ui: Print empty rows when clearing table
[netsniff-ng-new.git] / patricia.c
blob29415ccc491e36f7e3e032b6f0d97036d859f1be
1 /*
2 * netsniff-ng - the packet sniffing beast
3 * Copyright 2011 Daniel Borkmann, rewritten
4 * Copyright 1991-2007 Kawahara Lab., Kyoto University
5 * Copyright 2000-2005 Shikano Lab., Nara Institute of Science and Technology
6 * Copyright 2005-2007 Julius project team, Nagoya Institute of Technology
7 * All rights reserved
8 * Subject to the GPL, version 2.
9 */
11 #include <stdio.h>
12 #include <string.h>
13 #include <errno.h>
15 #include "patricia.h"
16 #include "built_in.h"
17 #include "xmalloc.h"
19 static const unsigned char mbit[] = { 0x80, 0x40, 0x20, 0x10, 0x08, 0x04, 0x02, 0x01 };
21 static inline int testbit(char *str, size_t slen, int bitplace)
23 int maskptr;
25 if ((maskptr = bitplace >> 3) > slen)
26 return 0;
28 return (str[maskptr] & mbit[bitplace & 7]);
31 static inline int testbit_max(char *str, int bitplace, int maxbitplace)
33 if (bitplace >= maxbitplace)
34 return 0;
36 return (str[bitplace >> 3] & mbit[bitplace & 7]);
39 static int where_the_bit_differ(char *str1, size_t l1, char *str2, size_t l2)
41 int p = 0, bitloc;
43 while (str1[p] == str2[p])
44 p++;
46 bitloc = p * 8;
48 while (testbit(str1, l1, bitloc) == testbit(str2, l2, bitloc))
49 bitloc++;
51 return bitloc;
54 static struct patricia_node *new_node(void)
56 struct patricia_node *n = xzmalloc(sizeof(*n));
58 n->l = n->r = NULL;
60 return n;
63 static void free_node(struct patricia_node *n)
65 free(n->key);
66 free(n->addr);
67 xfree(n);
70 void ptree_display(struct patricia_node *node, int level)
72 int i;
74 for (i = 0; i < level; ++i)
75 printf("-");
77 if (node->l == NULL && node->r == NULL)
78 printf("leaf: (%s -> %d)\n", (char *) node->key, node->value.data);
79 else {
80 printf("thres: %d\n", node->value.thres_bit);
82 if (node->l != NULL)
83 ptree_display(node->l, level + 1);
84 if (node->r != NULL)
85 ptree_display(node->r, level + 1);
89 void ptree_get_key(int data, struct patricia_node *node,
90 struct patricia_node **wanted)
92 if (!node)
93 return;
95 if (node->l == NULL && node->r == NULL) {
96 if (node->value.data == data)
97 (*wanted) = node;
98 } else {
99 if (node->l != NULL)
100 ptree_get_key(data, node->l, wanted);
101 if (node->r != NULL)
102 ptree_get_key(data, node->r, wanted);
106 void ptree_get_key_addr(struct sockaddr_storage *addr, size_t alen,
107 struct patricia_node *node, struct patricia_node **wanted)
109 if (!node)
110 return;
112 if (node->l == NULL && node->r == NULL) {
113 if (!memcmp(node->addr, addr, node->alen))
114 (*wanted) = node;
115 } else {
116 if (node->l != NULL)
117 ptree_get_key_addr(addr, alen, node->l, wanted);
118 if (node->r != NULL)
119 ptree_get_key_addr(addr, alen, node->r, wanted);
123 static int ptree_search_data_r(struct patricia_node *node, char *str, size_t slen,
124 struct sockaddr_storage *addr, size_t *alen, int maxbitplace)
126 if (node->l == NULL && node->r == NULL) {
127 if (node->addr && addr)
128 memcpy(addr, node->addr, node->alen);
130 (*alen) = node->alen;
132 return node->value.data;
135 if (testbit_max(str, node->value.thres_bit, maxbitplace) != 0)
136 return ptree_search_data_r(node->r, str, slen, addr, alen, maxbitplace);
137 else
138 return ptree_search_data_r(node->l, str, slen, addr, alen, maxbitplace);
141 static int *ptree_search_data_r_p(struct patricia_node *node, char *str,
142 size_t slen, int maxbitplace)
144 if (node->l == NULL && node->r == NULL)
145 return &(node->value.data);
147 if (testbit_max(str, node->value.thres_bit, maxbitplace) != 0)
148 return ptree_search_data_r_p(node->r, str, slen, maxbitplace);
149 else
150 return ptree_search_data_r_p(node->l, str, slen, maxbitplace);
153 static int ptree_search_data_r_x(struct patricia_node *node, char *str,
154 size_t slen, struct sockaddr_storage *addr,
155 size_t *alen, int maxbitplace)
157 if (node->l == NULL && node->r == NULL) {
158 if (node->klen == slen && !memcmp(str, node->key, node->klen)) {
159 if (node->addr && addr)
160 memcpy(addr, node->addr, node->alen);
162 (*alen) = node->alen;
164 return node->value.data;
165 } else
166 return -ENOENT;
169 if (testbit_max(str, node->value.thres_bit, maxbitplace) != 0)
170 return ptree_search_data_r_x(node->r, str, slen, addr, alen, maxbitplace);
171 else
172 return ptree_search_data_r_x(node->l, str, slen, addr, alen, maxbitplace);
