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- Committer: Teddy Hogeborn
- Date: 2009-09-05 01:05:25 UTC
- Revision ID: teddy@fukt.bsnet.se-20090905010525-7qeq05ztwc2ddhuv
* plugins.d/mandos-client.c (main): Do not handle ignored signals.
Bug fix: remove signal handler
before re-raising signal.
* plugins.d/password-prompt.c (main): Check return values from
"sigaddset()".
Bug fix: remove signal handler
before re-raising signal.
* plugins.d/password-prompt.c (main): Check return values from
"sigaddset()".
- files added:
- .bzr-builddeb
- debian
- debian/po
- files removed:
- network-protocol.txt
- files renamed:
- mandos-client.c => plugin-runner.c
- mandos-client.xml => plugin-runner.xml
- plugins.d/password-request.c => plugins.d/mandos-client.c
- plugins.d/password-request.xml => plugins.d/mandos-client.xml
- files modified:
- Makefile
added
removed
plugins.d/mandos-client.c
1
1
/* -*- coding: utf-8 -*- */
2
2
/*
3
* Mandos client - get and decrypt data from a Mandos server
3
* Mandos-client - get and decrypt data from a Mandos server
4
4
*
5
5
* This program is partly derived from an example program for an Avahi
6
6
* service browser, downloaded from
9
9
* "browse_callback", and parts of "main".
10
10
*
11
11
* Everything else is
12
* Copyright © 2007-2008 Teddy Hogeborn & Björn Påhlsson
12
* Copyright © 2008,2009 Teddy Hogeborn
13
* Copyright © 2008,2009 Björn Påhlsson
13
14
*
14
15
* This program is free software: you can redistribute it and/or
15
16
* modify it under the terms of the GNU General Public License as
29
30
*/
30
31
31
32
/* Needed by GPGME, specifically gpgme_data_seek() */
33
#ifndef _LARGEFILE_SOURCE
32
34
#define _LARGEFILE_SOURCE
35
#endif
36
#ifndef _FILE_OFFSET_BITS
33
37
#define _FILE_OFFSET_BITS 64
34
35
#define _GNU_SOURCE /* TEMP_FAILURE_RETRY() */
36
37
#include <stdio.h> /* fprintf(), stderr, fwrite(), stdout,
38
ferror() */
38
#endif
39
40
#define _GNU_SOURCE /* TEMP_FAILURE_RETRY(), asprintf() */
41
42
#include <stdio.h> /* fprintf(), stderr, fwrite(),
43
stdout, ferror(), remove() */
39
44
#include <stdint.h> /* uint16_t, uint32_t */
40
45
#include <stddef.h> /* NULL, size_t, ssize_t */
41
46
#include <stdlib.h> /* free(), EXIT_SUCCESS, EXIT_FAILURE,
42
srand() */
43
#include <stdbool.h> /* bool, true */
47
srand(), strtof() */
48
#include <stdbool.h> /* bool, false, true */
44
49
#include <string.h> /* memset(), strcmp(), strlen(),
45
strerror(), memcpy(), strcpy() */
46
#include <sys/ioctl.h> /* ioctl */
50
strerror(), asprintf(), strcpy() */
51
#include <sys/ioctl.h> /* ioctl */
47
52
#include <sys/types.h> /* socket(), inet_pton(), sockaddr,
48
53
sockaddr_in6, PF_INET6,
49
SOCK_STREAM, INET6_ADDRSTRLEN,
50
uid_t, gid_t */
51
#include <inttypes.h> /* PRIu16 */
54
SOCK_STREAM, uid_t, gid_t, open(),
55
opendir(), DIR */
56
#include <sys/stat.h> /* open() */
52
57
#include <sys/socket.h> /* socket(), struct sockaddr_in6,
53
struct in6_addr, inet_pton(),
54
connect() */
58
inet_pton(), connect() */
59
#include <fcntl.h> /* open() */
60
#include <dirent.h> /* opendir(), struct dirent, readdir()
61
*/
62
#include <inttypes.h> /* PRIu16, PRIdMAX, intmax_t,
63
strtoimax() */
55
64
#include <assert.h> /* assert() */
56
65
#include <errno.h> /* perror(), errno */
57
#include <time.h> /* time() */
66
#include <time.h> /* nanosleep(), time() */
58
67
#include <net/if.h> /* ioctl, ifreq, SIOCGIFFLAGS, IFF_UP,
59
68
SIOCSIFFLAGS, if_indextoname(),
60
69
if_nametoindex(), IF_NAMESIZE */
70
#include <netinet/in.h> /* IN6_IS_ADDR_LINKLOCAL,
71
INET_ADDRSTRLEN, INET6_ADDRSTRLEN
72
*/
61
73
#include <unistd.h> /* close(), SEEK_SET, off_t, write(),
62
74
getuid(), getgid(), setuid(),
63
75
setgid() */
64
#include <netinet/in.h>
65
76
#include <arpa/inet.h> /* inet_pton(), htons */
66
#include <iso646.h> /* not, and */
77
#include <iso646.h> /* not, or, and */
67
78
#include <argp.h> /* struct argp_option, error_t, struct
68
79
argp_state, struct argp,
69
80
argp_parse(), ARGP_KEY_ARG,
70
81
ARGP_KEY_END, ARGP_ERR_UNKNOWN */
82
#include <signal.h> /* sigemptyset(), sigaddset(),
83
sigaction(), SIGTERM, sig_atomic_t,
84
raise() */
85
86
#ifdef __linux__
87
#include <sys/klog.h> /* klogctl() */
88
#endif /* __linux__ */
71
89
72
90
/* Avahi */
73
91
/* All Avahi types, constants and functions
81
99
#include <avahi-common/error.h>
82
100
83
101
/* GnuTLS */
84
#include <gnutls/gnutls.h> /* All GnuTLS types, constants and functions
102
#include <gnutls/gnutls.h> /* All GnuTLS types, constants and
103
functions:
85
104
gnutls_*
86
105
init_gnutls_session(),
87
106
GNUTLS_* */
88
#include <gnutls/openpgp.h> /* gnutls_certificate_set_openpgp_key_file(),
107
#include <gnutls/openpgp.h>
108
/* gnutls_certificate_set_openpgp_key_file(),
89
109
GNUTLS_OPENPGP_FMT_BASE64 */
90
110
91
111
/* GPGME */
92
#include <gpgme.h> /* All GPGME types, constants and functions
112
#include <gpgme.h> /* All GPGME types, constants and
113
functions:
93
114
gpgme_*
94
115
GPGME_PROTOCOL_OpenPGP,
95
116
GPG_ERR_NO_* */
96
117
97
118
#define BUFFER_SIZE 256
98
119
120
#define PATHDIR "/conf/conf.d/mandos"
121
#define SECKEY "seckey.txt"
122
#define PUBKEY "pubkey.txt"
123
99
124
bool debug = false;
100
static const char *keydir = "/conf/conf.d/mandos";
101
125
static const char mandos_protocol_version[] = "1";
102
const char *argp_program_version = "password-request 1.0";
126
const char *argp_program_version = "mandos-client " VERSION;
103
127
const char *argp_program_bug_address = "<mandos@fukt.bsnet.se>";
104
128
105
129
/* Used for passing in values through the Avahi callback functions */
110
134
unsigned int dh_bits;
111
135
gnutls_dh_params_t dh_params;
112
136
const char *priority;
137
gpgme_ctx_t ctx;
113
138
} mandos_context;
114
139
140
/* global context so signal handler can reach it*/
141
mandos_context mc = { .simple_poll = NULL, .server = NULL,
142
.dh_bits = 1024, .priority = "SECURE256"
143
":!CTYPE-X.509:+CTYPE-OPENPGP" };
144
115
145
/*
116
* Make room in "buffer" for at least BUFFER_SIZE additional bytes.
117
* "buffer_capacity" is how much is currently allocated,
146
* Make additional room in "buffer" for at least BUFFER_SIZE more
147
* bytes. "buffer_capacity" is how much is currently allocated,
118
148
* "buffer_length" is how much is already used.
119
149
*/
120
size_t adjustbuffer(char **buffer, size_t buffer_length,
150
size_t incbuffer(char **buffer, size_t buffer_length,
121
151
size_t buffer_capacity){
122
if (buffer_length + BUFFER_SIZE > buffer_capacity){
152
if(buffer_length + BUFFER_SIZE > buffer_capacity){
123
153
*buffer = realloc(*buffer, buffer_capacity + BUFFER_SIZE);
124
if (buffer == NULL){
154
if(buffer == NULL){
125
155
return 0;
126
156
}
127
157
buffer_capacity += BUFFER_SIZE;
130
160
}
131
161
132
162
/*
133
* Decrypt OpenPGP data using keyrings in HOMEDIR.
134
* Returns -1 on error
163
* Initialize GPGME.
