qdev: Protect device-list-properties against broken devices
[qemu.git] / libcacard / vreader.c
blob9725f46a743e8f70bd15d6fcc0f9896a795b68f2
1 /*
2 * emulate the reader
4 * This work is licensed under the terms of the GNU LGPL, version 2.1 or later.
5 * See the COPYING.LIB file in the top-level directory.
6 */
8 #ifdef G_LOG_DOMAIN
9 #undef G_LOG_DOMAIN
10 #endif
11 #define G_LOG_DOMAIN "libcacard"
13 #include "glib-compat.h"
15 #include <string.h>
17 #include "vcard.h"
18 #include "vcard_emul.h"
19 #include "card_7816.h"
20 #include "vreader.h"
21 #include "vevent.h"
22 #include "cac.h" /* just for debugging defines */
24 #define LIBCACARD_LOG_DOMAIN "libcacard"
26 struct VReaderStruct {
27 int reference_count;
28 VCard *card;
29 char *name;
30 vreader_id_t id;
31 CompatGMutex lock;
32 VReaderEmul *reader_private;
33 VReaderEmulFree reader_private_free;
37 * Debug helpers
40 static const char *
41 apdu_ins_to_string(int ins)
43 switch (ins) {
44 case VCARD7816_INS_MANAGE_CHANNEL:
45 return "manage channel";
46 case VCARD7816_INS_EXTERNAL_AUTHENTICATE:
47 return "external authenticate";
48 case VCARD7816_INS_GET_CHALLENGE:
49 return "get challenge";
50 case VCARD7816_INS_INTERNAL_AUTHENTICATE:
51 return "internal authenticate";
52 case VCARD7816_INS_ERASE_BINARY:
53 return "erase binary";
54 case VCARD7816_INS_READ_BINARY:
55 return "read binary";
56 case VCARD7816_INS_WRITE_BINARY:
57 return "write binary";
58 case VCARD7816_INS_UPDATE_BINARY:
59 return "update binary";
60 case VCARD7816_INS_READ_RECORD:
61 return "read record";
62 case VCARD7816_INS_WRITE_RECORD:
63 return "write record";
64 case VCARD7816_INS_UPDATE_RECORD:
65 return "update record";
66 case VCARD7816_INS_APPEND_RECORD:
67 return "append record";
68 case VCARD7816_INS_ENVELOPE:
69 return "envelope";
70 case VCARD7816_INS_PUT_DATA:
71 return "put data";
72 case VCARD7816_INS_GET_DATA:
73 return "get data";
74 case VCARD7816_INS_SELECT_FILE:
75 return "select file";
76 case VCARD7816_INS_VERIFY:
77 return "verify";
78 case VCARD7816_INS_GET_RESPONSE:
79 return "get response";
80 case CAC_GET_PROPERTIES:
81 return "get properties";
82 case CAC_GET_ACR:
83 return "get acr";
84 case CAC_READ_BUFFER:
85 return "read buffer";
86 case CAC_UPDATE_BUFFER:
87 return "update buffer";
88 case CAC_SIGN_DECRYPT:
89 return "sign decrypt";
90 case CAC_GET_CERTIFICATE:
91 return "get certificate";
93 return "unknown";
96 /* manage locking */
97 static inline void
98 vreader_lock(VReader *reader)
100 g_mutex_lock(&reader->lock);
103 static inline void
104 vreader_unlock(VReader *reader)
106 g_mutex_unlock(&reader->lock);
110 * vreader constructor
112 VReader *
113 vreader_new(const char *name, VReaderEmul *private,
114 VReaderEmulFree private_free)
116 VReader *reader;
118 reader = g_new(VReader, 1);
119 g_mutex_init(&reader->lock);
120 reader->reference_count = 1;
121 reader->name = g_strdup(name);
122 reader->card = NULL;
123 reader->id = (vreader_id_t)-1;
124 reader->reader_private = private;
125 reader->reader_private_free = private_free;
126 return reader;
129 /* get a reference */
130 VReader*
131 vreader_reference(VReader *reader)
133 if (reader == NULL) {
134 return NULL;
136 vreader_lock(reader);
