2 Unix SMB/CIFS implementation.
3 SMB Transport encryption (sealing) code.
4 Copyright (C) Jeremy Allison 2007.
6 This program is free software; you can redistribute it and/or modify
7 it under the terms of the GNU General Public License as published by
8 the Free Software Foundation; either version 3 of the License, or
9 (at your option) any later version.
11 This program is distributed in the hope that it will be useful,
12 but WITHOUT ANY WARRANTY; without even the implied warranty of
13 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 GNU General Public License for more details.
16 You should have received a copy of the GNU General Public License
17 along with this program. If not, see <http://www.gnu.org/licenses/>.
22 /******************************************************************************
23 Pull out the encryption context for this packet. 0 means global context.
24 ******************************************************************************/
26 NTSTATUS
get_enc_ctx_num(const uint8_t *buf
, uint16
*p_enc_ctx_num
)
28 if (smb_len(buf
) < 8) {
29 return NT_STATUS_INVALID_BUFFER_SIZE
;
33 if (buf
[5] == 'S' && buf
[6] == 'M' && buf
[7] == 'B') {
34 /* Not an encrypted buffer. */
35 return NT_STATUS_NOT_FOUND
;
38 *p_enc_ctx_num
= SVAL(buf
,6);
42 return NT_STATUS_INVALID_NETWORK_RESPONSE
;
45 /******************************************************************************
46 Generic code for client and server.
47 Is encryption turned on ?
48 ******************************************************************************/
50 bool common_encryption_on(struct smb_trans_enc_state
*es
)
52 return ((es
!= NULL
) && es
->enc_on
);
55 /******************************************************************************
56 Generic code for client and server.
57 NTLM decrypt an incoming buffer.
58 Abartlett tells me that SSPI puts the signature first before the encrypted
59 output, so cope with the same for compatibility.
60 ******************************************************************************/
62 NTSTATUS
common_ntlm_decrypt_buffer(NTLMSSP_STATE
*ntlmssp_state
, char *buf
)
65 size_t buf_len
= smb_len(buf
) + 4; /* Don't forget the 4 length bytes. */
70 if (buf_len
< 8 + NTLMSSP_SIG_SIZE
) {
71 return NT_STATUS_BUFFER_TOO_SMALL
;
74 inbuf
= (char *)smb_xmemdup(buf
, buf_len
);
76 /* Adjust for the signature. */
77 data_len
= buf_len
- 8 - NTLMSSP_SIG_SIZE
;
79 /* Point at the signature. */
80 sig
= data_blob_const(inbuf
+8, NTLMSSP_SIG_SIZE
);
82 status
= ntlmssp_unseal_packet(ntlmssp_state
,
83 (unsigned char *)inbuf
+ 8 + NTLMSSP_SIG_SIZE
, /* 4 byte len + 0xFF 'E' <enc> <ctx> */
85 (unsigned char *)inbuf
+ 8 + NTLMSSP_SIG_SIZE
,
89 if (!NT_STATUS_IS_OK(status
)) {
94 memcpy(buf
+ 8, inbuf
+ 8 + NTLMSSP_SIG_SIZE
, data_len
);
96 /* Reset the length and overwrite the header. */
97 smb_setlen(buf
,data_len
+ 4);
103 /******************************************************************************
104 Generic code for client and server.
105 NTLM encrypt an outgoing buffer. Return the encrypted pointer in ppbuf_out.
106 Abartlett tells me that SSPI puts the signature first before the encrypted
107 output, so do the same for compatibility.
