| blob | f7f9d93f08d98df064104630c3f91ce4fb2aaab9 |
1 /* Basic authentication token and access key management
2 *
3 * Copyright (C) 2004-2008 Red Hat, Inc. All Rights Reserved.
4 * Written by David Howells (dhowells@redhat.com)
5 *
6 * This program is free software; you can redistribute it and/or
7 * modify it under the terms of the GNU General Public License
8 * as published by the Free Software Foundation; either version
9 * 2 of the License, or (at your option) any later version.
10 */
12 #include <linux/module.h>
13 #include <linux/init.h>
14 #include <linux/poison.h>
15 #include <linux/sched.h>
16 #include <linux/slab.h>
17 #include <linux/security.h>
18 #include <linux/workqueue.h>
19 #include <linux/random.h>
20 #include <linux/err.h>
21 #include <linux/user_namespace.h>
42 /* We serialise key instantiation and link */
45 /* Any key who's type gets unegistered will be re-typed to this */
48 };
50 #ifdef KEY_DEBUGGING
52 {
56 }
57 #endif
59 /*
60 * Get the key quota record for a user, allocating a new record if one doesn't
61 * already exist.
62 */
64 {
69 try_again:
73 /* search the tree for a user record with a matching UID */
86 else
88 }
90 /* if we get here, we failed to find a match in the tree */
92 /* allocate a candidate user record if we don't already have
93 * one */
101 /* the allocation may have scheduled, so we need to repeat the
102 * search lest someone else added the record whilst we were
103 * asleep */
105 }
107 /* if we get here, then the user record still hadn't appeared on the
108 * second pass - so we use the candidate record */
125 /* okay - we found a user record for this UID */
126 found:
130 out:
132 }
134 /*
135 * Dispose of a user structure
136 */
138 {
145 }
146 }
148 /*
149 * Allocate a serial number for a key. These are assigned randomly to avoid
150 * security issues through covert channel problems.
151 */
153 {
157 /* propose a random serial number and look for a hole for it in the
158 * serial number tree */
167 attempt_insertion:
179 else
181 }
183 /* we've found a suitable hole - arrange for this key to occupy it */
190 /* we found a key with the proposed serial number - walk the tree from
191 * that point looking for the next unused serial number */
192 serial_exists:
198 }
207 }
208 }
210 /**
211 * key_alloc - Allocate a key of the specified type.
212 * @type: The type of key to allocate.
213 * @desc: The key description to allow the key to be searched out.
214 * @uid: The owner of the new key.
215 * @gid: The group ID for the new key's group permissions.
216 * @cred: The credentials specifying UID namespace.
217 * @perm: The permissions mask of the new key.
218 * @flags: Flags specifying quota properties.
219 *
220 * Allocate a key of the specified type with the attributes given. The key is
221 * returned in an uninstantiated state and the caller needs to instantiate the
222 * key before returning.
223 *
224 * The user's key count quota is updated to reflect the creation of the key and
225 * the user's key data quota has the default for the key type reserved. The
226 * instantiation function should amend this as necessary. If insufficient
227 * quota is available, -EDQUOT will be returned.
228 *
229 * The LSM security modules can prevent a key being created, in which case
230 * -EACCES will be returned.
231 *
232 * Returns a pointer to the new key if successful and an error code otherwise.
233 *
234 * Note that the caller needs to ensure the key type isn't uninstantiated.
235 * Internally this can be done by locking key_types_sem. Externally, this can
236 * be done by either never unregistering the key type, or making sure
237 * key_alloc() calls don't race with module unloading.
238 */
242 {
257 }
258 }
263 /* get hold of the key tracking for this user */
268 /* check that the user's quota permits allocation of another key and
269 * its description */
282 }
287 }
289 /* allocate and initialise the key and its description */
298 }
319 #ifdef KEY_DEBUGGING
321 #endif
323 /* let the security module know about the key */
328 /* publish the key by giving it a serial number */
332 error:
335 security_error:
343 }
348 no_memory_3:
350 no_memory_2:
356 }
358 no_memory_1:
362 no_quota:
367 }
370 /**
371 * key_payload_reserve - Adjust data quota reservation for the key's payload
372 * @key: The key to make the reservation for.
373 * @datalen: The amount of data payload the caller now wants.
374 *
375 * Adjust the amount of the owning user's key data quota that a key reserves.
376 * If the amount is increased, then -EDQUOT may be returned if there isn't
377 * enough free quota available.
378 *
379 * If successful, 0 is returned.
