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|
/*
* Copyright 2016 The OpenSSL Project Authors. All Rights Reserved.
*
* Licensed under the OpenSSL license (the "License"). You may not use
* this file except in compliance with the License. You can obtain a copy
* in the file LICENSE in the source distribution or at
* https://www.openssl.org/source/license.html
*/
#include <string.h>
#include <openssl/safestack.h>
#include "ssltestlib.h"
#define SSL_IS_DTLS(s) (s->method->version == DTLS_ANY_VERSION \
|| s->method->version == DTLS1_2_VERSION \
|| s->method->version == DTLS1_VERSION)
static int tls_dump_new(BIO *bi);
static int tls_dump_free(BIO *a);
static int tls_dump_read(BIO *b, char *out, int outl);
static int tls_dump_write(BIO *b, const char *in, int inl);
static long tls_dump_ctrl(BIO *b, int cmd, long num, void *ptr);
static int tls_dump_gets(BIO *bp, char *buf, int size);
static int tls_dump_puts(BIO *bp, const char *str);
/* Choose a sufficiently large type likely to be unused for this custom BIO */
# define BIO_TYPE_TLS_DUMP_FILTER (0x80 | BIO_TYPE_FILTER)
# define BIO_TYPE_MEMPACKET_TEST 0x81
static BIO_METHOD method_tls_dump = {
BIO_TYPE_TLS_DUMP_FILTER,
"TLS dump filter",
tls_dump_write,
tls_dump_read,
tls_dump_puts,
tls_dump_gets,
tls_dump_ctrl,
tls_dump_new,
tls_dump_free
};
BIO_METHOD *bio_f_tls_dump_filter(void)
{
return &method_tls_dump;
}
static int tls_dump_new(BIO *bio)
{
bio->init = 1;
return 1;
}
static int tls_dump_free(BIO *bio)
{
bio->init = 0;
return 1;
}
static void copy_flags(BIO *bio)
{
int flags;
BIO *next = BIO_next(bio);
flags = BIO_test_flags(next, BIO_FLAGS_SHOULD_RETRY | BIO_FLAGS_RWS);
BIO_clear_flags(bio, BIO_FLAGS_SHOULD_RETRY | BIO_FLAGS_RWS);
BIO_set_flags(bio, flags);
}
#define RECORD_CONTENT_TYPE 0
#define RECORD_VERSION_HI 1
#define RECORD_VERSION_LO 2
#define RECORD_EPOCH_HI 3
#define RECORD_EPOCH_LO 4
#define RECORD_SEQUENCE_START 5
#define RECORD_SEQUENCE_END 10
#define RECORD_LEN_HI 11
#define RECORD_LEN_LO 12
#define MSG_TYPE 0
#define MSG_LEN_HI 1
#define MSG_LEN_MID 2
#define MSG_LEN_LO 3
#define MSG_SEQ_HI 4
#define MSG_SEQ_LO 5
#define MSG_FRAG_OFF_HI 6
#define MSG_FRAG_OFF_MID 7
#define MSG_FRAG_OFF_LO 8
#define MSG_FRAG_LEN_HI 9
#define MSG_FRAG_LEN_MID 10
#define MSG_FRAG_LEN_LO 11
static void dump_data(const char *data, int len)
{
int rem, i, content, reclen, msglen, fragoff, fraglen, epoch;
unsigned char *rec;
printf("---- START OF PACKET ----\n");
rem = len;
rec = (unsigned char *)data;
while (rem > 0) {
if (rem != len)
printf("*\n");
printf("*---- START OF RECORD ----\n");
if (rem < DTLS1_RT_HEADER_LENGTH) {
printf("*---- RECORD TRUNCATED ----\n");
break;
}
content = rec[RECORD_CONTENT_TYPE];
printf("** Record Content-type: %d\n", content);
