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- /*
- * Copyright 1995-2024 The OpenSSL Project Authors. All Rights Reserved.
- *
- * Licensed under the Apache License 2.0 (the "License"). You may not use
- * this file except in compliance with the License. You can obtain a copy
- * in the file LICENSE in the source distribution or at
- * https://www.openssl.org/source/license.html
- */
- #include <stdio.h>
- #include "internal/cryptlib.h"
- #include "internal/numbers.h"
- #include "internal/safe_math.h"
- #include <openssl/stack.h>
- #include <errno.h>
- #include <openssl/e_os2.h> /* For ossl_inline */
- OSSL_SAFE_MATH_SIGNED(int, int)
- /*
- * The initial number of nodes in the array.
- */
- static const int min_nodes = 4;
- static const int max_nodes = SIZE_MAX / sizeof(void *) < INT_MAX
- ? (int)(SIZE_MAX / sizeof(void *)) : INT_MAX;
- struct stack_st {
- int num;
- const void **data;
- int sorted;
- int num_alloc;
- OPENSSL_sk_compfunc comp;
- };
- OPENSSL_sk_compfunc OPENSSL_sk_set_cmp_func(OPENSSL_STACK *sk,
- OPENSSL_sk_compfunc c)
- {
- OPENSSL_sk_compfunc old = sk->comp;
- if (sk->comp != c)
- sk->sorted = 0;
- sk->comp = c;
- return old;
- }
- OPENSSL_STACK *OPENSSL_sk_dup(const OPENSSL_STACK *sk)
- {
- OPENSSL_STACK *ret;
- if ((ret = OPENSSL_malloc(sizeof(*ret))) == NULL)
- goto err;
- if (sk == NULL) {
- ret->num = 0;
- ret->sorted = 0;
- ret->comp = NULL;
- } else {
- /* direct structure assignment */
- *ret = *sk;
- }
- if (sk == NULL || sk->num == 0) {
- /* postpone |ret->data| allocation */
- ret->data = NULL;
- ret->num_alloc = 0;
- return ret;
- }
- /* duplicate |sk->data| content */
- ret->data = OPENSSL_malloc(sizeof(*ret->data) * sk->num_alloc);
- if (ret->data == NULL)
- goto err;
- memcpy(ret->data, sk->data, sizeof(void *) * sk->num);
- return ret;
- err:
- OPENSSL_sk_free(ret);
- return NULL;
- }
- OPENSSL_STACK *OPENSSL_sk_deep_copy(const OPENSSL_STACK *sk,
- OPENSSL_sk_copyfunc copy_func,
- OPENSSL_sk_freefunc free_func)
- {
- OPENSSL_STACK *ret;
- int i;
- if ((ret = OPENSSL_malloc(sizeof(*ret))) == NULL)
- goto err;
- if (sk == NULL) {
- ret->num = 0;
- ret->sorted = 0;
- ret->comp = NULL;
- } else {
- /* direct structure assignment */
- *ret = *sk;
- }
- if (sk == NULL || sk->num == 0) {
- /* postpone |ret| data allocation */
- ret->data = NULL;
- ret->num_alloc = 0;
- return ret;
- }
- ret->num_alloc = sk->num > min_nodes ? sk->num : min_nodes;
- ret->data = OPENSSL_zalloc(sizeof(*ret->data) * ret->num_alloc);
- if (ret->data == NULL)
- goto err;
- for (i = 0; i < ret->num; ++i) {
- if (sk->data[i] == NULL)
- continue;
- if ((ret->data[i] = copy_func(sk->data[i])) == NULL) {
- while (--i >= 0)
- if (ret->data[i] != NULL)
- free_func((void *)ret->data[i]);
- goto err;
- }
- }
- return ret;
- err:
- OPENSSL_sk_free(ret);
- return NULL;
- }
- OPENSSL_STACK *OPENSSL_sk_new_null(void)
- {
- return OPENSSL_sk_new_reserve(NULL, 0);
- }
- OPENSSL_STACK *OPENSSL_sk_new(OPENSSL_sk_compfunc c)
- {
- return OPENSSL_sk_new_reserve(c, 0);
- }
- /*
- * Calculate the array growth based on the target size.
- *
- * The growth factor is a rational number and is defined by a numerator
- * and a denominator. According to Andrew Koenig in his paper "Why Are
- * Vectors Efficient?" from JOOP 11(5) 1998, this factor should be less
- * than the golden ratio (1.618...).
- *
- * Considering only the Fibonacci ratios less than the golden ratio, the
- * number of steps from the minimum allocation to integer overflow is:
- * factor decimal growths
- * 3/2 1.5 51
- * 8/5 1.6 45
- * 21/13 1.615... 44
- *
- * All larger factors have the same number of growths.
- *
- * 3/2 and 8/5 have nice power of two shifts, so seem like a good choice.
