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tlv.c
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tlv.c
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/*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*
* Copyright (c) 2017, Joyent Inc
* Author: Alex Wilson <[email protected]>
*/
#include <stdio.h>
#include <stdlib.h>
#include <time.h>
#include <stdint.h>
#include <string.h>
#include "debug.h"
#include "utils.h"
#include "tlv.h"
#include "openssh/config.h"
#include "openssh/sshbuf.h"
#if defined(__sun) || defined(__APPLE__)
#include <netinet/in.h>
#define htobe16(v) (htons(v))
#else
#include <endian.h>
#endif
struct tlv_context {
struct tlv_context *tc_next;
size_t tc_begin; /* R: beginning index in tc_buf */
size_t tc_end; /* RW: final index in tc_buf */
int tc_depth; /* RW: root = 0, tag = 1, child = 2 */
uint8_t *tc_buf; /* RW: data buffer */
size_t tc_pos; /* RW: pos in tc_buf */
boolean_t tc_freebuf; /* W: we should free tc_buf */
};
struct tlv_state {
struct tlv_context *ts_root; /* top-level ctx spanning whole buf */
struct tlv_context *ts_now; /* current tag ctx */
boolean_t ts_debug;
};
enum tlv_tag_bits {
TLV_TYPE_MASK = (1 << 7 | 1 << 6 | 1 << 5),
TLV_TAG_MASK = ~(TLV_TYPE_MASK),
TLV_TAG_CONT = 0xFF & TLV_TAG_MASK,
};
struct tlv_state *
tlv_init(const uint8_t *buf, size_t offset, size_t len)
{
struct tlv_state *ts = calloc(1, sizeof (struct tlv_state));
if (ts == NULL)
return (NULL);
struct tlv_context *tc = calloc(1, sizeof (struct tlv_context));
if (tc == NULL) {
free(ts);
return (NULL);
}
ts->ts_root = tc;
ts->ts_now = tc;
tc->tc_buf = (uint8_t *)buf;
tc->tc_pos = offset;
tc->tc_begin = offset;
tc->tc_end = offset + len;
return (ts);
}
void
tlv_enable_debug(struct tlv_state *ts)
{
ts->ts_debug = B_TRUE;
}
struct tlv_state *
tlv_init_write(void)
{
struct tlv_state *ts = calloc(1, sizeof (struct tlv_state));
if (ts == NULL)
return (NULL);
struct tlv_context *tc = calloc(1, sizeof (struct tlv_context));
if (tc == NULL) {
free(ts);
return (NULL);
}
ts->ts_root = tc;
ts->ts_now = tc;
tc->tc_buf = calloc(1, MAX_APDU_SIZE);
if (tc->tc_buf == NULL) {
free(ts);
free(tc);
return (NULL);
}
tc->tc_freebuf = B_TRUE;
tc->tc_end = MAX_APDU_SIZE;
return (ts);
}
const uint8_t TLV_CONT = (1 << 7);
static void
tlv_ctx_push(struct tlv_state *ts, struct tlv_context *tc)
{
assert(ts->ts_now != NULL);
tc->tc_next = ts->ts_now;
tc->tc_depth = ts->ts_now->tc_depth + 1;
ts->ts_now = tc;
}
static struct tlv_context *
tlv_ctx_pop(struct tlv_state *ts)
{
struct tlv_context *tc = ts->ts_now;
VERIFY(tc != NULL);
VERIFY(tc != ts->ts_root);
ts->ts_now = tc->tc_next;
return (tc);
}
void
tlv_push(struct tlv_state *ts, uint tag)
{
struct tlv_context *tc;
struct tlv_context *p = ts->ts_now;
assert(p != NULL);
tc = calloc(1, sizeof (struct tlv_context));
VERIFYN(tc);
/* Write the tag into our parent buffer now */
tlv_write_u8to32(ts, tag);
/*
* Reserve enough space in the new context for the longest possible
* length
*/
tc->tc_end = p->tc_end - p->tc_pos - 4;
tc->tc_buf = malloc(tc->tc_end);
VERIFYN(tc->tc_buf);
tc->tc_freebuf = B_TRUE;
tlv_ctx_push(ts, tc);
}
void
tlv_pop(struct tlv_state *ts)
{
struct tlv_context *tc = tlv_ctx_pop(ts);
struct tlv_context *p = ts->ts_now;
uint8_t *buf = p->tc_buf;
size_t len = tc->tc_pos;
/*
* We wrote just the tag in tlv_push(), now we know the length, so
* write that and then the actual data inside the tag.
