]> git.sommitrealweird.co.uk Git - onak.git/blob - gpgstats-0.0.2/dotrees.c
cscvs to tla changeset 31
[onak.git] / gpgstats-0.0.2 / dotrees.c
1 /*
2         gpgstats.c - Program to produce stats on a GPG keyring.
3         Written by Jonathan McDowell <noodles@earth.li>.
4
5         19/02/2000 - Started writing (sort of).
6 */
7
8 #include <ctype.h>
9 #include <stdio.h>
10 #include <stdlib.h>
11 #include <string.h>
12
13 #include "gpgstats.h"
14 #include "hash.h"
15 #include "logging.h"
16 #include "ll.h"
17 #include "parse.h"
18
19 struct ll *finished = NULL;
20 struct ll *trees = NULL;
21
22 unsigned long hex2long(char *string)
23 {
24         size_t loop;
25         unsigned long value;
26
27         value = 0;
28         for (loop = 0; loop < 8 && loop < strlen(string) && string[loop] > ' ';
29                         loop++) {
30                 value=((string[loop]>'9') ? toupper(string[loop])-'A'+10 :
31                                         string[loop]-'0')+(value << 4);
32         }
33         return value;
34 }
35
36
37 int keycmp(struct key *key1, struct key *key2)
38 {
39         if (key1->keyid==key2->keyid) {
40                 return 0;
41         }
42         return 1;
43 }
44
45
46 struct ll *addkey(struct ll *curkey, struct key newkey)
47 {
48         return lladd(curkey, copyandaddtohash(newkey));
49 }
50
51
52 void initcolour(int pi) {
53         unsigned long loop;
54         struct ll *curkey;
55
56         /* Init the colour/pi hashes */
57         for (loop=0; loop<HASHSIZE; loop++) {
58                 curkey = gethashtableentry(loop);
59                 while (curkey!=NULL) {
60                         ((struct key *)curkey->object)->colour = 0;
61                         if (pi != NULL) {
62                                 ((struct key *)curkey->object)->pi = NULL;
63                         }
64                         curkey = curkey->next;
65                 }
66         }
67 }
68
69
70 void readkeys(const char *filename)
71 {
72         char curline[1024];
73         unsigned long keys=0,sigs=0,pub=0, revoked=0;
74         struct key keyin;
75         struct key *curkey=NULL, *cursign=NULL;
76         struct key cursig;
77         FILE *keyfile;
78         int (*p)();
79
80         p=keycmp;
81         keyin.name=cursig.name=NULL;
82         keyin.sigs=keyin.signs=cursig.sigs=cursig.signs=NULL;
83         keyin.selfsigned=cursig.selfsigned=0;
84         keyin.revoked=cursig.revoked=0;
85
86         log(LOG_INFO, "Reading key info from '%s'.\n", filename);
87         if ((keyfile=fopen(filename, "r"))==NULL) {
88                 perror("readkeys()");
89                 return;
90         }
91         /* read a line */
92         fgets(curline, 1023, keyfile);
93         while (!feof(keyfile)) {        
94                 if (curline[0]=='P') {
95                         ++pub;
96                         ++keys;
97                         printf("\rRead %ld keys so far.", keys);
98                         keyin.keyid=hex2long(&curline[1]);
99                         curkey=copyandaddtohash(keyin);
100                         if (curkey->keyid!=keyin.keyid) {
101                                 printf("Erk! Didn't get back the key we asked for! %08lX != %08lX\n", curkey->keyid, keyin.keyid);
102                         }
103                 } else if (curline[0]=='S') {
104                         cursig.keyid=hex2long(&curline[1]);
105                         if (curkey->keyid==cursig.keyid) {
106                                 curkey->selfsigned=1;
107                         }
108
109                         if (!llfind(curkey->sigs, &cursig, p)) {
110                                 curkey->sigs=addkey(curkey->sigs, cursig);
111                                 ++sigs;
112                         }
113
114                         if ((cursign=findinhash(&cursig))==NULL) {
115                                 cursign=copyandaddtohash(cursig);
116                         }
