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542 lines
26 KiB
C++
542 lines
26 KiB
C++
/* Copyright (C) 1995-1998 Eric Young (eay@cryptsoft.com)
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* All rights reserved.
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*
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* This package is an SSL implementation written
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* by Eric Young (eay@cryptsoft.com).
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* The implementation was written so as to conform with Netscapes SSL.
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*
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* This library is free for commercial and non-commercial use as long as
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* the following conditions are aheared to. The following conditions
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* apply to all code found in this distribution, be it the RC4, RSA,
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* lhash, DES, etc., code; not just the SSL code. The SSL documentation
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* included with this distribution is covered by the same copyright terms
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* except that the holder is Tim Hudson (tjh@cryptsoft.com).
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*
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* Copyright remains Eric Young's, and as such any Copyright notices in
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* the code are not to be removed.
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* If this package is used in a product, Eric Young should be given attribution
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* as the author of the parts of the library used.
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* This can be in the form of a textual message at program startup or
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* in documentation (online or textual) provided with the package.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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* 3. All advertising materials mentioning features or use of this software
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* must display the following acknowledgement:
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* "This product includes cryptographic software written by
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* Eric Young (eay@cryptsoft.com)"
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* The word 'cryptographic' can be left out if the rouines from the library
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* being used are not cryptographic related :-).
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* 4. If you include any Windows specific code (or a derivative thereof) from
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* the apps directory (application code) you must include an acknowledgement:
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* "This product includes software written by Tim Hudson (tjh@cryptsoft.com)"
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*
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* THIS SOFTWARE IS PROVIDED BY ERIC YOUNG ``AS IS'' AND
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
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* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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* SUCH DAMAGE.
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*
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* The licence and distribution terms for any publically available version or
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* derivative of this code cannot be changed. i.e. this code cannot simply be
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* copied and put under another distribution licence
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* [including the GNU Public Licence.] */
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#ifndef OPENSSL_HEADER_STACK_H
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#define OPENSSL_HEADER_STACK_H
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#include <openssl/base.h>
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#include <openssl/type_check.h>
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#if defined(__cplusplus)
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extern "C" {
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#endif
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// A stack, in OpenSSL, is an array of pointers. They are the most commonly
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// used collection object.
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//
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// This file defines macros for type safe use of the stack functions. A stack
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// of a specific type of object has type |STACK_OF(type)|. This can be defined
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// (once) with |DEFINE_STACK_OF(type)| and declared where needed with
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// |DECLARE_STACK_OF(type)|. For example:
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//
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// typedef struct foo_st {
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// int bar;
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// } FOO;
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//
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// DEFINE_STACK_OF(FOO)
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//
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// Although note that the stack will contain /pointers/ to |FOO|.
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//
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// A macro will be defined for each of the sk_* functions below. For
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// STACK_OF(FOO), the macros would be sk_FOO_new, sk_FOO_pop etc.
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// stack_free_func is a function that frees an element in a stack. Note its
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// actual type is void (*)(T *) for some T. Low-level |sk_*| functions will be
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// passed a type-specific wrapper to call it correctly.
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typedef void (*stack_free_func)(void *ptr);
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// stack_copy_func is a function that copies an element in a stack. Note its
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// actual type is T *(*)(T *) for some T. Low-level |sk_*| functions will be
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// passed a type-specific wrapper to call it correctly.
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typedef void *(*stack_copy_func)(void *ptr);
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// stack_cmp_func is a comparison function that returns a value < 0, 0 or > 0
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// if |*a| is less than, equal to or greater than |*b|, respectively. Note the
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// extra indirection - the function is given a pointer to a pointer to the
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// element. This differs from the usual qsort/bsearch comparison function.
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//
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// Note its actual type is int (*)(const T **, const T **). Low-level |sk_*|
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// functions will be passed a type-specific wrapper to call it correctly.
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typedef int (*stack_cmp_func)(const void **a, const void **b);
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// stack_st contains an array of pointers. It is not designed to be used
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// directly, rather the wrapper macros should be used.
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typedef struct stack_st {
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// num contains the number of valid pointers in |data|.
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size_t num;
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void **data;
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// sorted is non-zero if the values pointed to by |data| are in ascending
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// order, based on |comp|.
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int sorted;
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// num_alloc contains the number of pointers allocated in the buffer pointed
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// to by |data|, which may be larger than |num|.
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size_t num_alloc;
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// comp is an optional comparison function.