printf("** Record Version: %02x%02x\n",
rec[RECORD_VERSION_HI], rec[RECORD_VERSION_LO]);
epoch = (rec[RECORD_EPOCH_HI] << 8) | rec[RECORD_EPOCH_LO];
printf("** Record Epoch: %d\n", epoch);
printf("** Record Sequence: ");
for (i = RECORD_SEQUENCE_START; i <= RECORD_SEQUENCE_END; i++)
printf("%02x", rec[i]);
reclen = (rec[RECORD_LEN_HI] << 8) | rec[RECORD_LEN_LO];
printf("\n** Record Length: %d\n", reclen);
/* Now look at message */
rec += DTLS1_RT_HEADER_LENGTH;
rem -= DTLS1_RT_HEADER_LENGTH;
if (content == SSL3_RT_HANDSHAKE) {
printf("**---- START OF HANDSHAKE MESSAGE FRAGMENT ----\n");
if (epoch > 0) {
printf("**---- HANDSHAKE MESSAGE FRAGMENT ENCRYPTED ----\n");
} else if (rem < DTLS1_HM_HEADER_LENGTH
|| reclen < DTLS1_HM_HEADER_LENGTH) {
printf("**---- HANDSHAKE MESSAGE FRAGMENT TRUNCATED ----\n");
} else {
printf("*** Message Type: %d\n", rec[MSG_TYPE]);
msglen = (rec[MSG_LEN_HI] << 16) | (rec[MSG_LEN_MID] << 8)
| rec[MSG_LEN_LO];
printf("*** Message Length: %d\n", msglen);
printf("*** Message sequence: %d\n",
(rec[MSG_SEQ_HI] << 8) | rec[MSG_SEQ_LO]);
fragoff = (rec[MSG_FRAG_OFF_HI] << 16)
| (rec[MSG_FRAG_OFF_MID] << 8)
| rec[MSG_FRAG_OFF_LO];
printf("*** Message Fragment offset: %d\n", fragoff);
fraglen = (rec[MSG_FRAG_LEN_HI] << 16)
| (rec[MSG_FRAG_LEN_MID] << 8)
| rec[MSG_FRAG_LEN_LO];
printf("*** Message Fragment len: %d\n", fraglen);
if (fragoff + fraglen > msglen)
printf("***---- HANDSHAKE MESSAGE FRAGMENT INVALID ----\n");
else if(reclen < fraglen)
printf("**---- HANDSHAKE MESSAGE FRAGMENT TRUNCATED ----\n");
else
printf("**---- END OF HANDSHAKE MESSAGE FRAGMENT ----\n");
}
}
if (rem < reclen) {
printf("*---- RECORD TRUNCATED ----\n");
rem = 0;
} else {
rec += reclen;
rem -= reclen;
printf("*---- END OF RECORD ----\n");
}
}
printf("---- END OF PACKET ----\n\n");
fflush(stdout);
}
static int tls_dump_read(BIO *bio, char *out, int outl)
{
int ret;
BIO *next = BIO_next(bio);
ret = BIO_read(next, out, outl);
copy_flags(bio);
if (ret > 0) {
dump_data(out, ret);
}
return ret;
}
static int tls_dump_write(BIO *bio, const char *in, int inl)
{
int ret;
BIO *next = BIO_next(bio);
ret = BIO_write(next, in, inl);
copy_flags(bio);
return ret;
}
static long tls_dump_ctrl(BIO *bio, int cmd, long num, void *ptr)
{
long ret;
BIO *next = BIO_next(bio);
if (next == NULL)
return 0;
switch (cmd) {
case BIO_CTRL_DUP:
ret = 0L;
break;
default:
ret = BIO_ctrl(next, cmd, num, ptr);
break;
}
return ret;
}
static int tls_dump_gets(BIO *bio, char *buf, int size)
{
/* We don't support this - not needed anyway */
return -1;
}
static int tls_dump_puts(BIO *bio, const char *str)
{
return tls_dump_write(bio, str, strlen(str));
}
typedef struct mempacket_st {
unsigned char *data;
int len;
unsigned int num;
