/* * Asterisk -- An open source telephony toolkit. * * Copyright (C) 2013, Digium, Inc. * * David M. Lee, II * * See http://www.asterisk.org for more information about * the Asterisk project. Please do not directly contact * any of the maintainers of this project for assistance; * the project provides a web site, mailing lists and IRC * channels for your use. * * This program is free software, distributed under the terms of * the GNU General Public License Version 2. See the LICENSE file * at the top of the source tree. */ #ifndef _ASTERISK_VECTOR_H #define _ASTERISK_VECTOR_H #include "asterisk/lock.h" /*! \file * * \brief Vector container support. * * A vector is a variable length array, with properties that can be useful when * order doesn't matter. * - Appends are asymptotically constant time. * - Unordered removes are constant time. * - Search is linear time * * \author David M. Lee, II * \since 12 */ /*! * \brief Define a vector structure * * \param name Optional vector struct name. * \param type Vector element type. */ #define AST_VECTOR(name, type) \ struct name { \ type *elems; \ size_t max; \ size_t current; \ } /*! \brief Integer vector definition */ AST_VECTOR(ast_vector_int, int); /*! \brief String vector definitions */ AST_VECTOR(ast_vector_string, char *); AST_VECTOR(ast_vector_const_string, const char *); /*! Options to override default processing of ast_vector_string_split. */ enum ast_vector_string_split_flags { /*! Do not trim whitespace from values. */ AST_VECTOR_STRING_SPLIT_NO_TRIM = 0x01, /*! Append empty strings to the vector. */ AST_VECTOR_STRING_SPLIT_ALLOW_EMPTY = 0x02, }; /*! * \brief Append a string vector by splitting a string. * * \param dest Pointer to an initialized vector. * \param input String buffer to split. * \param delim String delimeter passed to strsep. * \param flags Processing options defined by \ref enum ast_vector_string_split_flags. * \param excludes_cmp NULL or a function like strcmp to exclude duplicate strings. * * \retval 0 Success * \retval -1 Failure * * \note All elements added to the vector are allocated. The caller is always * responsible for calling ast_free on each element in the vector even * after failure. It's possible for this function to successfully add * some elements before failing. */ int ast_vector_string_split(struct ast_vector_string *dest, const char *input, const char *delim, int flags, int (*excludes_cmp)(const char *s1, const char *s2)); /*! * \brief Define a vector structure with a read/write lock * * \param name Optional vector struct name. * \param type Vector element type. */ #define AST_VECTOR_RW(name, type) \ struct name { \ type *elems; \ size_t max; \ size_t current; \ ast_rwlock_t lock; \ } /*! * \brief Initialize a vector * * If \a size is 0, then no space will be allocated until the vector is * appended to. * * \param vec Vector to initialize. * \param size Initial size of the vector. * * \return 0 on success. * \return Non-zero on failure. */ #define AST_VECTOR_INIT(vec, size) ({ \ size_t __size = (size); \ size_t alloc_size = __size * sizeof(*((vec)->elems)); \ (vec)->elems = alloc_size ? ast_calloc(1, alloc_size) : NULL; \ (vec)->current = 0; \ if ((vec)->elems) { \ (vec)->max = __size; \ } else { \ (vec)->max = 0; \ } \ (alloc_size == 0 || (vec)->elems != NULL) ? 0 : -1; \ }) /*! * \brief Steal the elements from a vector and reinitialize. * * \param vec Vector to operate on. * * This allows you to use vector.h to construct a list and use the * data as a bare array. * * \note The stolen array must eventually be released using ast_free. * * \warning AST_VECTOR_SIZE and AST_VECTOR_MAX_SIZE are both reset * to 0. If either are needed they must be saved to a local * variable before stealing the elements. */ #define AST_VECTOR_STEAL_ELEMENTS(vec) ({ \ typeof((vec)->elems) __elems = (vec)->elems; \ AST_VECTOR_INIT((vec), 0); \ (__elems); \ }) /*! * \brief Initialize a vector with a read/write lock * * If \a size is 0, then no space will be allocated until the