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stack_cmp_func comp;
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} _STACK;
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#define STACK_OF(type) struct stack_st_##type
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#define DECLARE_STACK_OF(type) STACK_OF(type);
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// These are the raw stack functions, you shouldn't be using them. Rather you
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// should be using the type stack macros implemented above.
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// sk_new creates a new, empty stack with the given comparison function, which
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// may be zero. It returns the new stack or NULL on allocation failure.
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OPENSSL_EXPORT _STACK *sk_new(stack_cmp_func comp);
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// sk_new_null creates a new, empty stack. It returns the new stack or NULL on
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// allocation failure.
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OPENSSL_EXPORT _STACK *sk_new_null(void);
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// sk_num returns the number of elements in |s|.
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OPENSSL_EXPORT size_t sk_num(const _STACK *sk);
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// sk_zero resets |sk| to the empty state but does nothing to free the
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// individual elements themselves.
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OPENSSL_EXPORT void sk_zero(_STACK *sk);
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// sk_value returns the |i|th pointer in |sk|, or NULL if |i| is out of
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// range.
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OPENSSL_EXPORT void *sk_value(const _STACK *sk, size_t i);
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// sk_set sets the |i|th pointer in |sk| to |p| and returns |p|. If |i| is out
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// of range, it returns NULL.
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OPENSSL_EXPORT void *sk_set(_STACK *sk, size_t i, void *p);
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// sk_free frees the given stack and array of pointers, but does nothing to
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// free the individual elements. Also see |sk_pop_free_ex|.
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OPENSSL_EXPORT void sk_free(_STACK *sk);
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// sk_pop_free_ex calls |free_func| on each element in the stack and then frees
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// the stack itself. Note this corresponds to |sk_FOO_pop_free|. It is named
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// |sk_pop_free_ex| as a workaround for existing code calling an older version
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// of |sk_pop_free|.
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OPENSSL_EXPORT void sk_pop_free_ex(_STACK *sk,
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void (*call_free_func)(stack_free_func,
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void *),
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stack_free_func free_func);
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// sk_insert inserts |p| into the stack at index |where|, moving existing
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// elements if needed. It returns the length of the new stack, or zero on
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// error.
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OPENSSL_EXPORT size_t sk_insert(_STACK *sk, void *p, size_t where);
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// sk_delete removes the pointer at index |where|, moving other elements down
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// if needed. It returns the removed pointer, or NULL if |where| is out of
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// range.
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OPENSSL_EXPORT void *sk_delete(_STACK *sk, size_t where);
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// sk_delete_ptr removes, at most, one instance of |p| from the stack based on
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// pointer equality. If an instance of |p| is found then |p| is returned,
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// otherwise it returns NULL.
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OPENSSL_EXPORT void *sk_delete_ptr(_STACK *sk, const void *p);
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// sk_find returns the first value in the stack equal to |p|. If a comparison
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// function has been set on the stack, equality is defined by it, otherwise
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// pointer equality is used. If the stack is sorted, then a binary search is
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// used, otherwise a linear search is performed. If a matching element is found,
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// its index is written to
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// |*out_index| (if |out_index| is not NULL) and one is returned. Otherwise zero
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// is returned.
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//
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// Note this differs from OpenSSL. The type signature is slightly different, and
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// OpenSSL's sk_find will implicitly sort |sk| if it has a comparison function
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// defined.
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OPENSSL_EXPORT int sk_find(const _STACK *sk, size_t *out_index, const void *p,
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int (*call_cmp_func)(stack_cmp_func, const void **,
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const void **));
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// sk_shift removes and returns the first element in the stack, or returns NULL
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// if the stack is empty.
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OPENSSL_EXPORT void *sk_shift(_STACK *sk);
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// sk_push appends |p| to the stack and returns the length of the new stack, or
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// 0 on allocation failure.
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OPENSSL_EXPORT size_t sk_push(_STACK *sk, void *p);
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// sk_pop returns and removes the last element on the stack, or NULL if the
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// stack is empty.
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OPENSSL_EXPORT void *sk_pop(_STACK *sk);
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// sk_dup performs a shallow copy of a stack and returns the new stack, or NULL
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// on error.
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OPENSSL_EXPORT _STACK *sk_dup(const _STACK *sk);
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// sk_sort sorts the elements of |sk| into ascending order based on the
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// comparison function. The stack maintains a |sorted| flag and sorting an
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// already sorted stack is a no-op.