135
164
*/
136
static ssize_t pgp_packet_decrypt (const char *cryptotext,
137
size_t crypto_size,
138
char **plaintext,
139
const char *homedir){
140
gpgme_data_t dh_crypto, dh_plain;
141
gpgme_ctx_t ctx;
165
static bool init_gpgme(const char *seckey,
166
const char *pubkey, const char *tempdir){
167
int ret;
142
168
gpgme_error_t rc;
143
ssize_t ret;
144
size_t plaintext_capacity = 0;
145
ssize_t plaintext_length = 0;
146
169
gpgme_engine_info_t engine_info;
147
170
148
if (debug){
149
fprintf(stderr, "Trying to decrypt OpenPGP data\n");
171
172
/*
173
* Helper function to insert pub and seckey to the engine keyring.
174
*/
175
bool import_key(const char *filename){
176
int fd;
177
gpgme_data_t pgp_data;
178
179
fd = (int)TEMP_FAILURE_RETRY(open(filename, O_RDONLY));
180
if(fd == -1){
181
perror("open");
182
return false;
183
}
184
185
rc = gpgme_data_new_from_fd(&pgp_data, fd);
186
if(rc != GPG_ERR_NO_ERROR){
187
fprintf(stderr, "bad gpgme_data_new_from_fd: %s: %s\n",
188
gpgme_strsource(rc), gpgme_strerror(rc));
189
return false;
190
}
191
192
rc = gpgme_op_import(mc.ctx, pgp_data);
193
if(rc != GPG_ERR_NO_ERROR){
194
fprintf(stderr, "bad gpgme_op_import: %s: %s\n",
195
gpgme_strsource(rc), gpgme_strerror(rc));
196
return false;
197
}
198
199
ret = (int)TEMP_FAILURE_RETRY(close(fd));
200
if(ret == -1){
201
perror("close");
202
}
203
gpgme_data_release(pgp_data);
204
return true;
205
}
206
207
if(debug){
208
fprintf(stderr, "Initializing GPGME\n");
150
209
}
151
210
152
211
/* Init GPGME */
153
212
gpgme_check_version(NULL);
154
213
rc = gpgme_engine_check_version(GPGME_PROTOCOL_OpenPGP);
155
if (rc != GPG_ERR_NO_ERROR){
214
if(rc != GPG_ERR_NO_ERROR){
156
215
fprintf(stderr, "bad gpgme_engine_check_version: %s: %s\n",
157
216
gpgme_strsource(rc), gpgme_strerror(rc));
158
return -1;
217
return false;
159
218
}
160
219
161
/* Set GPGME home directory for the OpenPGP engine only */
162
rc = gpgme_get_engine_info (&engine_info);
163
if (rc != GPG_ERR_NO_ERROR){
220
/* Set GPGME home directory for the OpenPGP engine only */
221
rc = gpgme_get_engine_info(&engine_info);
222
if(rc != GPG_ERR_NO_ERROR){
164
223
fprintf(stderr, "bad gpgme_get_engine_info: %s: %s\n",
165
224
gpgme_strsource(rc), gpgme_strerror(rc));
166
return -1;
225
return false;
167
226
}
168
227
while(engine_info != NULL){
169
228
if(engine_info->protocol == GPGME_PROTOCOL_OpenPGP){
170
229
gpgme_set_engine_info(GPGME_PROTOCOL_OpenPGP,
171
engine_info->file_name, homedir);
230
engine_info->file_name, tempdir);
172
231
break;
173
232
}
174
233
engine_info = engine_info->next;
175
234
}
176
235
if(engine_info == NULL){
177
fprintf(stderr, "Could not set GPGME home dir to %s\n", homedir);
178
return -1;
236
fprintf(stderr, "Could not set GPGME home dir to %s\n", tempdir);
237
return false;
238
}
239
240
/* Create new GPGME "context" */
241
rc = gpgme_new(&(mc.ctx));
242
if(rc != GPG_ERR_NO_ERROR){
243
fprintf(stderr, "bad gpgme_new: %s: %s\n",
244
gpgme_strsource(rc), gpgme_strerror(rc));
245
return false;
246
}
247
248
if(not import_key(pubkey) or not import_key(seckey)){
249
return false;
250
}
251
252
return true;
253
}
254
255
/*
256
* Decrypt OpenPGP data.
257
* Returns -1 on error
258
*/
259
static ssize_t pgp_packet_decrypt(const char *cryptotext,
260
size_t crypto_size,
261
char **plaintext){
262
gpgme_data_t dh_crypto, dh_plain;
263
gpgme_error_t rc;
264
ssize_t ret;
265
size_t plaintext_capacity = 0;
266
ssize_t plaintext_length = 0;
267
268
if(debug){
269
fprintf(stderr, "Trying to decrypt OpenPGP data\n");
179
270
}
180
271
181
272
/* Create new GPGME data buffer from memory cryptotext */
182
273
rc = gpgme_data_new_from_mem(&dh_crypto, cryptotext, crypto_size,
183
274
0);
184
if (rc != GPG_ERR_NO_ERROR){
275
if(rc != GPG_ERR_NO_ERROR){
185
276
fprintf(stderr, "bad gpgme_data_new_from_mem: %s: %s\n",
186
277
gpgme_strsource(rc), gpgme_strerror(rc));
187
278
return -1;
189
280
190
281
/* Create new empty GPGME data buffer for the plaintext */
191
282
rc = gpgme_data_new(&dh_plain);
192
if (rc != GPG_ERR_NO_ERROR){
283
if(rc != GPG_ERR_NO_ERROR){
193
284
fprintf(stderr, "bad gpgme_data_new: %s: %s\n",
194
285
gpgme_strsource(rc), gpgme_strerror(rc));
195
286
gpgme_data_release(dh_crypto);
196
287
return -1;
197
288
}
198
289
199
/* Create new GPGME "context" */
200
rc = gpgme_new(&ctx);
201
if (rc != GPG_ERR_NO_ERROR){
202
fprintf(stderr, "bad gpgme_new: %s: %s\n",
203
gpgme_strsource(rc), gpgme_strerror(rc));
204
plaintext_length = -1;
205
goto decrypt_end;
206
}
207
208
290
/* Decrypt data from the cryptotext data buffer to the plaintext
209
291
data buffer */
210
rc = gpgme_op_decrypt(ctx, dh_crypto, dh_plain);
211
if (rc != GPG_ERR_NO_ERROR){
292
rc = gpgme_op_decrypt(mc.ctx, dh_crypto, dh_plain);
293
if(rc != GPG_ERR_NO_ERROR){
212
294
fprintf(stderr, "bad gpgme_op_decrypt: %s: %s\n",
213
295
gpgme_strsource(rc), gpgme_strerror(rc));
214
296
plaintext_length = -1;
215
goto decrypt_end;
216
}
217
218
if(debug){
219
fprintf(stderr, "Decryption of OpenPGP data succeeded\n");
220
}
221
222
if (debug){
223
gpgme_decrypt_result_t result;
224
result = gpgme_op_decrypt_result(ctx);
225
if (result == NULL){
226
fprintf(stderr, "gpgme_op_decrypt_result failed\n");
227
} else {
228
fprintf(stderr, "Unsupported algorithm: %s\n",
229
result->unsupported_algorithm);
230
fprintf(stderr, "Wrong key usage: %u\n",
231
result->wrong_key_usage);
232
if(result->file_name != NULL){
233
fprintf(stderr, "File name: %s\n", result->file_name);
234
}
235
gpgme_recipient_t recipient;
236
recipient = result->recipients;
237
if(recipient){
297
if(debug){
298
gpgme_decrypt_result_t result;
299
result = gpgme_op_decrypt_result(mc.ctx);
300
if(result == NULL){
301
fprintf(stderr, "gpgme_op_decrypt_result failed\n");
302
} else {
303
fprintf(stderr, "Unsupported algorithm: %s\n",
304
result->unsupported_algorithm);
305
fprintf(stderr, "Wrong key usage: %u\n",
306
result->wrong_key_usage);
307
if(result->file_name != NULL){
308
fprintf(stderr, "File name: %s\n", result->file_name);
309
}
310
gpgme_recipient_t recipient;
311
recipient = result->recipients;
238
312
while(recipient != NULL){
239
313
fprintf(stderr, "Public key algorithm: %s\n",
240
314
gpgme_pubkey_algo_name(recipient->pubkey_algo));
246
320
}
247
321
}
248
322
}
323
goto decrypt_end;
324
}
325
326
if(debug){
327
fprintf(stderr, "Decryption of OpenPGP data succeeded\n");
249
328
}
250
329
251
330
/* Seek back to the beginning of the GPGME plaintext data buffer */
252
if (gpgme_data_seek(dh_plain, (off_t) 0, SEEK_SET) == -1){
253
perror("pgpme_data_seek");
331
if(gpgme_data_seek(dh_plain, (off_t)0, SEEK_SET) == -1){
332
perror("gpgme_data_seek");
254
333
plaintext_length = -1;
255
334
goto decrypt_end;
256
335
}
257
336
258
337
*plaintext = NULL;
259
338
while(true){
260
plaintext_capacity = adjustbuffer(plaintext,
339
plaintext_capacity = incbuffer(plaintext,
261
340
(size_t)plaintext_length,
262
341
plaintext_capacity);
263
if (plaintext_capacity == 0){
264
perror("adjustbuffer");
342
if(plaintext_capacity == 0){
343
perror("incbuffer");
265
344
plaintext_length = -1;
266
345
goto decrypt_end;
267
346
}
269
348
ret = gpgme_data_read(dh_plain, *plaintext + plaintext_length,
270
349
BUFFER_SIZE);
271
350
/* Print the data, if any */
272
if (ret == 0){
351
if(ret == 0){
273
352
/* EOF */
274
353
break;
275
354
}
280
359
}
281
360
plaintext_length += ret;
282
361
}
283
362
284
363
if(debug){
285
364
fprintf(stderr, "Decrypted password is: ");
286
365
for(ssize_t i = 0; i < plaintext_length; i++){
299
378
return plaintext_length;
300
379
}
301
380
302
static const char * safer_gnutls_strerror (int value) {
303
const char *ret = gnutls_strerror (value);
304
if (ret == NULL)
381
static const char * safer_gnutls_strerror(int value){
382
const char *ret = gnutls_strerror(value); /* Spurious warning from
383
-Wunreachable-code */
384
if(ret == NULL)
305
385
ret = "(unknown)";
306
386
return ret;
307
387
}
312
392
fprintf(stderr, "GnuTLS: %s", string);
313
393
}
314
394
315
static int init_gnutls_global(mandos_context *mc,
316
const char *pubkeyfile,
317
const char *seckeyfile){
395
static int init_gnutls_global(const char *pubkeyfilename,
396
const char *seckeyfilename){
318
397
int ret;
319
398
320
399
if(debug){
322
401
}
323
402
324
403
ret = gnutls_global_init();
325
if (ret != GNUTLS_E_SUCCESS) {
326
fprintf (stderr, "GnuTLS global_init: %s\n",
327
safer_gnutls_strerror(ret));
404
if(ret != GNUTLS_E_SUCCESS){
405
fprintf(stderr, "GnuTLS global_init: %s\n",
406
safer_gnutls_strerror(ret));
328
407
return -1;
329
408
}
330
409
331
if (debug){
410
if(debug){
332
411
/* "Use a log level over 10 to enable all debugging options."