175 int ptree_search_data_nearest(void *str, size_t sstr, struct sockaddr_storage *addr,
176 size_t *alen, struct patricia_node *root)
178 if (!root)
179 return -ENOENT;
181 return ptree_search_data_r(root, str, sstr, addr, alen, sstr * 8);
184 static int *ptree_search_data_nearest_ptr(char *str, size_t sstr,
185 struct patricia_node *root)
187 return ptree_search_data_r_p(root, str, sstr, sstr * 8);
190 int ptree_search_data_exact(void *str, size_t sstr, struct sockaddr_storage *addr,
191 size_t *alen, struct patricia_node *root)
193 if (!root)
194 return -ENOENT;
196 return ptree_search_data_r_x(root, str, sstr, addr, alen, sstr * 8);
199 static struct patricia_node *ptree_make_root_node(char *str, size_t sstr,
200 int data, struct sockaddr_storage *addr,
201 size_t alen)
203 struct patricia_node *n = new_node();
205 n->value.data = data;
206 n->key = xmemdupz(str, sstr);
207 n->klen = sstr;
208 if (addr)
209 n->addr = xmemdupz(addr, alen);
210 else
211 n->addr = NULL;
212 n->alen = alen;
214 return n;
217 static void ptree_add_entry_at(char *str, size_t slen, int bitloc, int data,
218 struct sockaddr_storage *addr, size_t alen,
219 struct patricia_node **parentlink)
221 struct patricia_node *node = (*parentlink);
223 if (node->value.thres_bit > bitloc || (node->l == NULL && node->r == NULL)) {
224 struct patricia_node *newleaf, *newbranch;
226 newleaf = new_node();
227 newleaf->value.data = data;
228 newleaf->key = xmemdupz(str, slen);
229 newleaf->klen = slen;
231 if (addr)
232 newleaf->addr = xmemdupz(addr, alen);
233 else
234 newleaf->addr = NULL;
235 newleaf->alen = alen;
237 newbranch = new_node();
238 newbranch->value.thres_bit = bitloc;
239 (*parentlink) = newbranch;
241 if (testbit(str, slen, bitloc) ==0) {
242 newbranch->l = newleaf;
243 newbranch->r = node;
244 } else {
245 newbranch->l = node;
246 newbranch->r = newleaf;
248 } else {
249 if (testbit(str, slen, node->value.thres_bit) != 0)
250 ptree_add_entry_at(str, slen, bitloc, data, addr, alen, &(node->r));
251 else
252 ptree_add_entry_at(str, slen, bitloc, data, addr, alen, &(node->l));
256 int ptree_add_entry(void *str, size_t sstr, int data, struct sockaddr_storage *addr,
257 size_t alen, struct patricia_node **root)
259 int *ptr, bitloc, malicious = 0;
260 struct patricia_node *n;
262 if (!(*root))
263 (*root) = ptree_make_root_node(str, sstr, data, addr, alen);
264 else {
265 ptr = ptree_search_data_nearest_ptr(str, sstr, (*root));
266 n = container_of(ptr, struct patricia_node, value.data);
268 if (n->klen == sstr && !memcmp(str, n->key, n->klen)) {
269 /* Make sure if entry exists, that we also have the
270 * same data, otherwise, we drop the packet */
271 if (n->value.data != data)
272 malicious = 1;
273 else if (n->alen != alen)
274 malicious = 1;
275 else if ((n->addr && !addr) || (!n->addr && addr))
276 malicious = 1;
277 else if (n->alen == alen && n->addr && addr) {
278 if (memcmp(n->addr, addr, alen))
279 malicious = 1;
282 return malicious;
285 bitloc = where_the_bit_differ(str, sstr, n->key, n->klen);
286 ptree_add_entry_at(str, sstr, bitloc, data, addr, alen, root);
289 return malicious;
292 static void ptree_remove_entry_r(struct patricia_node *now,
293 struct patricia_node *up,
294 struct patricia_node *up2,
295 char *str, size_t slen, int maxbitplace,
296 struct patricia_node **root)
298 struct patricia_node *b;
300 if (now->l == NULL && now->r == NULL) {
301 if (now->klen != slen)
302 return;
303 if (memcmp(now->key, str, slen))
304 return;
305 if (up == NULL) {
306 *root = NULL;
307 free_node(now);
308 return;
311 b = (up->r == now) ? up->l : up->r;
313 if (up2 == NULL) {
314 *root = b;
315 free_node(now);
316 free_node(up);
317 return;
319 if (up2->l == up)
320 up2->l = b;
321 else
322 up2->r = b;
324 free_node(now);
325 free_node(up);
326 } else {
327 if (testbit_max(str, now->value.thres_bit, maxbitplace) != 0)
328 ptree_remove_entry_r(now->r, now, up, str, slen, maxbitplace, root);
329 else
330 ptree_remove_entry_r(now->l, now, up, str, slen, maxbitplace, root);
334 void ptree_del_entry(void *str, size_t sstr, struct patricia_node **root)
336 if (!(*root))
337 return;
339 ptree_remove_entry_r(*root, NULL, NULL, str, sstr, sstr * 8, root);
342 void ptree_free(struct patricia_node *node)
344 if (!node)
345 return;
347 if (node->l)
348 ptree_free(node->l);
349 if (node->r)
350 ptree_free(node->r);
352 free_node(node);