Merge remote-tracking branch 'qemu-kvm/memory/batch' into staging
[qemu/qmp-unstable.git] / libcacard / vcard_emul_nss.c
blob397485c75302b6c05fe6ae6628e03810717a1f3a
1 /*
2 * This is the actual card emulator.
4 * These functions can be implemented in different ways on different platforms
5 * using the underlying system primitives. For Linux it uses NSS, though direct
6 * to PKCS #11, openssl+pkcs11, or even gnu crypto libraries+pkcs #11 could be
7 * used. On Windows CAPI could be used.
9 * This work is licensed under the terms of the GNU LGPL, version 2.1 or later.
10 * See the COPYING.LIB file in the top-level directory.
14 * NSS headers
17 /* avoid including prototypes.h that redefines uint32 */
18 #define NO_NSPR_10_SUPPORT
20 #include <nss.h>
21 #include <pk11pub.h>
22 #include <cert.h>
23 #include <key.h>
24 #include <secmod.h>
25 #include <prthread.h>
26 #include <secerr.h>
28 #include "qemu-common.h"
30 #include "vcard.h"
31 #include "card_7816t.h"
32 #include "vcard_emul.h"
33 #include "vreader.h"
34 #include "vevent.h"
36 typedef enum {
37 VCardEmulUnknown = -1,
38 VCardEmulFalse = 0,
39 VCardEmulTrue = 1
40 } VCardEmulTriState;
42 struct VCardKeyStruct {
43 CERTCertificate *cert;
44 PK11SlotInfo *slot;
45 SECKEYPrivateKey *key;
46 VCardEmulTriState failedX509;
50 typedef struct VirtualReaderOptionsStruct VirtualReaderOptions;
52 struct VReaderEmulStruct {
53 PK11SlotInfo *slot;
54 VCardEmulType default_type;
55 char *type_params;
56 PRBool present;
57 int series;
58 VCard *saved_vcard;
62 * NSS Specific options
64 struct VirtualReaderOptionsStruct {
65 char *name;
66 char *vname;
67 VCardEmulType card_type;
68 char *type_params;
69 char **cert_name;
70 int cert_count;
73 struct VCardEmulOptionsStruct {
74 void *nss_db;
75 VirtualReaderOptions *vreader;
76 int vreader_count;
77 VCardEmulType hw_card_type;
78 const char *hw_type_params;
79 PRBool use_hw;
82 static int nss_emul_init;
84 /* if we have more that just the slot, define
85 * VCardEmulStruct here */
88 * allocate the set of arrays for certs, cert_len, key
90 static PRBool
91 vcard_emul_alloc_arrays(unsigned char ***certsp, int **cert_lenp,
92 VCardKey ***keysp, int cert_count)
94 *certsp = NULL;
95 *cert_lenp = NULL;
96 *keysp = NULL;
97 *certsp = (unsigned char **)g_malloc(sizeof(unsigned char *)*cert_count);
98 *cert_lenp = (int *)g_malloc(sizeof(int)*cert_count);
99 *keysp = (VCardKey **)g_malloc(sizeof(VCardKey *)*cert_count);
100 return PR_TRUE;
104 * Emulator specific card information
106 typedef struct CardEmulCardStruct CardEmulPrivate;
108 static VCardEmul *
109 vcard_emul_new_card(PK11SlotInfo *slot)
111 PK11_ReferenceSlot(slot);
112 /* currently we don't need anything other than the slot */
113 return (VCardEmul *)slot;
116 static void
117 vcard_emul_delete_card(VCardEmul *vcard_emul)
119 PK11SlotInfo *slot = (PK11SlotInfo *)vcard_emul;
120 if (slot == NULL) {
121 return;
123 PK11_FreeSlot(slot);
126 static PK11SlotInfo *
127 vcard_emul_card_get_slot(VCard *card)
129 /* note, the card is holding the reference, no need to get another one */
130 return (PK11SlotInfo *)vcard_get_private(card);
135 * key functions
137 /* private constructure */
138 static VCardKey *
139 vcard_emul_make_key(PK11SlotInfo *slot, CERTCertificate *cert)
141 VCardKey *key;
143 key = (VCardKey *)g_malloc(sizeof(VCardKey));
144 key->slot = PK11_ReferenceSlot(slot);
145 key->cert = CERT_DupCertificate(cert);
146 /* NOTE: if we aren't logged into the token, this could return NULL */
147 /* NOTE: the cert is a temp cert, not necessarily the cert in the token,
148 * use the DER version of this function */
149 key->key = PK11_FindKeyByDERCert(slot, cert, NULL);
150 key->failedX509 = VCardEmulUnknown;
151 return key;
154 /* destructor */
155 void
156 vcard_emul_delete_key(VCardKey *key)
158 if (!nss_emul_init || (key == NULL)) {
159 return;
161 if (key->key) {
162 SECKEY_DestroyPrivateKey(key->key);
163 key->key = NULL;
165 if (key->cert) {
166 CERT_DestroyCertificate(key->cert);
168 if (key->slot) {
169 PK11_FreeSlot(key->slot);
171 return;
175 * grab the nss key from a VCardKey. If it doesn't exist, try to look it up
177 static SECKEYPrivateKey *
178 vcard_emul_get_nss_key(VCardKey *key)
180 if (key->key) {
181 return key->key;