108 ******************************************************************************/
110 NTSTATUS
common_ntlm_encrypt_buffer(NTLMSSP_STATE
*ntlmssp_state
,
117 size_t data_len
= smb_len(buf
) - 4; /* Ignore the 0xFF SMB bytes. */
123 return NT_STATUS_BUFFER_TOO_SMALL
;
127 * We know smb_len can't return a value > 128k, so no int overflow
131 buf_out
= SMB_XMALLOC_ARRAY(char, 8 + NTLMSSP_SIG_SIZE
+ data_len
);
133 /* Copy the data from the original buffer. */
135 memcpy(buf_out
+ 8 + NTLMSSP_SIG_SIZE
, buf
+ 8, data_len
);
137 smb_set_enclen(buf_out
, smb_len(buf
) + NTLMSSP_SIG_SIZE
, enc_ctx_num
);
139 sig
= data_blob(NULL
, NTLMSSP_SIG_SIZE
);
141 status
= ntlmssp_seal_packet(ntlmssp_state
,
142 (unsigned char *)buf_out
+ 8 + NTLMSSP_SIG_SIZE
, /* 4 byte len + 0xFF 'S' <enc> <ctx> */
144 (unsigned char *)buf_out
+ 8 + NTLMSSP_SIG_SIZE
,
148 if (!NT_STATUS_IS_OK(status
)) {
149 data_blob_free(&sig
);
154 /* First 16 data bytes are signature for SSPI compatibility. */
155 memcpy(buf_out
+ 8, sig
.data
, NTLMSSP_SIG_SIZE
);
156 *ppbuf_out
= buf_out
;
160 /******************************************************************************
161 Generic code for client and server.
162 gss-api decrypt an incoming buffer. We insist that the size of the
163 unwrapped buffer must be smaller or identical to the incoming buffer.
164 ******************************************************************************/
166 #if defined(HAVE_GSSAPI) && defined(HAVE_KRB5)
167 static NTSTATUS
common_gss_decrypt_buffer(struct smb_tran_enc_state_gss
*gss_state
, char *buf
)
169 gss_ctx_id_t gss_ctx
= gss_state
->gss_ctx
;
173 gss_buffer_desc in_buf
, out_buf
;
174 size_t buf_len
= smb_len(buf
) + 4; /* Don't forget the 4 length bytes. */
177 return NT_STATUS_BUFFER_TOO_SMALL
;
180 in_buf
.value
= buf
+ 8;
181 in_buf
.length
= buf_len
- 8;
183 ret
= gss_unwrap(&minor
,
187 &flags_got
, /* did we get sign+seal ? */
190 if (ret
!= GSS_S_COMPLETE
) {
191 ADS_STATUS adss
= ADS_ERROR_GSS(ret
, minor
);
192 DEBUG(0,("common_gss_encrypt_buffer: gss_unwrap failed. Error %s\n",
194 return map_nt_error_from_gss(ret
, minor
);
197 if (out_buf
.length
> in_buf
.length
) {
198 DEBUG(0,("common_gss_encrypt_buffer: gss_unwrap size (%u) too large (%u) !\n",
199 (unsigned int)out_buf
.length
,
200 (unsigned int)in_buf
.length
));
201 gss_release_buffer(&minor
, &out_buf
);
202 return NT_STATUS_INVALID_PARAMETER
;
205 memcpy(buf
+ 8, out_buf
.value
, out_buf
.length
);
206 /* Reset the length and overwrite the header. */
207 smb_setlen(buf
, out_buf
.length
+ 4);
209 gss_release_buffer(&minor
, &out_buf
);
213 /******************************************************************************
214 Generic code for client and server.
215 gss-api encrypt an outgoing buffer. Return the alloced encrypted pointer in buf_out.
