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tls: rearrange code, add/improve comments, fix whitespace, no real changes here

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Signed-off-by: Denys Vlasenko <vda.linux@googlemail.com>
This commit is contained in:
Denys Vlasenko 2017-01-15 14:16:51 +01:00
parent c5540d61f6
commit 3f8ecd933a
8 changed files with 304 additions and 227 deletions
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362
networking/tls.c
View File

@ -286,85 +286,6 @@ static int xread_tls_handshake_block(tls_state_t *tls, int min_len)
return len;
}
static void send_client_hello(tls_state_t *tls)
{
struct client_hello {
struct record_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;
//zero: 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_hi = 0;
//zero: hello.len24_mid = (sizeof(hello) - sizeof(hello.xhdr) - 4) >> 8;
hello.len24_lo = (sizeof(hello) - sizeof(hello.xhdr) - 4);
hello.proto_maj = TLS_MAJ; /* the "requested" version of the protocol, */
hello.proto_min = TLS_MIN; /* can be higher than one in record headers */
tls_get_random(hello.rand32, sizeof(hello.rand32));
//hello.session_id_len = 0;
//hello.cipherid_len16_hi = 0;
hello.cipherid_len16_lo = 2 * 1;
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 record_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;
xread_tls_handshake_block(tls, 74);
hp = (void*)tls->inbuf;
// 74 bytes:
// 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, len1;
@ -573,7 +494,104 @@ static void find_key_in_der_cert(tls_state_t *tls, uint8_t *der, int len)
dbg("server_rsa_pub_key.size:%d\n", tls->server_rsa_pub_key.size);
}
static void get_server_cert_or_die(tls_state_t *tls)
/*
* TLS Handshake routines
*/
static void send_client_hello(tls_state_t *tls)
{
struct client_hello {
struct record_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;
//zero: 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_hi = 0;
//zero: hello.len24_mid = (sizeof(hello) - sizeof(hello.xhdr) - 4) >> 8;
hello.len24_lo = (sizeof(hello) - sizeof(hello.xhdr) - 4);
hello.proto_maj = TLS_MAJ; /* the "requested" version of the protocol, */
hello.proto_min = TLS_MIN; /* can be higher than one in record headers */
tls_get_random(hello.rand32, sizeof(hello.rand32));
//hello.session_id_len = 0;
//hello.cipherid_len16_hi = 0;
hello.cipherid_len16_lo = 2 * 1;
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));
#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
}
static void get_server_hello(tls_state_t *tls)
{
struct server_hello {
struct record_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;
xread_tls_handshake_block(tls, 74);
hp = (void*)tls->inbuf;
// 74 bytes:
// 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 void get_server_cert(tls_state_t *tls)
{
struct record_hdr *xhdr;
uint8_t *certbuf;
@ -605,63 +623,6 @@ static void get_server_cert_or_die(tls_state_t *tls)
static void send_client_key_exchange(tls_state_t *tls)
{
#if 0 //matrixssl code snippets:
int32 csRsaEncryptPub(psPool_t *pool, psPubKey_t *key,
unsigned char *in, uint32 inlen, unsigned char *out, uint32 outlen,
void *data)
{
psAssert(key->type == PS_RSA);
return psRsaEncryptPub(pool, (psRsaKey_t*)key->key, in, inlen, out, outlen,
data);
}
...
/* pkaAfter.user is buffer len */
if ((rc = csRsaEncryptPub(pka->pool, &ssl->sec.cert->publicKey,
ssl->sec.premaster, ssl->sec.premasterSize, pka->outbuf,
pka->user, pka->data)) < 0) {
if (rc == PS_PENDING) {
/* For these ClientKeyExchange paths, we do want to come
back through nowDoCkePka for a double pass so each
case can manage its own pkaAfter and to make sure
psX509FreeCert and sslCreateKeys() are hit below. */
return rc;
}
psTraceIntInfo("csRsaEncryptPub in CKE failed %d\n", rc);
return MATRIXSSL_ERROR;
}
/* RSA closed the pool on second pass */
pka->pool = NULL;
clearPkaAfter(ssl);
...
#ifdef USE_RSA_CIPHER_SUITE
/*
Standard RSA suite
*/
ssl->sec.premasterSize = SSL_HS_RSA_PREMASTER_SIZE;
ssl->sec.premaster = psMalloc(ssl->hsPool,
SSL_HS_RSA_PREMASTER_SIZE);
if (ssl->sec.premaster == NULL) {
return SSL_MEM_ERROR;
}
ssl->sec.premaster[0] = ssl->reqMajVer;
ssl->sec.premaster[1] = ssl->reqMinVer;
if (matrixCryptoGetPrngData(ssl->sec.premaster + 2,
SSL_HS_RSA_PREMASTER_SIZE - 2, ssl->userPtr) < 0) {
return MATRIXSSL_ERROR;
}
/* Shedule RSA encryption. Put tmp pool under control of After */
pkaAfter->type = PKA_AFTER_RSA_ENCRYPT;
pkaAfter->outbuf = c;
pkaAfter->data = pkiData;
pkaAfter->pool = pkiPool;
pkaAfter->user = (uint32)(end - c); /* Available space */
c += keyLen;
#endif
#endif // 0
struct client_key_exchange {
struct record_hdr xhdr;
uint8_t type;
@ -675,7 +636,7 @@ static void send_client_key_exchange(tls_state_t *tls)
uint8_t key[384]; // size??
};
struct client_key_exchange record;
uint8_t premaster[SSL_HS_RSA_PREMASTER_SIZE];
uint8_t rsa_premaster[SSL_HS_RSA_PREMASTER_SIZE];
memset(&record, 0, sizeof(record));
record.xhdr.type = RECORD_TYPE_HANDSHAKE;
@ -690,12 +651,16 @@ static void send_client_key_exchange(tls_state_t *tls)
record.keylen16_hi = (sizeof(record) - sizeof(record.xhdr) - 6) >> 8;
record.keylen16_lo = (sizeof(record) - sizeof(record.xhdr) - 6) & 0xff;
tls_get_random(premaster, sizeof(premaster));
premaster[0] = TLS_MAJ;