183 /* NOTE: if we aren't logged into the token, this could return NULL */
184 key->key = PK11_FindPrivateKeyFromCert(key->slot, key->cert, NULL);
185 return key->key;
189 * Map NSS errors to 7816 errors
191 static vcard_7816_status_t
192 vcard_emul_map_error(int error)
194 switch (error) {
195 case SEC_ERROR_TOKEN_NOT_LOGGED_IN:
196 return VCARD7816_STATUS_ERROR_CONDITION_NOT_SATISFIED;
197 case SEC_ERROR_BAD_DATA:
198 case SEC_ERROR_OUTPUT_LEN:
199 case SEC_ERROR_INPUT_LEN:
200 case SEC_ERROR_INVALID_ARGS:
201 case SEC_ERROR_INVALID_ALGORITHM:
202 case SEC_ERROR_NO_KEY:
203 case SEC_ERROR_INVALID_KEY:
204 case SEC_ERROR_DECRYPTION_DISALLOWED:
205 return VCARD7816_STATUS_ERROR_DATA_INVALID;
206 case SEC_ERROR_NO_MEMORY:
207 return VCARD7816_STATUS_EXC_ERROR_MEMORY_FAILURE;
209 return VCARD7816_STATUS_EXC_ERROR_CHANGE;
212 /* RSA sign/decrypt with the key, signature happens 'in place' */
213 vcard_7816_status_t
214 vcard_emul_rsa_op(VCard *card, VCardKey *key,
215 unsigned char *buffer, int buffer_size)
217 SECKEYPrivateKey *priv_key;
218 unsigned signature_len;
219 PK11SlotInfo *slot;
220 SECStatus rv;
221 unsigned char buf[2048];
222 unsigned char *bp = NULL;
223 int pad_len;
224 vcard_7816_status_t ret = VCARD7816_STATUS_SUCCESS;
226 if ((!nss_emul_init) || (key == NULL)) {
227 /* couldn't get the key, indicate that we aren't logged in */
228 return VCARD7816_STATUS_ERROR_CONDITION_NOT_SATISFIED;
230 priv_key = vcard_emul_get_nss_key(key);
231 if (priv_key == NULL) {
232 /* couldn't get the key, indicate that we aren't logged in */
233 return VCARD7816_STATUS_ERROR_CONDITION_NOT_SATISFIED;
235 slot = vcard_emul_card_get_slot(card);
238 * this is only true of the rsa signature
240 signature_len = PK11_SignatureLen(priv_key);
241 if (buffer_size != signature_len) {
242 return VCARD7816_STATUS_ERROR_DATA_INVALID;
244 /* be able to handle larger keys if necessariy */
245 bp = &buf[0];
246 if (sizeof(buf) < signature_len) {
247 bp = g_malloc(signature_len);
251 * do the raw operations. Some tokens claim to do CKM_RSA_X_509, but then
252 * choke when they try to do the actual operations. Try to detect
253 * those cases and treat them as if the token didn't claim support for
254 * X_509.
256 if (key->failedX509 != VCardEmulTrue
257 && PK11_DoesMechanism(slot, CKM_RSA_X_509)) {
258 rv = PK11_PrivDecryptRaw(priv_key, bp, &signature_len, signature_len,
259 buffer, buffer_size);
260 if (rv == SECSuccess) {
261 assert(buffer_size == signature_len);
262 memcpy(buffer, bp, signature_len);
263 key->failedX509 = VCardEmulFalse;
264 goto cleanup;
267 * we've had a successful X509 operation, this failure must be
268 * somethine else
270 if (key->failedX509 == VCardEmulFalse) {
271 ret = vcard_emul_map_error(PORT_GetError());
272 goto cleanup;
275 * key->failedX509 must be Unknown at this point, try the
276 * non-x_509 case
279 /* token does not support CKM_RSA_X509, emulate that with CKM_RSA_PKCS */
280 /* is this a PKCS #1 formatted signature? */
281 if ((buffer[0] == 0) && (buffer[1] == 1)) {
282 int i;
284 for (i = 2; i < buffer_size; i++) {
285 /* rsa signature pad */
286 if (buffer[i] != 0xff) {
287 break;
290 if ((i < buffer_size) && (buffer[i] == 0)) {
291 /* yes, we have a properly formated PKCS #1 signature */
293 * NOTE: even if we accidentally got an encrypt buffer, which
294 * through shear luck started with 00, 01, ff, 00, it won't matter
295 * because the resulting Sign operation will effectively decrypt
296 * the real buffer.
298 SECItem signature;
299 SECItem hash;
301 i++;
302 hash.data = &buffer[i];
303 hash.len = buffer_size - i;
304 signature.data = bp;
305 signature.len = signature_len;
306 rv = PK11_Sign(priv_key, &signature, &hash);
307 if (rv != SECSuccess) {
308 ret = vcard_emul_map_error(PORT_GetError());
309 goto cleanup;
311 assert(buffer_size == signature.len);
312 memcpy(buffer, bp, signature.len);
314 * we got here because either the X509 attempt failed, or the
315 * token couldn't do the X509 operation, in either case stay
316 * with the PKCS version for future operations on this key
318 key->failedX509 = VCardEmulTrue;
319 goto cleanup;
322 pad_len = buffer_size - signature_len;
323 assert(pad_len < 4);
325 * OK now we've decrypted the payload, package it up in PKCS #1 for the
326 * upper layer.