*/
if (len < (1 << 7)) {
VERIFY3U(p->tc_pos + len + 1, <=, p->tc_end);
buf[p->tc_pos++] = len;
} else if (len < (1 << 8)) {
VERIFY3U(p->tc_pos + len + 2, <=, p->tc_end);
buf[p->tc_pos++] = 0x81;
buf[p->tc_pos++] = len;
} else if (len < (1 << 16)) {
VERIFY3U(p->tc_pos + len + 3, <=, p->tc_end);
buf[p->tc_pos++] = 0x82;
buf[p->tc_pos++] = (len & 0xFF00) >> 8;
buf[p->tc_pos++] = (len & 0x00FF);
} else if (len < (1 << 24)) {
VERIFY3U(p->tc_pos + len + 4, <=, p->tc_end);
buf[p->tc_pos++] = 0x83;
buf[p->tc_pos++] = (len & 0xFF0000) >> 16;
buf[p->tc_pos++] = (len & 0x00FF00) >> 8;
buf[p->tc_pos++] = (len & 0x0000FF);
} else {
VERIFY(0);
}
bcopy(tc->tc_buf, &buf[p->tc_pos], len);
p->tc_pos += len;
/* We're done with the child tag context now. */
VERIFY(tc->tc_freebuf);
explicit_bzero(tc->tc_buf, tc->tc_pos);
free(tc->tc_buf);
free(tc);
}
errf_t *
tlv_peek_tag(struct tlv_state *ts, uint *ptag)
{
struct tlv_context *p = ts->ts_now;
const uint8_t *buf = p->tc_buf;
uint8_t d;
uint tag;
size_t origin = p->tc_pos;
errf_t *error;
if (tlv_at_end(ts)) {
error = errf("LengthError", NULL, "tlv_read_tag called "
"past end of context");
__CPROVER_assume(error != NULL);
return (error);
}
d = buf[p->tc_pos++];
tag = d;
if ((d & TLV_TAG_MASK) == TLV_TAG_CONT) {
do {
if (tlv_at_end(ts)) {
error = errf("LengthError", NULL, "TLV tag "
"continued past end of context");
__CPROVER_assume(error != NULL);
p->tc_pos = origin;
return (error);
}
d = buf[p->tc_pos++];
tag <<= 8;
tag |= d;
} while ((d & TLV_CONT) == TLV_CONT);
}
if (tlv_at_end(ts)) {
error = errf("LengthError", NULL, "TLV tag length continued "
"past end of context");
__CPROVER_assume(error != NULL);
p->tc_pos = origin;
return (error);
}
p->tc_pos = origin;
*ptag = tag;
return (ERRF_OK);
}
errf_t *
tlv_read_tag(struct tlv_state *ts, uint *ptag)
{
struct tlv_context *p = ts->ts_now;
const uint8_t *buf = p->tc_buf;
uint8_t d;
uint tag, octs;
size_t len;
struct tlv_context *tc;
size_t origin = p->tc_pos;
errf_t *error;
tc = calloc(1, sizeof (struct tlv_context));
if (tc == NULL)
return (ERRF_NOMEM);
tc->tc_buf = p->tc_buf;
if (tlv_at_end(ts)) {
error = errf("LengthError", NULL, "tlv_read_tag called "
"past end of context");
__CPROVER_assume(error != NULL);
free(tc);
return (error);
}
d = buf[p->tc_pos++];
tag = d;
if ((d & TLV_TAG_MASK) == TLV_TAG_CONT) {
do {
if (tlv_at_end(ts)) {
error = errf("LengthError", NULL, "TLV tag "
"continued past end of context");
__CPROVER_assume(error != NULL);
free(tc);
return (error);
}
d = buf[p->tc_pos++];
tag <<= 8;
tag |= d;
} while ((d & TLV_CONT) == TLV_CONT);