- */
- static ossl_inline int compute_growth(int target, int current)
- {
- int err = 0;
- while (current < target) {
- if (current >= max_nodes)
- return 0;
- current = safe_muldiv_int(current, 8, 5, &err);
- if (err != 0)
- return 0;
- if (current >= max_nodes)
- current = max_nodes;
- }
- return current;
- }
- /* internal STACK storage allocation */
- static int sk_reserve(OPENSSL_STACK *st, int n, int exact)
- {
- const void **tmpdata;
- int num_alloc;
- /* Check to see the reservation isn't exceeding the hard limit */
- if (n > max_nodes - st->num) {
- ERR_raise(ERR_LIB_CRYPTO, CRYPTO_R_TOO_MANY_RECORDS);
- return 0;
- }
- /* Figure out the new size */
- num_alloc = st->num + n;
- if (num_alloc < min_nodes)
- num_alloc = min_nodes;
- /* If |st->data| allocation was postponed */
- if (st->data == NULL) {
- /*
- * At this point, |st->num_alloc| and |st->num| are 0;
- * so |num_alloc| value is |n| or |min_nodes| if greater than |n|.
- */
- if ((st->data = OPENSSL_zalloc(sizeof(void *) * num_alloc)) == NULL)
- return 0;
- st->num_alloc = num_alloc;
- return 1;
- }
- if (!exact) {
- if (num_alloc <= st->num_alloc)
- return 1;
- num_alloc = compute_growth(num_alloc, st->num_alloc);
- if (num_alloc == 0) {
- ERR_raise(ERR_LIB_CRYPTO, CRYPTO_R_TOO_MANY_RECORDS);
- return 0;
- }
- } else if (num_alloc == st->num_alloc) {
- return 1;
- }
- tmpdata = OPENSSL_realloc((void *)st->data, sizeof(void *) * num_alloc);
- if (tmpdata == NULL)
- return 0;
- st->data = tmpdata;
- st->num_alloc = num_alloc;
- return 1;
- }
- OPENSSL_STACK *OPENSSL_sk_new_reserve(OPENSSL_sk_compfunc c, int n)
- {
- OPENSSL_STACK *st = OPENSSL_zalloc(sizeof(OPENSSL_STACK));
- if (st == NULL)
- return NULL;
- st->comp = c;
- if (n <= 0)
- return st;
- if (!sk_reserve(st, n, 1)) {
- OPENSSL_sk_free(st);
- return NULL;
- }
- return st;
- }
- int OPENSSL_sk_reserve(OPENSSL_STACK *st, int n)
- {
- if (st == NULL) {
- ERR_raise(ERR_LIB_CRYPTO, ERR_R_PASSED_NULL_PARAMETER);
- return 0;
- }
- if (n < 0)
- return 1;
- return sk_reserve(st, n, 1);
- }
- int OPENSSL_sk_insert(OPENSSL_STACK *st, const void *data, int loc)
- {
- if (st == NULL) {
- ERR_raise(ERR_LIB_CRYPTO, ERR_R_PASSED_NULL_PARAMETER);
- return 0;
- }
- if (st->num == max_nodes) {
- ERR_raise(ERR_LIB_CRYPTO, CRYPTO_R_TOO_MANY_RECORDS);
- return 0;
- }
- if (!sk_reserve(st, 1, 0))
- return 0;
- if ((loc >= st->num) || (loc < 0)) {
- st->data[st->num] = data;
- } else {
- memmove(&st->data[loc + 1], &st->data[loc],
- sizeof(st->data[0]) * (st->num - loc));
- st->data[loc] = data;
- }
- st->num++;
- st->sorted = 0;
- return st->num;
- }
- static ossl_inline void *internal_delete(OPENSSL_STACK *st, int loc)
- {
- const void *ret = st->data[loc];
- if (loc != st->num - 1)
- memmove(&st->data[loc], &st->data[loc + 1],
- sizeof(st->data[0]) * (st->num - loc - 1));
- st->num--;
- return (void *)ret;
- }
- void *OPENSSL_sk_delete_ptr(OPENSSL_STACK *st, const void *p)
- {
- int i;
- if (st == NULL)
- return NULL;
- for (i = 0; i < st->num; i++)
- if (st->data[i] == p)
- return internal_delete(st, i);
- return NULL;
- }
- void *OPENSSL_sk_delete(OPENSSL_STACK *st, int loc)
- {
- if (st == NULL || loc < 0 || loc >= st->num)
- return NULL;
- return internal_delete(st, loc);
- }
- static int internal_find(OPENSSL_STACK *st, const void *data,
- int ret_val_options, int *pnum_matched)
- {
- const void *r;
- int i, count = 0;
- int *pnum = pnum_matched;
- if (st == NULL || st->num == 0)