333
412
* - GnuTLS manual
334
413
*/
337
416
}
338
417
339
418
/* OpenPGP credentials */
340
gnutls_certificate_allocate_credentials(&mc->cred);
341
if (ret != GNUTLS_E_SUCCESS){
342
fprintf (stderr, "GnuTLS memory error: %s\n",
343
safer_gnutls_strerror(ret));
344
gnutls_global_deinit ();
419
gnutls_certificate_allocate_credentials(&mc.cred);
420
if(ret != GNUTLS_E_SUCCESS){
421
fprintf(stderr, "GnuTLS memory error: %s\n", /* Spurious warning
422
from
423
-Wunreachable-code
424
*/
425
safer_gnutls_strerror(ret));
426
gnutls_global_deinit();
345
427
return -1;
346
428
}
347
429
348
430
if(debug){
349
fprintf(stderr, "Attempting to use OpenPGP certificate %s"
350
" and keyfile %s as GnuTLS credentials\n", pubkeyfile,
351
seckeyfile);
431
fprintf(stderr, "Attempting to use OpenPGP public key %s and"
432
" secret key %s as GnuTLS credentials\n", pubkeyfilename,
433
seckeyfilename);
352
434
}
353
435
354
436
ret = gnutls_certificate_set_openpgp_key_file
355
(mc->cred, pubkeyfile, seckeyfile, GNUTLS_OPENPGP_FMT_BASE64);
356
if (ret != GNUTLS_E_SUCCESS) {
437
(mc.cred, pubkeyfilename, seckeyfilename,
438
GNUTLS_OPENPGP_FMT_BASE64);
439
if(ret != GNUTLS_E_SUCCESS){
357
440
fprintf(stderr,
358
441
"Error[%d] while reading the OpenPGP key pair ('%s',"
359
" '%s')\n", ret, pubkeyfile, seckeyfile);
360
fprintf(stdout, "The GnuTLS error is: %s\n",
442
" '%s')\n", ret, pubkeyfilename, seckeyfilename);
443
fprintf(stderr, "The GnuTLS error is: %s\n",
361
444
safer_gnutls_strerror(ret));
362
445
goto globalfail;
363
446
}
364
447
365
448
/* GnuTLS server initialization */
366
ret = gnutls_dh_params_init(&mc->dh_params);
367
if (ret != GNUTLS_E_SUCCESS) {
368
fprintf (stderr, "Error in GnuTLS DH parameter initialization:"
369
" %s\n", safer_gnutls_strerror(ret));
370
goto globalfail;
371
}
372
ret = gnutls_dh_params_generate2(mc->dh_params, mc->dh_bits);
373
if (ret != GNUTLS_E_SUCCESS) {
374
fprintf (stderr, "Error in GnuTLS prime generation: %s\n",
375
safer_gnutls_strerror(ret));
376
goto globalfail;
377
}
378
379
gnutls_certificate_set_dh_params(mc->cred, mc->dh_params);
380
449
ret = gnutls_dh_params_init(&mc.dh_params);
450
if(ret != GNUTLS_E_SUCCESS){
451
fprintf(stderr, "Error in GnuTLS DH parameter initialization:"
452
" %s\n", safer_gnutls_strerror(ret));
453
goto globalfail;
454
}
455
ret = gnutls_dh_params_generate2(mc.dh_params, mc.dh_bits);
456
if(ret != GNUTLS_E_SUCCESS){
457
fprintf(stderr, "Error in GnuTLS prime generation: %s\n",
458
safer_gnutls_strerror(ret));
459
goto globalfail;
460
}
461
462
gnutls_certificate_set_dh_params(mc.cred, mc.dh_params);
463
381
464
return 0;
382
465
383
466
globalfail:
384
385
gnutls_certificate_free_credentials(mc->cred);
467
468
gnutls_certificate_free_credentials(mc.cred);
386
469
gnutls_global_deinit();
470
gnutls_dh_params_deinit(mc.dh_params);
387
471
return -1;
388
389
472
}
390
473
391
static int init_gnutls_session(mandos_context *mc,
392
gnutls_session_t *session){
474
static int init_gnutls_session(gnutls_session_t *session){
393
475
int ret;
394
476
/* GnuTLS session creation */
395
477
ret = gnutls_init(session, GNUTLS_SERVER);
396
if (ret != GNUTLS_E_SUCCESS){
478
if(ret != GNUTLS_E_SUCCESS){
397
479
fprintf(stderr, "Error in GnuTLS session initialization: %s\n",
398
480
safer_gnutls_strerror(ret));
399
481
}
400
482
401
483
{
402
484
const char *err;
403
ret = gnutls_priority_set_direct(*session, mc->priority, &err);
404
if (ret != GNUTLS_E_SUCCESS) {
485
ret = gnutls_priority_set_direct(*session, mc.priority, &err);
486
if(ret != GNUTLS_E_SUCCESS){
405
487
fprintf(stderr, "Syntax error at: %s\n", err);
406
488
fprintf(stderr, "GnuTLS error: %s\n",
407
489
safer_gnutls_strerror(ret));
408
gnutls_deinit (*session);
490
gnutls_deinit(*session);
409
491
return -1;
410
492
}
411
493
}
412
494
413
495
ret = gnutls_credentials_set(*session, GNUTLS_CRD_CERTIFICATE,
414
mc->cred);
415
if (ret != GNUTLS_E_SUCCESS) {
496
mc.cred);
497
if(ret != GNUTLS_E_SUCCESS){
416
498
fprintf(stderr, "Error setting GnuTLS credentials: %s\n",
417
499
safer_gnutls_strerror(ret));
418
gnutls_deinit (*session);
500
gnutls_deinit(*session);
419
501
return -1;
420
502
}
421
503
422
504
/* ignore client certificate if any. */
423
gnutls_certificate_server_set_request (*session,
424
GNUTLS_CERT_IGNORE);
505
gnutls_certificate_server_set_request(*session,
506
GNUTLS_CERT_IGNORE);
425
507
426
gnutls_dh_set_prime_bits (*session, mc->dh_bits);
508
gnutls_dh_set_prime_bits(*session, mc.dh_bits);
427
509
428
510
return 0;
429
511
}
432
514
static void empty_log(__attribute__((unused)) AvahiLogLevel level,
433
515
__attribute__((unused)) const char *txt){}
434
516
517
sig_atomic_t quit_now = 0;
518
int signal_received = 0;
519
435
520
/* Called when a Mandos server is found */
436
521
static int start_mandos_communication(const char *ip, uint16_t port,
437
522
AvahiIfIndex if_index,
438
mandos_context *mc){
523
int af){
439
524
int ret, tcp_sd;
440
union { struct sockaddr in; struct sockaddr_in6 in6; } to;
525
ssize_t sret;
526
union {
527
struct sockaddr_in in;
528
struct sockaddr_in6 in6;
529
} to;
441
530
char *buffer = NULL;
442
531
char *decrypted_buffer;
443
532
size_t buffer_length = 0;
445
534
ssize_t decrypted_buffer_size;
446
535
size_t written;
447
536
int retval = 0;
448
char interface[IF_NAMESIZE];
449
537
gnutls_session_t session;
450
451
ret = init_gnutls_session (mc, &session);
452
if (ret != 0){
538
int pf; /* Protocol family */
539
540
switch(af){
541
case AF_INET6:
542
pf = PF_INET6;
543
break;
544
case AF_INET:
545
pf = PF_INET;
546
break;
547
default:
548
fprintf(stderr, "Bad address family: %d\n", af);
549
return -1;
550
}
551
552
ret = init_gnutls_session(&session);
553
if(ret != 0){
453
554
return -1;
454
555
}
455
556
456
557
if(debug){
457
fprintf(stderr, "Setting up a tcp connection to %s, port %" PRIu16
558
fprintf(stderr, "Setting up a TCP connection to %s, port %" PRIu16
458
559
"\n", ip, port);
459
560
}
460
561
461
tcp_sd = socket(PF_INET6, SOCK_STREAM, 0);
462
if(tcp_sd < 0) {
562
tcp_sd = socket(pf, SOCK_STREAM, 0);
563
if(tcp_sd < 0){
463
564
perror("socket");
464
565
return -1;
465
566
}
466
467
if(debug){
468
if(if_indextoname((unsigned int)if_index, interface) == NULL){
469
perror("if_indextoname");
470
return -1;
471
}
472
fprintf(stderr, "Binding to interface %s\n", interface);
473
}
474
567
475
memset(&to,0,sizeof(to)); /* Spurious warning */
476
to.in6.sin6_family = AF_INET6;
477
/* It would be nice to have a way to detect if we were passed an
478
IPv4 address here. Now we assume an IPv6 address. */
479
