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[onak.git] / gpgstats-0.0.2 / graphstuff.c
1 /*
2         grahpstuff.c - Code to handle the various graph algorithms
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 "ll.h"
16 #include "parse.h" */
17 #include "graphstuff.h"
18
19 struct keycount { unsigned long count; struct stats_key *k; };
20
21 struct ll *finished=NULL;
22 struct ll *trees=NULL;
23
24
25 int keycmp(struct stats_key *key1, struct stats_key *key2)
26 {
27         if (key1->keyid == key2->keyid) {
28                 return 0;
29         }
30         return 1;
31 }
32
33
34 struct ll *addkey(struct ll *curkey, uint64_t keyid)
35 {
36         return lladd(curkey, createandaddtohash(keyid));
37 }
38
39 void readkeys(const char *filename)
40 {
41         char curline[1024];
42         unsigned long keys=0,sigs=0,pub=0, revoked=0;
43         uint64_t keyin = 0;
44         uint64_t cursig = 0;
45         struct stats_key *curkey=NULL, *cursign=NULL;
46         FILE *keyfile;
47         int (*p)();
48
49         p=keycmp;
50
51         printf("Reading key info from '%s'.\n", filename);
52         if ((keyfile=fopen(filename, "r"))==NULL) {
53                 perror("readkeys()");
54                 return;
55         }
56         /* read a line */
57         fgets(curline, 1023, keyfile);
58         while (!feof(keyfile)) {        
59                 if (curline[0]=='P') {
60                         ++pub;
61                         ++keys;
62                         printf("\rRead %ld keys so far.", keys);
63                         keyin = strtoul(&curline[1], NULL, 16);
64                         curkey = createandaddtohash(keyin);
65                 } else if (curline[0]=='S') {
66                         cursig = strtoul(&curline[1], NULL, 16);
67 /*                      if (curkey->keyid==cursig) {
68                                 curkey->selfsigned=1;
69                         } */
70
71                         if (!llfind(curkey->sigs, &cursig, p)) {
72                                 curkey->sigs = addkey(curkey->sigs, cursig);
73                                 ++sigs;
74                         }
75
76                         if ((cursign=findinhash(cursig))==NULL) {
77                                 cursign = createandaddtohash(cursig);
78                         }
79
80 //SIGNS                 if (!llfind(cursign->signs, curkey, p)) {
81 //SIGNS                         cursign->signs = addkey(cursign->signs,
82 //SIGNS                                         curkey->keyid);
83 //SIGNS                 }
84                 } else if (curline[0]=='N') {
85 /*                      if (curkey->name==NULL) {
86                                 curkey->name=strdup(&curline[1]);
87                                 curkey->name[strlen(curkey->name)-1]=0;
88                                 if (strcmp(curkey->name, "[revoked]")==0) {
89                                         curkey->revoked=1;
90                                         ++revoked;
91                                 }
92                         } */
93                 }
94                 fgets(curline, 1023, keyfile);
95         }
96         fclose(keyfile);
97         printf("\rRead %ld keys, %ld pub, %ld sigs, %ld revoked.\n", keys, pub, sigs, revoked);
98         printf("\rRead %ld keys, %ld pub, %ld sigs, %ld revoked.\n", keys, pub, sigs, revoked);
99 }
100
101
102 void DFSVisit(int type, struct stats_key *key, unsigned long *time, unsigned long *depth)
103 {
104         struct ll *curkey;
105         struct stats_key *v;
106
107         key->colour=1;
108 //      key->d=(*time)++;
109
110         if (type == 0) {
111 //SIGNS         curkey = key->signs;
112         } else {
113                 curkey = key->sigs;
114         }
115         while (curkey != NULL) {
116                 v = (struct stats_key *)findinhash(
117                                 ((struct stats_key *) curkey->object)->keyid);
118                 if (v == NULL) {
119                         printf("Couldn't find key in hash. Most odd.\n");
120                 }
121                 if (v != NULL && v->colour == 0) {
122                         if (type == 1 && key->parent == 0) {
123                                 printf("key->parent is 0.\n");
124                         } else if (type == 1) {
125                                 key->parent->object = lladd(key->parent->object,
126                                                 v);
127                                 v->parent = key->parent;
