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source: vbox/trunk/src/libs/openssl-1.1.1j/crypto/ex_data.c@ 88461

Last change on this file since 88461 was 87984, checked in by vboxsync, 4 years ago

openssl-1.1.1j: Applied and adjusted our OpenSSL changes to 1.1.1j. bugref:9963

File size: 11.1 KB
Line 
1/*
2 * Copyright 1995-2020 The OpenSSL Project Authors. All Rights Reserved.
3 *
4 * Licensed under the OpenSSL license (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#include "internal/cryptlib.h"
11#include "internal/thread_once.h"
12
13/*
14 * Each structure type (sometimes called a class), that supports
15 * exdata has a stack of callbacks for each instance.
16 */
17struct ex_callback_st {
18 long argl; /* Arbitrary long */
19 void *argp; /* Arbitrary void * */
20 CRYPTO_EX_new *new_func;
21 CRYPTO_EX_free *free_func;
22 CRYPTO_EX_dup *dup_func;
23};
24
25/*
26 * The state for each class. This could just be a typedef, but
27 * a structure allows future changes.
28 */
29typedef struct ex_callbacks_st {
30 STACK_OF(EX_CALLBACK) *meth;
31} EX_CALLBACKS;
32
33static EX_CALLBACKS ex_data[CRYPTO_EX_INDEX__COUNT];
34
35static CRYPTO_RWLOCK *ex_data_lock = NULL;
36static CRYPTO_ONCE ex_data_init = CRYPTO_ONCE_STATIC_INIT;
37
38DEFINE_RUN_ONCE_STATIC(do_ex_data_init)
39{
40 if (!OPENSSL_init_crypto(0, NULL))
41 return 0;
42 ex_data_lock = CRYPTO_THREAD_lock_new();
43 return ex_data_lock != NULL;
44}
45
46/*
47 * Return the EX_CALLBACKS from the |ex_data| array that corresponds to
48 * a given class. On success, *holds the lock.*
49 */
50static EX_CALLBACKS *get_and_lock(int class_index)
51{
52 EX_CALLBACKS *ip;
53
54 if (class_index < 0 || class_index >= CRYPTO_EX_INDEX__COUNT) {
55 CRYPTOerr(CRYPTO_F_GET_AND_LOCK, ERR_R_PASSED_INVALID_ARGUMENT);
56 return NULL;
57 }
58
59 if (!RUN_ONCE(&ex_data_init, do_ex_data_init)) {
60 CRYPTOerr(CRYPTO_F_GET_AND_LOCK, ERR_R_MALLOC_FAILURE);
61 return NULL;
62 }
63
64 if (ex_data_lock == NULL) {
65 /*
66 * This can happen in normal operation when using CRYPTO_mem_leaks().
67 * The CRYPTO_mem_leaks() function calls OPENSSL_cleanup() which cleans
68 * up the locks. Subsequently the BIO that CRYPTO_mem_leaks() uses gets
69 * freed, which also attempts to free the ex_data. However
70 * CRYPTO_mem_leaks() ensures that the ex_data is freed early (i.e.
71 * before OPENSSL_cleanup() is called), so if we get here we can safely
72 * ignore this operation. We just treat it as an error.
73 */
74 return NULL;
75 }
76
77 ip = &ex_data[class_index];
78 CRYPTO_THREAD_write_lock(ex_data_lock);
79 return ip;
80}
81
82static void cleanup_cb(EX_CALLBACK *funcs)
83{
84 OPENSSL_free(funcs);
85}
86
87/*
88 * Release all "ex_data" state to prevent memory leaks. This can't be made
89 * thread-safe without overhauling a lot of stuff, and shouldn't really be
90 * called under potential race-conditions anyway (it's for program shutdown
91 * after all).
92 */
93void crypto_cleanup_all_ex_data_int(void)
94{
95 int i;
96
97 for (i = 0; i < CRYPTO_EX_INDEX__COUNT; ++i) {
98 EX_CALLBACKS *ip = &ex_data[i];
99
100 sk_EX_CALLBACK_pop_free(ip->meth, cleanup_cb);
101 ip->meth = NULL;
102 }
103
104 CRYPTO_THREAD_lock_free(ex_data_lock);
105 ex_data_lock = NULL;
106}
107
108
109/*
110 * Unregister a new index by replacing the callbacks with no-ops.
111 * Any in-use instances are leaked.
112 */
113static void dummy_new(void *parent, void *ptr, CRYPTO_EX_DATA *ad, int idx,
114 long argl, void *argp)
115{
116}
117
118static void dummy_free(void *parent, void *ptr, CRYPTO_EX_DATA *ad, int idx,
119 long argl, void *argp)
120{
121}
122
123static int dummy_dup(CRYPTO_EX_DATA *to, const CRYPTO_EX_DATA *from,
124 void *from_d, int idx,
125 long argl, void *argp)
126{
127 return 1;
128}
129
130int CRYPTO_free_ex_index(int class_index, int idx)
131{
132 EX_CALLBACKS *ip = get_and_lock(class_index);
133 EX_CALLBACK *a;
134 int toret = 0;
135
136 if (ip == NULL)
137 return 0;
138 if (idx < 0 || idx >= sk_EX_CALLBACK_num(ip->meth))
139 goto err;
140 a = sk_EX_CALLBACK_value(ip->meth, idx);
141 if (a == NULL)
142 goto err;
143 a->new_func = dummy_new;
144 a->dup_func = dummy_dup;
145 a->free_func = dummy_free;
146 toret = 1;
147err:
148 CRYPTO_THREAD_unlock(ex_data_lock);
149 return toret;
150}
151
152/*
153 * Register a new index.