137 reader->reference_count++;
138 vreader_unlock(reader);
139 return reader;
142 /* free a reference */
143 void
144 vreader_free(VReader *reader)
146 if (reader == NULL) {
147 return;
149 vreader_lock(reader);
150 if (reader->reference_count-- > 1) {
151 vreader_unlock(reader);
152 return;
154 vreader_unlock(reader);
155 g_mutex_clear(&reader->lock);
156 if (reader->card) {
157 vcard_free(reader->card);
159 g_free(reader->name);
160 if (reader->reader_private_free) {
161 reader->reader_private_free(reader->reader_private);
163 g_free(reader);
166 static VCard *
167 vreader_get_card(VReader *reader)
169 VCard *card;
171 vreader_lock(reader);
172 card = vcard_reference(reader->card);
173 vreader_unlock(reader);
174 return card;
177 VReaderStatus
178 vreader_card_is_present(VReader *reader)
180 VCard *card = vreader_get_card(reader);
182 if (card == NULL) {
183 return VREADER_NO_CARD;
185 vcard_free(card);
186 return VREADER_OK;
189 vreader_id_t
190 vreader_get_id(VReader *reader)
192 if (reader == NULL) {
193 return (vreader_id_t)-1;
195 return reader->id;
198 VReaderStatus
199 vreader_set_id(VReader *reader, vreader_id_t id)
201 if (reader == NULL) {
202 return VREADER_NO_CARD;
204 reader->id = id;
205 return VREADER_OK;
208 const char *
209 vreader_get_name(VReader *reader)
211 if (reader == NULL) {
212 return NULL;
214 return reader->name;
217 VReaderEmul *
218 vreader_get_private(VReader *reader)
220 return reader->reader_private;
223 static VReaderStatus
224 vreader_reset(VReader *reader, VCardPower power, unsigned char *atr, int *len)
226 VCard *card = vreader_get_card(reader);
228 if (card == NULL) {
229 return VREADER_NO_CARD;
232 * clean up our state
234 vcard_reset(card, power);
235 if (atr) {
236 vcard_get_atr(card, atr, len);
238 vcard_free(card); /* free our reference */
239 return VREADER_OK;
242 VReaderStatus
243 vreader_power_on(VReader *reader, unsigned char *atr, int *len)
245 return vreader_reset(reader, VCARD_POWER_ON, atr, len);
248 VReaderStatus
249 vreader_power_off(VReader *reader)
251 return vreader_reset(reader, VCARD_POWER_OFF, NULL, 0);
255 VReaderStatus
256 vreader_xfr_bytes(VReader *reader,
257 unsigned char *send_buf, int send_buf_len,
258 unsigned char *receive_buf, int *receive_buf_len)
260 VCardAPDU *apdu;
261 VCardResponse *response = NULL;
262 VCardStatus card_status;
263 unsigned short status;
264 VCard *card = vreader_get_card(reader);
266 if (card == NULL) {
267 return VREADER_NO_CARD;
270 apdu = vcard_apdu_new(send_buf, send_buf_len, &status);
271 if (apdu == NULL) {
272 response = vcard_make_response(status);
273 card_status = VCARD_DONE;
274 } else {
275 g_debug("%s: CLS=0x%x,INS=0x%x,P1=0x%x,P2=0x%x,Lc=%d,Le=%d %s",
276 __func__, apdu->a_cla, apdu->a_ins, apdu->a_p1, apdu->a_p2,
277 apdu->a_Lc, apdu->a_Le, apdu_ins_to_string(apdu->a_ins));
278 card_status = vcard_process_apdu(card, apdu, &response);
279 if (response) {
280 g_debug("%s: status=%d sw1=0x%x sw2=0x%x len=%d (total=%d)",
281 __func__, response->b_status, response->b_sw1,
282 response->b_sw2, response->b_len, response->b_total_len);
285 assert(card_status == VCARD_DONE && response);
286 int size = MIN(*receive_buf_len, response->b_total_len);
