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/*
Unix SMB/CIFS implementation.
simple SPNEGO routines
Copyright (C) Andrew Tridgell 2001
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#include "includes.h"
/* free an asn1 structure */
void asn1_free(ASN1_DATA *data)
{
SAFE_FREE(data->data);
}
/* write to the ASN1 buffer, advancing the buffer pointer */
BOOL asn1_write(ASN1_DATA *data, const void *p, int len)
{
if (data->has_error) return False;
if (data->length < data->ofs+len) {
uint8_t *newp;
newp = Realloc(data->data, data->ofs+len);
if (!newp) {
SAFE_FREE(data->data);
data->has_error = True;
return False;
}
data->data = newp;
data->length = data->ofs+len;
}
memcpy(data->data + data->ofs, p, len);
data->ofs += len;
return True;
}
/* useful fn for writing a uint8_t */
BOOL asn1_write_uint8(ASN1_DATA *data, uint8_t v)
{
return asn1_write(data, &v, 1);
}
/* push a tag onto the asn1 data buffer. Used for nested structures */
BOOL asn1_push_tag(ASN1_DATA *data, uint8_t tag)
{
struct nesting *nesting;
asn1_write_uint8(data, tag);
nesting = (struct nesting *)malloc(sizeof(struct nesting));
if (!nesting) {
data->has_error = True;
return False;
}
nesting->start = data->ofs;
nesting->next = data->nesting;
data->nesting = nesting;
return asn1_write_uint8(data, 0xff);
}
/* pop a tag */
BOOL asn1_pop_tag(ASN1_DATA *data)
{
struct nesting *nesting;
size_t len;
nesting = data->nesting;
if (!nesting) {
data->has_error = True;
return False;
}
len = data->ofs - (nesting->start+1);
/* yes, this is ugly. We don't know in advance how many bytes the length
of a tag will take, so we assumed 1 byte. If we were wrong then we
need to correct our mistake */
if (len > 255) {
data->data[nesting->start] = 0x82;
if (!asn1_write_uint8(data, 0)) return False;
if (!asn1_write_uint8(data, 0)) return False;
memmove(data->data+nesting->start+3, data->data+nesting->start+1, len);
data->data[nesting->start+1] = len>>8;
data->data[nesting->start+2] = len&0xff;
} else if (len > 127) {
data->data[nesting->start] = 0x81;
if (!asn1_write_uint8(data, 0)) return False;
memmove(data->data+nesting->start+2, data->data+nesting->start+1, len);
data->data[nesting->start+1] = len;
} else {
data->data[nesting->start] = len;
}
data->nesting = nesting->next;
free(nesting);
return True;
}
/* write an integer */
BOOL asn1_write_Integer(ASN1_DATA *data, int i)
{
if (!asn1_push_tag(data, ASN1_INTEGER)) return False;
do {
asn1_write_uint8(data, i);
i = i >> 8;
} while (i);
return asn1_pop_tag(data);
}
/* write an object ID to a ASN1 buffer */
BOOL asn1_write_OID(ASN1_DATA *data, const char *OID)
{
uint_t v, v2;
const char *p = (const char *)OID;
char *newp;
if (!asn1_push_tag(data, ASN1_OID))
return False;
v = strtol(p, &newp, 10);
p = newp;
v2 = strtol(p, &newp, 10);
p = newp;
if (!asn1_write_uint8(data, 40*v + v2))
return False;
while (*p) {
v = strtol(p, &newp, 10);
p = newp;
if (v >= (1<<28)) asn1_write_uint8(data, 0x80 | ((v>>28)&0xff));
if (v >= (1<<21)) asn1_write_uint8(data, 0x80 | ((v>>21)&0xff));