380 */
382 {
388 /* contemplate the quota adjustment */
399 }
403 }
405 }
407 /* change the recorded data length if that didn't generate an error */
412 }
415 /*
416 * Instantiate a key and link it into the target keyring atomically. Must be
417 * called with the target keyring's semaphore writelocked. The target key's
418 * semaphore need not be locked as instantiation is serialised by
419 * key_construction_mutex.
420 */
427 {
438 /* can't instantiate twice */
440 /* instantiate the key */
444 /* mark the key as being instantiated */
451 /* and link it into the destination keyring */
455 /* disable the authorisation key */
458 }
459 }
463 /* wake up anyone waiting for a key to be constructed */
468 }
470 /**
471 * key_instantiate_and_link - Instantiate a key and link it into the keyring.
472 * @key: The key to instantiate.
473 * @data: The data to use to instantiate the keyring.
474 * @datalen: The length of @data.
475 * @keyring: Keyring to create a link in on success (or NULL).
476 * @authkey: The authorisation token permitting instantiation.
477 *
478 * Instantiate a key that's in the uninstantiated state using the provided data
479 * and, if successful, link it in to the destination keyring if one is
480 * supplied.
481 *
482 * If successful, 0 is returned, the authorisation token is revoked and anyone
483 * waiting for the key is woken up. If the key was already instantiated,
484 * -EBUSY will be returned.
485 */
491 {
500 }
509 }
513 /**
514 * key_reject_and_link - Negatively instantiate a key and link it into the keyring.
515 * @key: The key to instantiate.
516 * @timeout: The timeout on the negative key.
517 * @error: The error to return when the key is hit.
518 * @keyring: Keyring to create a link in on success (or NULL).
519 * @authkey: The authorisation token permitting instantiation.
520 *
521 * Negatively instantiate a key that's in the uninstantiated state and, if
522 * successful, set its timeout and stored error and link it in to the
523 * destination keyring if one is supplied. The key and any links to the key
524 * will be automatically garbage collected after the timeout expires.
525 *
526 * Negative keys are used to rate limit repeated request_key() calls by causing
527 * them to return the stored error code (typically ENOKEY) until the negative
528 * key expires.
529 *
530 * If successful, 0 is returned, the authorisation token is revoked and anyone
531 * waiting for the key is woken up. If the key was already instantiated,
532 * -EBUSY will be returned.
533 */
539 {
556 /* can't instantiate twice */
558 /* mark the key as being negatively instantiated */
572 /* and link it into the destination keyring */
576 /* disable the authorisation key */
579 }
586 /* wake up anyone waiting for a key to be constructed */
591 }
594 /*
595 * Garbage collect keys in process context so that we don't have to disable
596 * interrupts all over the place.
597 *
598 * key_put() schedules this rather than trying to do the cleanup itself, which
599 * means key_put() doesn't have to sleep.
600 */
602 {
606 go_again:
607 /* look for a dead key in the tree */
615 }
620 found_dead_key:
621 /* we found a dead key - once we've removed it from the tree, we can
622 * drop the lock */
630 /* deal with the user's key tracking and quota */
636 }
644 /* now throw away the key memory */
650 #ifdef KEY_DEBUGGING
652 #endif
655 /* there may, of course, be more than one key to destroy */
657 }
659 /**
660 * key_put - Discard a reference to a key.
661 * @key: The key to discard a reference from.
662 *
663 * Discard a reference to a key, and when all the references are gone, we
664 * schedule the cleanup task to come and pull it out of the tree in process
665 * context at some later time.
666 */
668 {
674 }
675 }
678 /*
679 * Find a key by its serial number.
680 */
682 {
688 /* search the tree for the specified key */
697 else
699 }
701 not_found:
705 found:
706 /* pretend it doesn't exist if it is awaiting deletion */
710 /* this races with key_put(), but that doesn't matter since key_put()
711 * doesn't actually change the key
712 */
715 error:
718 }
720 /*
721 * Find and lock the specified key type against removal.
722 *
723 * We return with the sem read-locked if successful. If the type wasn't
724 * available -ENOKEY is returned instead.
725 */
727 {
732 /* look up the key type to see if it's one of the registered kernel
733 * types */
737 }
742 found_kernel_type:
744 }
746 /*
747 * Unlock a key type locked by key_type_lookup().
748 */
750 {
752 }
754 /*
755 * Attempt to update an existing key.
756 *
757 * The key is given to us with an incremented refcount that we need to discard
758 * if we get an error.
