/* * Copyright 1995-2016 The OpenSSL Project Authors. All Rights Reserved. * * Licensed under the OpenSSL license (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 #include "internal/cryptlib.h" #include "internal/numbers.h" #include #include struct stack_st { int num; const char **data; int sorted; size_t num_alloc; OPENSSL_sk_compfunc comp; }; #undef MIN_NODES #define MIN_NODES 4 #include 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 (sk->num < 0) return NULL; if ((ret = OPENSSL_malloc(sizeof(*ret))) == NULL) return NULL; /* direct structure assignment */ *ret = *sk; if ((ret->data = OPENSSL_malloc(sizeof(*ret->data) * sk->num_alloc)) == NULL) goto err; memcpy(ret->data, sk->data, sizeof(char *) * 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 (sk->num < 0) return NULL; if ((ret = OPENSSL_malloc(sizeof(*ret))) == NULL) return NULL; /* direct structure assignment */ *ret = *sk; ret->num_alloc = sk->num > MIN_NODES ? (size_t)sk->num : MIN_NODES; ret->data = OPENSSL_zalloc(sizeof(*ret->data) * ret->num_alloc); if (ret->data == NULL) { OPENSSL_free(ret); return NULL; } 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]); OPENSSL_sk_free(ret); return NULL; } } return ret; } OPENSSL_STACK *OPENSSL_sk_new_null(void) { return OPENSSL_sk_new((OPENSSL_sk_compfunc)NULL); } OPENSSL_STACK *OPENSSL_sk_new(OPENSSL_sk_compfunc c) { OPENSSL_STACK *ret; if ((ret = OPENSSL_zalloc(sizeof(*ret))) == NULL) goto err; if ((ret->data = OPENSSL_zalloc(sizeof(*ret->data) * MIN_NODES)) == NULL) goto err; ret->comp = c; ret->num_alloc = MIN_NODES; return (ret); err: OPENSSL_free(ret); return (NULL); } int OPENSSL_sk_insert(OPENSSL_STACK *st, const void *data, int loc) { if (st == NULL || st->num < 0 || st->num == INT_MAX) { return 0; } if (st->num_alloc <= (size_t)(st->num + 1)) { size_t doub_num_alloc = st->num_alloc * 2; const char **tmpdata; /* Overflow checks */ if (doub_num_alloc < st->num_alloc) return 0; /* Avoid overflow due to multiplication by sizeof(char *) */ if (doub_num_alloc > SIZE_MAX / sizeof(char *)) return 0; tmpdata = OPENSSL_realloc((char *)st->data, sizeof(char *) * doub_num_alloc); if (tmpdata == NULL) return 0; st->data = tmpdata; st->num_alloc = doub_num_alloc; } 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; } void *OPENSSL_sk_delete_ptr(OPENSSL_STACK *st, const void *p) { int i; for (i = 0; i < st->num; i++) if (st->data[i] == p) return OPENSSL_sk_delete(st, i); return NULL; } void *OPENSSL_sk_delete(OPENSSL_STACK *st, int loc) { const char *ret; if (st == NULL || loc < 0 || loc >= st->num) return NULL; 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; } static int internal_find(OPENSSL_STACK *st, const void *data, int ret_val_options) { const void *r; int i; if (st == NULL) return -1; if (st->comp == NULL) { for (i = 0; i < st->num; i++) if (st->data[i] == data) return (i); return (-1); } OPENSSL_sk_sort(st); if (data == NULL) return (-1); r = OBJ_bsearch_ex_(&data, st->data, st->num, sizeof(void *), st->comp, ret_val_options); if (r == NULL) return (-1); return (int)((const char **)r - st->data); } int OPENSSL_sk_find(OPENSSL_STACK *st, const void *data) { return internal_find(st, data, OBJ_BSEARCH_FIRST_VALUE_ON_MATCH); } int OPENSSL_sk_find_ex(OPENSSL_STACK *st, const void *data) { return internal_find(st, data, OBJ_BSEARCH_VALUE_ON_NOMATCH); } int OPENSSL_sk_push(OPENSSL_STACK *st, const void *data) { 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) return (NULL); if (st->num <= 0) return (NULL); return (OPENSSL_sk_delete(st, 0)); } void *OPENSSL_sk_pop(OPENSSL_STACK *st) { if (st == NULL) return (NULL); if (st->num <= 0) return (NULL); return (OPENSSL_sk_delete(st, st->num - 1)); } void OPENSSL_sk_zero(OPENSSL_STACK *st) { if (st == NULL) return; if (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) { if (st == NULL) return -1; return 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 || i < 0 || i >= st->num) return NULL; st->data[i] = data; return (void *)st->data[i]; } void OPENSSL_sk_sort(OPENSSL_STACK *st) { if (st && !st->sorted && st->comp != NULL) { qsort(st->data, st->num, sizeof(char *), st->comp); st->sorted = 1; } } int OPENSSL_sk_is_sorted(const OPENSSL_STACK *st) { if (st == NULL) return 1; return st->sorted; }