if (v >= (1<<14)) asn1_write_uint8(data, 0x80 | ((v>>14)&0xff));
if (v >= (1<<7)) asn1_write_uint8(data, 0x80 | ((v>>7)&0xff));
if (!asn1_write_uint8(data, v&0x7f))
return False;
}
return asn1_pop_tag(data);
}
/* write an octet string */
BOOL asn1_write_OctetString(ASN1_DATA *data, const void *p, size_t length)
{
asn1_push_tag(data, ASN1_OCTET_STRING);
asn1_write(data, p, length);
asn1_pop_tag(data);
return !data->has_error;
}
/* write a general string */
BOOL asn1_write_GeneralString(ASN1_DATA *data, const char *s)
{
asn1_push_tag(data, ASN1_GENERAL_STRING);
asn1_write(data, s, strlen(s));
asn1_pop_tag(data);
return !data->has_error;
}
BOOL asn1_write_ContextSimple(ASN1_DATA *data, uint8_t num, DATA_BLOB *blob)
{
asn1_push_tag(data, ASN1_CONTEXT_SIMPLE(num));
asn1_write(data, blob->data, blob->length);
asn1_pop_tag(data);
return !data->has_error;
}
/* write a BOOLEAN */
BOOL asn1_write_BOOLEAN(ASN1_DATA *data, BOOL v)
{
asn1_write_uint8(data, ASN1_BOOLEAN);
asn1_write_uint8(data, v);
return !data->has_error;
}
/* write a BOOLEAN - hmm, I suspect this one is the correct one, and the
above boolean is bogus. Need to check */
BOOL asn1_write_BOOLEAN2(ASN1_DATA *data, BOOL v)
{
asn1_push_tag(data, ASN1_BOOLEAN);
asn1_write_uint8(data, v);
asn1_pop_tag(data);
return !data->has_error;
}
BOOL asn1_read_BOOLEAN2(ASN1_DATA *data, BOOL *v)
{
asn1_start_tag(data, ASN1_BOOLEAN);
asn1_read_uint8(data, (uint8 *)v);
asn1_end_tag(data);
return !data->has_error;
}
/* check a BOOLEAN */
BOOL asn1_check_BOOLEAN(ASN1_DATA *data, BOOL v)
{
uint8_t b = 0;
asn1_read_uint8(data, &b);
if (b != ASN1_BOOLEAN) {
data->has_error = True;
return False;
}
asn1_read_uint8(data, &b);
if (b != v) {
data->has_error = True;
return False;
}
return !data->has_error;
}
/* load a ASN1_DATA structure with a lump of data, ready to be parsed */
BOOL asn1_load(ASN1_DATA *data, DATA_BLOB blob)
{
ZERO_STRUCTP(data);
data->data = memdup(blob.data, blob.length);
if (!data->data) {
data->has_error = True;
return False;
}
data->length = blob.length;
return True;
}
/* Peek into an ASN1 buffer, not advancing the pointer */
BOOL asn1_peek(ASN1_DATA *data, void *p, int len)
{
if (len < 0 || data->ofs + len < data->ofs || data->ofs + len < len)
return False;
if (data->ofs + len > data->length)
return False;
memcpy(p, data->data + data->ofs, len);
return True;
}
/* read from a ASN1 buffer, advancing the buffer pointer */
BOOL asn1_read(ASN1_DATA *data, void *p, int len)
{
if (!asn1_peek(data, p, len)) {
data->has_error = True;
return False;
}
data->ofs += len;
return True;
}
/* read a uint8_t from a ASN1 buffer */
BOOL asn1_read_uint8(ASN1_DATA *data, uint8_t *v)
{
return asn1_read(data, v, 1);
}
BOOL asn1_peek_uint8(ASN1_DATA *data, uint8_t *v)
{
return asn1_peek(data, v, 1);
}
BOOL asn1_peek_tag(ASN1_DATA *data, uint8_t tag)
{
uint8_t b;
if (asn1_tag_remaining(data) <= 0) {
return False;
}
if (!asn1_peek(data, &b, sizeof(b)))
return False;
return (b == tag);
}
/* start reading a nested asn1 structure */
BOOL asn1_start_tag(ASN1_DATA *data, uint8_t tag)
{