117                         if (cursign->keyid!=cursig.keyid) {
118                                 printf("Erk! Didn't get back the key we asked for! %08lX != %08lX\n", cursign->keyid, cursig.keyid);
119                         }
120
121                         if (!llfind(cursign->signs, curkey, p))
122                                 cursign->signs=addkey(cursign->signs, *curkey);
123                 } else if (curline[0]=='N') {
124                         if (curkey->name==NULL) {
125                                 curkey->name=strdup(&curline[1]);
126                                 curkey->name[strlen(curkey->name)-1]=0;
127                                 if (strcmp(curkey->name, "[revoked]")==0) {
128                                         curkey->revoked=1;
129                                         ++revoked;
130                                 }
131                         }
132                 }
133                 fgets(curline, 1023, keyfile);
134         }
135         fclose(keyfile);
136         printf("\rRead %lu keys, %lu pub, %lu sigs, %lu revoked.\n",
137                 keys, pub, sigs, revoked);
138 }
139
140
141 void DFSVisit(int type, struct key *key, unsigned long *time, unsigned long *depth)
142 {
143         struct ll *curkey;
144         struct key *v;
145
146         key->colour=1;
147 //      key->d=(*time)++;
148
149         if (type==0) curkey=key->signs; else curkey=key->sigs;
150         while (curkey!=NULL) {
151                 v=(struct key *)findinhash(curkey->object);
152                 if (v==NULL) {
153                         printf("Couldn't find key in hash. Most odd.\n");
154                 }
155                 if (v!=NULL && v->colour==0) {
156                         if (type==1 && key->pi==NULL) {
157                                 printf("key->pi is NULL.\n");
158                         } else if (type==1) {
159                                 key->pi->object=lladd(key->pi->object, v);
160                                 v->pi=key->pi;
161                         }
162
163                         (*depth)++;
164                         DFSVisit(type, v, time, depth);
165                 }
166                 curkey=curkey->next;
167         }
168         key->colour=2;
169 //      key->f=(*time)++;
170         if (type==0) finished=lladd(finished, key);
171 }
172
173
174 void DFS(void)
175 {
176         unsigned long loop,time=0,depth,maxdepth=0;
177         struct ll *curkey;
178
179         initcolour(1);
180         for (loop=0; loop<HASHSIZE; loop++) {
181                 curkey=gethashtableentry(loop);
182                 while (curkey!=NULL) {
183                         if (((struct key *)curkey->object)->colour==0) {
184                                 depth=0;
185                                 DFSVisit(0, ((struct key *)curkey->object),
186                                         &time, &depth);
187                                 if (depth>maxdepth) maxdepth=depth;
188                         }
189                         curkey=curkey->next;
190                 }
191         }
192         printf("Max depth reached in DFS(): %ld\n", maxdepth);
193 }
194
195
196 void DFSsorted(void)
197 {
198         unsigned long time=0,depth,maxdepth=0;
199         struct ll *curkey;
200
201         initcolour(1);
202         curkey=finished;
203         while (curkey!=NULL) {
204                 if (((struct key *)curkey->object)->colour==0) {
205                         trees=lladd(trees, curkey->object);
206                         ((struct key *)curkey->object)->pi=trees;
207                         ((struct key *)curkey->object)->pi->object=lladd(NULL, curkey->object);
208
209                         depth=0;
210                         DFSVisit(1, ((struct key *)curkey->object),
211                                 &time, &depth);
212                         if (depth>maxdepth) maxdepth=depth;
213                 }
214                 curkey=curkey->next;
215         }
