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samba-mirror/source3/libsmb/smbencrypt.c
Andrew Bartlett 456f51bcbe Jeremy requested that I get my NTLMSSP patch into CVS. He didn't request 
the schannel code, but I've included that anyway. :-)

This patch revives the client-side NTLMSSP support for RPC named pipes
in Samba, and cleans up the client and server schannel code.  The use of the
new code is enabled by the 'sign', 'seal' and 'schannel' commands in
rpcclient.

The aim was to prove that our separate NTLMSSP client library actually
implements NTLMSSP signing and sealing as per Microsoft's NTLMv1 implementation,
in the hope that knowing this will assist us in correctly implementing
NTLMSSP signing for SMB packets.  (Still not yet functional)

This patch replaces the NTLMSSP implementation in rpc_client/cli_pipe.c with
calls to libsmb/ntlmssp.c.  In the process, we have gained the ability to
use the more secure NT password, and the ability to sign-only, instead of
having to seal the pipe connection.  (Previously we were limited to sealing,
and could only use the LM-password derived key).

Our new client-side NTLMSSP code also needed alteration to cope with our
comparatively simple server-side implementation.  A future step is to replace
it with calls to the same NTLMSSP library.

Also included in this patch is the schannel 'sign only' patch I submitted to
the team earlier.  While not enabled (and not functional, at this stage) the
work in this patch makes the code paths *much* easier to follow.  I have also
included similar hooks in rpccleint to allow the use of schannel on *any* pipe.

rpcclient now defaults to not using schannel (or any other extra per-pipe
authenticiation) for any connection.  The 'schannel' command enables schannel
for all pipes until disabled.

This code is also much more secure than the previous code, as changes to our
cli_pipe routines ensure that the authentication footer cannot be removed
by an attacker, and more error states are correctly handled.

(The same needs to be done to our server)

