/*
Unix SMB / Netbios implementation .
Version 3.0
simple kerberos5 / 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 0213 9 , USA .
*/
# include "includes.h"
/*
generate a negTokenInit packet given a GUID , a list of supported
OIDs ( the mechanisms ) and a principle name string
*/
ASN1_DATA spnego_gen_negTokenInit ( uint8 guid [ 16 ] ,
const char * OIDs [ ] ,
const char * principle )
{
int i ;
ASN1_DATA data ;
memset ( & data , 0 , sizeof ( data ) ) ;
asn1_write ( & data , guid , 16 ) ;
asn1_push_tag ( & data , ASN1_APPLICATION ( 0 ) ) ;
asn1_write_OID ( & data , OID_SPNEGO ) ;
asn1_push_tag ( & data , ASN1_CONTEXT ( 0 ) ) ;
asn1_push_tag ( & data , ASN1_SEQUENCE ( 0 ) ) ;
asn1_push_tag ( & data , ASN1_CONTEXT ( 0 ) ) ;
asn1_push_tag ( & data , ASN1_SEQUENCE ( 0 ) ) ;
for ( i = 0 ; OIDs [ i ] ; i + + ) {
asn1_write_OID ( & data , OIDs [ i ] ) ;
}
asn1_pop_tag ( & data ) ;
asn1_pop_tag ( & data ) ;
asn1_push_tag ( & data , ASN1_CONTEXT ( 3 ) ) ;
asn1_push_tag ( & data , ASN1_SEQUENCE ( 0 ) ) ;
asn1_push_tag ( & data , ASN1_CONTEXT ( 0 ) ) ;
asn1_write_GeneralString ( & data , principle ) ;
asn1_pop_tag ( & data ) ;
asn1_pop_tag ( & data ) ;
asn1_pop_tag ( & data ) ;
asn1_pop_tag ( & data ) ;
asn1_pop_tag ( & data ) ;
asn1_pop_tag ( & data ) ;
if ( data . has_error ) {
DEBUG ( 1 , ( " Failed to build negTokenInit at offset %d \n " , ( int ) data . ofs ) ) ;
asn1_free ( & data ) ;
}
return data ;
}
/*
parse a negTokenInit packet giving a GUID , a list of supported
OIDs ( the mechanisms ) and a principle name string
*/
BOOL spnego_parse_negTokenInit ( DATA_BLOB blob ,
uint8 guid [ 16 ] ,
char * OIDs [ ASN1_MAX_OIDS ] ,
char * * principle )
{
int i ;
BOOL ret ;
ASN1_DATA data ;
asn1_load ( & data , blob ) ;
asn1_read ( & data , guid , 16 ) ;
asn1_start_tag ( & data , ASN1_APPLICATION ( 0 ) ) ;
asn1_check_OID ( & data , OID_SPNEGO ) ;
asn1_start_tag ( & data , ASN1_CONTEXT ( 0 ) ) ;
asn1_start_tag ( & data , ASN1_SEQUENCE ( 0 ) ) ;
asn1_start_tag ( & data , ASN1_CONTEXT ( 0 ) ) ;
asn1_start_tag ( & data , ASN1_SEQUENCE ( 0 ) ) ;
for ( i = 0 ; asn1_tag_remaining ( & data ) > 0 & & i < ASN1_MAX_OIDS ; i + + ) {
char * oid = NULL ;
asn1_read_OID ( & data , & oid ) ;
OIDs [ i ] = oid ;
}
OIDs [ i ] = NULL ;
asn1_end_tag ( & data ) ;
asn1_end_tag ( & data ) ;
asn1_start_tag ( & data , ASN1_CONTEXT ( 3 ) ) ;
asn1_start_tag ( & data , ASN1_SEQUENCE ( 0 ) ) ;
asn1_start_tag ( & data , ASN1_CONTEXT ( 0 ) ) ;
asn1_read_GeneralString ( & data , principle ) ;
asn1_end_tag ( & data ) ;
asn1_end_tag ( & data ) ;
asn1_end_tag ( & data ) ;
asn1_end_tag ( & data ) ;
asn1_end_tag ( & data ) ;
asn1_end_tag ( & data ) ;
ret = ! data . has_error ;
asn1_free ( & data ) ;
return ret ;
}
/*
generate a negTokenTarg packet given a list of OIDs and a security blob
*/
DATA_BLOB gen_negTokenTarg ( const char * OIDs [ ] , DATA_BLOB blob )
{
int i ;
ASN1_DATA data ;
DATA_BLOB ret ;
memset ( & data , 0 , sizeof ( data ) ) ;
asn1_push_tag ( & data , ASN1_APPLICATION ( 0 ) ) ;
asn1_write_OID ( & data , OID_SPNEGO ) ;
asn1_push_tag ( & data , ASN1_CONTEXT ( 0 ) ) ;