vector is * appended to. * * \param vec Vector to initialize. * \param size Initial size of the vector. * * \return 0 on success. * \return Non-zero on failure. */ #define AST_VECTOR_RW_INIT(vec, size) ({ \ int res = -1; \ if (AST_VECTOR_INIT(vec, size) == 0) { \ res = ast_rwlock_init(&(vec)->lock); \ } \ res; \ }) /*! * \brief Deallocates this vector. * * If any code to free the elements of this vector needs to be run, that should * be done prior to this call. * * \param vec Vector to deallocate. */ #define AST_VECTOR_FREE(vec) do { \ ast_free((vec)->elems); \ (vec)->elems = NULL; \ (vec)->max = 0; \ (vec)->current = 0; \ } while (0) /*! * \brief Deallocates this vector pointer. * * If any code to free the elements of this vector need to be run, that should * be done prior to this call. * * \param vec Pointer to a malloc'd vector structure. */ #define AST_VECTOR_PTR_FREE(vec) do { \ AST_VECTOR_FREE(vec); \ ast_free(vec); \ } while (0) /*! * \brief Deallocates this locked vector * * If any code to free the elements of this vector need to be run, that should * be done prior to this call. * * \param vec Vector to deallocate. */ #define AST_VECTOR_RW_FREE(vec) do { \ AST_VECTOR_FREE(vec); \ ast_rwlock_destroy(&(vec)->lock); \ } while(0) /*! * \brief Deallocates this locked vector pointer. * * If any code to free the elements of this vector need to be run, that should * be done prior to this call. * * \param vec Pointer to a malloc'd vector structure. */ #define AST_VECTOR_RW_PTR_FREE(vec) do { \ AST_VECTOR_RW_FREE(vec); \ ast_free(vec); \ } while(0) /*! * \internal */ #define __make_room(idx, vec) ({ \ int res = 0; \ do { \ if ((idx) >= (vec)->max) { \ size_t new_max = ((idx) + 1) * 2; \ typeof((vec)->elems) new_elems = ast_calloc(1, \ new_max * sizeof(*new_elems)); \ if (new_elems) { \ if ((vec)->elems) { \ memcpy(new_elems, (vec)->elems, \ (vec)->current * sizeof(*new_elems)); \ ast_free((vec)->elems); \ } \ (vec)->elems = new_elems; \ (vec)->max = new_max; \ } else { \ res = -1; \ break; \ } \ } \ } while(0); \ res; \ }) /*! * \brief Append an element to a vector, growing the vector if needed. * * \param vec Vector to append to. * \param elem Element to append. * * \return 0 on success. * \return Non-zero on failure. */ #define AST_VECTOR_APPEND(vec, elem) ({ \ int res = 0; \ do { \ if (__make_room((vec)->current, vec) != 0) { \ res = -1; \ break; \ } \ (vec)->elems[(vec)->current++] = (elem); \ } while (0); \ res; \ }) /*! * \brief Replace an element at a specific position in a vector, growing the vector if needed. * * \param vec Vector to replace into. * \param idx Position to replace. * \param elem Element to replace. * * \return 0 on success. * \return Non-zero on failure. * * \warning This macro will overwrite anything already present at the position provided. * * \warning Use of this macro with the expectation that the element will remain at the provided * index means you can not use the UNORDERED assortment of macros. These macros alter the ordering * of the vector itself. */ #define AST_VECTOR_REPLACE(vec, idx, elem) ({ \ int res = 0; \ do { \ if (__make_room((idx), vec) != 0) { \ res = -1; \ break; \ } \ (vec)->elems[(idx)] = (elem); \ if (((idx) + 1) > (vec)->current) { \ (vec)->current = (idx) + 1; \ } \ } while(0); \ res; \ }) /*! * \brief Default a vector up to size with the given value. * * \note If a size of 0 is given then all elements in the given vector are set. * \note The vector will grow to the given size if needed. * * \param vec Vector to default. * \param size The number of elements to default * \param value The default value to set each element to */ #define AST_VECTOR_DEFAULT(vec, size, value) ({ \ int res = 0; \ typeof((size)) __size = (size) ? (size) : AST_VECTOR_SIZE(vec); \ size_t idx; \ for (idx = 0; idx < __size; ++idx) { \ res = AST_VECTOR_REPLACE(vec, idx, value); \ if (res == -1) { \ break; \ } \ } \ res; \ }) /*! * \brief Insert an element at a specific position in a vector, growing the vector if