328 buffer[0] = 0;
329 buffer[1] = 2; /* RSA_encrypt */
330 pad_len -= 3; /* format is 0 || 2 || pad || 0 || data */
332 * padding for PKCS #1 encrypted data is a string of random bytes. The
333 * random butes protect against potential decryption attacks against RSA.
334 * Since PrivDecrypt has already stripped those bytes, we can't reconstruct
335 * them. This shouldn't matter to the upper level code which should just
336 * strip this code out anyway, so We'll pad with a constant 3.
338 memset(&buffer[2], 0x03, pad_len);
339 pad_len += 2; /* index to the end of the pad */
340 buffer[pad_len] = 0;
341 pad_len++; /* index to the start of the data */
342 memcpy(&buffer[pad_len], bp, signature_len);
344 * we got here because either the X509 attempt failed, or the
345 * token couldn't do the X509 operation, in either case stay
346 * with the PKCS version for future operations on this key
348 key->failedX509 = VCardEmulTrue;
349 cleanup:
350 if (bp != buf) {
351 g_free(bp);
353 return ret;
357 * Login functions
359 /* return the number of login attempts still possible on the card. if unknown,
360 * return -1 */
362 vcard_emul_get_login_count(VCard *card)
364 return -1;
367 /* login into the card, return the 7816 status word (sw2 || sw1) */
368 vcard_7816_status_t
369 vcard_emul_login(VCard *card, unsigned char *pin, int pin_len)
371 PK11SlotInfo *slot;
372 unsigned char *pin_string = NULL;
373 int i;
374 SECStatus rv;
376 if (!nss_emul_init) {
377 return VCARD7816_STATUS_ERROR_CONDITION_NOT_SATISFIED;
379 slot = vcard_emul_card_get_slot(card);
380 /* We depend on the PKCS #11 module internal login state here because we
381 * create a separate process to handle each guest instance. If we needed
382 * to handle multiple guests from one process, then we would need to keep
383 * a lot of extra state in our card structure
384 * */
385 pin_string = g_malloc(pin_len+1);
386 memcpy(pin_string, pin, pin_len);
387 pin_string[pin_len] = 0;
389 /* handle CAC expanded pins correctly */
390 for (i = pin_len-1; i >= 0 && (pin_string[i] == 0xff); i--) {
391 pin_string[i] = 0;
394 rv = PK11_Authenticate(slot, PR_FALSE, pin_string);
395 memset(pin_string, 0, pin_len); /* don't let the pin hang around in memory
396 to be snooped */
397 g_free(pin_string);
398 if (rv == SECSuccess) {
399 return VCARD7816_STATUS_SUCCESS;
401 /* map the error from port get error */
402 return VCARD7816_STATUS_ERROR_CONDITION_NOT_SATISFIED;
405 void
406 vcard_emul_reset(VCard *card, VCardPower power)
408 PK11SlotInfo *slot;
410 if (!nss_emul_init) {
411 return;
415 * if we reset the card (either power on or power off), we lose our login
416 * state
418 /* TODO: we may also need to send insertion/removal events? */
419 slot = vcard_emul_card_get_slot(card);
420 PK11_Logout(slot); /* NOTE: ignoring SECStatus return value */
421 return;
425 static VReader *
426 vcard_emul_find_vreader_from_slot(PK11SlotInfo *slot)
428 VReaderList *reader_list = vreader_get_reader_list();
429 VReaderListEntry *current_entry = NULL;
431 if (reader_list == NULL) {
432 return NULL;
434 for (current_entry = vreader_list_get_first(reader_list); current_entry;
435 current_entry = vreader_list_get_next(current_entry)) {
436 VReader *reader = vreader_list_get_reader(current_entry);
437 VReaderEmul *reader_emul = vreader_get_private(reader);
438 if (reader_emul->slot == slot) {
439 return reader;
441 vreader_free(reader);
444 return NULL;
448 * create a new reader emul
450 static VReaderEmul *
451 vreader_emul_new(PK11SlotInfo *slot, VCardEmulType type, const char *params)
453 VReaderEmul *new_reader_emul;
455 new_reader_emul = (VReaderEmul *)g_malloc(sizeof(VReaderEmul));
457 new_reader_emul->slot = PK11_ReferenceSlot(slot);
458 new_reader_emul->default_type = type;
459 new_reader_emul->type_params = strdup(params);
