// (this includes all key exchange methods defined in this document
// except DH_anon). This message will always immediately follow the
// ServerHello message.
//
// IOW: in practice, Certificate *always* follows.
// (for example, kernel.org does not even accept DH_anon cipher id)
get_server_cert_or_die(tls);
len = xread_tls_block(tls);
/* Next handshake type is not predetermined */
switch (tls->inbuf[5]) {
case HANDSHAKE_SERVER_KEY_EXCHANGE:
//0c 0001c7 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... 459 bytes
//SvKey len^^^
dbg("got SERVER_KEY_EXCHANGE\n");
len = xread_tls_block(tls);
break;
case HANDSHAKE_CERTIFICATE_REQUEST:
dbg("got CERTIFICATE_REQUEST\n");
len = xread_tls_block(tls);
break;
case HANDSHAKE_SERVER_HELLO_DONE:
// 0e 000000 (len:0)
dbg("got SERVER_HELLO_DONE\n");
break;
default:
tls_error_die(tls);
}
}
int tls_main(int argc, char **argv) MAIN_EXTERNALLY_VISIBLE;
int tls_main(int argc UNUSED_PARAM, char **argv)
{
tls_state_t *tls;
len_and_sockaddr *lsa;
int fd;
// INIT_G();
// getopt32(argv, "myopts")
if (!argv[1])
bb_show_usage();
lsa = xhost2sockaddr(argv[1], 443);
fd = xconnect_stream(lsa);
tls = new_tls_state();
tls->fd = fd;
tls_handshake(tls);
return EXIT_SUCCESS;
}
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