/src/openssl35/include/internal/hashtable.h
Line | Count | Source |
1 | | /* |
2 | | * Copyright 2024-2025 The OpenSSL Project Authors. All Rights Reserved. |
3 | | * |
4 | | * Licensed under the Apache License 2.0 (the "License"). You may not use |
5 | | * this file except in compliance with the License. You can obtain a copy |
6 | | * in the file LICENSE in the source distribution or at |
7 | | * https://www.openssl.org/source/license.html |
8 | | */ |
9 | | |
10 | | #ifndef OPENSSL_HASHTABLE_H |
11 | | #define OPENSSL_HASHTABLE_H |
12 | | #pragma once |
13 | | |
14 | | #include <stddef.h> |
15 | | #include <stdint.h> |
16 | | #include <openssl/e_os2.h> |
17 | | #include <internal/rcu.h> |
18 | | #include "crypto/context.h" |
19 | | |
20 | | typedef struct ht_internal_st HT; |
21 | | |
22 | | /* |
23 | | * Represents a key to a hashtable |
24 | | */ |
25 | | typedef struct ht_key_header_st { |
26 | | size_t keysize; |
27 | | uint8_t *keybuf; |
28 | | } HT_KEY; |
29 | | |
30 | | /* |
31 | | * Represents a value in the hash table |
32 | | */ |
33 | | typedef struct ht_value_st { |
34 | | void *value; |
35 | | uintptr_t *type_id; |
36 | | HT_KEY key; |
37 | | } HT_VALUE; |
38 | | |
39 | | /* |
40 | | * Represents a list of values filtered from a hash table |
41 | | */ |
42 | | typedef struct ht_value_list_st { |
43 | | size_t list_len; |
44 | | HT_VALUE **list; |
45 | | } HT_VALUE_LIST; |
46 | | |
47 | | /* |
48 | | * Hashtable configuration |
49 | | */ |
50 | | typedef struct ht_config_st { |
51 | | OSSL_LIB_CTX *ctx; |
52 | | void (*ht_free_fn)(HT_VALUE *obj); |
53 | | uint64_t (*ht_hash_fn)(uint8_t *key, size_t keylen); |
54 | | size_t init_neighborhoods; |
55 | | uint32_t collision_check; |
56 | | uint32_t lockless_reads; |
57 | | } HT_CONFIG; |
58 | | |
59 | | /* |
60 | | * Hashtable key rules |
61 | | * Any struct can be used to formulate a hash table key, as long as the |
62 | | * following rules |
63 | | * 1) The first element of the struct defining the key must be an HT_KEY |
64 | | * 2) All struct elements must have a compile time defined length |
65 | | * 3) Pointers can be used, but the value of the pointer, rather than |
66 | | * the contents of the address it points to will be used to compute |
67 | | * the hash |
68 | | * The key definition macros will assist with enforcing these rules |
69 | | */ |
70 | | |
71 | | /* |
72 | | * Starts the definition of a hash table key |
73 | | */ |
74 | | #define HT_START_KEY_DEFN(keyname) \ |
75 | | typedef struct keyname##_st { \ |
76 | | HT_KEY key_header; \ |
77 | | struct { |
78 | | |
79 | | /* |
80 | | * Ends a hash table key definitions |
81 | | */ |
82 | | #define HT_END_KEY_DEFN(keyname) \ |
83 | | } \ |
84 | | keyfields; \ |
85 | | } \ |
86 | | keyname; |
87 | | |
88 | | /* |
89 | | * Defines a field in a hash table key |
90 | | */ |
91 | | #define HT_DEF_KEY_FIELD(name, type) type name; |
92 | | |
93 | | /* |
94 | | * convenience macro to define a static char |
95 | | * array field in a hash table key |
96 | | */ |
97 | | #define HT_DEF_KEY_FIELD_CHAR_ARRAY(name, size) \ |
98 | | HT_DEF_KEY_FIELD(name[size], char) |
99 | | |
100 | | /* |
101 | | * Defines a uint8_t (blob) field in a hash table key |
102 | | */ |
103 | | #define HT_DEF_KEY_FIELD_UINT8T_ARRAY(name, size) \ |
104 | | HT_DEF_KEY_FIELD(name[size], uint8_t) |
105 | | |
106 | | /* |
107 | | * Initializes a key |
108 | | */ |