uint8_t b;
struct nesting *nesting;
if (!asn1_read_uint8(data, &b))
return False;
if (b != tag) {
data->has_error = True;
return False;
}
nesting = (struct nesting *)malloc(sizeof(struct nesting));
if (!nesting) {
data->has_error = True;
return False;
}
if (!asn1_read_uint8(data, &b)) {
return False;
}
if (b & 0x80) {
int n = b & 0x7f;
if (!asn1_read_uint8(data, &b))
return False;
nesting->taglen = b;
while (n > 1) {
if (!asn1_read_uint8(data, &b))
return False;
nesting->taglen = (nesting->taglen << 8) | b;
n--;
}
} else {
nesting->taglen = b;
}
nesting->start = data->ofs;
nesting->next = data->nesting;
data->nesting = nesting;
return !data->has_error;
}
static BOOL read_one_uint8(int sock, uint8_t *result, ASN1_DATA *data,
const struct timeval *endtime)
{
if (read_data_until(sock, result, 1, endtime) != 1)
return False;
return asn1_write(data, result, 1);
}
/* Read a complete ASN sequence (ie LDAP result) from a socket */
BOOL asn1_read_sequence_until(int sock, ASN1_DATA *data,
const struct timeval *endtime)
{
uint8_t b;
size_t len;
char *buf;
ZERO_STRUCTP(data);
if (!read_one_uint8(sock, &b, data, endtime))
return False;
if (b != 0x30) {
data->has_error = True;
return False;
}
if (!read_one_uint8(sock, &b, data, endtime))
return False;
if (b & 0x80) {
int n = b & 0x7f;
if (!read_one_uint8(sock, &b, data, endtime))
return False;
len = b;
while (n > 1) {
if (!read_one_uint8(sock, &b, data, endtime))
return False;
len = (len<<8) | b;
n--;
}
} else {
len = b;
}
buf = malloc(len);
if (buf == NULL)
return False;
if (read_data_until(sock, buf, len, endtime) != len)
return False;
if (!asn1_write(data, buf, len))
return False;
free(buf);
data->ofs = 0;
return True;
}
/* Get the length to be expected in buf */
BOOL asn1_object_length(uint8_t *buf, size_t buf_length,
uint8_t tag, size_t *result)
{
ASN1_DATA data;
/* Fake the asn1_load to avoid the memdup, this is just to be able to
* re-use the length-reading in asn1_start_tag */
ZERO_STRUCT(data);
data.data = buf;
data.length = buf_length;
if (!asn1_start_tag(&data, tag))
return False;
*result = asn1_tag_remaining(&data)+data.ofs;
/* We can't use asn1_end_tag here, as we did not consume the complete
* tag, so asn1_end_tag would flag an error and not free nesting */
free(data.nesting);
return True;
}
/* stop reading a tag */
BOOL asn1_end_tag(ASN1_DATA *data)
{
struct nesting *nesting;
/* make sure we read it all */
if (asn1_tag_remaining(data) != 0) {
data->has_error = True;
return False;
}
nesting = data->nesting;
if (!nesting) {
data->has_error = True;
return False;
}
data->nesting = nesting->next;
free(nesting);
return True;
}
/* work out how many bytes are left in this nested tag */
int asn1_tag_remaining(ASN1_DATA *data)
{
if (!data->nesting) {
data->has_error = True;
return -1;
}
return data->nesting->taglen - (data->ofs - data->nesting->start);
}
/* read an object ID from a ASN1 buffer */
BOOL asn1_read_OID(ASN1_DATA *data, char **OID)
{
uint8_t b;
char *tmp_oid = NULL;
TALLOC_CTX *mem_ctx = talloc_init("asn1_read_OID");
if (!mem_ctx) {