asn1_push_tag ( & data , ASN1_SEQUENCE ( 0 ) ) ;
asn1_push_tag ( & data , ASN1_CONTEXT ( 0 ) ) ;
asn1_push_tag ( & data , ASN1_SEQUENCE ( 0 ) ) ;
for ( i = 0 ; OIDs [ i ] ; i + + ) {
asn1_write_OID ( & data , OIDs [ i ] ) ;
}
asn1_pop_tag ( & data ) ;
asn1_pop_tag ( & data ) ;
asn1_push_tag ( & data , ASN1_CONTEXT ( 2 ) ) ;
asn1_write_OctetString ( & data , blob . data , blob . length ) ;
asn1_pop_tag ( & data ) ;
asn1_pop_tag ( & data ) ;
asn1_pop_tag ( & data ) ;
asn1_pop_tag ( & data ) ;
if ( data . has_error ) {
DEBUG ( 1 , ( " Failed to build negTokenTarg at offset %d \n " , ( int ) data . ofs ) ) ;
asn1_free ( & data ) ;
}
ret = data_blob ( data . data , data . length ) ;
asn1_free ( & data ) ;
return ret ;
}
/*
generate a krb5 GSS - API wrapper packet given a ticket
*/
static DATA_BLOB spnego_gen_krb5_wrap ( DATA_BLOB ticket )
{
ASN1_DATA data ;
DATA_BLOB ret ;
memset ( & data , 0 , sizeof ( data ) ) ;
asn1_push_tag ( & data , ASN1_APPLICATION ( 0 ) ) ;
asn1_write_OID ( & data , OID_KERBEROS5 ) ;
asn1_write_BOOLEAN ( & data , 0 ) ;
asn1_write ( & data , ticket . data , ticket . length ) ;
asn1_pop_tag ( & data ) ;
if ( data . has_error ) {
DEBUG ( 1 , ( " Failed to build krb5 wrapper at offset %d \n " , ( int ) data . ofs ) ) ;
asn1_free ( & data ) ;
}
ret = data_blob ( data . data , data . length ) ;
asn1_free ( & data ) ;
return ret ;
}
/*
generate a SPNEGO negTokenTarg packet , ready for a EXTENDED_SECURITY
kerberos session setup
*/
DATA_BLOB spnego_gen_negTokenTarg ( struct cli_state * cli , char * principle )
{
char * p ;
fstring service ;
char * realm ;
DATA_BLOB tkt , tkt_wrapped , targ ;
const char * krb_mechs [ ] = { OID_KERBEROS5_OLD , OID_NTLMSSP , NULL } ;
fstrcpy ( service , principle ) ;
p = strchr_m ( service , ' @ ' ) ;
if ( ! p ) {
DEBUG ( 1 , ( " Malformed principle [%s] in spnego_gen_negTokenTarg \n " ,
principle ) ) ;
return data_blob ( NULL , 0 ) ;
}
* p = 0 ;
realm = p + 1 ;
/* get a kerberos ticket for the service */
tkt = krb5_get_ticket ( service , realm ) ;
/* wrap that up in a nice GSS-API wrapping */
tkt_wrapped = spnego_gen_krb5_wrap ( tkt ) ;
/* and wrap that in a shiny SPNEGO wrapper */
targ = gen_negTokenTarg ( krb_mechs , tkt_wrapped ) ;
data_blob_free ( tkt_wrapped ) ;
data_blob_free ( tkt ) ;
return targ ;
}
/*
parse a spnego NTLMSSP challenge packet giving two security blobs
*/
BOOL spnego_parse_challenge ( DATA_BLOB blob ,
DATA_BLOB * chal1 , DATA_BLOB * chal2 )
{
BOOL ret ;
ASN1_DATA data ;
asn1_load ( & data , blob ) ;
asn1_start_tag ( & data , ASN1_CONTEXT ( 1 ) ) ;
asn1_start_tag ( & data , ASN1_SEQUENCE ( 0 ) ) ;
asn1_start_tag ( & data , ASN1_CONTEXT ( 0 ) ) ;
asn1_check_enumerated ( & data , 1 ) ;
asn1_end_tag ( & data ) ;
asn1_start_tag ( & data , ASN1_CONTEXT ( 1 ) ) ;
asn1_check_OID ( & data , OID_NTLMSSP ) ;
asn1_end_tag ( & data ) ;
asn1_start_tag ( & data , ASN1_CONTEXT ( 2 ) ) ;
asn1_read_octet_string ( & data , chal1 ) ;
asn1_end_tag ( & data ) ;
asn1_start_tag ( & data , ASN1_CONTEXT ( 3 ) ) ;
asn1_read_octet_string ( & data , chal2 ) ;
asn1_end_tag ( & data ) ;
asn1_end_tag ( & data ) ;