154 */
155int CRYPTO_get_ex_new_index(int class_index, long argl, void *argp,
156 CRYPTO_EX_new *new_func, CRYPTO_EX_dup *dup_func,
157 CRYPTO_EX_free *free_func)
158{
159 int toret = -1;
160 EX_CALLBACK *a;
161 EX_CALLBACKS *ip = get_and_lock(class_index);
162
163 if (ip == NULL)
164 return -1;
165
166 if (ip->meth == NULL) {
167 ip->meth = sk_EX_CALLBACK_new_null();
168 /* We push an initial value on the stack because the SSL
169 * "app_data" routines use ex_data index zero. See RT 3710. */
170 if (ip->meth == NULL
171 || !sk_EX_CALLBACK_push(ip->meth, NULL)) {
172 CRYPTOerr(CRYPTO_F_CRYPTO_GET_EX_NEW_INDEX, ERR_R_MALLOC_FAILURE);
173 goto err;
174 }
175 }
176
177 a = (EX_CALLBACK *)OPENSSL_malloc(sizeof(*a));
178 if (a == NULL) {
179 CRYPTOerr(CRYPTO_F_CRYPTO_GET_EX_NEW_INDEX, ERR_R_MALLOC_FAILURE);
180 goto err;
181 }
182 a->argl = argl;
183 a->argp = argp;
184 a->new_func = new_func;
185 a->dup_func = dup_func;
186 a->free_func = free_func;
187
188 if (!sk_EX_CALLBACK_push(ip->meth, NULL)) {
189 CRYPTOerr(CRYPTO_F_CRYPTO_GET_EX_NEW_INDEX, ERR_R_MALLOC_FAILURE);
190 OPENSSL_free(a);
191 goto err;
192 }
193 toret = sk_EX_CALLBACK_num(ip->meth) - 1;
194 (void)sk_EX_CALLBACK_set(ip->meth, toret, a);
195
196 err:
197 CRYPTO_THREAD_unlock(ex_data_lock);
198 return toret;
199}
200
201/*
202 * Initialise a new CRYPTO_EX_DATA for use in a particular class - including
203 * calling new() callbacks for each index in the class used by this variable
204 * Thread-safe by copying a class's array of "EX_CALLBACK" entries
205 * in the lock, then using them outside the lock. Note this only applies
206 * to the global "ex_data" state (ie. class definitions), not 'ad' itself.
207 */
208int CRYPTO_new_ex_data(int class_index, void *obj, CRYPTO_EX_DATA *ad)
209{
210 int mx, i;
211 void *ptr;
212 EX_CALLBACK **storage = NULL;
213 EX_CALLBACK *stack[10];
214 EX_CALLBACKS *ip = get_and_lock(class_index);
215
216 if (ip == NULL)
217 return 0;
218
219 ad->sk = NULL;
220
221 mx = sk_EX_CALLBACK_num(ip->meth);
222 if (mx > 0) {
223 if (mx < (int)OSSL_NELEM(stack))
224 storage = stack;
225 else
226 storage = OPENSSL_malloc(sizeof(*storage) * mx);
227 if (storage != NULL)
228 for (i = 0; i < mx; i++)
229 storage[i] = sk_EX_CALLBACK_value(ip->meth, i);
230 }
231 CRYPTO_THREAD_unlock(ex_data_lock);
232
233 if (mx > 0 && storage == NULL) {
234 CRYPTOerr(CRYPTO_F_CRYPTO_NEW_EX_DATA, ERR_R_MALLOC_FAILURE);
235 return 0;
236 }
237 for (i = 0; i < mx; i++) {
238 if (storage[i] != NULL && storage[i]->new_func != NULL) {
239 ptr = CRYPTO_get_ex_data(ad, i);
240 storage[i]->new_func(obj, ptr, ad, i,
241 storage[i]->argl, storage[i]->argp);
242 }
243 }
244 if (storage != stack)
245 OPENSSL_free(storage);
246 return 1;
247}
248
249/*
250 * Duplicate a CRYPTO_EX_DATA variable - including calling dup() callbacks
251 * for each index in the class used by this variable
252 */
253int CRYPTO_dup_ex_data(int class_index, CRYPTO_EX_DATA *to,
254 const CRYPTO_EX_DATA *from)
255{
256 int mx, j, i;
257 void *ptr;
258 EX_CALLBACK *stack[10];
259 EX_CALLBACK **storage = NULL;
260 EX_CALLBACKS *ip;
261 int toret = 0;
262
263 if (from->sk == NULL)
264 /* Nothing to copy over */
265 return 1;
266 if ((ip = get_and_lock(class_index)) == NULL)
267 return 0;
268
269 mx = sk_EX_CALLBACK_num(ip->meth);
270 j = sk_void_num(from->sk);
271 if (j < mx)
272 mx = j;
273 if (mx > 0) {
274 if (mx < (int)OSSL_NELEM(stack))
275 storage = stack;