460 new_reader_emul->present = PR_FALSE;
461 new_reader_emul->series = 0;
462 new_reader_emul->saved_vcard = NULL;
463 return new_reader_emul;
466 static void
467 vreader_emul_delete(VReaderEmul *vreader_emul)
469 if (vreader_emul == NULL) {
470 return;
472 if (vreader_emul->slot) {
473 PK11_FreeSlot(vreader_emul->slot);
475 if (vreader_emul->type_params) {
476 g_free(vreader_emul->type_params);
478 g_free(vreader_emul);
482 * TODO: move this to emulater non-specific file
484 static VCardEmulType
485 vcard_emul_get_type(VReader *vreader)
487 VReaderEmul *vreader_emul;
489 vreader_emul = vreader_get_private(vreader);
490 if (vreader_emul && vreader_emul->default_type != VCARD_EMUL_NONE) {
491 return vreader_emul->default_type;
494 return vcard_emul_type_select(vreader);
497 * TODO: move this to emulater non-specific file
499 static const char *
500 vcard_emul_get_type_params(VReader *vreader)
502 VReaderEmul *vreader_emul;
504 vreader_emul = vreader_get_private(vreader);
505 if (vreader_emul && vreader_emul->type_params) {
506 return vreader_emul->type_params;
509 return "";
512 /* pull the slot out of the reader private data */
513 static PK11SlotInfo *
514 vcard_emul_reader_get_slot(VReader *vreader)
516 VReaderEmul *vreader_emul = vreader_get_private(vreader);
517 if (vreader_emul == NULL) {
518 return NULL;
520 return vreader_emul->slot;
524 * Card ATR's map to physical cards. VCARD_ATR_PREFIX will set appropriate
525 * historical bytes for any software emulated card. The remaining bytes can be
526 * used to indicate the actual emulator
528 static const unsigned char nss_atr[] = { VCARD_ATR_PREFIX(3), 'N', 'S', 'S' };
530 void
531 vcard_emul_get_atr(VCard *card, unsigned char *atr, int *atr_len)
533 int len = MIN(sizeof(nss_atr), *atr_len);
534 assert(atr != NULL);
536 memcpy(atr, nss_atr, len);
537 *atr_len = len;
538 return;
542 * create a new card from certs and keys
544 static VCard *
545 vcard_emul_make_card(VReader *reader,
546 unsigned char * const *certs, int *cert_len,
547 VCardKey *keys[], int cert_count)
549 VCardEmul *vcard_emul;
550 VCard *vcard;
551 PK11SlotInfo *slot;
552 VCardEmulType type;
553 const char *params;
555 type = vcard_emul_get_type(reader);
557 /* ignore the inserted card */
558 if (type == VCARD_EMUL_NONE) {
559 return NULL;
561 slot = vcard_emul_reader_get_slot(reader);
562 if (slot == NULL) {
563 return NULL;
566 params = vcard_emul_get_type_params(reader);
567 /* params these can be NULL */
569 vcard_emul = vcard_emul_new_card(slot);
570 if (vcard_emul == NULL) {
571 return NULL;
573 vcard = vcard_new(vcard_emul, vcard_emul_delete_card);
574 if (vcard == NULL) {
575 vcard_emul_delete_card(vcard_emul);
576 return NULL;
578 vcard_init(reader, vcard, type, params, certs, cert_len, keys, cert_count);
579 return vcard;
584 * 'clone' a physical card as a virtual card
586 static VCard *
587 vcard_emul_mirror_card(VReader *vreader)
590 * lookup certs using the C_FindObjects. The Stan Cert handle won't give
591 * us the real certs until we log in.
593 PK11GenericObject *firstObj, *thisObj;
594 int cert_count;
595 unsigned char **certs;
596 int *cert_len;
597 VCardKey **keys;
598 PK11SlotInfo *slot;
599 PRBool ret;
600 VCard *card;
602 slot = vcard_emul_reader_get_slot(vreader);
603 if (slot == NULL) {
604 return NULL;
607 firstObj = PK11_FindGenericObjects(slot, CKO_CERTIFICATE);
608 if (firstObj == NULL) {
609 return NULL;
612 /* count the certs */
613 cert_count = 0;
614 for (thisObj = firstObj; thisObj;
615 thisObj = PK11_GetNextGenericObject(thisObj)) {
616 cert_count++;
619 if (cert_count == 0) {
620 PK11_DestroyGenericObjects(firstObj);
621 return NULL;
624 /* allocate the arrays */
625 ret = vcard_emul_alloc_arrays(&certs, &cert_len, &keys, cert_count);
626 if (ret == PR_FALSE) {
627 return NULL;
630 /* fill in the arrays */