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OPENSSL_EXPORT void sk_sort(_STACK *sk);
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// sk_is_sorted returns one if |sk| is known to be sorted and zero
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// otherwise.
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OPENSSL_EXPORT int sk_is_sorted(const _STACK *sk);
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// sk_set_cmp_func sets the comparison function to be used by |sk| and returns
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// the previous one.
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OPENSSL_EXPORT stack_cmp_func sk_set_cmp_func(_STACK *sk, stack_cmp_func comp);
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// sk_deep_copy performs a copy of |sk| and of each of the non-NULL elements in
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// |sk| by using |copy_func|. If an error occurs, |free_func| is used to free
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// any copies already made and NULL is returned.
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OPENSSL_EXPORT _STACK *sk_deep_copy(
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const _STACK *sk, void *(*call_copy_func)(stack_copy_func, void *),
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stack_copy_func copy_func, void (*call_free_func)(stack_free_func, void *),
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stack_free_func free_func);
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// Deprecated functions.
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// sk_pop_free behaves like |sk_pop_free_ex| but performs an invalid function
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// pointer cast. It exists because some existing callers called |sk_pop_free|
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// directly.
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//
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// TODO(davidben): Migrate callers to bssl::UniquePtr and remove this.
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OPENSSL_EXPORT void sk_pop_free(_STACK *sk, stack_free_func free_func);
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// Defining stack types.
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//
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// This set of macros is used to emit the typed functions that act on a
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// |STACK_OF(T)|.
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#if !defined(BORINGSSL_NO_CXX)
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extern "C++" {
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BSSL_NAMESPACE_BEGIN
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namespace internal {
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template <typename T>
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struct StackTraits {};
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}
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BSSL_NAMESPACE_END
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}
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#define BORINGSSL_DEFINE_STACK_TRAITS(name, type, is_const) \
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extern "C++" { \
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BSSL_NAMESPACE_BEGIN \
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namespace internal { \
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template <> \
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struct StackTraits<STACK_OF(name)> { \
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static constexpr bool kIsStack = true; \
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using Type = type; \
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static constexpr bool kIsConst = is_const; \
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}; \
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} \
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BSSL_NAMESPACE_END \
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}
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#else
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#define BORINGSSL_DEFINE_STACK_TRAITS(name, type, is_const)
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#endif
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#define BORINGSSL_DEFINE_STACK_OF_IMPL(name, ptrtype, constptrtype) \
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DECLARE_STACK_OF(name) \
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\
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typedef void (*stack_##name##_free_func)(ptrtype); \
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typedef ptrtype (*stack_##name##_copy_func)(ptrtype); \
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typedef int (*stack_##name##_cmp_func)(constptrtype *a, constptrtype *b); \
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\
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OPENSSL_INLINE void sk_##name##_call_free_func(stack_free_func free_func, \
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void *ptr) { \
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((stack_##name##_free_func)free_func)((ptrtype)ptr); \
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} \
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\
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OPENSSL_INLINE void *sk_##name##_call_copy_func(stack_copy_func copy_func, \
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void *ptr) { \
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return (void *)((stack_##name##_copy_func)copy_func)((ptrtype)ptr); \
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} \
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\
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OPENSSL_INLINE int sk_##name##_call_cmp_func( \
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stack_cmp_func cmp_func, const void **a, const void **b) { \
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constptrtype a_ptr = (constptrtype)*a; \
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constptrtype b_ptr = (constptrtype)*b; \
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return ((stack_##name##_cmp_func)cmp_func)(&a_ptr, &b_ptr); \
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} \
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\
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OPENSSL_INLINE STACK_OF(name) * \
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sk_##name##_new(stack_##name##_cmp_func comp) { \
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return (STACK_OF(name) *)sk_new((stack_cmp_func)comp); \
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} \
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\
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OPENSSL_INLINE STACK_OF(name) *sk_##name##_new_null(void) { \
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return (STACK_OF(name) *)sk_new_null(); \
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} \
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\
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OPENSSL_INLINE size_t sk_##name##_num(const STACK_OF(name) *sk) { \
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return sk_num((const _STACK *)sk); \
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} \
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\
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OPENSSL_INLINE void sk_##name##_zero(STACK_OF(name) *sk) { \
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sk_zero((_STACK *)sk); \
