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1 /*
2  * merge.c - Routines to merge OpenPGP public keys.
3  *
4  * Jonathan McDowell <noodles@earth.li>
5  *
6  * Copyright 2002 Project Purple
7  */
8
9 #include <assert.h>
10 #include <stdio.h>
11 #include <stdlib.h>
12
13 #include "keydb.h"
14 #include "keyid.h"
15 #include "keystructs.h"
16 #include "ll.h"
17 #include "mem.h"
18 #include "merge.h"
19
20 /**
21  *      compare_packets - Check to see if 2 OpenPGP packets are the same.
22  *      @a: The first key to compare.
23  *      @b: The second key to compare.
24  *
25  *      Takes 2 keys and returns true if they are the same and false otherwise.
26  */
27 bool compare_packets(struct openpgp_packet *a, struct openpgp_packet *b)
28 {
29         return (a->tag == b->tag && a->length == b->length &&
30                 !memcmp(a->data, b->data, b->length));
31 }
32
33 /**
34  *      find_packet - Checks to see if an OpenPGP packet exists in a list.
35  *      @packet_list: The list of packets to look in.
36  *      @packet: The packet to look for.
37  *
38  *      Walks through the packet_list checking to see if the packet given is
39  *      present in it. Returns true if it is.
40  */
41 bool find_packet(struct openpgp_packet_list *packet_list,
42                         struct openpgp_packet *packet)
43 {
44         bool found = false;
45
46         while (!found && packet_list != NULL) {
47                 if (compare_packets(packet_list->packet, packet)) {
48                         found = true;
49                 }
50                 packet_list = packet_list -> next;
51         }
52
53         return found;
54 }
55
56 /**
57  *      get_signed_packet - Gets a signed packet from a list.
58  *      @packet_list: The list of packets to look in.
59  *      @packet: The packet to look for.
60  *
61  *      Walks through the signedpacket_list looking for the supplied packet and
62  *      returns it if found. Otherwise returns NULL.
63  */
64 struct openpgp_signedpacket_list *find_signed_packet(
65                 struct openpgp_signedpacket_list *packet_list,
66                 struct openpgp_packet *packet)
67 {
68         struct openpgp_signedpacket_list *found = NULL;
69
70         while (found == NULL && packet_list != NULL) {
71                 if (compare_packets(packet_list->packet, packet)) {
72                         found = packet_list;
73                 }
74                 packet_list = packet_list -> next;
75         }
76
77         return found;
78 }
79
80 /**
81  *      remove_signed_packet - Removes a signed packet from a list.
82  *      @packet_list: The list of packets to look in.
83  *      @packet: The packet to remove.
84  *
85  *      Walks through the signedpacket_list looking for the supplied packet and
86  *      removes it if found. Assumes the packet can only exist a maximum of
87  *      once in the list.
88  */
89 bool remove_signed_packet(struct openpgp_signedpacket_list **packet_list,
90                 struct openpgp_signedpacket_list **list_end,
91                 struct openpgp_packet *packet)
92 {
93         struct openpgp_signedpacket_list *cur = NULL;
94         struct openpgp_signedpacket_list *prev = NULL;
95         bool found = false;
96
97         for (cur = *packet_list; !found && (cur != NULL); cur = cur->next) {
98                 if (compare_packets(cur->packet, packet)) {
99                         found = true;
100                         if (prev == NULL) {
101                                 *packet_list = cur->next;
102                         } else {
103                                 prev->next = cur->next;
104                         }
105                         if (cur->next == NULL) {
106                                 *list_end = prev;
107                         }
108                         // TODO: Free the removed signed packet...
109                 }
110                 prev = cur;
111         }
112
113         return found;
114 }
115
116 /**
117  *      merge_packet_sigs - Takes 2 signed packets and merges their sigs.
118  *      @old: The old signed packet.
119  *      @new: The new signed packet.
120  *
121  *      Takes 2 signed packet list structures and the sigs of the packets on
122  *      the head of these structures. These packets must both be the same and
123  *      the fully merged structure is returned in old and the minimal
124  *      difference to get from old to new in new.