return False;
}
if (!asn1_start_tag(data, ASN1_OID)) return False;
asn1_read_uint8(data, &b);
tmp_oid = talloc_asprintf(mem_ctx, "%u", b/40);
tmp_oid = talloc_asprintf_append(tmp_oid, " %u", b%40);
while (!data->has_error && asn1_tag_remaining(data) > 0) {
uint_t v = 0;
do {
asn1_read_uint8(data, &b);
v = (v<<7) | (b&0x7f);
} while (!data->has_error && b & 0x80);
tmp_oid = talloc_asprintf_append(tmp_oid, " %u", v);
}
asn1_end_tag(data);
*OID = strdup(tmp_oid);
talloc_destroy(mem_ctx);
return (*OID && !data->has_error);
}
/* check that the next object ID is correct */
BOOL asn1_check_OID(ASN1_DATA *data, const char *OID)
{
char *id;
if (!asn1_read_OID(data, &id)) return False;
if (strcmp(id, OID) != 0) {
data->has_error = True;
return False;
}
free(id);
return True;
}
/* read a GeneralString from a ASN1 buffer */
BOOL asn1_read_GeneralString(ASN1_DATA *data, char **s)
{
int len;
if (!asn1_start_tag(data, ASN1_GENERAL_STRING)) return False;
len = asn1_tag_remaining(data);
if (len < 0) {
data->has_error = True;
return False;
}
*s = malloc(len+1);
if (! *s) {
data->has_error = True;
return False;
}
asn1_read(data, *s, len);
(*s)[len] = 0;
asn1_end_tag(data);
return !data->has_error;
}
/* read a octet string blob */
BOOL asn1_read_OctetString(ASN1_DATA *data, DATA_BLOB *blob)
{
int len;
ZERO_STRUCTP(blob);
if (!asn1_start_tag(data, ASN1_OCTET_STRING)) return False;
len = asn1_tag_remaining(data);
if (len < 0) {
data->has_error = True;
return False;
}
*blob = data_blob(NULL, len);
asn1_read(data, blob->data, len);
asn1_end_tag(data);
return !data->has_error;
}
BOOL asn1_read_ContextSimple(ASN1_DATA *data, uint8_t num, DATA_BLOB *blob)
{
int len;
ZERO_STRUCTP(blob);
if (!asn1_start_tag(data, ASN1_CONTEXT_SIMPLE(num))) return False;
len = asn1_tag_remaining(data);
if (len < 0) {
data->has_error = True;
return False;
}
*blob = data_blob(NULL, len);
asn1_read(data, blob->data, len);
asn1_end_tag(data);
return !data->has_error;
}
/* read an interger */
BOOL asn1_read_Integer(ASN1_DATA *data, int *i)
{
uint8_t b;
*i = 0;
if (!asn1_start_tag(data, ASN1_INTEGER)) return False;
while (asn1_tag_remaining(data)>0) {
asn1_read_uint8(data, &b);
*i = (*i << 8) + b;
}
return asn1_end_tag(data);
}
/* read an interger */
BOOL asn1_read_enumerated(ASN1_DATA *data, int *v)
{
*v = 0;
if (!asn1_start_tag(data, ASN1_ENUMERATED)) return False;
while (asn1_tag_remaining(data)>0) {
uint8_t b;
asn1_read_uint8(data, &b);
*v = (*v << 8) + b;
}
return asn1_end_tag(data);
}
/* check a enumarted value is correct */
BOOL asn1_check_enumerated(ASN1_DATA *data, int v)
{
uint8_t b;
if (!asn1_start_tag(data, ASN1_ENUMERATED)) return False;
asn1_read_uint8(data, &b);
asn1_end_tag(data);
if (v != b)
data->has_error = False;
return !data->has_error;
}
/* write an enumarted value to the stream */
BOOL asn1_write_enumerated(ASN1_DATA *data, uint8_t v)
{
if (!asn1_push_tag(data, ASN1_ENUMERATED)) return False;
asn1_write_uint8(data, v);
asn1_pop_tag(data);
return !data->has_error;
}
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