Allow IPv6 address entry in tools>ping - Loosens valid character check
[tomato/davidwu.git] / release / src / router / pptp-client / vector.c
bloba26c5debcabc7a24eee757191508379134a7b94f
1 /* vector.c ..... store a vector of PPTP_CALL information and search it
2 * efficiently.
3 * C. Scott Ananian <cananian@alumni.princeton.edu>
5 * $Id: vector.c,v 1.3 2003/06/17 10:12:55 reink Exp $
6 */
8 #include <stdlib.h>
9 #include <string.h>
10 #include <assert.h>
11 #include "pptp_ctrl.h"
12 #include "vector.h"
13 /* #define VECTOR_DEBUG */
14 #ifndef TRUE
15 #define TRUE 1
16 #endif
17 #ifndef FALSE
18 #define FALSE 0
19 #endif
21 struct vector_item {
22 int key;
23 PPTP_CALL *call;
26 struct vector_struct {
27 struct vector_item *item;
28 int size;
29 int alloc;
30 #ifdef VECTOR_DEBUG
31 int key_max;
32 #endif
35 static struct vector_item *binary_search(VECTOR *v, int key);
37 /*** vector_create ************************************************************/
38 VECTOR *vector_create()
40 const int INITIAL_SIZE = 4;
42 VECTOR *v = malloc(sizeof(*v));
43 if (v == NULL) return v;
45 v->size = 0;
46 v->alloc = INITIAL_SIZE;
47 v->item = malloc(sizeof(*(v->item)) * (v->alloc));
48 #ifdef VECTOR_DEBUG
49 v->key_max = -1;
50 #endif
51 if (v->item == NULL) { free(v); return NULL; }
52 else return v;
55 /*** vector_destroy ***********************************************************/
56 void vector_destroy(VECTOR *v)
58 free(v->item);
59 #ifdef VECTOR_DEBUG
60 v->item = NULL;
61 #endif
62 free(v);
65 /*** vector_size **************************************************************/
66 int vector_size(VECTOR *v)
68 assert(v != NULL);
69 return v->size;
72 /*** vector_insert*************************************************************
73 * nice thing about file descriptors is that we are assured by POSIX
74 * that they are monotonically increasing.
76 int vector_insert(VECTOR *v, int key, PPTP_CALL * call)
78 int i;
79 assert(v != NULL && call != NULL);
80 assert(!vector_contains(v, key));
81 #ifdef VECTOR_DEBUG
82 assert(v->key_max < key);
83 #endif
84 if (!(v->size < v->alloc)) {
85 void *tmp = realloc(v->item, sizeof(*(v->item)) * 2 * v->alloc);
86 if (tmp != NULL) {
87 v->alloc *= 2;
88 v->item = tmp;
89 } else return FALSE; /* failed to alloc memory. */
91 assert(v->size < v->alloc);
92 /* for safety, we make this work in the general case;
93 * but this is optimized for adding call to the end of the vector.
95 for(i = v->size - 1; i >= 0; i--)
96 if (v->item[i].key < key)
97 break;
98 /* insert after item i */
99 memmove(&v->item[i + 2], &v->item[i + 1],
100 (v->size - i - 1) * sizeof(*(v->item)));
101 v->item[i + 1].key = key;
102 v->item[i + 1].call = call;
103 v->size++;
104 #ifdef VECTOR_DEBUG
105 if (v->key_max < key) /* ie, always. */
106 v->key_max = key;
107 #endif
108 return TRUE;
111 /*** vector_remove ************************************************************/
112 int vector_remove(VECTOR *v, int key)
114 struct vector_item *tmp;
115 assert(v != NULL);
116 if ((tmp =binary_search(v,key)) == NULL) return FALSE;
117 assert(tmp >= v->item && tmp < v->item + v->size);
118 memmove(tmp, tmp + 1, (v->size - (v->item - tmp) - 1) * sizeof(*(v->item)));
119 v->size--;
120 return TRUE;
123 /*** vector_search ************************************************************/
124 int vector_search(VECTOR *v, int key, PPTP_CALL **call)
126 struct vector_item *tmp;
127 assert(v != NULL);
128 tmp = binary_search(v, key);
129 if (tmp ==NULL) return FALSE;
130 *call = tmp->call;
131 return TRUE;
134 /*** vector_contains **********************************************************/
135 int vector_contains(VECTOR *v, int key)
137 assert(v != NULL);
138 return (binary_search(v, key) != NULL);
141 /*** vector_item **************************************************************/
142 static struct vector_item *binary_search(VECTOR *v, int key)
144 int l,r,x;
145 l = 0;
146 r = v->size - 1;
147 while (r >= l) {
148 x = (l + r)/2;
149 if (key < v->item[x].key) r = x - 1; else l = x + 1;
150 if (key == v->item[x].key) return &(v->item[x]);
152 return NULL;
155 /*** vector_scan ***************************************************************
156 * Hmm. Let's be fancy and use a binary search for the first
157 * unused key, taking advantage of the list is stored sorted; ie
158 * we can look at pointers and keys at two different locations,
159 * and if (ptr1 - ptr2) = (key1 - key2) then all the slots
160 * between ptr1 and ptr2 are filled. Note that ptr1-ptr2 should
161 * never be greater than key1-key2 (no duplicate keys!)... we
162 * check for this.
164 int vector_scan(VECTOR *v, int lo, int hi, int *key)
166 int l,r,x;
167 assert(v != NULL);
168 assert(key != NULL);
169 if ((v->size<1) || (lo < v->item[0].key)) { *key = lo; return TRUE; }
170 /* our array bounds */
171 l = 0; r = v->size - 1;
172 while (r > l) {
173 /* check for a free spot right after l */
174 if (v->item[l].key + 1 < v->item[l + 1].key) { /* found it! */
175 *key = v->item[l].key + 1;
176 return TRUE;
178 /* no dice. Let's see if the free spot is before or after the midpoint */
179 x = (l + r)/2;
180 /* Okay, we have right (r), left (l) and the probe (x). */
181 assert(x - l <= v->item[x].key - v->item[l].key);
182 assert(r - x <= v->item[r].key - v->item[x].key);
183 if (x - l < v->item[x].key - v->item[l].key)
184 /* room between l and x */
185 r = x;
186 else /* no room between l and x */
187 if (r - x < v->item[r].key - v->item[x].key)
188 /* room between x and r */
189 l = x;
190 else /* no room between x and r, either */
191 break; /* game over, man. */
193 /* no room found in already allocated space. Check to see if
194 * there's free space above allocated entries. */
195 if (v->item[v->size - 1].key < hi) {
196 *key = v->item[v->size - 1].key + 1;
197 return TRUE;
199 /* outta luck */
200 return FALSE;
203 /*** vector_get_Nth ***********************************************************/
204 PPTP_CALL * vector_get_Nth(VECTOR *v, int n)
206 assert(v != NULL);
207 assert(0 <= n && n < vector_size(v));
208 return v->item[n].call;