}
if (tlv_at_end(ts)) {
error = errf("LengthError", NULL, "TLV tag length continued "
"past end of context");
__CPROVER_assume(error != NULL);
free(tc);
return (error);
}
d = buf[p->tc_pos++];
if ((d & TLV_CONT) == TLV_CONT) {
octs = d & (~TLV_CONT);
if (octs < 1 || octs > 4) {
error = errf("LengthError", NULL, "TLV tag had invalid "
"length indicator: %d octets", octs);
__CPROVER_assume(error != NULL);
free(tc);
return (error);
}
len = 0;
if (tlv_rem(ts) < octs) {
error = errf("LengthError", NULL, "TLV tag length "
"bytes continued past end of context");
__CPROVER_assume(error != NULL);
free(tc);
return (error);
}
for (; octs > 0; --octs) {
d = buf[p->tc_pos++];
len <<= 8;
len |= d;
}
} else {
len = d;
}
if (tlv_root_rem(ts) < len) {
error = errf("LengthError", NULL, "TLV tag length is too "
"long for buffer: %zu", len);
__CPROVER_assume(error != NULL);
free(tc);
return (error);
}
if (tlv_rem(ts) < len) {
error = errf("LengthError", NULL, "TLV tag length is too "
"long for enclosing tag: %zu", len);
__CPROVER_assume(error != NULL);
free(tc);
return (error);
}
tc->tc_begin = p->tc_pos;
tc->tc_pos = p->tc_pos;
tc->tc_end = p->tc_pos + len;
p->tc_pos += len;
tlv_ctx_push(ts, tc);
if (ts->ts_debug) {
fprintf(stderr, "%*stag at +%zu: 0x%x (%zu bytes)\n",
tc->tc_depth, "", origin, tag, len);
}
*ptag = tag;
return (ERRF_OK);
}
errf_t *
tlv_end(struct tlv_state *ts)
{
struct tlv_context *tc = tlv_ctx_pop(ts);
struct tlv_context *p = ts->ts_now;
if (ts->ts_debug) {
fprintf(stderr, "%*send tag from +%zu (%zu bytes left)\n",
tc->tc_depth, "", tc->tc_begin, tc->tc_end - tc->tc_pos);
}
VERIFY3U(p->tc_pos, >=, tc->tc_end);
if (tc->tc_pos != tc->tc_end) {
return (errf("LengthError", NULL, "tlv_end() called at +%zu "
"but tag ends at +%zu", tc->tc_pos, tc->tc_end));
}
free(tc);
return (NULL);
}
void
tlv_skip(struct tlv_state *ts)
{
struct tlv_context *tc = tlv_ctx_pop(ts);
struct tlv_context *p = ts->ts_now;
if (ts->ts_debug) {
fprintf(stderr, "%*sskip tag from +%zu (%zu bytes left)\n",
tc->tc_depth, "", tc->tc_begin, tc->tc_end - tc->tc_pos);
}
VERIFY3U(tc->tc_pos, >=, tc->tc_begin);
VERIFY3U(tc->tc_pos, <=, tc->tc_end);
VERIFY3U(p->tc_pos, >=, tc->tc_end);
free(tc);
}
void
tlv_abort(struct tlv_state *ts)
{
struct tlv_context *tc = ts->ts_now;
while (tc != ts->ts_root) {
struct tlv_context *tofree = tc;
tc = tc->tc_next;
VERIFY3U(tc->tc_pos, >=, tc->tc_begin);
VERIFY3U(tc->tc_pos, <=, tc->tc_end);
if (tofree->tc_freebuf)
free(tofree->tc_buf);
free(tofree);
}
ts->ts_now = ts->ts_root;