unsigned int type;
} MEMPACKET;
/*
* These defines would normally be auto-generated and in safestack.h...but this
* is just for tests so its probably not an appropriate place
*/
# define sk_MEMPACKET_new(cmp) SKM_sk_new(MEMPACKET, (cmp))
# define sk_MEMPACKET_new_null() SKM_sk_new_null(MEMPACKET)
# define sk_MEMPACKET_free(st) SKM_sk_free(MEMPACKET, (st))
# define sk_MEMPACKET_num(st) SKM_sk_num(MEMPACKET, (st))
# define sk_MEMPACKET_value(st, i) SKM_sk_value(MEMPACKET, (st), (i))
# define sk_MEMPACKET_set(st, i, val) SKM_sk_set(MEMPACKET, (st), (i), (val))
# define sk_MEMPACKET_zero(st) SKM_sk_zero(MEMPACKET, (st))
# define sk_MEMPACKET_push(st, val) SKM_sk_push(MEMPACKET, (st), (val))
# define sk_MEMPACKET_unshift(st, val) SKM_sk_unshift(MEMPACKET, (st), (val))
# define sk_MEMPACKET_find(st, val) SKM_sk_find(MEMPACKET, (st), (val))
# define sk_MEMPACKET_find_ex(st, val) SKM_sk_find_ex(MEMPACKET, (st), (val))
# define sk_MEMPACKET_delete(st, i) SKM_sk_delete(MEMPACKET, (st), (i))
# define sk_MEMPACKET_delete_ptr(st, ptr) SKM_sk_delete_ptr(MEMPACKET, (st), (ptr))
# define sk_MEMPACKET_insert(st, val, i) SKM_sk_insert(MEMPACKET, (st), (val), (i))
# define sk_MEMPACKET_set_cmp_func(st, cmp) SKM_sk_set_cmp_func(MEMPACKET, (st), (cmp))
# define sk_MEMPACKET_dup(st) SKM_sk_dup(MEMPACKET, st)
# define sk_MEMPACKET_pop_free(st, free_func) SKM_sk_pop_free(MEMPACKET, (st), (free_func))
# define sk_MEMPACKET_deep_copy(st, copy_func, free_func) SKM_sk_deep_copy(MEMPACKET, (st), (copy_func), (free_func))
# define sk_MEMPACKET_shift(st) SKM_sk_shift(MEMPACKET, (st))
# define sk_MEMPACKET_pop(st) SKM_sk_pop(MEMPACKET, (st))
# define sk_MEMPACKET_sort(st) SKM_sk_sort(MEMPACKET, (st))
# define sk_MEMPACKET_is_sorted(st) SKM_sk_is_sorted(MEMPACKET, (st))
static void mempacket_free(MEMPACKET *pkt)
{
if (pkt->data != NULL)
OPENSSL_free(pkt->data);
OPENSSL_free(pkt);
}
typedef struct mempacket_test_ctx_st {
STACK_OF(MEMPACKET) *pkts;
unsigned int epoch;
unsigned int currrec;
unsigned int currpkt;
unsigned int lastpkt;
unsigned int noinject;
} MEMPACKET_TEST_CTX;
static int mempacket_test_new(BIO *bi);
static int mempacket_test_free(BIO *a);
static int mempacket_test_read(BIO *b, char *out, int outl);
static int mempacket_test_write(BIO *b, const char *in, int inl);
static long mempacket_test_ctrl(BIO *b, int cmd, long num, void *ptr);
static int mempacket_test_gets(BIO *bp, char *buf, int size);
static int mempacket_test_puts(BIO *bp, const char *str);
static BIO_METHOD method_mempacket_test = {
BIO_TYPE_MEMPACKET_TEST,
"Mem Packet Test",
mempacket_test_write,
mempacket_test_read,
mempacket_test_puts,
mempacket_test_gets,
mempacket_test_ctrl,
mempacket_test_new,
mempacket_test_free
};
BIO_METHOD *bio_s_mempacket_test(void)