631 cert_count = 0;
632 for (thisObj = firstObj; thisObj;
633 thisObj = PK11_GetNextGenericObject(thisObj)) {
634 SECItem derCert;
635 CERTCertificate *cert;
636 SECStatus rv;
638 rv = PK11_ReadRawAttribute(PK11_TypeGeneric, thisObj,
639 CKA_VALUE, &derCert);
640 if (rv != SECSuccess) {
641 continue;
643 /* create floating temp cert. This gives us a cert structure even if
644 * the token isn't logged in */
645 cert = CERT_NewTempCertificate(CERT_GetDefaultCertDB(), &derCert,
646 NULL, PR_FALSE, PR_TRUE);
647 SECITEM_FreeItem(&derCert, PR_FALSE);
648 if (cert == NULL) {
649 continue;
652 certs[cert_count] = cert->derCert.data;
653 cert_len[cert_count] = cert->derCert.len;
654 keys[cert_count] = vcard_emul_make_key(slot, cert);
655 cert_count++;
656 CERT_DestroyCertificate(cert); /* key obj still has a reference */
659 /* now create the card */
660 card = vcard_emul_make_card(vreader, certs, cert_len, keys, cert_count);
661 g_free(certs);
662 g_free(cert_len);
663 g_free(keys);
665 return card;
668 static VCardEmulType default_card_type = VCARD_EMUL_NONE;
669 static const char *default_type_params = "";
672 * This thread looks for card and reader insertions and puts events on the
673 * event queue
675 static void
676 vcard_emul_event_thread(void *arg)
678 PK11SlotInfo *slot;
679 VReader *vreader;
680 VReaderEmul *vreader_emul;
681 VCard *vcard;
682 SECMODModule *module = (SECMODModule *)arg;
684 do {
685 slot = SECMOD_WaitForAnyTokenEvent(module, 0, 500);
686 if (slot == NULL) {
687 break;
689 vreader = vcard_emul_find_vreader_from_slot(slot);
690 if (vreader == NULL) {
691 /* new vreader */
692 vreader_emul = vreader_emul_new(slot, default_card_type,
693 default_type_params);
694 vreader = vreader_new(PK11_GetSlotName(slot), vreader_emul,
695 vreader_emul_delete);
696 PK11_FreeSlot(slot);
697 slot = NULL;
698 vreader_add_reader(vreader);
699 vreader_free(vreader);
700 continue;
702 /* card remove/insert */
703 vreader_emul = vreader_get_private(vreader);
704 if (PK11_IsPresent(slot)) {
705 int series = PK11_GetSlotSeries(slot);
706 if (series != vreader_emul->series) {
707 if (vreader_emul->present) {
708 vreader_insert_card(vreader, NULL);
710 vcard = vcard_emul_mirror_card(vreader);
711 vreader_insert_card(vreader, vcard);
712 vcard_free(vcard);
714 vreader_emul->series = series;
715 vreader_emul->present = 1;
716 vreader_free(vreader);
717 PK11_FreeSlot(slot);
718 continue;
720 if (vreader_emul->present) {
721 vreader_insert_card(vreader, NULL);
723 vreader_emul->series = 0;
724 vreader_emul->present = 0;
725 PK11_FreeSlot(slot);
726 vreader_free(vreader);
727 } while (1);
730 /* if the card is inserted when we start up, make sure our state is correct */
731 static void
732 vcard_emul_init_series(VReader *vreader, VCard *vcard)
734 VReaderEmul *vreader_emul = vreader_get_private(vreader);
735 PK11SlotInfo *slot = vreader_emul->slot;
737 vreader_emul->present = PK11_IsPresent(slot);
738 vreader_emul->series = PK11_GetSlotSeries(slot);
739 if (vreader_emul->present == 0) {
740 vreader_insert_card(vreader, NULL);
745 * each module has a separate wait call, create a thread for each module that
746 * we are using.
748 static void
749 vcard_emul_new_event_thread(SECMODModule *module)
751 PR_CreateThread(PR_SYSTEM_THREAD, vcard_emul_event_thread,
752 module, PR_PRIORITY_HIGH, PR_GLOBAL_THREAD,
753 PR_UNJOINABLE_THREAD, 0);
756 static const VCardEmulOptions default_options = {
757 .nss_db = NULL,
758 .vreader = NULL,
759 .vreader_count = 0,
760 .hw_card_type = VCARD_EMUL_CAC,
761 .hw_type_params = "",
762 .use_hw = PR_TRUE
767 * NSS needs the app to supply a password prompt. In our case the only time
768 * the password is supplied is as part of the Login APDU. The actual password
769 * is passed in the pw_arg in that case. In all other cases pw_arg should be
770 * NULL.