125  */
126 int merge_packet_sigs(struct openpgp_signedpacket_list *old,
127                         struct openpgp_signedpacket_list *new)
128 {
129         struct openpgp_packet_list      *lastpacket = NULL;
130         struct openpgp_packet_list      *curpacket = NULL;
131         struct openpgp_packet_list      *nextpacket = NULL;
132
133         assert(compare_packets(old->packet, new->packet));
134
135         curpacket = new->sigs;
136         while (curpacket != NULL) {
137                 nextpacket = curpacket->next;
138                 if (find_packet(old->sigs, curpacket->packet)) {
139                         /*
140                          * We already have this sig, remove it from the
141                          * difference list and free the memory allocated for
142                          * it.
143                          */
144                         if (lastpacket != NULL) {
145                                 lastpacket->next = curpacket->next;
146                         } else {
147                                 assert(curpacket == new->sigs);
148                                 new->sigs = curpacket->next;
149                         }
150                         curpacket->next = NULL;
151                         free_packet_list(curpacket);
152                 } else {
153                         lastpacket = curpacket;
154                 }
155                 curpacket = nextpacket;
156         }
157         new->last_sig = lastpacket;
158
159         /*
160          * What's left on new->sigs now are the new signatures, so add them to
161          * old->sigs.
162          */
163         packet_list_add(&old->sigs, &old->last_sig, new->sigs);
164
165         return 0;
166 }
167
168 /**
169  *      merge_signed_packets - Takes 2 lists of signed packets and merges them.
170  *      @old: The old signed packet list.
171  *      @new: The new signed packet list.
172  *
173  *      Takes 2 lists of signed packets and merges them. The complete list of
174  *      signed packets & sigs is returned in old and the minimal set of
175  *      differences required to get from old to new in new.
176  */
177 int merge_signed_packets(struct openpgp_signedpacket_list **old,
178                         struct openpgp_signedpacket_list **old_end,
179                         struct openpgp_signedpacket_list **new,
180                         struct openpgp_signedpacket_list **new_end)
181 {
182         struct openpgp_signedpacket_list *curelem = NULL;
183         struct openpgp_signedpacket_list *newelem = NULL;
184
185         for (curelem = *old; curelem != NULL; curelem = curelem->next) {
186                 newelem = find_signed_packet(*new, curelem->packet);
187                 if (newelem != NULL) {
188                         merge_packet_sigs(curelem, newelem);
189                         
190                         /*
191                          * If there are no sigs left on the new signed packet
192                          * then remove it from the list.
193                          */
194                         if (newelem->sigs == NULL) {
195                                 remove_signed_packet(new,
196                                                 new_end,
197                                                 newelem->packet);
198                         }
199                 }
200         }
201
202         /*
203          * If *new != NULL now then there might be UIDs on the new key that
204          * weren't on the old key. Walk through them, checking if the UID is
205          * on the old key and if not adding them to it.
206          */
207         for (curelem = *new; curelem != NULL;
208                         curelem = curelem->next) {
209
210                 if (find_signed_packet(*old, curelem->packet) == NULL) {
211                         ADD_PACKET_TO_LIST((*old_end),
212                                 packet_dup(curelem->packet));
213                         if (*old == NULL) {
214                                 *old = *old_end;
215                         }
216                         packet_list_add(&(*old_end)->sigs,
217                                 &(*old_end)->last_sig,
218                                 curelem->sigs);
219                 }
220         }
221
222         return 0;
223 }
224
225 /**
226  *      merge_keys - Takes 2 public keys and merges them.
227  *      @a: The old key. The merged key is returned in this structure.
228  *      @b: The new key. The changed from old to new keys are returned in this
229  *              structure.
230  *
231  *      This function takes 2 keys and merges them. It then returns the merged
232  *      key in a and the difference between this new key and the original a
233  *      in b (ie newb contains the minimum amount of detail necessary to
234  *      convert olda to newa). The intention is that olda is provided from
235  *      internal storage and oldb from the remote user. newa is then stored in
236  *      internal storage and newb is sent to all our keysync peers.
237  */
238 int merge_keys(struct openpgp_publickey *a, struct openpgp_publickey *b)
239 {
240         int rc = 0; /* Return code */
241         struct openpgp_packet_list      *curpacket = NULL; 
242         struct openpgp_packet_list      *lastpacket = NULL;
243         struct openpgp_packet_list      *nextpacket = NULL;
244
245         if (a == NULL || b == NULL) {
246                 /*
247                  * Do nothing.