needed. * * \param vec Vector to insert into. * \param idx Position to insert at. * \param elem Element to insert. * * \return 0 on success. * \return Non-zero on failure. * * \warning This macro will shift existing elements right to make room for the new element. * * \warning Use of this macro with the expectation that the element will remain at the provided * index means you can not use the UNORDERED assortment of macros. These macros alter the ordering * of the vector itself. */ #define AST_VECTOR_INSERT_AT(vec, idx, elem) ({ \ int res = 0; \ size_t __move; \ do { \ if (__make_room(((idx) > (vec)->current ? (idx) : (vec)->current), vec) != 0) { \ res = -1; \ break; \ } \ if ((vec)->current > 0 && (idx) < (vec)->current) { \ __move = ((vec)->current - (idx)) * sizeof(typeof((vec)->elems[0])); \ memmove(&(vec)->elems[(idx) + 1], &(vec)->elems[(idx)], __move); \ } \ (vec)->elems[(idx)] = (elem); \ (vec)->current = ((idx) > (vec)->current ? (idx) : (vec)->current) + 1; \ } while (0); \ res; \ }) /*! * \brief Add an element into a sorted vector * * \param vec Sorted vector to add to. * \param elem Element to insert. Must not be an array type. * \param cmp A strcmp compatible compare function. * * \return 0 on success. * \return Non-zero on failure. * * \warning Use of this macro on an unsorted vector will produce unpredictable results * \warning 'elem' must not be an array type so passing 'x' where 'x' is defined as * 'char x[4]' will fail to compile. However casting 'x' as 'char *' does * result in a value that CAN be used. */ #define AST_VECTOR_ADD_SORTED(vec, elem, cmp) ({ \ int res = 0; \ size_t __idx = (vec)->current; \ typeof(elem) __elem = (elem); \ do { \ if (__make_room((vec)->current, vec) != 0) { \ res = -1; \ break; \ } \ while (__idx > 0 && (cmp((vec)->elems[__idx - 1], __elem) > 0)) { \ (vec)->elems[__idx] = (vec)->elems[__idx - 1]; \ __idx--; \ } \ (vec)->elems[__idx] = __elem; \ (vec)->current++; \ } while (0); \ res; \ }) /*! * \brief Remove an element from a vector by index. * * Note that elements in the vector may be reordered, so that the remove can * happen in constant time. * * \param vec Vector to remove from. * \param idx Index of the element to remove. * \param preserve_order Preserve the vector order. * * \return The element that was removed. */ #define AST_VECTOR_REMOVE(vec, idx, preserve_ordered) ({ \ typeof((vec)->elems[0]) res; \ size_t __idx = (idx); \ ast_assert(__idx < (vec)->current); \ res = (vec)->elems[__idx]; \ if ((preserve_ordered)) { \ size_t __move; \ __move = ((vec)->current - (__idx) - 1) * sizeof(typeof((vec)->elems[0])); \ memmove(&(vec)->elems[__idx], &(vec)->elems[__idx + 1], __move); \ (vec)->current--; \ } else { \ (vec)->elems[__idx] = (vec)->elems[--(vec)->current]; \ }; \ res; \ }) /*! * \brief Remove an element from an unordered vector by index. * * Note that elements in the vector may be reordered, so that the remove can * happen in constant time. * * \param vec Vector to remove from. * \param idx Index of the element to remove. * \return The element that was removed. */ #define AST_VECTOR_REMOVE_UNORDERED(vec, idx) \ AST_VECTOR_REMOVE(vec, idx, 0) /*! * \brief Remove an element from a vector by index while maintaining order. * * \param vec Vector to remove from. * \param idx Index of the element to remove. * \return The element that was removed. */ #define AST_VECTOR_REMOVE_ORDERED(vec, idx) \ AST_VECTOR_REMOVE(vec, idx, 1) /*! * \brief Remove all elements from a vector that matches the given comparison * * \param vec Vector to remove from. * \param value Value to pass into comparator. * \param cmp Comparator function/macros (called as \c cmp(elem, value)) * \param cleanup How to cleanup a removed element macro/function. * * \return the number of deleted elements. */ #define AST_VECTOR_REMOVE_ALL_CMP_UNORDERED(vec, value, cmp, cleanup) ({ \ int count = 0; \ size_t idx; \ typeof(value) __value = (value); \ for (idx = 0; idx < (vec)->current; ) { \ if (cmp((vec)->elems[idx], __value)) { \ cleanup((vec)->elems[idx]); \ AST_VECTOR_REMOVE_UNORDERED((vec), idx); \ ++count; \ } else { \ ++idx; \ } \ } \ count; \ }) /*! * \brief Remove an element from a vector that matches the given comparison * * \param vec Vector to remove from. * \param value Value to pass into comparator. * \param cmp Comparator function/macros (called as \c cmp(elem, value)) * \param cleanup How to cleanup a removed element macro/function. * * \return 0 if element was removed. * \return Non-zero if element was not in the vector. */ #define AST_VECTOR_REMOVE_CMP_UNORDERED(vec, value, cmp, cleanup) ({ \ int res = -1; \ size_t idx; \ typeof(value) __value = (value); \ for (idx = 0; idx < (vec)->current; ++idx) { \ if (cmp((vec)->elems[idx], __value)) { \ cleanup((vec)->elems[idx]); \ AST_VECTOR_REMOVE_UNORDERED((vec), idx); \ res = 0; \ break; \ } \ } \ res; \ }) /*! * \brief Remove all elements from a vector that matches the given comparison while maintaining order * * \param vec Vector to remove from. * \param value Value to pass into comparator. * \param cmp Comparator function/macros (called as \c cmp(elem, value)) * \param cleanup How to cleanup a removed element macro/function. * * \return the number of deleted elements. */ #define AST_VECTOR_REMOVE_ALL_CMP_ORDERED(vec, value, cmp, cleanup) ({ \ int count = 0; \ size_t idx; \ typeof(value) __value = (value); \ for (idx = 0; idx < (vec)->current; ) { \ if (cmp((vec)->elems[idx], __value)) { \ cleanup((vec)->elems[idx]); \ AST_VECTOR_REMOVE_ORDERED((vec), idx); \ ++count; \ } else { \ ++idx; \ } \ } \ count; \ }) /*! * \brief Remove an element from a vector that matches the given comparison while maintaining order * * \param vec Vector to remove from. * \param value Value to pass into comparator. * \param cmp Comparator function/macros (called as \c cmp(elem, value)) * \param cleanup How to cleanup a removed element macro/function. * * \return 0 if element was removed. * \return Non-zero if element was not in the vector. */ #define AST_VECTOR_REMOVE_CMP_ORDERED(vec, value, cmp, cleanup) ({ \ int res = -1; \ size_t idx; \ typeof(value) __value = (value); \ for (idx = 0; idx < (vec)->current; ++idx) { \ if (cmp((vec)->elems[idx], __value)) { \ cleanup((vec)->elems[idx]); \ AST_VECTOR_REMOVE_ORDERED((vec), idx); \ res = 0; \ break; \ } \ } \ res; \ }) /*! * \brief Default comparator for AST_VECTOR_REMOVE_ELEM_UNORDERED() * * \param elem Element to compare against * \param value Value to compare with the vector element. * * \return 0 if element does not match. * \return Non-zero if element matches. */ #define AST_VECTOR_ELEM_DEFAULT_CMP(elem, value) ((elem) == (value)) /*! * \brief Vector element cleanup that does nothing. * * \param elem Element to cleanup * * \return Nothing */ #define AST_VECTOR_ELEM_CLEANUP_NOOP(elem) /*! * \brief Remove an element from a vector. * * \param vec Vector to remove from. * \param elem Element to remove * \param cleanup How to cleanup a removed element macro/function. * * \return 0 if element was removed. * \return Non-zero if element was not in the vector. */ #define AST_VECTOR_REMOVE_ELEM_UNORDERED(vec, elem, cleanup) ({ \ AST_VECTOR_REMOVE_CMP_UNORDERED((vec), (elem), \ AST_VECTOR_ELEM_DEFAULT_CMP, cleanup); \ }) /*! * \brief Remove an element from a vector while maintaining order. * * \param vec Vector to remove from. * \param elem Element to remove * \param cleanup How to cleanup a removed element macro/function. * * \return 0 if element was removed. * \return Non-zero if element was not in the vector. */ #define AST_VECTOR_REMOVE_ELEM_ORDERED(vec, elem, cleanup) ({ \ AST_VECTOR_REMOVE_CMP_ORDERED((vec), (elem), \ AST_VECTOR_ELEM_DEFAULT_CMP, cleanup); \ }) /*! * \brief Get the number of elements in a vector. * * \param vec Vector to query. * \return Number of elements in the vector. */ #define AST_VECTOR_SIZE(vec) (vec)->current /*! * \brief Get the maximum number of elements the vector can currently hold. * * \param vec Vector to query. * \return Maximum number of elements