asn1_end_tag ( & data ) ;
ret = ! data . has_error ;
asn1_free ( & data ) ;
return ret ;
}
/*
generate a SPNEGO NTLMSSP auth packet . This will contain the encrypted passwords
*/
DATA_BLOB spnego_gen_auth ( DATA_BLOB blob )
{
ASN1_DATA data ;
DATA_BLOB ret ;
memset ( & data , 0 , sizeof ( data ) ) ;
asn1_push_tag ( & data , ASN1_CONTEXT ( 1 ) ) ;
asn1_push_tag ( & data , ASN1_SEQUENCE ( 0 ) ) ;
asn1_push_tag ( & data , ASN1_CONTEXT ( 2 ) ) ;
asn1_write_OctetString ( & data , blob . data , blob . length ) ;
asn1_pop_tag ( & data ) ;
asn1_pop_tag ( & data ) ;
asn1_pop_tag ( & data ) ;
ret = data_blob ( data . data , data . length ) ;
asn1_free ( & data ) ;
return ret ;
}
/*
this is a tiny msrpc packet generator . I am only using this to
avoid tying this code to a particular varient of our rpc code . This
generator is not general enough for all our rpc needs , its just
enough for the spnego / ntlmssp code
format specifiers are :
U = unicode string ( input is unix string )
B = data blob ( pointer + length )
d = word ( 4 bytes )
C = constant ascii string
*/
BOOL msrpc_gen ( DATA_BLOB * blob ,
const char * format , . . . )
{
int i , n ;
va_list ap ;
char * s ;
uint8 * b ;
int head_size = 0 , data_size = 0 ;
int head_ofs , data_ofs ;
/* first scan the format to work out the header and body size */
va_start ( ap , format ) ;
for ( i = 0 ; format [ i ] ; i + + ) {
switch ( format [ i ] ) {
case ' U ' :
s = va_arg ( ap , char * ) ;
head_size + = 8 ;
data_size + = str_charnum ( s ) * 2 ;
break ;
case ' B ' :
b = va_arg ( ap , uint8 * ) ;
head_size + = 8 ;
data_size + = va_arg ( ap , int ) ;
break ;
case ' d ' :
n = va_arg ( ap , int ) ;
head_size + = 4 ;
break ;
case ' C ' :
s = va_arg ( ap , char * ) ;
head_size + = str_charnum ( s ) + 1 ;
break ;
}
}
va_end ( ap ) ;
/* allocate the space, then scan the format again to fill in the values */
blob - > data = malloc ( head_size + data_size ) ;
blob - > length = head_size + data_size ;
if ( ! blob - > data ) return False ;
head_ofs = 0 ;
data_ofs = head_size ;
va_start ( ap , format ) ;
for ( i = 0 ; format [ i ] ; i + + ) {
switch ( format [ i ] ) {
case ' U ' :
s = va_arg ( ap , char * ) ;
n = str_charnum ( s ) ;
SSVAL ( blob - > data , head_ofs , n * 2 ) ; head_ofs + = 2 ;
SSVAL ( blob - > data , head_ofs , n * 2 ) ; head_ofs + = 2 ;
SIVAL ( blob - > data , head_ofs , data_ofs ) ; head_ofs + = 4 ;
push_string ( NULL , blob - > data + data_ofs , s , n * 2 , STR_UNICODE | STR_NOALIGN ) ;
data_ofs + = n * 2 ;
break ;
case ' B ' :
b = va_arg ( ap , uint8 * ) ;
n = va_arg ( ap , int ) ;
SSVAL ( blob - > data , head_ofs , n ) ; head_ofs + = 2 ;
SSVAL ( blob - > data , head_ofs , n ) ; head_ofs + = 2 ;
SIVAL ( blob - > data , head_ofs , data_ofs ) ; head_ofs + = 4 ;
memcpy ( blob - > data + data_ofs , b , n ) ;
data_ofs + = n ;
break ;
case ' d ' :
n = va_arg ( ap , int ) ;
SIVAL ( blob - > data , head_ofs , n ) ; head_ofs + = 4 ;
break ;
case ' C ' :
s = va_arg ( ap , char * ) ;
head_ofs + = push_string ( NULL , blob - > data + head_ofs , s , - 1 ,
STR_ASCII | STR_TERMINATE ) ;
break ;
}
}
va_end ( ap ) ;
return True ;
}