Andrew Bartlett
(This used to be commit 5472ddc9ea)
2003-07-14 08:46:32 +00:00

518 lines
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/*
Unix SMB/CIFS implementation.
SMB parameters and setup
Copyright (C) Andrew Tridgell 1992-1998
Modified by Jeremy Allison 1995.
Copyright (C) Jeremy Allison 1995-2000.
Copyright (C) Luke Kennethc Casson Leighton 1996-2000.
Copyright (C) Andrew Bartlett <abartlet@samba.org> 2002-2003
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"
#include "byteorder.h"
/*
This implements the X/Open SMB password encryption
It takes a password ('unix' string), a 8 byte "crypt key"
and puts 24 bytes of encrypted password into p24 */
void SMBencrypt(const char *passwd, const uchar *c8, uchar p24[24])
{
uchar p21[21];
memset(p21,'\0',21);
E_deshash(passwd, p21);
SMBOWFencrypt(p21, c8, p24);
#ifdef DEBUG_PASSWORD
DEBUG(100,("SMBencrypt: lm#, challenge, response\n"));
dump_data(100, (char *)p21, 16);
dump_data(100, (const char *)c8, 8);
dump_data(100, (char *)p24, 24);
#endif
}
/**
* Creates the MD4 Hash of the users password in NT UNICODE.
* @param passwd password in 'unix' charset.
* @param p16 return password hashed with md4, caller allocated 16 byte buffer
*/
void E_md4hash(const char *passwd, uchar p16[16])
{
int len;
smb_ucs2_t wpwd[129];
/* Password must be converted to NT unicode - null terminated. */
push_ucs2(NULL, wpwd, (const char *)passwd, 256, STR_UNICODE|STR_NOALIGN|STR_TERMINATE);
/* Calculate length in bytes */
len = strlen_w(wpwd) * sizeof(int16);
mdfour(p16, (unsigned char *)wpwd, len);
ZERO_STRUCT(wpwd);
}
/**
* Creates the DES forward-only Hash of the users password in DOS ASCII charset
* @param passwd password in 'unix' charset.
* @param p16 return password hashed with DES, caller allocated 16 byte buffer
*/
void E_deshash(const char *passwd, uchar p16[16])
{
fstring dospwd;
ZERO_STRUCT(dospwd);
/* Password must be converted to DOS charset - null terminated, uppercase. */
push_ascii(dospwd, passwd, sizeof(dospwd), STR_UPPER|STR_TERMINATE);
/* Only the fisrt 14 chars are considered, password need not be null terminated. */
E_P16(dospwd, p16);
ZERO_STRUCT(dospwd);
}
/**
* Creates the MD4 and DES (LM) Hash of the users password.
* MD4 is of the NT Unicode, DES is of the DOS UPPERCASE password.
* @param passwd password in 'unix' charset.
* @param nt_p16 return password hashed with md4, caller allocated 16 byte buffer
* @param p16 return password hashed with des, caller allocated 16 byte buffer
*/
/* Does both the NT and LM owfs of a user's password */
void nt_lm_owf_gen(const char *pwd, uchar nt_p16[16], uchar p16[16])
{
/* Calculate the MD4 hash (NT compatible) of the password */
memset(nt_p16, '\0', 16);
E_md4hash(pwd, nt_p16);
#ifdef DEBUG_PASSWORD
DEBUG(100,("nt_lm_owf_gen: pwd, nt#\n"));
dump_data(120, pwd, strlen(pwd));
dump_data(100, (char *)nt_p16, 16);
#endif
E_deshash(pwd, (uchar *)p16);
#ifdef DEBUG_PASSWORD
DEBUG(100,("nt_lm_owf_gen: pwd, lm#\n"));
dump_data(120, pwd, strlen(pwd));
dump_data(100, (char *)p16, 16);
#endif
}
/* Does both the NTLMv2 owfs of a user's password */
BOOL ntv2_owf_gen(const uchar owf[16],
const char *user_in, const char *domain_in, uchar kr_buf[16])
{
smb_ucs2_t *user;
smb_ucs2_t *domain;
size_t user_byte_len;
size_t domain_byte_len;
HMACMD5Context ctx;
user_byte_len = push_ucs2_allocate(&user, user_in);
if (user_byte_len == (size_t)-1) {