276 else
277 storage = OPENSSL_malloc(sizeof(*storage) * mx);
278 if (storage != NULL)
279 for (i = 0; i < mx; i++)
280 storage[i] = sk_EX_CALLBACK_value(ip->meth, i);
281 }
282 CRYPTO_THREAD_unlock(ex_data_lock);
283
284 if (mx == 0)
285 return 1;
286 if (storage == NULL) {
287 CRYPTOerr(CRYPTO_F_CRYPTO_DUP_EX_DATA, ERR_R_MALLOC_FAILURE);
288 return 0;
289 }
290 /*
291 * Make sure the ex_data stack is at least |mx| elements long to avoid
292 * issues in the for loop that follows; so go get the |mx|'th element
293 * (if it does not exist CRYPTO_get_ex_data() returns NULL), and assign
294 * to itself. This is normally a no-op; but ensures the stack is the
295 * proper size
296 */
297 if (!CRYPTO_set_ex_data(to, mx - 1, CRYPTO_get_ex_data(to, mx - 1)))
298 goto err;
299
300 for (i = 0; i < mx; i++) {
301 ptr = CRYPTO_get_ex_data(from, i);
302 if (storage[i] != NULL && storage[i]->dup_func != NULL)
303 if (!storage[i]->dup_func(to, from, &ptr, i,
304 storage[i]->argl, storage[i]->argp))
305 goto err;
306 CRYPTO_set_ex_data(to, i, ptr);
307 }
308 toret = 1;
309 err:
310 if (storage != stack)
311 OPENSSL_free(storage);
312 return toret;
313}
314
315
316/*
317 * Cleanup a CRYPTO_EX_DATA variable - including calling free() callbacks for
318 * each index in the class used by this variable
319 */
320void CRYPTO_free_ex_data(int class_index, void *obj, CRYPTO_EX_DATA *ad)
321{
322 int mx, i;
323 EX_CALLBACKS *ip;
324 void *ptr;
325 EX_CALLBACK *f;
326 EX_CALLBACK *stack[10];
327 EX_CALLBACK **storage = NULL;
328
329 if ((ip = get_and_lock(class_index)) == NULL)
330 goto err;
331
332 mx = sk_EX_CALLBACK_num(ip->meth);
333 if (mx > 0) {
334 if (mx < (int)OSSL_NELEM(stack))
335 storage = stack;
336 else
337 storage = OPENSSL_malloc(sizeof(*storage) * mx);
338 if (storage != NULL)
339 for (i = 0; i < mx; i++)
340 storage[i] = sk_EX_CALLBACK_value(ip->meth, i);
341 }
342 CRYPTO_THREAD_unlock(ex_data_lock);
343
344 for (i = 0; i < mx; i++) {
345 if (storage != NULL)
346 f = storage[i];
347 else {
348 CRYPTO_THREAD_write_lock(ex_data_lock);
349 f = sk_EX_CALLBACK_value(ip->meth, i);
350 CRYPTO_THREAD_unlock(ex_data_lock);
351 }
352 if (f != NULL && f->free_func != NULL) {
353 ptr = CRYPTO_get_ex_data(ad, i);
354 f->free_func(obj, ptr, ad, i, f->argl, f->argp);
355 }
356 }
357
358 if (storage != stack)
359 OPENSSL_free(storage);
360 err:
361 sk_void_free(ad->sk);
362 ad->sk = NULL;
363}
364
365/*
366 * For a given CRYPTO_EX_DATA variable, set the value corresponding to a
367 * particular index in the class used by this variable
368 */
369int CRYPTO_set_ex_data(CRYPTO_EX_DATA *ad, int idx, void *val)
370{
371 int i;
372
373 if (ad->sk == NULL) {
374 if ((ad->sk = sk_void_new_null()) == NULL) {
375 CRYPTOerr(CRYPTO_F_CRYPTO_SET_EX_DATA, ERR_R_MALLOC_FAILURE);
376 return 0;
377 }
378 }
379
380 for (i = sk_void_num(ad->sk); i <= idx; ++i) {
381 if (!sk_void_push(ad->sk, NULL)) {
382 CRYPTOerr(CRYPTO_F_CRYPTO_SET_EX_DATA, ERR_R_MALLOC_FAILURE);
383 return 0;
384 }
385 }
386 sk_void_set(ad->sk, idx, val);
387 return 1;
388}
389
390/*
391 * For a given CRYPTO_EX_DATA_ variable, get the value corresponding to a
392 * particular index in the class used by this variable
393 */
394void *CRYPTO_get_ex_data(const CRYPTO_EX_DATA *ad, int idx)
395{
396 if (ad->sk == NULL || idx >= sk_void_num(ad->sk))
397 return NULL;
398 return sk_void_value(ad->sk, idx);
399}
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