premaster[1] = TLS_MIN;
tls_get_random(rsa_premaster, sizeof(rsa_premaster));
// RFC 5246
// "Note: The version number in the PreMasterSecret is the version
// offered by the client in the ClientHello.client_version, not the
// version negotiated for the connection."
rsa_premaster[0] = TLS_MAJ;
rsa_premaster[1] = TLS_MIN;
psRsaEncryptPub(/*pool:*/ NULL,
/* psRsaKey_t* */ &tls->server_rsa_pub_key,
premaster, /*inlen:*/ sizeof(premaster),
rsa_premaster, /*inlen:*/ sizeof(rsa_premaster),
record.key, sizeof(record.key),
data_param_ignored
);
@ -712,6 +677,88 @@ static void send_change_cipher_spec(tls_state_t *tls)
xwrite(tls->fd, rec, sizeof(rec));
}
static void send_client_finished(tls_state_t *tls)
{
// RFC 5246 on pseudorandom function (PRF):
//
// 5. HMAC and the Pseudorandom Function
//...
// In this section, we define one PRF, based on HMAC. This PRF with the
// SHA-256 hash function is used for all cipher suites defined in this
// document and in TLS documents published prior to this document when
// TLS 1.2 is negotiated.
//...
// P_hash(secret, seed) = HMAC_hash(secret, A(1) + seed) +
// HMAC_hash(secret, A(2) + seed) +
// HMAC_hash(secret, A(3) + seed) + ...
// where + indicates concatenation.
// A() is defined as:
// A(0) = seed
// A(i) = HMAC_hash(secret, A(i-1))
// P_hash can be iterated as many times as necessary to produce the
// required quantity of data. For example, if P_SHA256 is being used to
// create 80 bytes of data, it will have to be iterated three times
// (through A(3)), creating 96 bytes of output data; the last 16 bytes
// of the final iteration will then be discarded, leaving 80 bytes of
// output data.
//
// TLS's PRF is created by applying P_hash to the secret as:
//
// PRF(secret, label, seed) = P_<hash>(secret, label + seed)
//
// The label is an ASCII string.
tls->fd = 0;
// 7.4.9. Finished
// A Finished message is always sent immediately after a change
// cipher spec message to verify that the key exchange and
// authentication processes were successful. It is essential that a
// change cipher spec message be received between the other handshake
// messages and the Finished message.
//...
// The Finished message is the first one protected with the just
// negotiated algorithms, keys, and secrets. Recipients of Finished
// messages MUST verify that the contents are correct. Once a side
// has sent its Finished message and received and validated the
// Finished message from its peer, it may begin to send and receive
// application data over the connection.
//...
// struct {
// opaque verify_data[verify_data_length];
// } Finished;
//
// verify_data
// PRF(master_secret, finished_label, Hash(handshake_messages))
// [0..verify_data_length-1];
//
// finished_label
// For Finished messages sent by the client, the string
// "client finished". For Finished messages sent by the server,
// the string "server finished".
//
// Hash denotes a Hash of the handshake messages. For the PRF
// defined in Section 5, the Hash MUST be the Hash used as the basis
// for the PRF. Any cipher suite which defines a different PRF MUST
// also define the Hash to use in the Finished computation.
//
// In previous versions of TLS, the verify_data was always 12 octets
// long. In the current version of TLS, it depends on the cipher
// suite. Any cipher suite which does not explicitly specify
// verify_data_length has a verify_data_length equal to 12. This
// includes all existing cipher suites.
}
static void get_change_cipher_spec(tls_state_t *tls)
{
tls->fd = 0;
}
static void get_server_finished(tls_state_t *tls)
{
tls->fd = 0;
}
static void tls_handshake(tls_state_t *tls)
{
// Client RFC 5246 Server
@ -734,23 +781,7 @@ static void tls_handshake(tls_state_t *tls)
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);
get_server_hello(tls);
//RFC 5246
// The server MUST send a Certificate message whenever the agreed-
@ -761,7 +792,7 @@ static void tls_handshake(tls_state_t *tls)
//
// IOW: in practice, Certificate *always* follows.
// (for example, kernel.org does not even accept DH_anon cipher id)
get_server_cert_or_die(tls);
get_server_cert(tls);
len = xread_tls_handshake_block(tls, 4);
if (tls->inbuf[5] == HANDSHAKE_SERVER_KEY_EXCHANGE) {
@ -776,6 +807,13 @@ static void tls_handshake(tls_state_t *tls)
}
// if (tls->inbuf[5] == HANDSHAKE_CERTIFICATE_REQUEST) {
// dbg("got CERTIFICATE_REQUEST\n");
//RFC 5246: (in response to this,) "If no suitable certificate is available,
// the client MUST send a certificate message containing no
// certificates. That is, the certificate_list structure has a
// length of zero. ...
// Client certificates are sent using the Certificate structure
// defined in Section 7.4.2."
// (i.e. the same format as server certs)
// xread_tls_handshake_block(tls, 4);
// }
if (tls->inbuf[5] == HANDSHAKE_SERVER_HELLO_DONE) {
@ -784,6 +822,10 @@ static void tls_handshake(tls_state_t *tls)
send_client_key_exchange(tls);
send_change_cipher_spec(tls);
//we now should be able to send encrypted... as soon as we grok AES.
send_client_finished(tls);
get_change_cipher_spec(tls);
get_server_finished(tls);
//we now should receive encrypted, and application data can be sent/received
} else {
tls_error_die(tls);
}