DEBUG(0, ("push_uss2_allocate() for user returned -1 (probably malloc() failure)\n"));
return False;
}
domain_byte_len = push_ucs2_allocate(&domain, domain_in);
if (domain_byte_len == (size_t)-1) {
DEBUG(0, ("push_uss2_allocate() for domain returned -1 (probably malloc() failure)\n"));
return False;
}
strupper_w(user);
strupper_w(domain);
SMB_ASSERT(user_byte_len >= 2);
SMB_ASSERT(domain_byte_len >= 2);
/* We don't want null termination */
user_byte_len = user_byte_len - 2;
domain_byte_len = domain_byte_len - 2;
hmac_md5_init_limK_to_64(owf, 16, &ctx);
hmac_md5_update((const unsigned char *)user, user_byte_len, &ctx);
hmac_md5_update((const unsigned char *)domain, domain_byte_len, &ctx);
hmac_md5_final(kr_buf, &ctx);
#ifdef DEBUG_PASSWORD
DEBUG(100, ("ntv2_owf_gen: user, domain, owfkey, kr\n"));
dump_data(100, (const char *)user, user_byte_len);
dump_data(100, (const char *)domain, domain_byte_len);
dump_data(100, owf, 16);
dump_data(100, kr_buf, 16);
#endif
SAFE_FREE(user);
SAFE_FREE(domain);
return True;
}
/* Does the des encryption from the NT or LM MD4 hash. */
void SMBOWFencrypt(const uchar passwd[16], const uchar *c8, uchar p24[24])
{
uchar p21[21];
ZERO_STRUCT(p21);
memcpy(p21, passwd, 16);
E_P24(p21, c8, p24);
}
/* Does the des encryption from the FIRST 8 BYTES of the NT or LM MD4 hash. */
void NTLMSSPOWFencrypt(const uchar passwd[8], const uchar *ntlmchalresp, uchar p24[24])
{
uchar p21[21];
memset(p21,'\0',21);
memcpy(p21, passwd, 8);
memset(p21 + 8, 0xbd, 8);
E_P24(p21, ntlmchalresp, p24);
#ifdef DEBUG_PASSWORD
DEBUG(100,("NTLMSSPOWFencrypt: p21, c8, p24\n"));
dump_data(100, (char *)p21, 21);
dump_data(100, (const char *)ntlmchalresp, 8);
dump_data(100, (char *)p24, 24);
#endif
}
/* Does the NT MD4 hash then des encryption. */
void SMBNTencrypt(const char *passwd, uchar *c8, uchar *p24)
{
uchar p21[21];
memset(p21,'\0',21);
E_md4hash(passwd, p21);
SMBOWFencrypt(p21, c8, p24);
#ifdef DEBUG_PASSWORD
DEBUG(100,("SMBNTencrypt: nt#, challenge, response\n"));
dump_data(100, (char *)p21, 16);
dump_data(100, (char *)c8, 8);
dump_data(100, (char *)p24, 24);
#endif
}
BOOL make_oem_passwd_hash(char data[516], const char *passwd, uchar old_pw_hash[16], BOOL unicode)
{
int new_pw_len = strlen(passwd) * (unicode ? 2 : 1);
if (new_pw_len > 512)
{
DEBUG(0,("make_oem_passwd_hash: new password is too long.\n"));
return False;
}
/*
* Now setup the data area.
* We need to generate a random fill
* for this area to make it harder to
* decrypt. JRA.
*/
generate_random_buffer((unsigned char *)data, 516, False);
push_string(NULL, &data[512 - new_pw_len], passwd, new_pw_len,
STR_NOALIGN | (unicode?STR_UNICODE:STR_ASCII));
SIVAL(data, 512, new_pw_len);
#ifdef DEBUG_PASSWORD
DEBUG(100,("make_oem_passwd_hash\n"));
dump_data(100, data, 516);
#endif
SamOEMhash( (unsigned char *)data, (unsigned char *)old_pw_hash, 516);
return True;
}
/* Does the md5 encryption from the NT hash for NTLMv2. */
void SMBOWFencrypt_ntv2(const uchar kr[16],
const DATA_BLOB *srv_chal,
const DATA_BLOB *cli_chal,
uchar resp_buf[16])
{
HMACMD5Context ctx;
hmac_md5_init_limK_to_64(kr, 16, &ctx);
hmac_md5_update(srv_chal->data, srv_chal->length, &ctx);
hmac_md5_update(cli_chal->data, cli_chal->length, &ctx);
hmac_md5_final(resp_buf, &ctx);
#ifdef DEBUG_PASSWORD
DEBUG(100, ("SMBOWFencrypt_ntv2: srv_chal, cli_chal, resp_buf\n"));
dump_data(100, srv_chal->data, srv_chal->length);
dump_data(100, cli_chal->data, cli_chal->length);
dump_data(100, resp_buf, 16);