109 | | #define HT_INIT_KEY(key) \ |
110 | 33.6M | do { \ |
111 | 33.6M | memset((key), 0, sizeof(*(key))); \ |
112 | 33.6M | (key)->key_header.keysize = (sizeof(*(key)) - sizeof(HT_KEY)); \ |
113 | 33.6M | (key)->key_header.keybuf = (((uint8_t *)key) + sizeof(HT_KEY)); \ |
114 | 33.6M | } while (0) |
115 | | |
116 | | /* |
117 | | * Resets a hash table key to a known state |
118 | | */ |
119 | 101 | #define HT_KEY_RESET(key) memset((key)->key_header.keybuf, 0, (key)->key_header.keysize) |
120 | | |
121 | | /* |
122 | | * Sets a scalar field in a hash table key |
123 | | */ |
124 | 101 | #define HT_SET_KEY_FIELD(key, member, value) (key)->keyfields.member = value; |
125 | | |
126 | | /* |
127 | | * Sets a string field in a hash table key, preserving |
128 | | * null terminator |
129 | | */ |
130 | | #define HT_SET_KEY_STRING(key, member, value) \ |
131 | | do { \ |
132 | | if ((value) != NULL) \ |
133 | | strncpy((key)->keyfields.member, value, sizeof((key)->keyfields.member) - 1); \ |
134 | | } while (0) |
135 | | |
136 | | /* |
137 | | * This is the same as HT_SET_KEY_STRING, except that it uses |
138 | | * ossl_ht_strcase to make the value being passed case insensitive |
139 | | * This is useful for instances in which we want upper and lower case |
140 | | * key value to hash to the same entry |
141 | | */ |
142 | | #define HT_SET_KEY_STRING_CASE(key, member, value) \ |
143 | 32.6M | do { \ |
144 | 32.6M | ossl_ht_strcase((key)->keyfields.member, value, sizeof((key)->keyfields.member) - 1); \ |
145 | 32.6M | } while (0) |
146 | | |
147 | | /* |
148 | | * Same as HT_SET_KEY_STRING but also takes length of the string. |
149 | | */ |
150 | | #define HT_SET_KEY_STRING_N(key, member, value, len) \ |
151 | | do { \ |
152 | | if ((value) != NULL) { \ |
153 | | if (len < sizeof((key)->keyfields.member)) \ |
154 | | strncpy((key)->keyfields.member, value, len); \ |
155 | | else \ |
156 | | strncpy((key)->keyfields.member, value, sizeof((key)->keyfields.member) - 1); \ |
157 | | } \ |
158 | | } while (0) |
159 | | |
160 | | /* Same as HT_SET_KEY_STRING_CASE but also takes length of the string. */ |
161 | | #define HT_SET_KEY_STRING_CASE_N(key, member, value, len) \ |
162 | 1.01M | do { \ |
163 | 1.01M | if (len < sizeof((key)->keyfields.member)) \ |
164 | 1.01M | ossl_ht_strcase((key)->keyfields.member, value, len); \ |
165 | 1.01M | else \ |
166 | 1.01M | ossl_ht_strcase((key)->keyfields.member, value, sizeof((key)->keyfields.member) - 1); \ |
167 | 1.01M | } while (0) |
168 | | |
169 | | /* |
170 | | * Sets a uint8_t (blob) field in a hash table key |
171 | | */ |
172 | | #define HT_SET_KEY_BLOB(key, member, value, len) \ |
173 | | do { \ |
174 | | if (value != NULL) \ |
175 | | memcpy((key)->keyfields.member, value, len); \ |
176 | | } while (0) |
177 | | |
178 | | /* |
179 | | * Converts a defined key type to an HT_KEY |
180 | | */ |
181 | 33.6M | #define TO_HT_KEY(key) &(key)->key_header |
182 | | |
183 | | /* |
184 | | * Converts an HT_KEY back to its defined |
185 | | * type |
186 | | */ |
187 | | #define FROM_HT_KEY(key, type) (type)(key) |
188 | | |
189 | | /* |
190 | | * Implements the following type safe operations for a hash table |
191 | | * ossl_ht_NAME_TYPE_insert - insert a value to a hash table of type TYPE |
192 | | * ossl_ht_NAME_TYPE_get - gets a value of a specific type from the hash table |