216 ******************************************************************************/
218 static NTSTATUS
common_gss_encrypt_buffer(struct smb_tran_enc_state_gss
*gss_state
,
223 gss_ctx_id_t gss_ctx
= gss_state
->gss_ctx
;
227 gss_buffer_desc in_buf
, out_buf
;
228 size_t buf_len
= smb_len(buf
) + 4; /* Don't forget the 4 length bytes. */
233 return NT_STATUS_BUFFER_TOO_SMALL
;
236 in_buf
.value
= buf
+ 8;
237 in_buf
.length
= buf_len
- 8;
239 ret
= gss_wrap(&minor
,
241 true, /* we want sign+seal. */
244 &flags_got
, /* did we get sign+seal ? */
247 if (ret
!= GSS_S_COMPLETE
) {
248 ADS_STATUS adss
= ADS_ERROR_GSS(ret
, minor
);
249 DEBUG(0,("common_gss_encrypt_buffer: gss_wrap failed. Error %s\n",
251 return map_nt_error_from_gss(ret
, minor
);
255 /* Sign+seal not supported. */
256 gss_release_buffer(&minor
, &out_buf
);
257 return NT_STATUS_NOT_SUPPORTED
;
260 /* Ya see - this is why I *hate* gss-api. I don't
261 * want to have to malloc another buffer of the
262 * same size + 8 bytes just to get a continuous
263 * header + buffer, but gss won't let me pass in
264 * a pre-allocated buffer. Bastards (and you know
265 * who you are....). I might fix this by
266 * going to "encrypt_and_send" passing in a file
267 * descriptor and doing scatter-gather write with
268 * TCP cork on Linux. But I shouldn't have to
272 *ppbuf_out
= (char *)SMB_MALLOC(out_buf
.length
+ 8); /* We know this can't wrap. */
274 gss_release_buffer(&minor
, &out_buf
);
275 return NT_STATUS_NO_MEMORY
;
278 memcpy(*ppbuf_out
+8, out_buf
.value
, out_buf
.length
);
279 smb_set_enclen(*ppbuf_out
, out_buf
.length
+ 4, enc_ctx_num
);
281 gss_release_buffer(&minor
, &out_buf
);
286 /******************************************************************************
287 Generic code for client and server.
288 Encrypt an outgoing buffer. Return the alloced encrypted pointer in buf_out.
289 ******************************************************************************/
291 NTSTATUS
common_encrypt_buffer(struct smb_trans_enc_state
*es
, char *buffer
, char **buf_out
)
293 if (!common_encryption_on(es
)) {
294 /* Not encrypting. */
299 switch (es
->smb_enc_type
) {
300 case SMB_TRANS_ENC_NTLM
:
301 return common_ntlm_encrypt_buffer(es
->s
.ntlmssp_state
, es
->enc_ctx_num
, buffer
, buf_out
);
302 #if defined(HAVE_GSSAPI) && defined(HAVE_KRB5)
303 case SMB_TRANS_ENC_GSS
:
304 return common_gss_encrypt_buffer(es
->s
.gss_state
, es
->enc_ctx_num
, buffer
, buf_out
);
307 return NT_STATUS_NOT_SUPPORTED
;
311 /******************************************************************************
312 Generic code for client and server.
313 Decrypt an incoming SMB buffer. Replaces the data within it.
314 New data must be less than or equal to the current length.
315 ******************************************************************************/
317 NTSTATUS
common_decrypt_buffer(struct smb_trans_enc_state
*es
, char *buf
)
319 if (!common_encryption_on(es
)) {
320 /* Not decrypting. */
324 switch (es
->smb_enc_type
) {
325 case SMB_TRANS_ENC_NTLM
:
326 return common_ntlm_decrypt_buffer(es
->s
.ntlmssp_state
, buf
);
327 #if defined(HAVE_GSSAPI) && defined(HAVE_KRB5)
328 case SMB_TRANS_ENC_GSS
:
329 return common_gss_decrypt_buffer(es
->s
.gss_state
, buf
);
332 return NT_STATUS_NOT_SUPPORTED
;
336 #if defined(HAVE_GSSAPI) && defined(HAVE_KRB5)
337 /******************************************************************************
338 Shutdown a gss encryption state.
339 ******************************************************************************/
341 static void common_free_gss_state(struct smb_tran_enc_state_gss
**pp_gss_state
)
344 struct smb_tran_enc_state_gss
*gss_state
= *pp_gss_state
;
346 if (gss_state
->creds
!= GSS_C_NO_CREDENTIAL
) {
347 gss_release_cred(&minor
, &gss_state
->creds
);
349 if (gss_state
->gss_ctx
!= GSS_C_NO_CONTEXT
) {
350 gss_delete_sec_context(&minor
, &gss_state
->gss_ctx
, NULL
);
352 SAFE_FREE(*pp_gss_state
);
356 /******************************************************************************