- return -1;
- if (pnum == NULL)
- pnum = &count;
- if (st->comp == NULL) {
- for (i = 0; i < st->num; i++)
- if (st->data[i] == data) {
- *pnum = 1;
- return i;
- }
- *pnum = 0;
- return -1;
- }
- if (data == NULL)
- return -1;
- if (!st->sorted) {
- int res = -1;
- for (i = 0; i < st->num; i++)
- if (st->comp(&data, st->data + i) == 0) {
- if (res == -1)
- res = i;
- ++*pnum;
- /* Check if only one result is wanted and exit if so */
- if (pnum_matched == NULL)
- return i;
- }
- if (res == -1)
- *pnum = 0;
- return res;
- }
- if (pnum_matched != NULL)
- ret_val_options |= OSSL_BSEARCH_FIRST_VALUE_ON_MATCH;
- r = ossl_bsearch(&data, st->data, st->num, sizeof(void *), st->comp,
- ret_val_options);
- if (pnum_matched != NULL) {
- *pnum = 0;
- if (r != NULL) {
- const void **p = (const void **)r;
- while (p < st->data + st->num) {
- if (st->comp(&data, p) != 0)
- break;
- ++*pnum;
- ++p;
- }
- }
- }
- return r == NULL ? -1 : (int)((const void **)r - st->data);
- }
- int OPENSSL_sk_find(OPENSSL_STACK *st, const void *data)
- {
- return internal_find(st, data, OSSL_BSEARCH_FIRST_VALUE_ON_MATCH, NULL);
- }
- int OPENSSL_sk_find_ex(OPENSSL_STACK *st, const void *data)
- {
- return internal_find(st, data, OSSL_BSEARCH_VALUE_ON_NOMATCH, NULL);
- }
- int OPENSSL_sk_find_all(OPENSSL_STACK *st, const void *data, int *pnum)
- {
- return internal_find(st, data, OSSL_BSEARCH_FIRST_VALUE_ON_MATCH, pnum);
- }
- int OPENSSL_sk_push(OPENSSL_STACK *st, const void *data)
- {
- if (st == NULL)
- return 0;
- return OPENSSL_sk_insert(st, data, st->num);
- }
- int OPENSSL_sk_unshift(OPENSSL_STACK *st, const void *data)
- {
- return OPENSSL_sk_insert(st, data, 0);
- }
- void *OPENSSL_sk_shift(OPENSSL_STACK *st)
- {
- if (st == NULL || st->num == 0)
- return NULL;
- return internal_delete(st, 0);
- }
- void *OPENSSL_sk_pop(OPENSSL_STACK *st)
- {
- if (st == NULL || st->num == 0)
- return NULL;
- return internal_delete(st, st->num - 1);
- }
- void OPENSSL_sk_zero(OPENSSL_STACK *st)
- {
- if (st == NULL || st->num == 0)
- return;
- memset(st->data, 0, sizeof(*st->data) * st->num);
- st->num = 0;
- }
- void OPENSSL_sk_pop_free(OPENSSL_STACK *st, OPENSSL_sk_freefunc func)
- {
- int i;
- if (st == NULL)
- return;
- for (i = 0; i < st->num; i++)
- if (st->data[i] != NULL)
- func((char *)st->data[i]);
- OPENSSL_sk_free(st);
- }
- void OPENSSL_sk_free(OPENSSL_STACK *st)
- {
- if (st == NULL)
- return;
- OPENSSL_free(st->data);
- OPENSSL_free(st);
- }
- int OPENSSL_sk_num(const OPENSSL_STACK *st)
- {
- return st == NULL ? -1 : st->num;
- }
- void *OPENSSL_sk_value(const OPENSSL_STACK *st, int i)
- {
- if (st == NULL || i < 0 || i >= st->num)
- return NULL;
- return (void *)st->data[i];
- }
- void *OPENSSL_sk_set(OPENSSL_STACK *st, int i, const void *data)
- {
- if (st == NULL) {
- ERR_raise(ERR_LIB_CRYPTO, ERR_R_PASSED_NULL_PARAMETER);
- return NULL;
- }
- if (i < 0 || i >= st->num) {
- ERR_raise_data(ERR_LIB_CRYPTO, ERR_R_PASSED_INVALID_ARGUMENT,
- "i=%d", i);
- return NULL;
- }
- st->data[i] = data;
- st->sorted = 0;
- return (void *)st->data[i];
- }
- void OPENSSL_sk_sort(OPENSSL_STACK *st)
- {
- if (st != NULL && !st->sorted && st->comp != NULL) {
- if (st->num > 1)
- qsort(st->data, st->num, sizeof(void *), st->comp);
- st->sorted = 1; /* empty or single-element stack is considered sorted */
- }
- }
- int OPENSSL_sk_is_sorted(const OPENSSL_STACK *st)
- {
- return st == NULL ? 1 : st->sorted;
- }
|