ret = inet_pton(AF_INET6, ip, &to.in6.sin6_addr);
480
if (ret < 0 ){
568
memset(&to, 0, sizeof(to));
569
if(af == AF_INET6){
570
to.in6.sin6_family = (sa_family_t)af;
571
ret = inet_pton(af, ip, &to.in6.sin6_addr);
572
} else { /* IPv4 */
573
to.in.sin_family = (sa_family_t)af;
574
ret = inet_pton(af, ip, &to.in.sin_addr);
575
}
576
if(ret < 0 ){
481
577
perror("inet_pton");
482
578
return -1;
483
579
}
485
581
fprintf(stderr, "Bad address: %s\n", ip);
486
582
return -1;
487
583
}
488
to.in6.sin6_port = htons(port); /* Spurious warning */
489
490
to.in6.sin6_scope_id = (uint32_t)if_index;
584
if(af == AF_INET6){
585
to.in6.sin6_port = htons(port); /* Spurious warnings from
586
-Wconversion and
587
-Wunreachable-code */
588
589
if(IN6_IS_ADDR_LINKLOCAL /* Spurious warnings from */
590
(&to.in6.sin6_addr)){ /* -Wstrict-aliasing=2 or lower and
591
-Wunreachable-code*/
592
if(if_index == AVAHI_IF_UNSPEC){
593
fprintf(stderr, "An IPv6 link-local address is incomplete"
594
" without a network interface\n");
595
return -1;
596
}
597
/* Set the network interface number as scope */
598
to.in6.sin6_scope_id = (uint32_t)if_index;
599
}
600
} else {
601
to.in.sin_port = htons(port); /* Spurious warnings from
602
-Wconversion and
603
-Wunreachable-code */
604
}
491
605
492
606
if(debug){
493
fprintf(stderr, "Connection to: %s, port %" PRIu16 "\n", ip,
494
port);
495
char addrstr[INET6_ADDRSTRLEN] = "";
496
if(inet_ntop(to.in6.sin6_family, &(to.in6.sin6_addr), addrstr,
497
sizeof(addrstr)) == NULL){
607
if(af == AF_INET6 and if_index != AVAHI_IF_UNSPEC){
608
char interface[IF_NAMESIZE];
609
if(if_indextoname((unsigned int)if_index, interface) == NULL){
610
perror("if_indextoname");
611
} else {
612
fprintf(stderr, "Connection to: %s%%%s, port %" PRIu16 "\n",
613
ip, interface, port);
614
}
615
} else {
616
fprintf(stderr, "Connection to: %s, port %" PRIu16 "\n", ip,
617
port);
618
}
619
char addrstr[(INET_ADDRSTRLEN > INET6_ADDRSTRLEN) ?
620
INET_ADDRSTRLEN : INET6_ADDRSTRLEN] = "";
621
const char *pcret;
622
if(af == AF_INET6){
623
pcret = inet_ntop(af, &(to.in6.sin6_addr), addrstr,
624
sizeof(addrstr));
625
} else {
626
pcret = inet_ntop(af, &(to.in.sin_addr), addrstr,
627
sizeof(addrstr));
628
}
629
if(pcret == NULL){
498
630
perror("inet_ntop");
499
631
} else {
500
632
if(strcmp(addrstr, ip) != 0){
503
635
}
504
636
}
505
637
506
ret = connect(tcp_sd, &to.in, sizeof(to));
507
if (ret < 0){
638
if(af == AF_INET6){
639
ret = connect(tcp_sd, &to.in6, sizeof(to));
640
} else {
641
ret = connect(tcp_sd, &to.in, sizeof(to)); /* IPv4 */
642
}
643
if(ret < 0){
508
644
perror("connect");
509
645
return -1;
510
646
}
511
647
512
648
const char *out = mandos_protocol_version;
513
649
written = 0;
514
while (true){
650
while(true){
515
651
size_t out_size = strlen(out);
516
ret = TEMP_FAILURE_RETRY(write(tcp_sd, out + written,
652
ret = (int)TEMP_FAILURE_RETRY(write(tcp_sd, out + written,
517
653
out_size - written));
518
if (ret == -1){
654
if(ret == -1){
519
655
perror("write");
520
656
retval = -1;
521
657
goto mandos_end;
524
660
if(written < out_size){
525
661
continue;
526
662
} else {
527
if (out == mandos_protocol_version){
663
if(out == mandos_protocol_version){
528
664
written = 0;
529
665
out = "\r\n";
530
666
} else {
532
668
}
533
669
}
534
670
}
535
671
536
672
if(debug){
537
673
fprintf(stderr, "Establishing TLS session with %s\n", ip);
538
674
}
539
675
540
gnutls_transport_set_ptr (session, (gnutls_transport_ptr_t) tcp_sd);
541
676
gnutls_transport_set_ptr(session, (gnutls_transport_ptr_t) tcp_sd);
677
542
678
do{
543
ret = gnutls_handshake (session);
679
ret = gnutls_handshake(session);
544
680
} while(ret == GNUTLS_E_AGAIN or ret == GNUTLS_E_INTERRUPTED);
545
681
546
if (ret != GNUTLS_E_SUCCESS){
682
if(ret != GNUTLS_E_SUCCESS){
547
683
if(debug){
548
684
fprintf(stderr, "*** GnuTLS Handshake failed ***\n");
549
gnutls_perror (ret);
685
gnutls_perror(ret);
550
686
}
551
687
retval = -1;
552
688
goto mandos_end;
555
691
/* Read OpenPGP packet that contains the wanted password */
556
692
557
693
if(debug){
558
fprintf(stderr, "Retrieving pgp encrypted password from %s\n",
694
fprintf(stderr, "Retrieving OpenPGP encrypted password from %s\n",
559
695
ip);
560
696
}
561
697
562
698
while(true){
563
buffer_capacity = adjustbuffer(&buffer, buffer_length,
699
buffer_capacity = incbuffer(&buffer, buffer_length,
564
700
buffer_capacity);
565
if (buffer_capacity == 0){
566
perror("adjustbuffer");
701
if(buffer_capacity == 0){
702
perror("incbuffer");
567
703
retval = -1;
568
704
goto mandos_end;
569
705
}
570
706
571
ret = gnutls_record_recv(session, buffer+buffer_length,
572
BUFFER_SIZE);
573
if (ret == 0){
707
sret = gnutls_record_recv(session, buffer+buffer_length,
708
BUFFER_SIZE);
709
if(sret == 0){
574
710
break;
575
711
}
576
if (ret < 0){
577
switch(ret){
712
if(sret < 0){
713
switch(sret){
578
714
case GNUTLS_E_INTERRUPTED:
579
715
case GNUTLS_E_AGAIN:
580
716
break;
581
717
case GNUTLS_E_REHANDSHAKE:
582
718
do{
583
ret = gnutls_handshake (session);
719
ret = gnutls_handshake(session);
584
720
} while(ret == GNUTLS_E_AGAIN or ret == GNUTLS_E_INTERRUPTED);
585
if (ret < 0){
721
if(ret < 0){
586
722
fprintf(stderr, "*** GnuTLS Re-handshake failed ***\n");
587
gnutls_perror (ret);
723
gnutls_perror(ret);
588
724
retval = -1;
589
725
goto mandos_end;
590
726
}
593
729
fprintf(stderr, "Unknown error while reading data from"
594
730
" encrypted session with Mandos server\n");
595
731
retval = -1;
596
gnutls_bye (session, GNUTLS_SHUT_RDWR);
732
gnutls_bye(session, GNUTLS_SHUT_RDWR);
597
733
goto mandos_end;
598
734
}
599
735
} else {
600
buffer_length += (size_t) ret;
736
buffer_length += (size_t) sret;
601
737
}
602
738
}
603
739
605
741
fprintf(stderr, "Closing TLS session\n");
606
742
}
607
743
608
gnutls_bye (session, GNUTLS_SHUT_RDWR);
744
gnutls_bye(session, GNUTLS_SHUT_RDWR);
609
745
610
if (buffer_length > 0){
746
if(buffer_length > 0){
611
747
decrypted_buffer_size = pgp_packet_decrypt(buffer,
612
748
buffer_length,
613
&decrypted_buffer,
614
keydir);
615
if (decrypted_buffer_size >= 0){
749
&decrypted_buffer);
750
if(decrypted_buffer_size >= 0){
616
751
written = 0;
617
752
while(written < (size_t) decrypted_buffer_size){
618
ret = (int)fwrite (decrypted_buffer + written, 1,
619
(size_t)decrypted_buffer_size - written,
620
stdout);
753
ret = (int)fwrite(decrypted_buffer + written, 1,
754
(size_t)decrypted_buffer_size - written,
755
stdout);
621
756
if(ret == 0 and ferror(stdout)){
622
757
if(debug){
623
758
fprintf(stderr, "Error writing encrypted data: %s\n",