#endif
}
void SMBsesskeygen_ntv2(const uchar kr[16],
const uchar * nt_resp, uint8 sess_key[16])
{
/* a very nice, 128 bit, variable session key */
HMACMD5Context ctx;
hmac_md5_init_limK_to_64(kr, 16, &ctx);
hmac_md5_update(nt_resp, 16, &ctx);
hmac_md5_final((unsigned char *)sess_key, &ctx);
#ifdef DEBUG_PASSWORD
DEBUG(100, ("SMBsesskeygen_ntv2:\n"));
dump_data(100, sess_key, 16);
#endif
}
void SMBsesskeygen_ntv1(const uchar kr[16],
const uchar * nt_resp, uint8 sess_key[16])
{
/* yes, this session key does not change - yes, this
is a problem - but it is 128 bits */
mdfour((unsigned char *)sess_key, kr, 16);
#ifdef DEBUG_PASSWORD
DEBUG(100, ("SMBsesskeygen_ntv1:\n"));
dump_data(100, sess_key, 16);
#endif
}
void SMBsesskeygen_lmv1(const uchar lm_hash[16],
const uchar lm_resp[24], /* only uses 8 */
uint8 sess_key[16])
{
/* Calculate the LM session key (effective length 40 bits,
but changes with each session) */
uchar p24[24];
uchar partial_lm_hash[16];
memcpy(partial_lm_hash, lm_hash, 8);
memset(partial_lm_hash + 8, 0xbd, 8);
SMBOWFencrypt(lm_hash, lm_resp, p24);
memcpy(sess_key, p24, 16);
sess_key[5] = 0xe5;
sess_key[6] = 0x38;
sess_key[7] = 0xb0;
#ifdef DEBUG_PASSWORD
DEBUG(100, ("SMBsesskeygen_lmv1:\n"));
dump_data(100, sess_key, 16);
#endif
}
DATA_BLOB NTLMv2_generate_names_blob(const char *hostname,
const char *domain)
{
DATA_BLOB names_blob = data_blob(NULL, 0);
msrpc_gen(&names_blob, "aaa",
True, NTLMSSP_NAME_TYPE_DOMAIN, domain,
True, NTLMSSP_NAME_TYPE_SERVER, hostname,
True, 0, "");
return names_blob;
}
static DATA_BLOB NTLMv2_generate_client_data(const DATA_BLOB *names_blob)
{
uchar client_chal[8];
DATA_BLOB response = data_blob(NULL, 0);
char long_date[8];
generate_random_buffer(client_chal, sizeof(client_chal), False);
put_long_date(long_date, time(NULL));
/* See http://www.ubiqx.org/cifs/SMB.html#SMB.8.5 */
msrpc_gen(&response, "ddbbdb",
0x00000101, /* Header */
0, /* 'Reserved' */
long_date, 8, /* Timestamp */
client_chal, 8, /* client challenge */
0, /* Unknown */
names_blob->data, names_blob->length); /* End of name list */
return response;
}
static DATA_BLOB NTLMv2_generate_response(const uchar ntlm_v2_hash[16],
const DATA_BLOB *server_chal,
const DATA_BLOB *names_blob)
{
uchar ntlmv2_response[16];
DATA_BLOB ntlmv2_client_data;
DATA_BLOB final_response;
/* NTLMv2 */
/* generate some data to pass into the response function - including
the hostname and domain name of the server */
ntlmv2_client_data = NTLMv2_generate_client_data(names_blob);
/* Given that data, and the challenge from the server, generate a response */
SMBOWFencrypt_ntv2(ntlm_v2_hash, server_chal, &ntlmv2_client_data, ntlmv2_response);
final_response = data_blob(NULL, sizeof(ntlmv2_response) + ntlmv2_client_data.length);
memcpy(final_response.data, ntlmv2_response, sizeof(ntlmv2_response));
memcpy(final_response.data+sizeof(ntlmv2_response),
ntlmv2_client_data.data, ntlmv2_client_data.length);
data_blob_free(&ntlmv2_client_data);
return final_response;
}
static DATA_BLOB LMv2_generate_response(const uchar ntlm_v2_hash[16],
const DATA_BLOB *server_chal)
{
uchar lmv2_response[16];
DATA_BLOB lmv2_client_data = data_blob(NULL, 8);
DATA_BLOB final_response = data_blob(NULL, 24);
/* LMv2 */
/* client-supplied random data */
generate_random_buffer(lmv2_client_data.data, lmv2_client_data.length, False);
/* Given that data, and the challenge from the server, generate a response */