216         printf("Max depth reached in DFSsorted(): %ld\n", maxdepth);
217 }
218
219
220 long checkselfsig()
221 {
222         unsigned long loop;
223         struct ll *curkey;
224         unsigned long selfsig=0;
225
226         for (loop=0; loop<HASHSIZE; loop++) {
227                 curkey=gethashtableentry(loop);
228                 while (curkey!=NULL) {
229                         if (((struct key *)curkey->object)->selfsigned) ++selfsig;
230                         curkey=curkey->next;
231                 }
232         }
233
234         return selfsig;
235 }
236
237
238 void printtrees(int minsize)
239 {
240         struct ll *curtree,*curkey;
241         unsigned long count, total;
242
243         curtree=trees;
244         total=0;
245         while (curtree!=NULL) { 
246                 curkey=curtree->object;
247                 ++total;
248                 count=0;
249                 if (llsize(curkey)>=minsize) while (curkey!=NULL) {
250                         printf("0x%08lX (%s)\n", ((struct key *)curkey->object)->keyid,
251                                 ((struct key *)curkey->object)->name);
252                         count++;
253                         curkey=curkey->next;
254                 }
255                 if (count>=minsize) printf("Tree size of %ld\n", count);
256                 curtree=curtree->next;
257         }
258         printf("Total of %ld trees.\n", total);
259 }
260
261
262 unsigned long size2degree(struct ll *curll, struct key *prev, int sigs, int curdegree, int maxdegree, int *rec)
263 {
264         unsigned long count=0;
265         struct ll *nextll;
266
267         ++curdegree;
268         ++(*rec);
269
270         nextll=NULL;
271         while (curll!=NULL) {
272                 if (((struct key *) curll->object)->revoked==1) {
273                         /* It's revoked. Ignore it. */
274                 } else if (((struct key *) curll->object)->colour==0) {
275                         /* We've never seen it. Count it, mark it and
276                                 explore its subtree */
277                         count++;
278                         printf("0x%08lX (%s)\n", ((struct key *) curll->object)->keyid,
279                                 ((struct key *) curll->object)->name);
280                         ((struct key *)curll->object)->colour=curdegree;
281                         ((struct key *)curll->object)->pi=(struct ll *) prev;
282                         nextll=lladd(nextll, curll->object);
283                 } else if (((struct key *) curll->object)->colour>curdegree) {
284                         /* We've seen it, but it it's closer to us than we
285                                 thought. Re-evaluate, but don't count it
286                                 again */
287                         ((struct key *)curll->object)->colour=curdegree;
288                         ((struct key *)curll->object)->pi=(struct ll *) prev;
289                         nextll=lladd(nextll, curll->object);
290                 }
291                 curll=curll->next;
292         }
293         /* Now we've marked, let's recurse */
294         if (curdegree<maxdegree) curll=nextll; else curll=NULL;
295         while (curll!=NULL) {
296                 if (sigs) {
297                         count += size2degree(((struct key *)curll->object)->sigs, curll->object, sigs, curdegree, maxdegree, rec);
298                 } else {
299                         count += size2degree(((struct key *)curll->object)->signs, curll->object, sigs, curdegree, maxdegree, rec);
300                 }
301                 nextll=curll->next;
302                 free(curll);
303                 curll=nextll;
304         }
305
306         return count;
307 }
308
309
310 void sixdegrees(unsigned long keyid)
311 {
312         struct key *keyinfo, key;
313         int loop;
314         int rec;
315
316         key.keyid=keyid;
317
318         if ((keyinfo=findinhash(&key))==NULL) {