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} \
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\
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OPENSSL_INLINE ptrtype sk_##name##_value(const STACK_OF(name) *sk, \
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size_t i) { \
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return (ptrtype)sk_value((const _STACK *)sk, i); \
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} \
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\
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OPENSSL_INLINE ptrtype sk_##name##_set(STACK_OF(name) *sk, size_t i, \
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ptrtype p) { \
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return (ptrtype)sk_set((_STACK *)sk, i, (void *)p); \
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} \
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\
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OPENSSL_INLINE void sk_##name##_free(STACK_OF(name) * sk) { \
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sk_free((_STACK *)sk); \
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} \
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\
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OPENSSL_INLINE void sk_##name##_pop_free( \
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STACK_OF(name) * sk, stack_##name##_free_func free_func) { \
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sk_pop_free_ex((_STACK *)sk, sk_##name##_call_free_func, \
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(stack_free_func)free_func); \
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} \
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\
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OPENSSL_INLINE size_t sk_##name##_insert(STACK_OF(name) *sk, ptrtype p, \
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size_t where) { \
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return sk_insert((_STACK *)sk, (void *)p, where); \
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} \
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\
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OPENSSL_INLINE ptrtype sk_##name##_delete(STACK_OF(name) *sk, \
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size_t where) { \
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return (ptrtype)sk_delete((_STACK *)sk, where); \
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} \
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\
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OPENSSL_INLINE ptrtype sk_##name##_delete_ptr(STACK_OF(name) *sk, \
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constptrtype p) { \
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return (ptrtype)sk_delete_ptr((_STACK *)sk, (const void *)p); \
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} \
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\
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OPENSSL_INLINE int sk_##name##_find(const STACK_OF(name) *sk, \
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size_t * out_index, constptrtype p) { \
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return sk_find((const _STACK *)sk, out_index, (const void *)p, \
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sk_##name##_call_cmp_func); \
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} \
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\
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OPENSSL_INLINE ptrtype sk_##name##_shift(STACK_OF(name) *sk) { \
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return (ptrtype)sk_shift((_STACK *)sk); \
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} \
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\
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OPENSSL_INLINE size_t sk_##name##_push(STACK_OF(name) *sk, ptrtype p) { \
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return sk_push((_STACK *)sk, (void *)p); \
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} \
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\
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OPENSSL_INLINE ptrtype sk_##name##_pop(STACK_OF(name) *sk) { \
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return (ptrtype)sk_pop((_STACK *)sk); \
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} \
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\
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OPENSSL_INLINE STACK_OF(name) * sk_##name##_dup(const STACK_OF(name) *sk) { \
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return (STACK_OF(name) *)sk_dup((const _STACK *)sk); \
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} \
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\
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OPENSSL_INLINE void sk_##name##_sort(STACK_OF(name) *sk) { \
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sk_sort((_STACK *)sk); \
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} \
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\
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OPENSSL_INLINE int sk_##name##_is_sorted(const STACK_OF(name) *sk) { \
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return sk_is_sorted((const _STACK *)sk); \
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} \
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\
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OPENSSL_INLINE stack_##name##_cmp_func sk_##name##_set_cmp_func( \
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STACK_OF(name) *sk, stack_##name##_cmp_func comp) { \
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return (stack_##name##_cmp_func)sk_set_cmp_func((_STACK *)sk, \
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(stack_cmp_func)comp); \
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} \
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\
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OPENSSL_INLINE STACK_OF(name) * \
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sk_##name##_deep_copy(const STACK_OF(name) *sk, \
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ptrtype(*copy_func)(ptrtype), \
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void (*free_func)(ptrtype)) { \
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return (STACK_OF(name) *)sk_deep_copy( \
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(const _STACK *)sk, sk_##name##_call_copy_func, \
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(stack_copy_func)copy_func, sk_##name##_call_free_func, \
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(stack_free_func)free_func); \
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}
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// DEFINE_NAMED_STACK_OF defines |STACK_OF(name)| to be a stack whose elements
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// are |type| *.
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#define DEFINE_NAMED_STACK_OF(name, type) \
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BORINGSSL_DEFINE_STACK_OF_IMPL(name, type *, const type *) \
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BORINGSSL_DEFINE_STACK_TRAITS(name, type, false)
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// DEFINE_STACK_OF defines |STACK_OF(type)| to be a stack whose elements are
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// |type| *.
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#define DEFINE_STACK_OF(type) DEFINE_NAMED_STACK_OF(type, type)
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// DEFINE_CONST_STACK_OF defines |STACK_OF(type)| to be a stack whose elements
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// are const |type| *.