ts->ts_root->tc_pos = ts->ts_root->tc_end;
}
errf_t *
tlv_read_u8(struct tlv_state *ts, uint8_t *out)
{
struct tlv_context *tc = ts->ts_now;
if (tlv_at_end(ts)) {
return (errf("LengthError", NULL, "tlv_read_u8() called "
"with no bytes remaining"));
}
*out = tc->tc_buf[tc->tc_pos++];
return (NULL);
}
errf_t *
tlv_read_u16(struct tlv_state *ts, uint16_t *out)
{
struct tlv_context *tc = ts->ts_now;
if (tlv_rem(ts) < 2) {
return (errf("LengthError", NULL, "tlv_read_u16() called "
"with only %zu bytes remaining", tlv_rem(ts)));
}
*out = tc->tc_buf[tc->tc_pos++] << 8;
*out |= tc->tc_buf[tc->tc_pos++];
return (NULL);
}
errf_t *
tlv_read_u8to32(struct tlv_state *ts, uint32_t *out)
{
struct tlv_context *tc = ts->ts_now;
*out = 0;
const uint8_t *buf = tc->tc_buf;
if (tlv_rem(ts) < 1) {
return (errf("LengthError", NULL, "tlv_read_u8to32() called "
"with no bytes remaining"));
}
if (tlv_rem(ts) > 4) {
return (errf("LengthError", NULL, "tlv_read_u8to32() called "
"with %zu bytes remaining (supports max 4)", tlv_rem(ts)));
}
while (!tlv_at_end(ts)) {
*out <<= 8;
*out |= buf[tc->tc_pos++];
}
return (NULL);
}
errf_t *
tlv_read_upto(struct tlv_state *ts, uint8_t *dest, size_t maxLen,
size_t *plen)
{
struct tlv_context *tc = ts->ts_now;
size_t len = maxLen;
if (len > tlv_rem(ts))
len = tlv_rem(ts);
if (len == 0) {
return (errf("LengthError", NULL, "tlv_read() called "
"with no bytes remaining"));
}
bcopy(&tc->tc_buf[tc->tc_pos], dest, len);
tc->tc_pos += len;
*plen = len;
return (NULL);
}
errf_t *
tlv_read_string(struct tlv_state *ts, char **dest)
{
struct tlv_context *tc = ts->ts_now;
const size_t len = tlv_rem(ts);
char *buf;
size_t i;
buf = malloc(len + 1);
if (buf == NULL)
return (ERRF_NOMEM);
for (i = 0; i < len; ++i) {
if (tc->tc_buf[tc->tc_pos] == 0) {
free(buf);
return (errf("StringError", NULL, "tlv_read_string() "
"encountered a NUL character unexpectedly"));
}
buf[i] = (char)tc->tc_buf[tc->tc_pos++];
}
buf[len] = '\0';
*dest = buf;
return (NULL);
}
errf_t *
tlv_read_alloc(struct tlv_state *ts, uint8_t **pdata, size_t *plen)
{
struct tlv_context *tc = ts->ts_now;
size_t len = tlv_rem(ts);
if (len == 0) {
*pdata = NULL;
*plen = 0;
return (NULL);
}
uint8_t *data;
data = calloc(1, len);
if (data == NULL)
return (ERRF_NOMEM);
*plen = len;
bcopy(&tc->tc_buf[tc->tc_pos], data, len);
tc->tc_pos += len;
*pdata = data;
return (NULL);
}
errf_t *
tlv_read(struct tlv_state *ts, uint8_t *dest, size_t len)
{
struct tlv_context *tc = ts->ts_now;
if (tlv_rem(ts) != len) {
return (errf("LengthError", NULL, "tlv_read() called "
"for %zu bytes but %zu are left in tag", len,