772 static char *
773 vcard_emul_get_password(PK11SlotInfo *slot, PRBool retries, void *pw_arg)
775 /* if it didn't work the first time, don't keep trying */
776 if (retries) {
777 return NULL;
779 /* we are looking up a password when we don't have one in hand */
780 if (pw_arg == NULL) {
781 return NULL;
783 /* TODO: we really should verify that were are using the right slot */
784 return PORT_Strdup(pw_arg);
787 /* Force a card removal even if the card is not physically removed */
788 VCardEmulError
789 vcard_emul_force_card_remove(VReader *vreader)
791 if (!nss_emul_init || (vreader_card_is_present(vreader) != VREADER_OK)) {
792 return VCARD_EMUL_FAIL; /* card is already removed */
795 /* OK, remove it */
796 vreader_insert_card(vreader, NULL);
797 return VCARD_EMUL_OK;
800 /* Re-insert of a card that has been removed by force removal */
801 VCardEmulError
802 vcard_emul_force_card_insert(VReader *vreader)
804 VReaderEmul *vreader_emul;
805 VCard *vcard;
807 if (!nss_emul_init || (vreader_card_is_present(vreader) == VREADER_OK)) {
808 return VCARD_EMUL_FAIL; /* card is already removed */
810 vreader_emul = vreader_get_private(vreader);
812 /* if it's a softcard, get the saved vcard from the reader emul structure */
813 if (vreader_emul->saved_vcard) {
814 vcard = vcard_reference(vreader_emul->saved_vcard);
815 } else {
816 /* it must be a physical card, rebuild it */
817 if (!PK11_IsPresent(vreader_emul->slot)) {
818 /* physical card has been removed, not way to reinsert it */
819 return VCARD_EMUL_FAIL;
821 vcard = vcard_emul_mirror_card(vreader);
823 vreader_insert_card(vreader, vcard);
824 vcard_free(vcard);
826 return VCARD_EMUL_OK;
830 static PRBool
831 module_has_removable_hw_slots(SECMODModule *mod)
833 int i;
834 PRBool ret = PR_FALSE;
835 SECMODListLock *moduleLock = SECMOD_GetDefaultModuleListLock();
837 if (!moduleLock) {
838 PORT_SetError(SEC_ERROR_NOT_INITIALIZED);
839 return ret;
841 SECMOD_GetReadLock(moduleLock);
842 for (i = 0; i < mod->slotCount; i++) {
843 PK11SlotInfo *slot = mod->slots[i];
844 if (PK11_IsRemovable(slot) && PK11_IsHW(slot)) {
845 ret = PR_TRUE;
846 break;
849 SECMOD_ReleaseReadLock(moduleLock);
850 return ret;
853 /* Previously we returned FAIL if no readers found. This makes
854 * no sense when using hardware, since there may be no readers connected
855 * at the time vcard_emul_init is called, but they will be properly
856 * recognized later. So Instead return FAIL only if no_hw==1 and no
857 * vcards can be created (indicates error with certificates provided
858 * or db), or if any other higher level error (NSS error, missing coolkey). */
859 static int vcard_emul_init_called;
861 VCardEmulError
862 vcard_emul_init(const VCardEmulOptions *options)
864 SECStatus rv;
865 PRBool ret, has_readers = PR_FALSE, need_coolkey_module;
866 VReader *vreader;
867 VReaderEmul *vreader_emul;
868 SECMODListLock *module_lock;
869 SECMODModuleList *module_list;
870 SECMODModuleList *mlp;
871 int i;
873 if (vcard_emul_init_called) {
874 return VCARD_EMUL_INIT_ALREADY_INITED;
876 vcard_emul_init_called = 1;
877 vreader_init();
878 vevent_queue_init();
880 if (options == NULL) {
881 options = &default_options;
884 /* first initialize NSS */
885 if (options->nss_db) {
886 rv = NSS_Init(options->nss_db);
887 } else {
888 rv = NSS_Init("sql:/etc/pki/nssdb");
890 if (rv != SECSuccess) {
891 return VCARD_EMUL_FAIL;
893 /* Set password callback function */
894 PK11_SetPasswordFunc(vcard_emul_get_password);
896 /* set up soft cards emulated by software certs rather than physical cards
897 * */
898 for (i = 0; i < options->vreader_count; i++) {
899 int j;
900 int cert_count;
901 unsigned char **certs;
902 int *cert_len;
903 VCardKey **keys;
904 PK11SlotInfo *slot;
906 slot = PK11_FindSlotByName(options->vreader[i].name);
907 if (slot == NULL) {
908 continue;
910 vreader_emul = vreader_emul_new(slot, options->vreader[i].card_type,
911 options->vreader[i].type_params);
912 vreader = vreader_new(options->vreader[i].vname, vreader_emul,
913 vreader_emul_delete);
914 vreader_add_reader(vreader);
915 cert_count = options->vreader[i].cert_count;
917 ret = vcard_emul_alloc_arrays(&certs, &cert_len, &keys,
918 options->vreader[i].cert_count);
919 if (ret == PR_FALSE) {
920 continue;
922 cert_count = 0;
923 for (j = 0; j < options->vreader[i].cert_count; j++) {
924 /* we should have a better way of identifying certs than by
925 * nickname here */
926 CERTCertificate *cert = PK11_FindCertFromNickname(
927 options->vreader[i].cert_name[j],
928 NULL);
929 if (cert == NULL) {
930 continue;
932 certs[cert_count] = cert->derCert.data;
933 cert_len[cert_count] = cert->derCert.len;
934 keys[cert_count] = vcard_emul_make_key(slot, cert);
935 /* this is safe because the key is still holding a cert reference */
936 CERT_DestroyCertificate(cert);
937 cert_count++;
939 if (cert_count) {
940 VCard *vcard = vcard_emul_make_card(vreader, certs, cert_len,
941 keys, cert_count);
942 vreader_insert_card(vreader, vcard);
943 vcard_emul_init_series(vreader, vcard);
944 /* allow insertion and removal of soft cards */
945 vreader_emul->saved_vcard = vcard_reference(vcard);
946 vcard_free(vcard);
947 vreader_free(vreader);
948 has_readers = PR_TRUE;
950 g_free(certs);
951 g_free(cert_len);
952 g_free(keys);
955 /* if we aren't suppose to use hw, skip looking up hardware tokens */
956 if (!options->use_hw) {
957 nss_emul_init = has_readers;
958 return has_readers ? VCARD_EMUL_OK : VCARD_EMUL_FAIL;
961 /* make sure we have some PKCS #11 module loaded */
962 module_lock = SECMOD_GetDefaultModuleListLock();
963 module_list = SECMOD_GetDefaultModuleList();
964 need_coolkey_module = !has_readers;
965 SECMOD_GetReadLock(module_lock);
966 for (mlp = module_list; mlp; mlp = mlp->next) {
967 SECMODModule *module = mlp->module;
968 if (module_has_removable_hw_slots(module)) {
969 need_coolkey_module = PR_FALSE;
970 break;
973 SECMOD_ReleaseReadLock(module_lock);
975 if (need_coolkey_module) {
976 SECMODModule *module;
977 module = SECMOD_LoadUserModule(
978 (char *)"library=libcoolkeypk11.so name=Coolkey",
979 NULL, PR_FALSE);
980 if (module == NULL) {
981 return VCARD_EMUL_FAIL;
983 SECMOD_DestroyModule(module); /* free our reference, Module will still
984 * be on the list.