{
return &method_mempacket_test;
}
static int mempacket_test_new(BIO *bio)
{
MEMPACKET_TEST_CTX *ctx = OPENSSL_malloc(sizeof(*ctx));
if (ctx == NULL)
return 0;
memset(ctx, 0, sizeof(*ctx));
ctx->pkts = sk_MEMPACKET_new_null();
if (ctx->pkts == NULL) {
OPENSSL_free(ctx);
return 0;
}
bio->init = 1;
bio->ptr = ctx;
return 1;
}
static int mempacket_test_free(BIO *bio)
{
MEMPACKET_TEST_CTX *ctx = bio->ptr;
sk_MEMPACKET_pop_free(ctx->pkts, mempacket_free);
OPENSSL_free(ctx);
bio->ptr = NULL;
bio->init = 0;
return 1;
}
/* Record Header values */
#define EPOCH_HI 4
#define EPOCH_LO 5
#define RECORD_SEQUENCE 10
#define RECORD_LEN_HI 11
#define RECORD_LEN_LO 12
#define STANDARD_PACKET 0
static int mempacket_test_read(BIO *bio, char *out, int outl)
{
MEMPACKET_TEST_CTX *ctx = bio->ptr;
MEMPACKET *thispkt;
unsigned char *rec;
int rem;
unsigned int seq, offset, len, epoch;
BIO_clear_retry_flags(bio);
thispkt = sk_MEMPACKET_value(ctx->pkts, 0);
if (thispkt == NULL || thispkt->num != ctx->currpkt) {
/* Probably run out of data */
BIO_set_retry_read(bio);
return -1;
}
(void)sk_MEMPACKET_shift(ctx->pkts);
ctx->currpkt++;
if (outl > thispkt->len)
outl = thispkt->len;
if (thispkt->type != INJECT_PACKET_IGNORE_REC_SEQ) {
/*
* Overwrite the record sequence number. We strictly number them in
* the order received. Since we are actually a reliable transport
* we know that there won't be any re-ordering. We overwrite to deal
* with any packets that have been injected
*/
rem = thispkt->len;
rec = thispkt->data;
while (rem > 0) {
if (rem < DTLS1_RT_HEADER_LENGTH) {
return -1;
}
epoch = (rec[EPOCH_HI] << 8) | rec[EPOCH_LO];
if (epoch != ctx->epoch) {
ctx->epoch = epoch;
ctx->currrec = 0;
}
seq = ctx->currrec;
offset = 0;
do {
rec[RECORD_SEQUENCE - offset] = seq & 0xFF;
seq >>= 8;
offset++;
} while (seq > 0);
ctx->currrec++;
len = ((rec[RECORD_LEN_HI] << 8) | rec[RECORD_LEN_LO])
+ DTLS1_RT_HEADER_LENGTH;
rec += len;
rem -= len;
}
}
memcpy(out, thispkt->data, outl);
mempacket_free(thispkt);
return outl;
}
int mempacket_test_inject(BIO *bio, const char *in, int inl, int pktnum,
int type)
{
MEMPACKET_TEST_CTX *ctx = bio->ptr;
MEMPACKET *thispkt, *looppkt, *nextpkt;
int i;
if (ctx == NULL)
return -1;
/* We only allow injection before we've started writing any data */
if (pktnum >= 0) {
if (ctx->noinject)
return -1;
} else {
ctx->noinject = 1;
}
thispkt = OPENSSL_malloc(sizeof(MEMPACKET));
if (thispkt == NULL)
return -1;
thispkt->data = OPENSSL_malloc(inl);
if (thispkt->data == NULL) {
mempacket_free(thispkt);
return -1;
}
memcpy(thispkt->data, in, inl);
thispkt->len = inl;
thispkt->num = (pktnum >= 0) ? (unsigned int)pktnum : ctx->lastpkt;
thispkt->type = type;
for(i = 0; (looppkt = sk_MEMPACKET_value(ctx->pkts, i)) != NULL; i++) {