632
767
} else {
633
768
retval = -1;
634
769
}
770
} else {
771
retval = -1;
635
772
}
636
773
637
774
/* Shutdown procedure */
638
775
639
776
mandos_end:
640
777
free(buffer);
641
close(tcp_sd);
642
gnutls_deinit (session);
778
ret = (int)TEMP_FAILURE_RETRY(close(tcp_sd));
779
if(ret == -1){
780
perror("close");
781
}
782
gnutls_deinit(session);
643
783
return retval;
644
784
}
645
785
646
786
static void resolve_callback(AvahiSServiceResolver *r,
647
787
AvahiIfIndex interface,
648
AVAHI_GCC_UNUSED AvahiProtocol protocol,
788
AvahiProtocol proto,
649
789
AvahiResolverEvent event,
650
790
const char *name,
651
791
const char *type,
656
796
AVAHI_GCC_UNUSED AvahiStringList *txt,
657
797
AVAHI_GCC_UNUSED AvahiLookupResultFlags
658
798
flags,
659
void* userdata) {
660
mandos_context *mc = userdata;
661
assert(r); /* Spurious warning */
799
AVAHI_GCC_UNUSED void* userdata){
800
assert(r);
662
801
663
802
/* Called whenever a service has been resolved successfully or
664
803
timed out */
665
804
666
switch (event) {
805
if(quit_now){
806
return;
807
}
808
809
switch(event){
667
810
default:
668
811
case AVAHI_RESOLVER_FAILURE:
669
812
fprintf(stderr, "(Avahi Resolver) Failed to resolve service '%s'"
670
813
" of type '%s' in domain '%s': %s\n", name, type, domain,
671
avahi_strerror(avahi_server_errno(mc->server)));
814
avahi_strerror(avahi_server_errno(mc.server)));
672
815
break;
673
816
674
817
case AVAHI_RESOLVER_FOUND:
677
820
avahi_address_snprint(ip, sizeof(ip), address);
678
821
if(debug){
679
822
fprintf(stderr, "Mandos server \"%s\" found on %s (%s, %"
680
PRIu16 ") on port %d\n", name, host_name, ip,
681
interface, port);
823
PRIdMAX ") on port %" PRIu16 "\n", name, host_name,
824
ip, (intmax_t)interface, port);
682
825
}
683
int ret = start_mandos_communication(ip, port, interface, mc);
684
if (ret == 0){
685
avahi_simple_poll_quit(mc->simple_poll);
826
int ret = start_mandos_communication(ip, port, interface,
827
avahi_proto_to_af(proto));
828
if(ret == 0){
829
avahi_simple_poll_quit(mc.simple_poll);
686
830
}
687
831
}
688
832
}
689
833
avahi_s_service_resolver_free(r);
690
834
}
691
835
692
static void browse_callback( AvahiSServiceBrowser *b,
693
AvahiIfIndex interface,
694
AvahiProtocol protocol,
695
AvahiBrowserEvent event,
696
const char *name,
697
const char *type,
698
const char *domain,
699
AVAHI_GCC_UNUSED AvahiLookupResultFlags
700
flags,
701
void* userdata) {
702
mandos_context *mc = userdata;
703
assert(b); /* Spurious warning */
836
static void browse_callback(AvahiSServiceBrowser *b,
837
AvahiIfIndex interface,
838
AvahiProtocol protocol,
839
AvahiBrowserEvent event,
840
const char *name,
841
const char *type,
842
const char *domain,
843
AVAHI_GCC_UNUSED AvahiLookupResultFlags
844
flags,
845
AVAHI_GCC_UNUSED void* userdata){
846
assert(b);
704
847
705
848
/* Called whenever a new services becomes available on the LAN or
706
849
is removed from the LAN */
707
850
708
switch (event) {
851
switch(event){
709
852
default:
710
853
case AVAHI_BROWSER_FAILURE:
711
854
712
855
fprintf(stderr, "(Avahi browser) %s\n",
713
avahi_strerror(avahi_server_errno(mc->server)));
714
avahi_simple_poll_quit(mc->simple_poll);
856
avahi_strerror(avahi_server_errno(mc.server)));
857
avahi_simple_poll_quit(mc.simple_poll);
715
858
return;
716
859
717
860
case AVAHI_BROWSER_NEW:
720
863
the callback function is called the Avahi server will free the
721
864
resolver for us. */
722
865
723
if (!(avahi_s_service_resolver_new(mc->server, interface,
724
protocol, name, type, domain,
725
AVAHI_PROTO_INET6, 0,
726
resolve_callback, mc)))
866
if(avahi_s_service_resolver_new(mc.server, interface, protocol,
867
name, type, domain, protocol, 0,
868
resolve_callback, NULL) == NULL)
727
869
fprintf(stderr, "Avahi: Failed to resolve service '%s': %s\n",
728
name, avahi_strerror(avahi_server_errno(mc->server)));
870
name, avahi_strerror(avahi_server_errno(mc.server)));
729
871
break;
730
872
731
873
case AVAHI_BROWSER_REMOVE:
740
882
}
741
883
}
742
884
743
/* Combines file name and path and returns the malloced new
744
string. some sane checks could/should be added */
745
static const char *combinepath(const char *first, const char *second){
746
size_t f_len = strlen(first);
747
size_t s_len = strlen(second);
748
char *tmp = malloc(f_len + s_len + 2);
749
if (tmp == NULL){
750
return NULL;
751
}
752
if(f_len > 0){
753
memcpy(tmp, first, f_len); /* Spurious warning */
754
}
755
tmp[f_len] = '/';
756
if(s_len > 0){
757
memcpy(tmp + f_len + 1, second, s_len); /* Spurious warning */
758
}
759
tmp[f_len + 1 + s_len] = '\0';
760
return tmp;
885
/* stop main loop after sigterm has been called */
886
static void handle_sigterm(int sig){
887
if(quit_now){
888
return;
889
}
890
quit_now = 1;
891
signal_received = sig;
892
int old_errno = errno;
893
if(mc.simple_poll != NULL){
894
avahi_simple_poll_quit(mc.simple_poll);
895
}
896
errno = old_errno;
761
897
}
762
898
763
764
899
int main(int argc, char *argv[]){
765
AvahiSServiceBrowser *sb = NULL;
766
int error;
767
int ret;
768
int exitcode = EXIT_SUCCESS;
769
const char *interface = "eth0";
770
struct ifreq network;
771
int sd;
772
uid_t uid;
773
gid_t gid;
774
char *connect_to = NULL;
775
AvahiIfIndex if_index = AVAHI_IF_UNSPEC;
776
const char *pubkeyfile = "pubkey.txt";
777
const char *seckeyfile = "seckey.txt";
778
mandos_context mc = { .simple_poll = NULL, .server = NULL,
779
.dh_bits = 1024, .priority = "SECURE256"};
780
bool gnutls_initalized = false;
781
782
{
783
struct argp_option options[] = {
784
{ .name = "debug", .key = 128,
785
.doc = "Debug mode", .group = 3 },
786
{ .name = "connect", .key = 'c',
787
.arg = "IP",
788
.doc = "Connect directly to a sepcified mandos server",
789
.group = 1 },
790
{ .name = "interface", .key = 'i',
791
.arg = "INTERFACE",
792
.doc = "Interface that Avahi will conntect through",
793
.group = 1 },
794
{ .name = "keydir", .key = 'd',
795
.arg = "KEYDIR",
796
.doc = "Directory where the openpgp keyring is",
797
.group = 1 },
798
{ .name = "seckey", .key = 's',
799
.arg = "SECKEY",
800
.doc = "Secret openpgp key for gnutls authentication",
801
.group = 1 },
802
{ .name = "pubkey", .key = 'p',
803
.arg = "PUBKEY",
804
.doc = "Public openpgp key for gnutls authentication",
805
.group = 2 },
806
{ .name = "dh-bits", .key = 129,
807
.arg = "BITS",
808
.doc = "dh-bits to use in gnutls communication",
809
.group = 2 },
810
{ .name = "priority", .key = 130,
811
.arg = "PRIORITY",
812
.doc = "GNUTLS priority", .group = 1 },
813
{ .name = NULL }
814
};
815
816
817
error_t parse_opt (int key, char *arg,