985 * until we destroy it */
988 /* now examine all the slots, finding which should be readers */
989 /* We should control this with options. For now we mirror out any
990 * removable hardware slot */
991 default_card_type = options->hw_card_type;
992 default_type_params = strdup(options->hw_type_params);
994 SECMOD_GetReadLock(module_lock);
995 for (mlp = module_list; mlp; mlp = mlp->next) {
996 SECMODModule *module = mlp->module;
997 PRBool has_emul_slots = PR_FALSE;
999 if (module == NULL) {
1000 continue;
1003 for (i = 0; i < module->slotCount; i++) {
1004 PK11SlotInfo *slot = module->slots[i];
1006 /* only map removable HW slots */
1007 if (slot == NULL || !PK11_IsRemovable(slot) || !PK11_IsHW(slot)) {
1008 continue;
1010 vreader_emul = vreader_emul_new(slot, options->hw_card_type,
1011 options->hw_type_params);
1012 vreader = vreader_new(PK11_GetSlotName(slot), vreader_emul,
1013 vreader_emul_delete);
1014 vreader_add_reader(vreader);
1016 has_readers = PR_TRUE;
1017 has_emul_slots = PR_TRUE;
1019 if (PK11_IsPresent(slot)) {
1020 VCard *vcard;
1021 vcard = vcard_emul_mirror_card(vreader);
1022 vreader_insert_card(vreader, vcard);
1023 vcard_emul_init_series(vreader, vcard);
1024 vcard_free(vcard);
1027 if (has_emul_slots) {
1028 vcard_emul_new_event_thread(module);
1031 SECMOD_ReleaseReadLock(module_lock);
1032 nss_emul_init = has_readers;
1034 return VCARD_EMUL_OK;
1037 /* Recreate card insert events for all readers (user should
1038 * deduce implied reader insert. perhaps do a reader insert as well?)
1040 void
1041 vcard_emul_replay_insertion_events(void)
1043 VReaderListEntry *current_entry;
1044 VReaderListEntry *next_entry = NULL;
1045 VReaderList *list = vreader_get_reader_list();
1047 for (current_entry = vreader_list_get_first(list); current_entry;
1048 current_entry = next_entry) {
1049 VReader *vreader = vreader_list_get_reader(current_entry);
1050 next_entry = vreader_list_get_next(current_entry);
1051 vreader_queue_card_event(vreader);
1056 * Silly little functions to help parsing our argument string
1058 static int
1059 count_tokens(const char *str, char token, char token_end)
1061 int count = 0;
1063 for (; *str; str++) {
1064 if (*str == token) {
1065 count++;
1067 if (*str == token_end) {
1068 break;
1071 return count;
1074 static const char *
1075 strip(const char *str)
1077 for (; *str && isspace(*str); str++) {
1079 return str;
1082 static const char *
1083 find_blank(const char *str)
1085 for (; *str && !isspace(*str); str++) {
1087 return str;
1092 * We really want to use some existing argument parsing library here. That
1093 * would give us a consistent look */
1094 static VCardEmulOptions options;
1095 #define READER_STEP 4
1097 /* Expects "args" to be at the beginning of a token (ie right after the ','
1098 * ending the previous token), and puts the next token start in "token",
1099 * and its length in "token_length". "token" will not be nul-terminated.
1100 * After calling the macro, "args" will be advanced to the beginning of
1101 * the next token.
1102 * This macro may call continue or break.