/* Check if we found the right place to insert this packet */
if (looppkt->num > thispkt->num) {
if (sk_MEMPACKET_insert(ctx->pkts, thispkt, i) == 0) {
mempacket_free(thispkt);
return -1;
}
/* If we're doing up front injection then we're done */
if (pktnum >= 0)
return inl;
/*
* We need to do some accounting on lastpkt. We increment it first,
* but it might now equal the value of injected packets, so we need
* to skip over those
*/
ctx->lastpkt++;
do {
i++;
nextpkt = sk_MEMPACKET_value(ctx->pkts, i);
if (nextpkt != NULL && nextpkt->num == ctx->lastpkt)
ctx->lastpkt++;
else
return inl;
} while(1);
} else if(looppkt->num == thispkt->num) {
if (!ctx->noinject) {
/* We injected two packets with the same packet number! */
return -1;
}
ctx->lastpkt++;
thispkt->num++;
}
}
/*
* We didn't find any packets with a packet number equal to or greater than
* this one, so we just add it onto the end
*/
if (!sk_MEMPACKET_push(ctx->pkts, thispkt)) {
mempacket_free(thispkt);
return -1;
}
if (pktnum < 0)
ctx->lastpkt++;
return inl;
}
static int mempacket_test_write(BIO *bio, const char *in, int inl)
{
return mempacket_test_inject(bio, in, inl, -1, STANDARD_PACKET);
}
static long mempacket_test_ctrl(BIO *bio, int cmd, long num, void *ptr)
{
long ret = 1;
MEMPACKET_TEST_CTX *ctx = bio->ptr;
MEMPACKET *thispkt;
switch (cmd) {
case BIO_CTRL_EOF:
ret = (long)(sk_MEMPACKET_num(ctx->pkts) == 0);
break;
case BIO_CTRL_GET_CLOSE:
ret = bio->shutdown;
break;
case BIO_CTRL_SET_CLOSE:
bio->shutdown = (int)num;
break;
case BIO_CTRL_WPENDING:
ret = 0L;
break;
case BIO_CTRL_PENDING:
thispkt = sk_MEMPACKET_value(ctx->pkts, 0);
if (thispkt == NULL)
ret = 0;
else
ret = thispkt->len;
break;
case BIO_CTRL_FLUSH:
ret = 1;
break;
case BIO_CTRL_RESET:
case BIO_CTRL_DUP:
case BIO_CTRL_PUSH:
case BIO_CTRL_POP:
default:
ret = 0;
break;
}
return ret;
}
static int mempacket_test_gets(BIO *bio, char *buf, int size)
{
/* We don't support this - not needed anyway */
return -1;
}
static int mempacket_test_puts(BIO *bio, const char *str)
{
return mempacket_test_write(bio, str, strlen(str));
}
int create_ssl_ctx_pair(const SSL_METHOD *sm, const SSL_METHOD *cm,
SSL_CTX **sctx, SSL_CTX **cctx, char *certfile,
char *privkeyfile)
{
SSL_CTX *serverctx = NULL;
SSL_CTX *clientctx = NULL;
serverctx = SSL_CTX_new(sm);
clientctx = SSL_CTX_new(cm);
if (serverctx == NULL || clientctx == NULL) {
printf("Failed to create SSL_CTX\n");
goto err;
}
if (SSL_CTX_use_certificate_file(serverctx, certfile,
SSL_FILETYPE_PEM) <= 0) {
printf("Failed to load server certificate\n");
goto err;
}
if (SSL_CTX_use_PrivateKey_file(serverctx, privkeyfile,
SSL_FILETYPE_PEM) <= 0) {
printf("Failed to load server private key\n");
}
if (SSL_CTX_check_private_key(serverctx) <= 0) {