818
struct argp_state *state) {
819
/* Get the INPUT argument from `argp_parse', which we know is
820
a pointer to our plugin list pointer. */
821
switch (key) {
822
case 128:
823
debug = true;
824
break;
825
case 'c':
826
connect_to = arg;
827
break;
828
case 'i':
829
interface = arg;
830
break;
831
case 'd':
832
keydir = arg;
833
break;
834
case 's':
835
seckeyfile = arg;
836
break;
837
case 'p':
838
pubkeyfile = arg;
839
break;
840
case 129:
841
errno = 0;
842
mc.dh_bits = (unsigned int) strtol(arg, NULL, 10);
843
if (errno){
844
perror("strtol");
845
exit(EXIT_FAILURE);
846
}
847
break;
848
case 130:
849
mc.priority = arg;
850
break;
851
case ARGP_KEY_ARG:
852
argp_usage (state);
853
case ARGP_KEY_END:
854
break;
855
default:
856
return ARGP_ERR_UNKNOWN;
857
}
858
return 0;
859
}
860
861
struct argp argp = { .options = options, .parser = parse_opt,
862
.args_doc = "",
863
.doc = "Mandos client -- Get and decrypt"
864
" passwords from mandos server" };
865
ret = argp_parse (&argp, argc, argv, 0, 0, NULL);
866
if (ret == ARGP_ERR_UNKNOWN){
867
fprintf(stderr, "Unknown error while parsing arguments\n");
868
exitcode = EXIT_FAILURE;
869
goto end;
870
}
871
}
872
873
pubkeyfile = combinepath(keydir, pubkeyfile);
874
if (pubkeyfile == NULL){
875
perror("combinepath");
876
exitcode = EXIT_FAILURE;
877
goto end;
878
}
879
880
seckeyfile = combinepath(keydir, seckeyfile);
881
if (seckeyfile == NULL){
882
perror("combinepath");
883
exitcode = EXIT_FAILURE;
884
goto end;
885
}
886
887
ret = init_gnutls_global(&mc, pubkeyfile, seckeyfile);
888
if (ret == -1){
889
fprintf(stderr, "init_gnutls_global failed\n");
890
exitcode = EXIT_FAILURE;
891
goto end;
892
} else {
893
gnutls_initalized = true;
894
}
895
896
/* If the interface is down, bring it up */
897
{
898
sd = socket(PF_INET6, SOCK_DGRAM, IPPROTO_IP);
899
if(sd < 0) {
900
perror("socket");
901
exitcode = EXIT_FAILURE;
902
goto end;
903
}
904
strcpy(network.ifr_name, interface); /* Spurious warning */
905
ret = ioctl(sd, SIOCGIFFLAGS, &network);
906
if(ret == -1){
907
perror("ioctl SIOCGIFFLAGS");
908
exitcode = EXIT_FAILURE;
909
goto end;
910
}
911
if((network.ifr_flags & IFF_UP) == 0){
912
network.ifr_flags |= IFF_UP;
913
ret = ioctl(sd, SIOCSIFFLAGS, &network);
914
if(ret == -1){
915
perror("ioctl SIOCSIFFLAGS");
916
exitcode = EXIT_FAILURE;
917
goto end;
918
}
919
}
920
close(sd);
921
}
922
923
uid = getuid();
924
gid = getgid();
925
926
ret = setuid(uid);
927
if (ret == -1){
928
perror("setuid");
929
}
930
931
setgid(gid);
932
if (ret == -1){
933
perror("setgid");
934
}
935
900
AvahiSServiceBrowser *sb = NULL;
901
int error;
902
int ret;
903
intmax_t tmpmax;
904
char *tmp;
905
int exitcode = EXIT_SUCCESS;
906
const char *interface = "eth0";
907
struct ifreq network;
908
int sd = -1;
909
bool take_down_interface = false;
910
uid_t uid;
911
gid_t gid;
912
char *connect_to = NULL;
913
char tempdir[] = "/tmp/mandosXXXXXX";
914
bool tempdir_created = false;
915
AvahiIfIndex if_index = AVAHI_IF_UNSPEC;
916
const char *seckey = PATHDIR "/" SECKEY;
917
const char *pubkey = PATHDIR "/" PUBKEY;
918
919
bool gnutls_initialized = false;
920
bool gpgme_initialized = false;
921
float delay = 2.5f;
922
923
struct sigaction old_sigterm_action;
924
struct sigaction sigterm_action = { .sa_handler = handle_sigterm };
925
926
{
927
struct argp_option options[] = {
928
{ .name = "debug", .key = 128,
929
.doc = "Debug mode", .group = 3 },
930
{ .name = "connect", .key = 'c',
931
.arg = "ADDRESS:PORT",
932
.doc = "Connect directly to a specific Mandos server",
933
.group = 1 },
934
{ .name = "interface", .key = 'i',
935
.arg = "NAME",
936
.doc = "Network interface that will be used to search for"
937
" Mandos servers",
938
.group = 1 },
939
{ .name = "seckey", .key = 's',
940
.arg = "FILE",
941
.doc = "OpenPGP secret key file base name",
942
.group = 1 },
943
{ .name = "pubkey", .key = 'p',
944
.arg = "FILE",
945
.doc = "OpenPGP public key file base name",
946
.group = 2 },
947
{ .name = "dh-bits", .key = 129,
948
.arg = "BITS",
949
.doc = "Bit length of the prime number used in the"
950
" Diffie-Hellman key exchange",
951
.group = 2 },
952
{ .name = "priority", .key = 130,
953
.arg = "STRING",
954
.doc = "GnuTLS priority string for the TLS handshake",
955
.group = 1 },
956
{ .name = "delay", .key = 131,
957
.arg = "SECONDS",
958
.doc = "Maximum delay to wait for interface startup",
959
.group = 2 },
960
{ .name = NULL }
961
};
962
963
error_t parse_opt(int key, char *arg,
964
struct argp_state *state){
965
switch(key){
966
case 128: /* --debug */
967
debug = true;
968
break;
969
case 'c': /* --connect */
970
connect_to = arg;
971
break;
972
case 'i': /* --interface */
973
interface = arg;
974
break;
975
case 's': /* --seckey */
976
seckey = arg;
977
break;
978
case 'p': /* --pubkey */
979
pubkey = arg;
980
break;
981
case 129: /* --dh-bits */
982
errno = 0;
983
tmpmax = strtoimax(arg, &tmp, 10);
984
if(errno != 0 or tmp == arg or *tmp != '\0'
985
or tmpmax != (typeof(mc.dh_bits))tmpmax){
986
fprintf(stderr, "Bad number of DH bits\n");
987
exit(EXIT_FAILURE);
988
}
989
mc.dh_bits = (typeof(mc.dh_bits))tmpmax;
990
break;
991
case 130: /* --priority */
992
mc.priority = arg;
993
break;
994
case 131: /* --delay */
995
errno = 0;
996
delay = strtof(arg, &tmp);
997
if(errno != 0 or tmp == arg or *tmp != '\0'){
998
fprintf(stderr, "Bad delay\n");
999
exit(EXIT_FAILURE);
1000
}
1001
break;
1002
case ARGP_KEY_ARG:
1003
argp_usage(state);
1004
case ARGP_KEY_END:
1005
break;
1006
default:
1007
return ARGP_ERR_UNKNOWN;
1008
}
1009
return 0;
1010
}
1011
1012
struct argp argp = { .options = options, .parser = parse_opt,
1013
.args_doc = "",
1014
.doc = "Mandos client -- Get and decrypt"
1015
" passwords from a Mandos server" };
1016
ret = argp_parse(&argp, argc, argv, 0, 0, NULL);
1017
if(ret == ARGP_ERR_UNKNOWN){
1018
fprintf(stderr, "Unknown error while parsing arguments\n");
1019
exitcode = EXIT_FAILURE;
1020
goto end;
1021
}
1022
}
1023
1024
if(not debug){
1025
avahi_set_log_function(empty_log);
1026
}
1027
1028
/* Initialize Avahi early so avahi_simple_poll_quit() can be called
1029
from the signal handler */
1030
/* Initialize the pseudo-RNG for Avahi */
1031
srand((unsigned int) time(NULL));
1032
mc.simple_poll = avahi_simple_poll_new();
1033
if(mc.simple_poll == NULL){
1034
fprintf(stderr, "Avahi: Failed to create simple poll object.\n");
1035
exitcode = EXIT_FAILURE;
1036
goto end;
1037
}
1038
1039
sigemptyset(&sigterm_action.sa_mask);
1040
ret = sigaddset(&sigterm_action.sa_mask, SIGINT);
1041
if(ret == -1){
1042