319                 printf("Couldn't find key 0x%08lX.\n", keyid);
320                 return;
321         }
322
323         printf("Six degrees for 0x%08lX (%s):\n", keyinfo->keyid, keyinfo->name);
324
325         puts("\t\t   Signs       Signed by");
326         for (loop=1; loop<7; loop++) {
327                 initcolour(0);
328                 rec=0;
329                 printf("Degree %d:\t%8ld", loop, size2degree(keyinfo->signs, NULL, 0, 0, loop, &rec));
330                 printf(" (%d)", rec);
331                 initcolour(0);
332                 rec=0;
333                 printf("\t%8ld", size2degree(keyinfo->sigs, NULL, 1, 0, loop, &rec));
334                 printf(" (%d)\n", rec);
335         }
336 }
337
338
339 void showkeysigs(unsigned long keyid, int sigs)
340 {
341         struct key *keyinfo, key;
342         struct ll *cursig;
343
344         key.keyid=keyid;
345
346         if ((keyinfo=findinhash(&key))==NULL) {
347                 printf("Couldn't find key 0x%08lX.\n", keyid);
348                 return;
349         }
350
351         printf("0x%08lX (%s) %s:\n", keyinfo->keyid, keyinfo->name,
352                         sigs ? "is signed by" : "signs");
353
354         if (sigs) cursig=keyinfo->sigs; else cursig=keyinfo->signs;
355         while (cursig!=NULL) {
356                 printf("\t0x%08lX (%s)\n", ((struct key *)cursig->object)->keyid,
357                                 ((struct key *)cursig->object)->name);
358                 cursig=cursig->next;
359         }
360 }
361
362
363 void findpath(unsigned long keyida, unsigned long keyidb)
364 {
365         struct key *keyinfoa, *keyinfob, *curkey, keya, keyb;
366         int rec;
367
368         keya.keyid=keyida;
369         keyb.keyid=keyidb;
370
371         if ((keyinfoa=findinhash(&keya))==NULL) {
372                 printf("Couldn't find key 0x%08lX.\n", keyida);
373                 return;
374         }
375         if ((keyinfob=findinhash(&keyb))==NULL) {
376                 printf("Couldn't find key 0x%08lX.\n", keyidb);
377                 return;
378         }
379
380         /* Fill the tree info up */
381         initcolour(1);
382         rec=0;
383         size2degree(keyinfoa->signs, keyinfoa, 0, 0, 1000, &rec);
384         keyinfoa->pi=NULL;
385
386         printf("%d recursions required.\n", rec);
387         if (keyinfob->colour==0) {
388                 printf("Can't find a link from 0x%08lX to 0x%08lX\n", keyida, keyidb);
389         } else {
390                 printf("%d steps from 0x%08lX to 0x%08lX\n", keyinfob->colour, keyida, keyidb);
391                 curkey=keyinfob;
392                 while (curkey!=NULL) {
393                         printf("0x%08lX (%s)\n", curkey->keyid, curkey->name);
394                         curkey=(struct key *)curkey->pi;
395                 }
396         }
397 }
398
399
400 int main(int argc, char *argv[])
401 {
402         struct key *keyinfo,foo;
403         int rec;
404
405         printf("gpgstats %s by Jonathan McDowell\n", VERSION);
406         puts("Copyright 2000 Project Purple. Released under the GPL.");
407         puts("A simple program to do stats on a GPG keyring.\n");
408         inithash();
409 //      readkeys("keyfile");
410         readkeys("keyfile.debian");
411 //      readkeys("../keyfile.big");
412         printf("%ld selfsigned.\n", checkselfsig());
413         printf("%ld distinct keys.\n", hashelements());
414
415         finished=trees=NULL;
416         printf("Starting first DFS.\n");
417         DFS();
418         printf("Starting second DFS.\n");
419         DFSsorted();
420         printtrees(2);
421
422 //      foo.keyid=0xC7A966DD; /* Phil Zimmerman himself */
423 //      if ((keyinfo=findinhash(&foo))==NULL) {
424 //              printf("Couldn't find key 0x%08lX.\n", foo.keyid);
425 //              return 1;
426 //      }
427
428 //      initcolour(0);
429 //      rec=0;
430 //      printf("%ld\n", size2degree(keyinfo->sigs, NULL, 0, 0, 1000, &rec));
431 //      return 0;
432 }