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#define DEFINE_CONST_STACK_OF(type) \
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BORINGSSL_DEFINE_STACK_OF_IMPL(type, const type *, const type *) \
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BORINGSSL_DEFINE_STACK_TRAITS(type, const type, true)
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// DEFINE_SPECIAL_STACK_OF defines |STACK_OF(type)| to be a stack whose elements
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// are |type|, where |type| must be a typedef for a pointer.
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#define DEFINE_SPECIAL_STACK_OF(type) \
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OPENSSL_STATIC_ASSERT(sizeof(type) == sizeof(void *), \
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#type " is not a pointer"); \
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BORINGSSL_DEFINE_STACK_OF_IMPL(type, type, const type)
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typedef char *OPENSSL_STRING;
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DEFINE_STACK_OF(void)
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DEFINE_SPECIAL_STACK_OF(OPENSSL_STRING)
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#if defined(__cplusplus)
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} // extern C
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#endif
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#if !defined(BORINGSSL_NO_CXX)
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extern "C++" {
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#include <type_traits>
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BSSL_NAMESPACE_BEGIN
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namespace internal {
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// Stacks defined with |DEFINE_CONST_STACK_OF| are freed with |sk_free|.
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template <typename Stack>
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struct DeleterImpl<
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Stack, typename std::enable_if<StackTraits<Stack>::kIsConst>::type> {
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static void Free(Stack *sk) { sk_free(reinterpret_cast<_STACK *>(sk)); }
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};
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// Stacks defined with |DEFINE_STACK_OF| are freed with |sk_pop_free| and the
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// corresponding type's deleter.
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template <typename Stack>
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struct DeleterImpl<
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Stack, typename std::enable_if<!StackTraits<Stack>::kIsConst>::type> {
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static void Free(Stack *sk) {
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// sk_FOO_pop_free is defined by macros and bound by name, so we cannot
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// access it from C++ here.
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using Type = typename StackTraits<Stack>::Type;
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sk_pop_free_ex(reinterpret_cast<_STACK *>(sk),
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[](stack_free_func /* unused */, void *ptr) {
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DeleterImpl<Type>::Free(reinterpret_cast<Type *>(ptr));
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},
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nullptr);
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}
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};
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template <typename Stack>
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class StackIteratorImpl {
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public:
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using Type = typename StackTraits<Stack>::Type;
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// Iterators must be default-constructable.
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StackIteratorImpl() : sk_(nullptr), idx_(0) {}
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StackIteratorImpl(const Stack *sk, size_t idx) : sk_(sk), idx_(idx) {}
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bool operator==(StackIteratorImpl other) const {
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return sk_ == other.sk_ && idx_ == other.idx_;
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}
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bool operator!=(StackIteratorImpl other) const {
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return !(*this == other);
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}
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Type *operator*() const {
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return reinterpret_cast<Type *>(
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sk_value(reinterpret_cast<const _STACK *>(sk_), idx_));
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}
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StackIteratorImpl &operator++(/* prefix */) {
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idx_++;
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return *this;
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}
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StackIteratorImpl operator++(int /* postfix */) {
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StackIteratorImpl copy(*this);
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++(*this);
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return copy;
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}
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private:
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const Stack *sk_;
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size_t idx_;
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};
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template <typename Stack>
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using StackIterator = typename std::enable_if<StackTraits<Stack>::kIsStack,
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StackIteratorImpl<Stack>>::type;
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} // namespace internal
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// PushToStack pushes |elem| to |sk|. It returns true on success and false on
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// allocation failure.
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template <typename Stack>
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inline
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typename std::enable_if<!internal::StackTraits<Stack>::kIsConst, bool>::type
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PushToStack(Stack *sk,
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UniquePtr<typename internal::StackTraits<Stack>::Type> elem) {
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if (!sk_push(reinterpret_cast<_STACK *>(sk), elem.get())) {
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return false;
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}
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// sk_push takes ownership on success.
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elem.release();
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return true;
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}
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BSSL_NAMESPACE_END
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// Define begin() and end() for stack types so C++ range for loops work.
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template <typename Stack>
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inline bssl::internal::StackIterator<Stack> begin(const Stack *sk) {
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return bssl::internal::StackIterator<Stack>(sk, 0);
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}
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template <typename Stack>
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inline bssl::internal::StackIterator<Stack> end(const Stack *sk) {
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return bssl::internal::StackIterator<Stack>(
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sk, sk_num(reinterpret_cast<const _STACK *>(sk)));
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}
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} // extern C++
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#endif
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#endif // OPENSSL_HEADER_STACK_H
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