perror("sigaddset");
1043
exitcode = EXIT_FAILURE;
1044
goto end;
1045
}
1046
ret = sigaddset(&sigterm_action.sa_mask, SIGHUP);
1047
if(ret == -1){
1048
perror("sigaddset");
1049
exitcode = EXIT_FAILURE;
1050
goto end;
1051
}
1052
ret = sigaddset(&sigterm_action.sa_mask, SIGTERM);
1053
if(ret == -1){
1054
perror("sigaddset");
1055
exitcode = EXIT_FAILURE;
1056
goto end;
1057
}
1058
/* Need to check if the handler is SIG_IGN before handling:
1059
| [[info:libc:Initial Signal Actions]] |
1060
| [[info:libc:Basic Signal Handling]] |
1061
*/
1062
ret = sigaction(SIGINT, NULL, &old_sigterm_action);
1063
if(ret == -1){
1064
perror("sigaction");
1065
return EXIT_FAILURE;
1066
}
1067
if(old_sigterm_action.sa_handler != SIG_IGN){
1068
ret = sigaction(SIGINT, &sigterm_action, NULL);
1069
if(ret == -1){
1070
perror("sigaction");
1071
exitcode = EXIT_FAILURE;
1072
goto end;
1073
}
1074
}
1075
ret = sigaction(SIGHUP, NULL, &old_sigterm_action);
1076
if(ret == -1){
1077
perror("sigaction");
1078
return EXIT_FAILURE;
1079
}
1080
if(old_sigterm_action.sa_handler != SIG_IGN){
1081
ret = sigaction(SIGHUP, &sigterm_action, NULL);
1082
if(ret == -1){
1083
perror("sigaction");
1084
exitcode = EXIT_FAILURE;
1085
goto end;
1086
}
1087
}
1088
ret = sigaction(SIGTERM, NULL, &old_sigterm_action);
1089
if(ret == -1){
1090
perror("sigaction");
1091
return EXIT_FAILURE;
1092
}
1093
if(old_sigterm_action.sa_handler != SIG_IGN){
1094
ret = sigaction(SIGTERM, &sigterm_action, NULL);
1095
if(ret == -1){
1096
perror("sigaction");
1097
exitcode = EXIT_FAILURE;
1098
goto end;
1099
}
1100
}
1101
1102
/* If the interface is down, bring it up */
1103
if(interface[0] != '\0'){
936
1104
if_index = (AvahiIfIndex) if_nametoindex(interface);
937
1105
if(if_index == 0){
938
1106
fprintf(stderr, "No such interface: \"%s\"\n", interface);
939
exit(EXIT_FAILURE);
940
}
941
942
if(connect_to != NULL){
943
/* Connect directly, do not use Zeroconf */
944
/* (Mainly meant for debugging) */
945
char *address = strrchr(connect_to, ':');
946
if(address == NULL){
947
fprintf(stderr, "No colon in address\n");
948
exitcode = EXIT_FAILURE;
949
goto end;
950
}
951
errno = 0;
952
uint16_t port = (uint16_t) strtol(address+1, NULL, 10);
953
if(errno){
954
perror("Bad port number");
955
exitcode = EXIT_FAILURE;
956
goto end;
957
}
958
*address = '\0';
959
address = connect_to;
960
ret = start_mandos_communication(address, port, if_index, &mc);
961
if(ret < 0){
962
exitcode = EXIT_FAILURE;
963
} else {
964
exitcode = EXIT_SUCCESS;
965
}
966
goto end;
967
}
968
969
if (not debug){
970
avahi_set_log_function(empty_log);
971
}
972
973
/* Initialize the pseudo-RNG for Avahi */
974
srand((unsigned int) time(NULL));
975
976
/* Allocate main Avahi loop object */
977
mc.simple_poll = avahi_simple_poll_new();
978
if (mc.simple_poll == NULL) {
979
fprintf(stderr, "Avahi: Failed to create simple poll"
980
" object.\n");
981
exitcode = EXIT_FAILURE;
982
goto end;
983
}
984
985
{
986
AvahiServerConfig config;
987
/* Do not publish any local Zeroconf records */
988
avahi_server_config_init(&config);
989
config.publish_hinfo = 0;
990
config.publish_addresses = 0;
991
config.publish_workstation = 0;
992
config.publish_domain = 0;
993
994
/* Allocate a new server */
995
mc.server = avahi_server_new(avahi_simple_poll_get
996
(mc.simple_poll), &config, NULL,
997
NULL, &error);
998
999
/* Free the Avahi configuration data */
1000
avahi_server_config_free(&config);
1001
}
1002
1003
/* Check if creating the Avahi server object succeeded */
1004
if (mc.server == NULL) {
1005
fprintf(stderr, "Failed to create Avahi server: %s\n",
1006
avahi_strerror(error));
1007
exitcode = EXIT_FAILURE;
1008
goto end;
1009
}
1010
1011
/* Create the Avahi service browser */
1012
sb = avahi_s_service_browser_new(mc.server, if_index,
1013
AVAHI_PROTO_INET6,
1014
"_mandos._tcp", NULL, 0,
1015
browse_callback, &mc);
1016
if (sb == NULL) {
1017
fprintf(stderr, "Failed to create service browser: %s\n",
1018
avahi_strerror(avahi_server_errno(mc.server)));
1019
exitcode = EXIT_FAILURE;
1020
goto end;
1021
}
1022
1023
/* Run the main loop */
1024
1025
if (debug){
1026
fprintf(stderr, "Starting Avahi loop search\n");
1027
}
1028
1029
avahi_simple_poll_loop(mc.simple_poll);
1030
1107
exitcode = EXIT_FAILURE;
1108
goto end;
1109
}
1110
1111
if(quit_now){
1112
goto end;
1113
}
1114
1115
#ifdef __linux__
1116
/* Lower kernel loglevel to KERN_NOTICE to avoid KERN_INFO
1117
messages to mess up the prompt */
1118
ret = klogctl(8, NULL, 5);
1119
bool restore_loglevel = true;
1120
if(ret == -1){
1121
restore_loglevel = false;
1122
perror("klogctl");
1123
}
1124
#endif /* __linux__ */
1125
1126
sd = socket(PF_INET6, SOCK_DGRAM, IPPROTO_IP);
1127
if(sd < 0){
1128
perror("socket");
1129
exitcode = EXIT_FAILURE;
1130
#ifdef __linux__
1131
if(restore_loglevel){
1132
ret = klogctl(7, NULL, 0);
1133
if(ret == -1){
1134
perror("klogctl");
1135
}
1136
}
1137
#endif /* __linux__ */
1138
goto end;
1139
}
1140
strcpy(network.ifr_name, interface);
1141
ret = ioctl(sd, SIOCGIFFLAGS, &network);
1142
if(ret == -1){
1143
perror("ioctl SIOCGIFFLAGS");
1144
#ifdef __linux__
1145
if(restore_loglevel){
1146
ret = klogctl(7, NULL, 0);
1147
if(ret == -1){
1148
perror("klogctl");
1149
}
1150
}
1151
#endif /* __linux__ */
1152
exitcode = EXIT_FAILURE;
1153
goto end;
1154
}
1155
if((network.ifr_flags & IFF_UP) == 0){
1156
network.ifr_flags |= IFF_UP;
1157
take_down_interface = true;
1158
ret = ioctl(sd, SIOCSIFFLAGS, &network);
1159
if(ret == -1){
1160
take_down_interface = false;
1161
perror("ioctl SIOCSIFFLAGS");
1162
exitcode = EXIT_FAILURE;
1163
#ifdef __linux__
1164
if(restore_loglevel){
1165
ret = klogctl(7, NULL, 0);
1166
if(ret == -1){
1167
perror("klogctl");
1168
}
1169
}
1170
#endif /* __linux__ */
1171
goto end;
1172
}
1173
}
1174
/* sleep checking until interface is running */
1175
for(int i=0; i < delay * 4; i++){
1176
ret = ioctl(sd, SIOCGIFFLAGS, &network);
1177
if(ret == -1){
1178
perror("ioctl SIOCGIFFLAGS");
1179
} else if(network.ifr_flags & IFF_RUNNING){
1180
break;
1181
}
1182
struct timespec sleeptime = { .tv_nsec = 250000000 };
1183
ret = nanosleep(&sleeptime, NULL);
1184
if(ret == -1 and errno != EINTR){
1185
perror("nanosleep");
1186
}
1187
}
1188
if(not take_down_interface){
1189
/* We won't need the socket anymore */
1190
ret = (int)TEMP_FAILURE_RETRY(close(sd));
1191
if(ret == -1){
1192
perror("close");
1193
}
1194
}
1195
#ifdef __linux__
1196
if(restore_loglevel){
1197
/* Restores kernel loglevel to default */
1198
ret = klogctl(7, NULL, 0);
1199
if(ret == -1){
1200
perror("klogctl");