248                  */
249                 rc = 1;
250         } else if (get_keyid(a) != get_keyid(b)) {
251                 /*
252                  * Key IDs are different.
253                  */
254                 rc = -1;
255         } else {
256                 /*
257                  * Key IDs are the same, so I guess we have to merge them.
258                  */
259                 curpacket = b->revocations;
260                 while (curpacket != NULL) {
261                         nextpacket = curpacket->next;
262                         if (find_packet(a->revocations, curpacket->packet)) {
263                                 /*
264                                  * We already have this revocation, remove it
265                                  * from the difference list and free the memory
266                                  * allocated for it.
267                                  */
268
269                                 if (lastpacket != NULL) {
270                                         lastpacket->next = curpacket->next;
271                                 } else {
272                                         assert(curpacket == b->revocations);
273                                         b->revocations = curpacket->next;
274                                 }
275                                 curpacket->next = NULL;
276                                 free_packet_list(curpacket);
277
278                         } else {
279                                 lastpacket = curpacket;
280                         }
281                         curpacket = nextpacket;
282                 }
283                 b->last_revocation = lastpacket;
284
285                 /*
286                  * Anything left on b->revocations doesn't exist on
287                  * a->revocations, so add them to the list.
288                  */
289                 packet_list_add(&a->revocations,
290                                 &a->last_revocation,
291                                 b->revocations);
292
293                 /*
294                  * Merge uids (signed list).
295                  * Merge subkeys (signed list).
296                  */
297                 merge_signed_packets(&a->uids, &a->last_uid, 
298                                 &b->uids, &b->last_uid);
299                 merge_signed_packets(&a->subkeys, &a->last_subkey,
300                                 &b->subkeys, &b->last_subkey);
301
302         }
303
304         return rc;
305 }
306
307 /**
308  *      update_keys - Takes a list of public keys and updates them in the DB.
309  *      @keys: The keys to update in the DB.
310  *      @verbose: Should we output more information as we add keys?
311  *
312  *      Takes a list of keys and adds them to the database, merging them with
313  *      the key in the database if it's already present there. The key list is
314  *      update to contain the minimum set of updates required to get from what
315  *      we had before to what we have now (ie the set of data that was added to
316  *      the DB). Returns the number of entirely new keys added.
317  */
318 int update_keys(struct openpgp_publickey **keys, bool verbose)
319 {
320         struct openpgp_publickey *curkey = NULL;
321         struct openpgp_publickey *oldkey = NULL;
322         struct openpgp_publickey *prev = NULL;
323         int newkeys = 0;
324         bool intrans;
325
326         for (curkey = *keys; curkey != NULL; curkey = curkey->next) {
327                 intrans = starttrans();
328                 if (verbose) {
329                         fprintf(stderr, "Fetching key 0x%llX, result: %d\n",
330                                 get_keyid(curkey),
331                                 fetch_key(get_keyid(curkey), &oldkey, intrans));
332                 } else {
333                         fetch_key(get_keyid(curkey), &oldkey, intrans);
334                 }
335
336                 /*
337                  * If we already have the key stored in the DB then merge it
338                  * with the new one that's been supplied. Otherwise the key
339                  * we've just got is the one that goes in the DB and also the
340                  * one that we send out.
341                  */
342                 if (oldkey != NULL) {
343                         merge_keys(oldkey, curkey);
344                         if (curkey->revocations == NULL &&
345                                         curkey->uids == NULL &&
346                                         curkey->subkeys == NULL) {
347                                 if (prev == NULL) {
348                                         *keys = curkey->next;
349                                 } else {
350                                         prev->next = curkey->next;
351                                         prev = curkey->next;
352                                 }
353                         } else {
354                                 prev = curkey;
355                                 if (verbose) {
356                                         fprintf(stderr, "Merged key; storing updated key.\n");
357                                 }
358                                 store_key(oldkey, intrans, true);
359                         }
360                         free_publickey(oldkey);
361                         oldkey = NULL;
362                 } else {
363                         if (verbose) {
364                                 fprintf(stderr, "Storing completely new key.\n");
365                         }
366                         store_key(curkey, intrans, false);
367                         newkeys++;
368                 }
369                 endtrans();
370                 intrans = false;
371         }
372
373         return newkeys;
374 }