14
networking/tls_pstm.c
View File

@ -5,6 +5,10 @@
*/
#include "tls.h"
/* The file is taken almost verbatim from matrixssl-3-7-2b-open/crypto/math/.
* Changes are flagged with ///bbox
*/
/**
* @file pstm.c
* @version 33ef80f (HEAD, tag: MATRIXSSL-3-7-2-OPEN, tag: MATRIXSSL-3-7-2-COMM, origin/master, origin/HEAD, master)
@ -51,12 +55,13 @@ static int32 pstm_mul_2d(pstm_int *a, int16 b, pstm_int *c);
*/
int32 pstm_init_size(psPool_t *pool, pstm_int * a, uint32 size)
{
///bbox
// uint16 x;
/*
alloc mem
*/
a->dp = xzalloc(sizeof (pstm_digit) * size);
a->dp = xzalloc(sizeof (pstm_digit) * size);///bbox
a->pool = pool;
a->used = 0;
a->alloc = (int16)size;
@ -77,11 +82,12 @@ int32 pstm_init_size(psPool_t *pool, pstm_int * a, uint32 size)
*/
int32 pstm_init(psPool_t *pool, pstm_int * a)
{
///bbox
// int32 i;
/*
allocate memory required and clear it
*/
a->dp = xzalloc(sizeof (pstm_digit) * PSTM_DEFAULT_INIT);
a->dp = xzalloc(sizeof (pstm_digit) * PSTM_DEFAULT_INIT);///bbox
/*
set the digits to zero
*/
@ -120,7 +126,7 @@ int32 pstm_grow(pstm_int * a, int16 size)
We store the return in a temporary variable in case the operation
failed we don't want to overwrite the dp member of a.
*/
tmp = xrealloc(a->dp, sizeof (pstm_digit) * size);
tmp = xrealloc(a->dp, sizeof (pstm_digit) * size);///bbox
/*
reallocation succeeded so set a->dp
*/
@ -1616,7 +1622,7 @@ int32 pstm_exptmod(psPool_t *pool, pstm_int *G, pstm_int *X, pstm_int *P,
Pre-allocated digit. Used for mul, sqr, AND reduce
*/
paDlen = ((M[1].used + 3) * 2) * sizeof(pstm_digit);
paD = xzalloc(paDlen);
paD = xzalloc(paDlen);///bbox
/*
compute the value at M[1<<(winsize-1)] by squaring M[1] (winsize-1) times
*/