357 Shutdown an encryption state.
358 ******************************************************************************/
360 void common_free_encryption_state(struct smb_trans_enc_state
**pp_es
)
362 struct smb_trans_enc_state
*es
= *pp_es
;
368 if (es
->smb_enc_type
== SMB_TRANS_ENC_NTLM
) {
369 if (es
->s
.ntlmssp_state
) {
370 ntlmssp_end(&es
->s
.ntlmssp_state
);
373 #if defined(HAVE_GSSAPI) && defined(HAVE_KRB5)
374 if (es
->smb_enc_type
== SMB_TRANS_ENC_GSS
) {
375 /* Free the gss context handle. */
376 if (es
->s
.gss_state
) {
377 common_free_gss_state(&es
->s
.gss_state
);
385 /******************************************************************************
386 Free an encryption-allocated buffer.
387 ******************************************************************************/
389 void common_free_enc_buffer(struct smb_trans_enc_state
*es
, char *buf
)
391 if (!common_encryption_on(es
)) {
395 if (es
->smb_enc_type
== SMB_TRANS_ENC_NTLM
) {
400 #if defined(HAVE_GSSAPI) && defined(HAVE_KRB5)
401 if (es
->smb_enc_type
== SMB_TRANS_ENC_GSS
) {
403 gss_buffer_desc rel_buf
;
405 rel_buf
.length
= smb_len(buf
) + 4;
406 gss_release_buffer(&min
, &rel_buf
);
411 /******************************************************************************
412 Client side encryption.
413 ******************************************************************************/
415 /******************************************************************************
416 Is client encryption on ?
417 ******************************************************************************/
419 bool cli_encryption_on(struct cli_state
*cli
)
421 /* If we supported multiple encrytion contexts
422 * here we'd look up based on tid.
424 return common_encryption_on(cli
->trans_enc_state
);
427 /******************************************************************************
428 Shutdown a client encryption state.
429 ******************************************************************************/
431 void cli_free_encryption_context(struct cli_state
*cli
)
433 common_free_encryption_state(&cli
->trans_enc_state
);
436 /******************************************************************************
437 Free an encryption-allocated buffer.
438 ******************************************************************************/
440 void cli_free_enc_buffer(struct cli_state
*cli
, char *buf
)
442 /* We know this is an smb buffer, and we
443 * didn't malloc, only copy, for a keepalive,
444 * so ignore non-session messages. */
450 /* If we supported multiple encrytion contexts
451 * here we'd look up based on tid.
453 common_free_enc_buffer(cli
->trans_enc_state
, buf
);
456 /******************************************************************************
457 Decrypt an incoming buffer.
458 ******************************************************************************/
460 NTSTATUS
cli_decrypt_message(struct cli_state
*cli
)
465 /* Ignore non-session messages. */
466 if(CVAL(cli
->inbuf
,0)) {
470 status
= get_enc_ctx_num((const uint8_t *)cli
->inbuf
, &enc_ctx_num
);
471 if (!NT_STATUS_IS_OK(status
)) {
475 if (enc_ctx_num
!= cli
->trans_enc_state
->enc_ctx_num
) {
476 return NT_STATUS_INVALID_HANDLE
;
479 return common_decrypt_buffer(cli
->trans_enc_state
, cli
->inbuf
);
482 /******************************************************************************
483 Encrypt an outgoing buffer. Return the encrypted pointer in buf_out.
484 ******************************************************************************/
486 NTSTATUS
cli_encrypt_message(struct cli_state
*cli
, char *buf
, char **buf_out
)
488 /* Ignore non-session messages. */
493 /* If we supported multiple encrytion contexts
494 * here we'd look up based on tid.
496 return common_encrypt_buffer(cli
->trans_enc_state
, buf
, buf_out
);