287 memcpy(receive_buf, response->b_data, size);
288 *receive_buf_len = size;
289 vcard_response_delete(response);
290 vcard_apdu_delete(apdu);
291 vcard_free(card); /* free our reference */
292 return VREADER_OK;
295 struct VReaderListStruct {
296 VReaderListEntry *head;
297 VReaderListEntry *tail;
300 struct VReaderListEntryStruct {
301 VReaderListEntry *next;
302 VReaderListEntry *prev;
303 VReader *reader;
307 static VReaderListEntry *
308 vreader_list_entry_new(VReader *reader)
310 VReaderListEntry *new_reader_list_entry;
312 new_reader_list_entry = g_new0(VReaderListEntry, 1);
313 new_reader_list_entry->reader = vreader_reference(reader);
314 return new_reader_list_entry;
317 static void
318 vreader_list_entry_delete(VReaderListEntry *entry)
320 if (entry == NULL) {
321 return;
323 vreader_free(entry->reader);
324 g_free(entry);
328 static VReaderList *
329 vreader_list_new(void)
331 VReaderList *new_reader_list;
333 new_reader_list = g_new0(VReaderList, 1);
334 return new_reader_list;
337 void
338 vreader_list_delete(VReaderList *list)
340 VReaderListEntry *current_entry;
341 VReaderListEntry *next_entry;
342 for (current_entry = vreader_list_get_first(list); current_entry;
343 current_entry = next_entry) {
344 next_entry = vreader_list_get_next(current_entry);
345 vreader_list_entry_delete(current_entry);
347 g_free(list);
351 VReaderListEntry *
352 vreader_list_get_first(VReaderList *list)
354 return list ? list->head : NULL;
357 VReaderListEntry *
358 vreader_list_get_next(VReaderListEntry *current)
360 return current ? current->next : NULL;
363 VReader *
364 vreader_list_get_reader(VReaderListEntry *entry)
366 return entry ? vreader_reference(entry->reader) : NULL;
369 static void
370 vreader_queue(VReaderList *list, VReaderListEntry *entry)
372 if (entry == NULL) {
373 return;
375 entry->next = NULL;
376 entry->prev = list->tail;
377 if (list->head) {
378 list->tail->next = entry;
379 } else {
380 list->head = entry;
382 list->tail = entry;
385 static void
386 vreader_dequeue(VReaderList *list, VReaderListEntry *entry)
388 if (entry == NULL) {
389 return;
391 if (entry->next == NULL) {
392 list->tail = entry->prev;
393 } else if (entry->prev == NULL) {
394 list->head = entry->next;
395 } else {
396 entry->prev->next = entry->next;
397 entry->next->prev = entry->prev;
399 if ((list->tail == NULL) || (list->head == NULL)) {
400 list->head = list->tail = NULL;
402 entry->next = entry->prev = NULL;
405 static VReaderList *vreader_list;
406 static CompatGMutex vreader_list_mutex;
408 static void
409 vreader_list_init(void)
411 vreader_list = vreader_list_new();
414 static void
415 vreader_list_lock(void)
417 g_mutex_lock(&vreader_list_mutex);
420 static void
421 vreader_list_unlock(void)
423 g_mutex_unlock(&vreader_list_mutex);
426 static VReaderList *
427 vreader_copy_list(VReaderList *list)
429 VReaderList *new_list;
430 VReaderListEntry *current_entry;
432 new_list = vreader_list_new();
433 if (new_list == NULL) {
434 return NULL;
436 for (current_entry = vreader_list_get_first(list); current_entry;
437 current_entry = vreader_list_get_next(current_entry)) {
438 VReader *reader = vreader_list_get_reader(current_entry);
439 VReaderListEntry *new_entry = vreader_list_entry_new(reader);