printf("Failed to check private key\n");
goto err;
}
*sctx = serverctx;
*cctx = clientctx;
return 1;
err:
SSL_CTX_free(serverctx);
SSL_CTX_free(clientctx);
return 0;
}
#define MAXLOOPS 100000
/*
* NOTE: Transfers control of the BIOs - this function will free them on error
*/
int create_ssl_objects(SSL_CTX *serverctx, SSL_CTX *clientctx, SSL **sssl,
SSL **cssl, BIO *s_to_c_fbio, BIO *c_to_s_fbio)
{
SSL *serverssl, *clientssl;
BIO *s_to_c_bio = NULL, *c_to_s_bio = NULL;
serverssl = SSL_new(serverctx);
clientssl = SSL_new(clientctx);
if (serverssl == NULL || clientssl == NULL) {
printf("Failed to create SSL object\n");
goto error;
}
if (SSL_IS_DTLS(clientssl)) {
s_to_c_bio = BIO_new(bio_s_mempacket_test());
c_to_s_bio = BIO_new(bio_s_mempacket_test());;
} else {
s_to_c_bio = BIO_new(BIO_s_mem());
c_to_s_bio = BIO_new(BIO_s_mem());
}
if (s_to_c_bio == NULL || c_to_s_bio == NULL) {
printf("Failed to create mem BIOs\n");
goto error;
}
if (s_to_c_fbio != NULL)
s_to_c_bio = BIO_push(s_to_c_fbio, s_to_c_bio);
if (c_to_s_fbio != NULL)
c_to_s_bio = BIO_push(c_to_s_fbio, c_to_s_bio);
if (s_to_c_bio == NULL || c_to_s_bio == NULL) {
printf("Failed to create chained BIOs\n");
goto error;
}
/* Set Non-blocking IO behaviour */
BIO_set_mem_eof_return(s_to_c_bio, -1);
BIO_set_mem_eof_return(c_to_s_bio, -1);
/* Up ref these as we are passing them to two SSL objects */
CRYPTO_add(&s_to_c_bio->references, 1, CRYPTO_LOCK_BIO);
CRYPTO_add(&c_to_s_bio->references, 1, CRYPTO_LOCK_BIO);
SSL_set_bio(serverssl, c_to_s_bio, s_to_c_bio);
SSL_set_bio(clientssl, s_to_c_bio, c_to_s_bio);
/* BIOs will now be freed when SSL objects are freed */
s_to_c_bio = c_to_s_bio = NULL;
s_to_c_fbio = c_to_s_fbio = NULL;
*sssl = serverssl;
*cssl = clientssl;
return 1;
error:
SSL_free(serverssl);
SSL_free(clientssl);
BIO_free(s_to_c_bio);
BIO_free(c_to_s_bio);
BIO_free(s_to_c_fbio);
BIO_free(c_to_s_fbio);
return 0;
}
int create_ssl_connection(SSL *serverssl, SSL *clientssl)
{
int retc = -1, rets = -1, err, abortctr = 0;
do {
err = SSL_ERROR_WANT_WRITE;
while (retc <= 0 && err == SSL_ERROR_WANT_WRITE) {
retc = SSL_connect(clientssl);
if (retc <= 0)
err = SSL_get_error(clientssl, retc);
}
if (retc <= 0 && err != SSL_ERROR_WANT_READ) {
printf("SSL_connect() failed %d, %d\n", retc, err);
return 0;
}
err = SSL_ERROR_WANT_WRITE;
while (rets <= 0 && err == SSL_ERROR_WANT_WRITE) {
rets = SSL_accept(serverssl);
if (rets <= 0)
err = SSL_get_error(serverssl, rets);
}
if (rets <= 0 && err != SSL_ERROR_WANT_READ) {
printf("SSL_accept() failed %d, %d\n", retc, err);
return 0;
}
if (++abortctr == MAXLOOPS) {
printf("No progress made\n");
return 0;
}
} while (retc <=0 || rets <= 0);
return 1;
}
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