9
networking/tls_pstm.h
View File

@ -1,3 +1,12 @@
/*
* Copyright (C) 2017 Denys Vlasenko
*
* Licensed under GPLv2, see file LICENSE in this source tree.
*/
/* The file is taken almost verbatim from matrixssl-3-7-2b-open/crypto/math/.
* Changes are flagged with ///bbox
*/
/**
* @file pstm.h
* @version 33ef80f (HEAD, tag: MATRIXSSL-3-7-2-OPEN, tag: MATRIXSSL-3-7-2-COMM, origin/master, origin/HEAD, master)

6
networking/tls_pstm_montgomery_reduce.c
View File

@ -5,6 +5,10 @@
*/
#include "tls.h"
/* The file is taken almost verbatim from matrixssl-3-7-2b-open/crypto/math/.
* Changes are flagged with ///bbox
*/
/**
* @file pstm_montgomery_reduce.c
* @version 33ef80f (HEAD, tag: MATRIXSSL-3-7-2-OPEN, tag: MATRIXSSL-3-7-2-COMM, origin/master, origin/HEAD, master)
@ -353,7 +357,7 @@ int32 pstm_montgomery_reduce(psPool_t *pool, pstm_int *a, pstm_int *m,
c = paD;
memset(c, 0x0, paDlen);
} else {
c = xzalloc(2*pa+1);
c = xzalloc(2*pa+1);///bbox
}
/* copy the input */
oldused = a->used;

8
networking/tls_pstm_mul_comba.c
View File

@ -5,6 +5,10 @@
*/
#include "tls.h"
/* The file is taken almost verbatim from matrixssl-3-7-2b-open/crypto/math/.
* Changes are flagged with ///bbox
*/
/**
* @file pstm_mul_comba.c
* @version 33ef80f (HEAD, tag: MATRIXSSL-3-7-2-OPEN, tag: MATRIXSSL-3-7-2-COMM, origin/master, origin/HEAD, master)
@ -246,13 +250,13 @@ static int32 pstm_mul_comba_gen(psPool_t *pool, pstm_int *A, pstm_int *B,
if (paD != NULL) {
if (paDlen < (sizeof(pstm_digit) * pa)) {
paDfail = 1; /* have a paD but it's not large enough */
dst = xzalloc(sizeof(pstm_digit) * pa);
dst = xzalloc(sizeof(pstm_digit) * pa);///bbox
} else {
dst = paD;
memset(dst, 0x0, paDlen);
}
} else {
dst = xzalloc(sizeof(pstm_digit) * pa);
dst = xzalloc(sizeof(pstm_digit) * pa);///bbox
}
for (ix = 0; ix < pa; ix++) {

8
networking/tls_pstm_sqr_comba.c
View File

@ -5,6 +5,10 @@
*/
#include "tls.h"
/* The file is taken almost verbatim from matrixssl-3-7-2b-open/crypto/math/.
* Changes are flagged with ///bbox
*/
/**
* @file pstm_sqr_comba.c
* @version 33ef80f (HEAD, tag: MATRIXSSL-3-7-2-OPEN, tag: MATRIXSSL-3-7-2-COMM, origin/master, origin/HEAD, master)
@ -466,13 +470,13 @@ static int32 pstm_sqr_comba_gen(psPool_t *pool, pstm_int *A, pstm_int *B,
if (paD != NULL) {
if (paDlen < (sizeof(pstm_digit) * pa)) {
paDfail = 1; /* have a paD, but it's not big enough */
dst = xzalloc(sizeof(pstm_digit) * pa);
dst = xzalloc(sizeof(pstm_digit) * pa);///bbox
} else {
dst = paD;
memset(dst, 0x0, paDlen);
}
} else {
dst = xzalloc(sizeof(pstm_digit) * pa);
dst = xzalloc(sizeof(pstm_digit) * pa);///bbox
}
for (ix = 0; ix < pa; ix++) {

6
networking/tls_rsa.c
View File

@ -5,6 +5,12 @@
*/
#include "tls.h"
/* The code below is taken from parts of
* matrixssl-3-7-2b-open/crypto/pubkey/pkcs.c
* matrixssl-3-7-2b-open/crypto/pubkey/rsa.c
* and (so far) almost not modified. Changes are flagged with ///bbox
*/
#define pkcs1Pad(in, inlen, out, outlen, cryptType, userPtr) \
pkcs1Pad(in, inlen, out, outlen, cryptType)
static ///bbox

2
networking/tls_rsa.h
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@ -2,6 +2,8 @@
* Copyright (C) 2017 Denys Vlasenko
*
* Licensed under GPLv2, see file LICENSE in this source tree.
*
* Selected few declarations for RSA.
*/
typedef struct {