441 vreader_free(reader);
442 vreader_queue(new_list, new_entry);
444 return new_list;
447 VReaderList *
448 vreader_get_reader_list(void)
450 VReaderList *new_reader_list;
452 vreader_list_lock();
453 new_reader_list = vreader_copy_list(vreader_list);
454 vreader_list_unlock();
455 return new_reader_list;
458 VReader *
459 vreader_get_reader_by_id(vreader_id_t id)
461 VReader *reader = NULL;
462 VReaderListEntry *current_entry;
464 if (id == (vreader_id_t) -1) {
465 return NULL;
468 vreader_list_lock();
469 for (current_entry = vreader_list_get_first(vreader_list); current_entry;
470 current_entry = vreader_list_get_next(current_entry)) {
471 VReader *creader = vreader_list_get_reader(current_entry);
472 if (creader->id == id) {
473 reader = creader;
474 break;
476 vreader_free(creader);
478 vreader_list_unlock();
479 return reader;
482 VReader *
483 vreader_get_reader_by_name(const char *name)
485 VReader *reader = NULL;
486 VReaderListEntry *current_entry;
488 vreader_list_lock();
489 for (current_entry = vreader_list_get_first(vreader_list); current_entry;
490 current_entry = vreader_list_get_next(current_entry)) {
491 VReader *creader = vreader_list_get_reader(current_entry);
492 if (strcmp(creader->name, name) == 0) {
493 reader = creader;
494 break;
496 vreader_free(creader);
498 vreader_list_unlock();
499 return reader;
502 /* called from card_emul to initialize the readers */
503 VReaderStatus
504 vreader_add_reader(VReader *reader)
506 VReaderListEntry *reader_entry;
508 reader_entry = vreader_list_entry_new(reader);
509 if (reader_entry == NULL) {
510 return VREADER_OUT_OF_MEMORY;
512 vreader_list_lock();
513 vreader_queue(vreader_list, reader_entry);
514 vreader_list_unlock();
515 vevent_queue_vevent(vevent_new(VEVENT_READER_INSERT, reader, NULL));
516 return VREADER_OK;
520 VReaderStatus
521 vreader_remove_reader(VReader *reader)
523 VReaderListEntry *current_entry;
525 vreader_list_lock();
526 for (current_entry = vreader_list_get_first(vreader_list); current_entry;
527 current_entry = vreader_list_get_next(current_entry)) {
528 if (current_entry->reader == reader) {
529 break;
532 vreader_dequeue(vreader_list, current_entry);
533 vreader_list_unlock();
534 vreader_list_entry_delete(current_entry);
535 vevent_queue_vevent(vevent_new(VEVENT_READER_REMOVE, reader, NULL));
536 return VREADER_OK;
540 * Generate VEVENT_CARD_INSERT or VEVENT_CARD_REMOVE based on vreader
541 * state. Separated from vreader_insert_card to allow replaying events
542 * for a given state.
544 void
545 vreader_queue_card_event(VReader *reader)
547 vevent_queue_vevent(vevent_new(
548 reader->card ? VEVENT_CARD_INSERT : VEVENT_CARD_REMOVE, reader,
549 reader->card));
553 * insert/remove a new card. for removal, card == NULL
555 VReaderStatus
556 vreader_insert_card(VReader *reader, VCard *card)
558 vreader_lock(reader);
559 if (reader->card) {
560 /* decrement reference count */
561 vcard_free(reader->card);
562 reader->card = NULL;
564 reader->card = vcard_reference(card);
565 vreader_unlock(reader);
566 vreader_queue_card_event(reader);
567 return VREADER_OK;
571 * initialize all the static reader structures
573 void
574 vreader_init(void)
576 vreader_list_init();