193 | | * ossl_ht_NAME_TYPE_from_value - converts an HT_VALUE to its type |
194 | | * ossl_ht_NAME_TYPE_to_value - converts a TYPE to an HT_VALUE |
195 | | * ossl_ht_NAME_TYPE_type - boolean to detect if a value is of TYPE |
196 | | */ |
197 | | #define IMPLEMENT_HT_VALUE_TYPE_FNS(vtype, name, pfx) \ |
198 | | static uintptr_t name##_##vtype##_id = 0; \ |
199 | | pfx ossl_unused int ossl_ht_##name##_##vtype##_insert(HT *h, HT_KEY *key, \ |
200 | | vtype *data, \ |
201 | | vtype **olddata) \ |
202 | 103 | { \ |
203 | 103 | HT_VALUE inval; \ |
204 | 103 | HT_VALUE *oval = NULL; \ |
205 | 103 | int rc; \ |
206 | 103 | \ |
207 | 103 | inval.value = data; \ |
208 | 103 | inval.type_id = &name##_##vtype##_id; \ |
209 | 103 | rc = ossl_ht_insert(h, key, &inval, olddata == NULL ? NULL : &oval); \ |
210 | 103 | if (oval != NULL) \ |
211 | 103 | *olddata = (vtype *)oval->value; \ |
212 | 103 | return rc; \ |
213 | 103 | } \ |
214 | | \ |
215 | | pfx ossl_unused vtype *ossl_ht_##name##_##vtype##_from_value(HT_VALUE *v) \ |
216 | 767 | { \ |
217 | 767 | uintptr_t *expect_type = &name##_##vtype##_id; \ |
218 | 767 | if (v == NULL) \ |
219 | 767 | return NULL; \ |
220 | 767 | if (v->type_id != expect_type) \ |
221 | 767 | return NULL; \ |
222 | 767 | return (vtype *)v->value; \ |
223 | 767 | } \ |
224 | | \ |
225 | | pfx ossl_unused vtype *ossl_unused ossl_ht_##name##_##vtype##_get(HT *h, \ |
226 | | HT_KEY *key, \ |
227 | | HT_VALUE **v) \ |
228 | 64 | { \ |
229 | 64 | HT_VALUE *vv; \ |
230 | 64 | vv = ossl_ht_get(h, key); \ |
231 | 64 | if (vv == NULL) \ |
232 | 64 | return NULL; \ |
233 | 64 | *v = ossl_rcu_deref(&vv); \ |
234 | 6 | return ossl_ht_##name##_##vtype##_from_value(*v); \ |
235 | 64 | } \ |
236 | | \ |
237 | | pfx ossl_unused HT_VALUE *ossl_ht_##name##_##vtype##_to_value(vtype *data, \ |
238 | | HT_VALUE *v) \ |
239 | 6 | { \ |
240 | 6 | v->type_id = &name##_##vtype##_id; \ |
241 | 6 | v->value = data; \ |
242 | 6 | return v; \ |
243 | 6 | } \ |
244 | | \ |
245 | | pfx ossl_unused int ossl_ht_##name##_##vtype##_type(HT_VALUE *h) \ |
246 | 6 | { \ |
247 | 6 | return h->type_id == &name##_##vtype##_id; \ |
248 | 6 | } |
249 | | |
250 | | #define DECLARE_HT_VALUE_TYPE_FNS(vtype, name) \ |
251 | | int ossl_ht_##name##_##vtype##_insert(HT *h, HT_KEY *key, vtype *data, \ |
252 | | vtype **olddata); \ |
253 | | vtype *ossl_ht_##name##_##vtype##_from_value(HT_VALUE *v); \ |
254 | | vtype *ossl_unused ossl_ht_##name##_##vtype##_get(HT *h, \ |
255 | | HT_KEY *key, \ |
256 | | HT_VALUE **v); \ |
257 | | HT_VALUE *ossl_ht_##name##_##vtype##_to_value(vtype *data, HT_VALUE *v); \ |
258 | | int ossl_ht_##name##_##vtype##_type(HT_VALUE *h); |
259 | | |
260 | | /* |
261 | | * Helper function to construct case insensitive keys |
262 | | */ |
263 | | static void ossl_unused ossl_ht_strcase(char *tgt, const char *src, int len) |
264 | 33.6M | { |
265 | 33.6M | int i; |
266 | | #if defined(CHARSET_EBCDIC) && !defined(CHARSET_EBCDIC_TEST) |
267 | | const long int case_adjust = ~0x40; |
268 | | #else |
269 | 33.6M | const long int case_adjust = ~0x20; |
270 | 33.6M | #endif |
271 | | |
272 | 33.6M | if (src == NULL) |
273 | 0 | return; |
274 | | |
275 | 266M | for (i = 0; src[i] != '\0' && i < len; i++) |
276 | 233M | tgt[i] = case_adjust & src[i]; |