128                         }
129
130                         (*depth)++;
131                         DFSVisit(type, v, time, depth);
132                 }
133                 curkey=curkey->next;
134         }
135         key->colour = 2;
136 //      key->f=(*time)++;
137         if (type == 0) {
138                 finished=lladd(finished, key);
139         }
140 }
141
142
143 unsigned long DFS(void)
144 {
145         unsigned long loop,time=0,depth,maxdepth=0;
146         struct ll *curkey;
147
148         initcolour(1);
149         for (loop=0; loop<HASHSIZE; loop++) {
150                 curkey=gethashtableentry(loop);
151                 while (curkey!=NULL) {
152                         if (((struct stats_key *)curkey->object)->colour==0) {
153                                 depth=0;
154                                 DFSVisit(0, ((struct stats_key *)curkey->object),
155                                         &time, &depth);
156                                 if (depth>maxdepth) maxdepth=depth;
157                         }
158                         curkey=curkey->next;
159                 }
160         }
161         return maxdepth;
162 }
163
164
165 unsigned long DFSsorted(void)
166 {
167         unsigned long time=0,depth,maxdepth=0;
168         struct ll *curkey;
169
170         initcolour(1);
171         curkey=finished;
172         while (curkey != NULL) {
173                 if (((struct stats_key *)curkey->object)->colour == 0) {
174                         trees = lladd(trees, curkey->object);
175                         ((struct stats_key *)curkey->object)->parent =
176                                 trees;
177                         ((struct stats_key *)curkey->object)->parent->object =
178                                 lladd(NULL, curkey->object);
179
180                         depth = 0;
181                         DFSVisit(1, ((struct stats_key *)curkey->object),
182                                 &time, &depth);
183                         if (depth>maxdepth) {
184                                 maxdepth = depth;
185                         }
186                 }
187                 curkey = curkey->next;
188         }
189         return maxdepth;
190 }
191
192 long checkselfsig()
193 {
194         unsigned long loop;
195         struct ll *curkey;
196         unsigned long selfsig=0;
197
198         for (loop = 0; loop < HASHSIZE; loop++) {
199                 curkey = gethashtableentry(loop);
200                 while (curkey != NULL) {
201 //SELFSIGNED            if (((struct stats_key *)curkey->object)->selfsigned) {
202 //SELFSIGNED                    ++selfsig;
203 //SELFSIGNED            }
204                         curkey = curkey->next;
205                 }
206         }
207
208         return selfsig;
209 }
210
211
212 unsigned long countdegree(struct stats_key *have, int sigs, int maxdegree)
213 {
214         unsigned long count = 0, curdegree = 0;
215         struct ll *curll, *nextll, *sigll, *tmp;
216
217         ++curdegree;
218
219         nextll = NULL;
220         curll = lladd(NULL, have);
221
222         while (curll != NULL && curdegree <= maxdegree) {
223                 if (sigs) {
224                         sigll = ((struct stats_key *)curll->object)->sigs;
225                 } else {
226 //SIGNS                 sigll = ((struct stats_key *)curll->object)->signs;
227                 }
228                 while (sigll!=NULL) {
229                         if (((struct stats_key *) sigll->object)->colour==0) {
230                                 /* We've never seen it. Count it, mark it and
231                                         explore its subtree */
232                                 count++;
233                                 ((struct stats_key *)sigll->object)->colour=curdegree;
234                                 ((struct stats_key *)sigll->object)->parent = 
235                                         ((struct stats_key *)
236                                          curll->object)->keyid;
237                                 nextll=lladd(nextll, sigll->object);
238                         }
239                         sigll = sigll->next;
240                 }
241                 tmp = curll->next;
242                 free(curll);
243                 curll = tmp;
244                 if (curll == NULL) {
245                         curll = nextll;
246                         nextll = NULL;
247                         ++curdegree;
248                 };
249         }
250
251         return count;
252 }
253