759 */
762 {
766 /* need write permission on the key to update it */
779 /* updating a negative key instantiates it */
786 out:
789 error:
793 }
795 /**
796 * key_create_or_update - Update or create and instantiate a key.
797 * @keyring_ref: A pointer to the destination keyring with possession flag.
798 * @type: The type of key.
799 * @description: The searchable description for the key.
800 * @payload: The data to use to instantiate or update the key.
801 * @plen: The length of @payload.
802 * @perm: The permissions mask for a new key.
803 * @flags: The quota flags for a new key.
804 *
805 * Search the destination keyring for a key of the same description and if one
806 * is found, update it, otherwise create and instantiate a new one and create a
807 * link to it from that keyring.
808 *
809 * If perm is KEY_PERM_UNDEF then an appropriate key permissions mask will be
810 * concocted.
811 *
812 * Returns a pointer to the new key if successful, -ENODEV if the key type
813 * wasn't available, -ENOTDIR if the keyring wasn't a keyring, -EACCES if the
814 * caller isn't permitted to modify the keyring or the LSM did not permit
815 * creation of the key.
816 *
817 * On success, the possession flag from the keyring ref will be tacked on to
818 * the key ref before it is returned.
819 */
825 key_perm_t perm,
827 {
832 key_ref_t key_ref;
835 /* look up the key type to see if it's one of the registered kernel
836 * types */
841 }
859 /* if we're going to allocate a new key, we're going to have
860 * to modify the keyring */
865 }
867 /* if it's possible to update this type of key, search for an existing
868 * key of the same type and description in the destination keyring and
869 * update that instead if possible
870 */
876 }
878 /* if the client doesn't provide, decide on the permissions we want */
888 }
890 /* allocate a new key */
896 }
898 /* instantiate it and link it into the target keyring */
905 }
909 error_3:
911 error_2:
913 error:
916 found_matching_key:
917 /* we found a matching key, so we're going to try to update it
918 * - we can drop the locks first as we have the key pinned
919 */
925 }
928 /**
929 * key_update - Update a key's contents.
930 * @key_ref: The pointer (plus possession flag) to the key.
931 * @payload: The data to be used to update the key.
932 * @plen: The length of @payload.
933 *
934 * Attempt to update the contents of a key with the given payload data. The
935 * caller must be granted Write permission on the key. Negative keys can be
936 * instantiated by this method.
937 *
938 * Returns 0 on success, -EACCES if not permitted and -EOPNOTSUPP if the key
939 * type does not support updating. The key type may return other errors.
940 */
942 {
948 /* the key must be writable */
953 /* attempt to update it if supported */
960 /* updating a negative key instantiates it */
964 }
966 error:
968 }
971 /**
972 * key_revoke - Revoke a key.
973 * @key: The key to be revoked.
974 *
975 * Mark a key as being revoked and ask the type to free up its resources. The
976 * revocation timeout is set and the key and all its links will be
977 * automatically garbage collected after key_gc_delay amount of time if they
978 * are not manually dealt with first.
979 */
981 {
987 /* make sure no one's trying to change or use the key when we mark it
988 * - we tell lockdep that we might nest because we might be revoking an
989 * authorisation key whilst holding the sem on a key we've just
990 * instantiated
991 */
997 /* set the death time to no more than the expiry time */
1003 }
1006 }
1009 /**
1010 * register_key_type - Register a type of key.
1011 * @ktype: The new key type.
1012 *
1013 * Register a new key type.
1014 *
1015 * Returns 0 on success or -EEXIST if a type of this name already exists.
1016 */
1018 {
1025 /* disallow key types with the same name */
1029 }
1031 /* store the type */
1035 out:
1038 }
1041 /**
1042 * unregister_key_type - Unregister a type of key.
1043 * @ktype: The key type.
1044 *
1045 * Unregister a key type and mark all the extant keys of this type as dead.
1046 * Those keys of this type are then destroyed to get rid of their payloads and
1047 * they and their links will be garbage collected as soon as possible.
1048 */
1050 {
1056 /* withdraw the key type */
1059 /* mark all the keys of this type dead */
1068 }
1069 }
1073 /* make sure everyone revalidates their keys */
1076 /* we should now be able to destroy the payloads of all the keys of
1077 * this type with impunity */
1087 }
1088 }
1094 }
1097 /*
1098 * Initialise the key management state.
1099 */
1101 {
1102 /* allocate a slab in which we can store keys */
1106 /* add the special key types */
1111 /* record the root user tracking */
1113 NULL,
1118 }