1104 #define NEXT_TOKEN(token) \
1105 (token) = args; \
1106 args = strpbrk(args, ",)"); \
1107 if (*args == 0) { \
1108 break; \
1110 if (*args == ')') { \
1111 args++; \
1112 continue; \
1114 (token##_length) = args - (token); \
1115 args = strip(args+1);
1117 VCardEmulOptions *
1118 vcard_emul_options(const char *args)
1120 int reader_count = 0;
1121 VCardEmulOptions *opts;
1123 /* Allow the future use of allocating the options structure on the fly */
1124 memcpy(&options, &default_options, sizeof(options));
1125 opts = &options;
1127 do {
1128 args = strip(args); /* strip off the leading spaces */
1129 if (*args == ',') {
1130 continue;
1132 /* soft=(slot_name,virt_name,emul_type,emul_flags,cert_1, (no eol)
1133 * cert_2,cert_3...) */
1134 if (strncmp(args, "soft=", 5) == 0) {
1135 const char *name;
1136 size_t name_length;
1137 const char *vname;
1138 size_t vname_length;
1139 const char *type_params;
1140 size_t type_params_length;
1141 char type_str[100];
1142 VCardEmulType type;
1143 int count, i;
1144 VirtualReaderOptions *vreaderOpt = NULL;
1146 args = strip(args + 5);
1147 if (*args != '(') {
1148 continue;
1150 args = strip(args+1);
1152 NEXT_TOKEN(name)
1153 NEXT_TOKEN(vname)
1154 NEXT_TOKEN(type_params)
1155 type_params_length = MIN(type_params_length, sizeof(type_str)-1);
1156 strncpy(type_str, type_params, type_params_length);
1157 type_str[type_params_length] = 0;
1158 type = vcard_emul_type_from_string(type_str);
1160 NEXT_TOKEN(type_params)
1162 if (*args == 0) {
1163 break;
1166 if (opts->vreader_count >= reader_count) {
1167 reader_count += READER_STEP;
1168 vreaderOpt = realloc(opts->vreader,
1169 reader_count * sizeof(*vreaderOpt));
1170 if (vreaderOpt == NULL) {
1171 return opts; /* we're done */
1174 opts->vreader = vreaderOpt;
1175 vreaderOpt = &vreaderOpt[opts->vreader_count];
1176 vreaderOpt->name = g_strndup(name, name_length);
1177 vreaderOpt->vname = g_strndup(vname, vname_length);
1178 vreaderOpt->card_type = type;
1179 vreaderOpt->type_params =
1180 g_strndup(type_params, type_params_length);
1181 count = count_tokens(args, ',', ')') + 1;
1182 vreaderOpt->cert_count = count;
1183 vreaderOpt->cert_name = (char **)g_malloc(count*sizeof(char *));
1184 for (i = 0; i < count; i++) {
1185 const char *cert = args;
1186 args = strpbrk(args, ",)");
1187 vreaderOpt->cert_name[i] = g_strndup(cert, args - cert);
1188 args = strip(args+1);
1190 if (*args == ')') {
1191 args++;
1193 opts->vreader_count++;
1194 /* use_hw= */
1195 } else if (strncmp(args, "use_hw=", 7) == 0) {
1196 args = strip(args+7);
1197 if (*args == '0' || *args == 'N' || *args == 'n' || *args == 'F') {
1198 opts->use_hw = PR_FALSE;
1199 } else {
1200 opts->use_hw = PR_TRUE;
1202 args = find_blank(args);
1203 /* hw_type= */
1204 } else if (strncmp(args, "hw_type=", 8) == 0) {
1205 args = strip(args+8);
1206 opts->hw_card_type = vcard_emul_type_from_string(args);
1207 args = find_blank(args);
1208 /* hw_params= */
1209 } else if (strncmp(args, "hw_params=", 10) == 0) {
1210 const char *params;
1211 args = strip(args+10);
1212 params = args;
1213 args = find_blank(args);
1214 opts->hw_type_params = g_strndup(params, args-params);
1215 /* db="/data/base/path" */
1216 } else if (strncmp(args, "db=", 3) == 0) {
1217 const char *db;
1218 args = strip(args+3);
1219 if (*args != '"') {
1220 continue;
1222 args++;
1223 db = args;
1224 args = strpbrk(args, "\"\n");
1225 opts->nss_db = g_strndup(db, args-db);
1226 if (*args != 0) {
1227 args++;
1229 } else {
1230 args = find_blank(args);
1232 } while (*args != 0);
1234 return opts;
1237 void
1238 vcard_emul_usage(void)
1240 fprintf(stderr,
1241 "emul args: comma separated list of the following arguments\n"
1242 " db={nss_database} (default sql:/etc/pki/nssdb)\n"
1243 " use_hw=[yes|no] (default yes)\n"
1244 " hw_type={card_type_to_emulate} (default CAC)\n"
1245 " hw_param={param_for_card} (default \"\")\n"
1246 " soft=({slot_name},{vreader_name},{card_type_to_emulate},{params_for_card},\n"
1247 " {cert1},{cert2},{cert3} (default none)\n"
1248 "\n"
1249 " {nss_database} The location of the NSS cert & key database\n"
1250 " {card_type_to_emulate} What card interface to present to the guest\n"
1251 " {param_for_card} Card interface specific parameters\n"
1252 " {slot_name} NSS slot that contains the certs\n"
1253 " {vreader_name} Virutal reader name to present to the guest\n"
1254 " {certN} Nickname of the certificate n on the virtual card\n"
1255 "\n"
1256 "These parameters come as a single string separated by blanks or newlines."
1257 "\n"
1258 "Unless use_hw is set to no, all tokens that look like removable hardware\n"
1259 "tokens will be presented to the guest using the emulator specified by\n"
1260 "hw_type, and parameters of hw_param.\n"
1261 "\n"
1262 "If more one or more soft= parameters are specified, these readers will be\n"
1263 "presented to the guest\n");