tlv_rem(ts)));
}
bcopy(&tc->tc_buf[tc->tc_pos], dest, len);
tc->tc_pos += len;
return (NULL);
}
void
tlv_free(struct tlv_state *ts)
{
struct tlv_context *root;
if (ts == NULL)
return;
root = ts->ts_root;
VERIFY(root == ts->ts_now);
if (root->tc_freebuf) {
explicit_bzero(&root->tc_buf[root->tc_begin],
root->tc_end - root->tc_begin);
free(root->tc_buf);
}
free(root);
free(ts);
}
void
tlv_write(struct tlv_state *ts, const uint8_t *src, size_t len)
{
struct tlv_context *tc = ts->ts_now;
VERIFY3U(tlv_rem(ts), >=, len);
bcopy(src, &tc->tc_buf[tc->tc_pos], len);
tc->tc_pos += len;
}
void
tlv_write_u16(struct tlv_state *ts, uint16_t val)
{
struct tlv_context *tc = ts->ts_now;
VERIFY3U(tlv_rem(ts), >=, sizeof (val));
val = htobe16(val);
bcopy(&val, &tc->tc_buf[tc->tc_pos], sizeof (val));
tc->tc_pos += sizeof (val);
}
void
tlv_write_u8to32(struct tlv_state *ts, uint32_t val)
{
struct tlv_context *tc;
uint8_t *buf;
uint32_t mask = 0xFFUL << 24;
int shift = 24;
uint32_t part;
tc = ts->ts_now;
assert(tc != NULL);
buf = tc->tc_buf;
assert(buf != NULL);
if (val == 0) {
VERIFY(!tlv_at_end(ts));
buf[tc->tc_pos++] = 0;
return;
}
/* Skip any leading zero bytes. */
while (shift >= 0) {
part = (val & mask) >> shift;
if (part != 0)
break;
mask >>= 8;
shift -= 8;
}
/* And then write out the rest. */
while (shift >= 0) {
part = (val & mask) >> shift;
VERIFY(!tlv_at_end(ts));
buf[tc->tc_pos++] = part;
mask >>= 8;
shift -= 8;
}
}
void
tlv_write_byte(struct tlv_state *ts, uint8_t val)
{
struct tlv_context *tc = ts->ts_now;
VERIFY(!tlv_at_end(ts));
tc->tc_buf[tc->tc_pos++] = val;
}
boolean_t
tlv_at_root_end(const struct tlv_state *ts)
{
return (ts->ts_now->tc_pos >= ts->ts_root->tc_end);
}
boolean_t
tlv_at_end(const struct tlv_state *ts)
{
return (tlv_at_root_end(ts) || ts->ts_now->tc_pos >= ts->ts_now->tc_end);
}
size_t
tlv_root_rem(const struct tlv_state *ts)
{
return (ts->ts_root->tc_end - ts->ts_now->tc_pos);
}
size_t
tlv_rem(const struct tlv_state *ts)
{
return (ts->ts_now->tc_end - ts->ts_now->tc_pos);
}
uint8_t *
tlv_buf(const struct tlv_state *ts)
{
return (ts->ts_root->tc_buf);
}
uint8_t *
tlv_ptr(const struct tlv_state *ts)
{
const struct tlv_context *tc = ts->ts_now;
return (&tc->tc_buf[tc->tc_pos]);
}
size_t
tlv_len(const struct tlv_state *ts)
{
return (ts->ts_root->tc_pos);
}
#if defined(__CPROVER) && __CPROVER_MAIN == __FILE_tlv_c
uint8_t nondet_uchar(void);
int
main(int argc, char *argv[])
{
struct tlv_state *tlv;
errf_t *err;
uint tag;
char *str;
__CPROVER_assume(ERRF_NOMEM != NULL);
tlv = tlv_init_write();