1201
}
1202
}
1203
#endif /* __linux__ */
1204
}
1205
1206
if(quit_now){
1207
goto end;
1208
}
1209
1210
uid = getuid();
1211
gid = getgid();
1212
1213
errno = 0;
1214
setgid(gid);
1215
if(ret == -1){
1216
perror("setgid");
1217
}
1218
1219
ret = setuid(uid);
1220
if(ret == -1){
1221
perror("setuid");
1222
}
1223
1224
if(quit_now){
1225
goto end;
1226
}
1227
1228
ret = init_gnutls_global(pubkey, seckey);
1229
if(ret == -1){
1230
fprintf(stderr, "init_gnutls_global failed\n");
1231
exitcode = EXIT_FAILURE;
1232
goto end;
1233
} else {
1234
gnutls_initialized = true;
1235
}
1236
1237
if(quit_now){
1238
goto end;
1239
}
1240
1241
tempdir_created = true;
1242
if(mkdtemp(tempdir) == NULL){
1243
tempdir_created = false;
1244
perror("mkdtemp");
1245
goto end;
1246
}
1247
1248
if(quit_now){
1249
goto end;
1250
}
1251
1252
if(not init_gpgme(pubkey, seckey, tempdir)){
1253
fprintf(stderr, "init_gpgme failed\n");
1254
exitcode = EXIT_FAILURE;
1255
goto end;
1256
} else {
1257
gpgme_initialized = true;
1258
}
1259
1260
if(quit_now){
1261
goto end;
1262
}
1263
1264
if(connect_to != NULL){
1265
/* Connect directly, do not use Zeroconf */
1266
/* (Mainly meant for debugging) */
1267
char *address = strrchr(connect_to, ':');
1268
if(address == NULL){
1269
fprintf(stderr, "No colon in address\n");
1270
exitcode = EXIT_FAILURE;
1271
goto end;
1272
}
1273
1274
if(quit_now){
1275
goto end;
1276
}
1277
1278
uint16_t port;
1279
errno = 0;
1280
tmpmax = strtoimax(address+1, &tmp, 10);
1281
if(errno != 0 or tmp == address+1 or *tmp != '\0'
1282
or tmpmax != (uint16_t)tmpmax){
1283
fprintf(stderr, "Bad port number\n");
1284
exitcode = EXIT_FAILURE;
1285
goto end;
1286
}
1287
1288
if(quit_now){
1289
goto end;
1290
}
1291
1292
port = (uint16_t)tmpmax;
1293
*address = '\0';
1294
address = connect_to;
1295
/* Colon in address indicates IPv6 */
1296
int af;
1297
if(strchr(address, ':') != NULL){
1298
af = AF_INET6;
1299
} else {
1300
af = AF_INET;
1301
}
1302
1303
if(quit_now){
1304
goto end;
1305
}
1306
1307
ret = start_mandos_communication(address, port, if_index, af);
1308
if(ret < 0){
1309
exitcode = EXIT_FAILURE;
1310
} else {
1311
exitcode = EXIT_SUCCESS;
1312
}
1313
goto end;
1314
}
1315
1316
if(quit_now){
1317
goto end;
1318
}
1319
1320
{
1321
AvahiServerConfig config;
1322
/* Do not publish any local Zeroconf records */
1323
avahi_server_config_init(&config);
1324
config.publish_hinfo = 0;
1325
config.publish_addresses = 0;
1326
config.publish_workstation = 0;
1327
config.publish_domain = 0;
1328
1329
/* Allocate a new server */
1330
mc.server = avahi_server_new(avahi_simple_poll_get
1331
(mc.simple_poll), &config, NULL,
1332
NULL, &error);
1333
1334
/* Free the Avahi configuration data */
1335
avahi_server_config_free(&config);
1336
}
1337
1338
/* Check if creating the Avahi server object succeeded */
1339
if(mc.server == NULL){
1340
fprintf(stderr, "Failed to create Avahi server: %s\n",
1341
avahi_strerror(error));
1342
exitcode = EXIT_FAILURE;
1343
goto end;
1344
}
1345
1346
if(quit_now){
1347
goto end;
1348
}
1349
1350
/* Create the Avahi service browser */
1351
sb = avahi_s_service_browser_new(mc.server, if_index,
1352
AVAHI_PROTO_UNSPEC, "_mandos._tcp",
1353
NULL, 0, browse_callback, NULL);
1354
if(sb == NULL){
1355
fprintf(stderr, "Failed to create service browser: %s\n",
1356
avahi_strerror(avahi_server_errno(mc.server)));
1357
exitcode = EXIT_FAILURE;
1358
goto end;
1359
}
1360
1361
if(quit_now){
1362
goto end;
1363
}
1364
1365
/* Run the main loop */
1366
1367
if(debug){
1368
fprintf(stderr, "Starting Avahi loop search\n");
1369
}
1370
1371
avahi_simple_poll_loop(mc.simple_poll);
1372
1031
1373
end:
1032
1033
if (debug){
1034
fprintf(stderr, "%s exiting\n", argv[0]);
1035
}
1036
1037
/* Cleanup things */
1038
if (sb != NULL)
1039
avahi_s_service_browser_free(sb);
1040
1041
if (mc.server != NULL)
1042
avahi_server_free(mc.server);
1043
1044
if (mc.simple_poll != NULL)
1045
avahi_simple_poll_free(mc.simple_poll);
1046
free(pubkeyfile);
1047
free(seckeyfile);
1048
1049
if (gnutls_initalized){
1050
gnutls_certificate_free_credentials(mc.cred);
1051
gnutls_global_deinit ();
1052
}
1053
1054
return exitcode;
1374
1375
if(debug){
1376
fprintf(stderr, "%s exiting\n", argv[0]);
1377
}
1378
1379
/* Cleanup things */
1380
if(sb != NULL)
1381
avahi_s_service_browser_free(sb);
1382
1383
if(mc.server != NULL)
1384
avahi_server_free(mc.server);
1385
1386
if(mc.simple_poll != NULL)
1387
avahi_simple_poll_free(mc.simple_poll);
1388
1389
if(gnutls_initialized){
1390
gnutls_certificate_free_credentials(mc.cred);
1391
gnutls_global_deinit();
1392
gnutls_dh_params_deinit(mc.dh_params);
1393
}
1394
1395
if(gpgme_initialized){
1396
gpgme_release(mc.ctx);
1397
}
1398
1399
/* Take down the network interface */
1400
if(take_down_interface){
1401
ret = ioctl(sd, SIOCGIFFLAGS, &network);
1402
if(ret == -1){
1403
perror("ioctl SIOCGIFFLAGS");
1404
} else if(network.ifr_flags & IFF_UP) {
1405
network.ifr_flags &= ~IFF_UP; /* clear flag */
1406
ret = ioctl(sd, SIOCSIFFLAGS, &network);
1407
if(ret == -1){
1408
perror("ioctl SIOCSIFFLAGS");
1409
}
1410
}
1411
ret = (int)TEMP_FAILURE_RETRY(close(sd));
1412
if(ret == -1){
1413
perror("close");
1414
}
1415
}
1416
1417
/* Removes the temp directory used by GPGME */
1418
if(tempdir_created){
1419
DIR *d;
1420
struct dirent *direntry;
1421
d = opendir(tempdir);
1422
if(d == NULL){
1423
if(errno != ENOENT){
1424
perror("opendir");
1425
}
1426
} else {
1427
while(true){
1428
direntry = readdir(d);
1429
if(direntry == NULL){
1430
break;
1431
}
1432
/* Skip "." and ".." */
1433
if(direntry->d_name[0] == '.'
1434
and (direntry->d_name[1] == '\0'
1435
or (direntry->d_name[1] == '.'
1436
and direntry->d_name[2] == '\0'))){
1437
continue;
1438
}
1439
char *fullname = NULL;
1440
ret = asprintf(&fullname, "%s/%s", tempdir,
1441
direntry->d_name);
1442
if(ret < 0){
1443
perror("asprintf");
1444
continue;
1445
}
1446
ret = remove(fullname);
1447
if(ret == -1){
1448
fprintf(stderr, "remove(\"%s\"): %s\n", fullname,
1449
strerror(errno));
1450
}
1451
free(fullname);
1452
}
1453
closedir(d);
1454
}
1455
ret = rmdir(tempdir);
1456
if(ret == -1 and errno != ENOENT){
1457
perror("rmdir");
1458
}
1459
}
1460
1461
if(quit_now){
1462
sigemptyset(&old_sigterm_action.sa_mask);
1463
old_sigterm_action.sa_handler = SIG_DFL;
1464
ret = sigaction(signal_received, &old_sigterm_action, NULL);
1465
if(ret == -1){
1466
perror("sigaction");
1467
}
1468
raise(signal_received);
1469
}
1470
1471
return exitcode;
1055
1472
}
Loggerhead is a web-based interface for Breezy
Version: 2.0.2.dev0