SMBOWFencrypt_ntv2(ntlm_v2_hash, server_chal, &lmv2_client_data, lmv2_response);
memcpy(final_response.data, lmv2_response, sizeof(lmv2_response));
/* after the first 16 bytes is the random data we generated above,
so the server can verify us with it */
memcpy(final_response.data+sizeof(lmv2_response),
lmv2_client_data.data, lmv2_client_data.length);
data_blob_free(&lmv2_client_data);
return final_response;
}
BOOL SMBNTLMv2encrypt(const char *user, const char *domain, const char *password,
const DATA_BLOB *server_chal,
const DATA_BLOB *names_blob,
DATA_BLOB *lm_response, DATA_BLOB *nt_response,
DATA_BLOB *nt_session_key)
{
uchar nt_hash[16];
uchar ntlm_v2_hash[16];
E_md4hash(password, nt_hash);
/* We don't use the NT# directly. Instead we use it mashed up with
the username and domain.
This prevents username swapping during the auth exchange
*/
if (!ntv2_owf_gen(nt_hash, user, domain, ntlm_v2_hash)) {
return False;
}
if (nt_response) {
*nt_response = NTLMv2_generate_response(ntlm_v2_hash, server_chal,
names_blob);
if (nt_session_key) {
*nt_session_key = data_blob(NULL, 16);
/* The NTLMv2 calculations also provide a session key, for signing etc later */
/* use only the first 16 bytes of nt_response for session key */
SMBsesskeygen_ntv2(ntlm_v2_hash, nt_response->data, nt_session_key->data);
}
}
/* LMv2 */
if (lm_response) {
*lm_response = LMv2_generate_response(ntlm_v2_hash, server_chal);
}
return True;
}
/***********************************************************
encode a password buffer. The caller gets to figure out
what to put in it.
************************************************************/
BOOL encode_pw_buffer(char buffer[516], char *new_pw, int new_pw_length)
{
generate_random_buffer((unsigned char *)buffer, 516, True);
memcpy(&buffer[512 - new_pw_length], new_pw, new_pw_length);
/*
* The length of the new password is in the last 4 bytes of
* the data buffer.
*/
SIVAL(buffer, 512, new_pw_length);
return True;
}
/***********************************************************
decode a password buffer
*new_pw_len is the length in bytes of the possibly mulitbyte
returned password including termination.
************************************************************/
BOOL decode_pw_buffer(char in_buffer[516], char *new_pwrd,
int new_pwrd_size, uint32 *new_pw_len)
{
int byte_len=0;
/*
Warning !!! : This function is called from some rpc call.
The password IN the buffer is a UNICODE string.
The password IN new_pwrd is an ASCII string
If you reuse that code somewhere else check first.
*/
/* The length of the new password is in the last 4 bytes of the data buffer. */
byte_len = IVAL(in_buffer, 512);
#ifdef DEBUG_PASSWORD
dump_data(100, in_buffer, 516);
#endif
/* Password cannot be longer than 128 characters */
if ( (byte_len < 0) || (byte_len > new_pwrd_size - 1)) {
DEBUG(0, ("decode_pw_buffer: incorrect password length (%d).\n", byte_len));
DEBUG(0, ("decode_pw_buffer: check that 'encrypt passwords = yes'\n"));
return False;
}
/* decode into the return buffer. Buffer must be a pstring */
*new_pw_len = pull_string(NULL, new_pwrd, &in_buffer[512 - byte_len], new_pwrd_size, byte_len, STR_UNICODE);
#ifdef DEBUG_PASSWORD
DEBUG(100,("decode_pw_buffer: new_pwrd: "));
dump_data(100, (char *)new_pwrd, *new_pw_len);
DEBUG(100,("multibyte len:%d\n", *new_pw_len));
DEBUG(100,("original char len:%d\n", byte_len/2));
#endif
return True;
}
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