VERIFYN(tlv);
tlv_push(tlv, 0xabcd);
tlv_push(tlv, 0xa2);
tlv_write_u8to32(tlv, 0x12345678);
tlv_pop(tlv);
tlv_push(tlv, 0xa1);
tlv_write_byte(tlv, 0x00);
tlv_pop(tlv);
tlv_pop(tlv);
tlv_free(tlv);
const uint8_t buf[] = { 0x01, 0x07, 0xa1, 0x01, 0x00, 0xa2, 0x02, 0xab,
0xcd };
tlv = tlv_init(buf, 0, sizeof (buf));
VERIFYN(tlv);
if ((err = tlv_read_tag(tlv, &tag)) != NULL) {
errfx(1, err, "reading tag");
return (1);
}
assert(tag == 0x01);
if ((err = tlv_read_tag(tlv, &tag)) != NULL) {
errfx(1, err, "reading tag");
return (1);
}
assert(tag == 0xa1);
tlv_skip(tlv);
if ((err = tlv_read_tag(tlv, &tag)) != NULL) {
errfx(1, err, "reading tag");
return (1);
}
assert(tag == 0xa2);
tlv_skip(tlv);
tlv_end(tlv);
tlv_free(tlv);
const uint8_t buf2[] = { 0x01, 0x08, 0xa1, 0xff, 0x00, 0xa2, 0x02, 0xab,
0xcd };
tlv = tlv_init(buf2, 0, sizeof (buf2));
VERIFYN(tlv);
err = tlv_read_tag(tlv, &tag);
assert(err != NULL);
tlv_abort(tlv);
tlv_free(tlv);
const uint8_t buf3[] = { 0x01, 0x05, 'h', 'e', 'l', 'l', 'o' };
tlv = tlv_init(buf3, 0, sizeof (buf3));
VERIFYN(tlv);
if ((err = tlv_read_tag(tlv, &tag)) != NULL) {
errfx(1, err, "reading tag");
return (1);
}
assert(tag == 0x01);
if ((err = tlv_read_string(tlv, &str)) != NULL) {
errfx(1, err, "reading string");
return (1);
}
assert(strlen(str) == 5);
assert(strcmp(str, "hello") == 0);
tlv_abort(tlv);
tlv_free(tlv);
const uint8_t buf4[] = { nondet_uchar(), nondet_uchar(), nondet_uchar(),
nondet_uchar() };
tlv = tlv_init(buf4, 0, sizeof (buf4));
VERIFYN(tlv);
err = tlv_read_tag(tlv, &tag);
if (err == ERRF_OK) {
assert(tlv_rem(tlv) <= 2);
assert(tlv_ptr(tlv) >= &buf4[2]);
assert(tlv_ptr(tlv) <= &buf4[3] ||
(tlv_ptr(tlv) == &buf4[4] && tlv_rem(tlv) == 0));
err = tlv_read_tag(tlv, &tag);
if (err == ERRF_OK) {
/*
* only 4 bytes of data, it could be 2 zero-length tags
* but no more
*/
assert(tlv_rem(tlv) == 0);
tlv_end(tlv);
} else {
errf_free(err);
}
} else {
errf_free(err);
}
tlv_abort(tlv);
tlv_free(tlv);
const uint8_t buf5[] = { nondet_uchar(), nondet_uchar(), nondet_uchar(),
nondet_uchar(), nondet_uchar(), nondet_uchar(), nondet_uchar() };
tlv = tlv_init(buf5, 0, sizeof (buf5));
VERIFYN(tlv);
err = tlv_read_tag(tlv, &tag);
if (err == ERRF_OK) {
err = tlv_read_tag(tlv, &tag);
if (err == ERRF_OK) {
err = tlv_read_tag(tlv, &tag);
if (err == ERRF_OK) {
assert(tlv_rem(tlv) <= 1);
tlv_skip(tlv);
}
assert(tlv_rem(tlv) <= 3);
tlv_skip(tlv);
} else {
errf_free(err);
}
assert(tlv_rem(tlv) <= 5);
tlv_skip(tlv);
} else {
errf_free(err);
}
tlv_abort(tlv);
tlv_free(tlv);
return (0);
}
#endif