277 | 33.6M | } core_namemap.c:ossl_ht_strcase Line | Count | Source | 264 | 33.6M | { | 265 | 33.6M | int i; | 266 | | #if defined(CHARSET_EBCDIC) && !defined(CHARSET_EBCDIC_TEST) | 267 | | const long int case_adjust = ~0x40; | 268 | | #else | 269 | 33.6M | const long int case_adjust = ~0x20; | 270 | 33.6M | #endif | 271 | | | 272 | 33.6M | if (src == NULL) | 273 | 0 | return; | 274 | | | 275 | 266M | for (i = 0; src[i] != '\0' && i < len; i++) | 276 | 233M | tgt[i] = case_adjust & src[i]; | 277 | 33.6M | } |
Unexecuted instantiation: hashtable.c:ossl_ht_strcase |
278 | | |
279 | | /* |
280 | | * Create a new hashtable |
281 | | */ |
282 | | HT *ossl_ht_new(const HT_CONFIG *conf); |
283 | | |
284 | | /* |
285 | | * Frees a hash table, potentially freeing all elements |
286 | | */ |
287 | | void ossl_ht_free(HT *htable); |
288 | | |
289 | | /* |
290 | | * Lock the table for reading |
291 | | */ |
292 | | void ossl_ht_read_lock(HT *htable); |
293 | | |
294 | | /* |
295 | | * Lock the table for writing |
296 | | */ |
297 | | void ossl_ht_write_lock(HT *htable); |
298 | | |
299 | | /* |
300 | | * Read unlock |
301 | | */ |
302 | | void ossl_ht_read_unlock(HT *htable); |
303 | | |
304 | | /* |
305 | | * Write unlock |
306 | | */ |
307 | | void ossl_ht_write_unlock(HT *htable); |
308 | | |
309 | | /* |
310 | | * Empties a hash table, potentially freeing all elements |
311 | | */ |
312 | | int ossl_ht_flush(HT *htable); |
313 | | |
314 | | /* |
315 | | * Inserts an element to a hash table, optionally returning |
316 | | * replaced data to caller |
317 | | * Returns 1 if the insert was successful, 0 on error |
318 | | */ |
319 | | int ossl_ht_insert(HT *htable, HT_KEY *key, HT_VALUE *data, |
320 | | HT_VALUE **olddata); |
321 | | |
322 | | /* |
323 | | * Deletes a value from a hash table, based on key |
324 | | * Returns 1 if the key was removed, 0 if they key was not found |
325 | | */ |
326 | | int ossl_ht_delete(HT *htable, HT_KEY *key); |
327 | | |
328 | | /* |
329 | | * Returns number of elements in the hash table |
330 | | */ |
331 | | size_t ossl_ht_count(HT *htable); |
332 | | |
333 | | /* |
334 | | * Iterates over each element in the table. |
335 | | * aborts the loop when cb returns 0 |
336 | | * Contents of elements in the list may be modified during |
337 | | * this traversal, assuming proper thread safety is observed while doing |
338 | | * so (holding the table write lock is sufficient). However, elements of the |
339 | | * table may not be inserted or removed while iterating. |
340 | | */ |
341 | | void ossl_ht_foreach_until(HT *htable, int (*cb)(HT_VALUE *obj, void *arg), |
342 | | void *arg); |
343 | | /* |
344 | | * Returns a list of elements in a hash table based on |
345 | | * filter function return value. Returns NULL on error, |
346 | | * or an HT_VALUE_LIST object on success. Note it is possible |
347 | | * That a list will be returned with 0 entries, if none were found. |
348 | | * The zero length list must still be freed via ossl_ht_value_list_free |
349 | | */ |
350 | | HT_VALUE_LIST *ossl_ht_filter(HT *htable, size_t max_len, |
351 | | int (*filter)(HT_VALUE *obj, void *arg), |
352 | | void *arg); |
353 | | /* |
354 | | * Frees the list returned from ossl_ht_filter |
355 | | */ |
356 | | void ossl_ht_value_list_free(HT_VALUE_LIST *list); |
357 | | |
358 | | /* |
359 | | * Fetches a value from the hash table, based |
360 | | * on key. Returns NULL if the element was not found. |
361 | | */ |
362 | | HT_VALUE *ossl_ht_get(HT *htable, HT_KEY *key); |
363 | | |
364 | | #endif |