the vector can currently hold. */ #define AST_VECTOR_MAX_SIZE(vec) (vec)->max /*! * \brief Reset vector. * * \param vec Vector to reset. * \param callback A cleanup callback or AST_VECTOR_ELEM_CLEANUP_NOOP. */ #define AST_VECTOR_RESET(vec, cleanup) ({ \ AST_VECTOR_CALLBACK_VOID(vec, cleanup); \ (vec)->current = 0; \ }) /*! * \brief Get an address of element in a vector. * * \param vec Vector to query. * \param idx Index of the element to get address of. */ #define AST_VECTOR_GET_ADDR(vec, idx) ({ \ size_t __idx = (idx); \ ast_assert(__idx < (vec)->current); \ &(vec)->elems[__idx]; \ }) /*! * \brief Get an element from a vector. * * \param vec Vector to query. * \param idx Index of the element to get. */ #define AST_VECTOR_GET(vec, idx) ({ \ size_t __idx = (idx); \ ast_assert(__idx < (vec)->current); \ (vec)->elems[__idx]; \ }) /*! * \brief Get the nth index from a vector that matches the given comparison * * \param vec Vector to get from. * \param nth The nth index to find * \param value Value to pass into comparator. * \param cmp Comparator function/macros (called as \c cmp(elem, value)) * * \return a pointer to the element that was found or NULL */ #define AST_VECTOR_GET_INDEX_NTH(vec, nth, value, cmp) ({ \ int res = -1; \ size_t idx; \ typeof(nth) __nth = (nth); \ typeof(value) __value = (value); \ for (idx = 0; idx < (vec)->current; ++idx) { \ if (cmp((vec)->elems[idx], __value) && !(--__nth)) { \ res = (int)idx; \ break; \ } \ } \ res; \ }) /*! * \brief Get the 1st index from a vector that matches the given comparison * * \param vec Vector to get from. * \param value Value to pass into comparator. * \param cmp Comparator function/macros (called as \c cmp(elem, value)) * * \return a pointer to the element that was found or NULL */ #define AST_VECTOR_GET_INDEX(vec, value, cmp) \ AST_VECTOR_GET_INDEX_NTH(vec, 1, value, cmp) /*! * \brief Get an element from a vector that matches the given comparison * * \param vec Vector to get from. * \param value Value to pass into comparator. * \param cmp Comparator function/macros (called as \c cmp(elem, value)) * * \return a pointer to the element that was found or NULL */ #define AST_VECTOR_GET_CMP(vec, value, cmp) ({ \ void *res = NULL; \ size_t idx; \ typeof(value) __value = (value); \ for (idx = 0; idx < (vec)->current; ++idx) { \ if (cmp((vec)->elems[idx], __value)) { \ res = &(vec)->elems[idx]; \ break; \ } \ } \ res; \ }) /*! * \brief Default callback for AST_VECTOR_CALLBACK() * * \param elem Element to compare against * \param value Value to compare with the vector element. * * \return CMP_MATCH always. */ #define AST_VECTOR_MATCH_ALL(element) (CMP_MATCH) /*! * \brief Execute a callback on every element in a vector returning the first matched * * \param vec Vector to operate on. * \param callback A callback that takes at least 1 argument (the element) * plus number of optional arguments * \param default_value A default value to return if no elements matched * * \return the first element matched before CMP_STOP was returned * or the end of the vector was reached. Otherwise, default_value */ #define AST_VECTOR_CALLBACK(vec, callback, default_value, ...) ({ \ size_t idx; \ typeof((vec)->elems[0]) res = default_value; \ for (idx = 0; idx < (vec)->current; idx++) { \ int rc = callback((vec)->elems[idx], ##__VA_ARGS__); \ if (rc & CMP_MATCH) { \ res = (vec)->elems[idx]; \ break; \ }\ if (rc & CMP_STOP) { \ break; \ }\ } \ res; \ }) /*! * \brief Execute a callback on every element in a vector returning the matching * elements in a new vector * * This macro basically provides a filtered clone. * * \param vec Vector to operate on. * \param callback A callback that takes at least 1 argument (the element) * plus number of optional arguments * * \return a vector containing the elements matched before CMP_STOP was returned * or the end of the vector was reached. The vector may be empty and could be NULL * if there was not enough memory to allocate it's control structure. * * \warning The returned vector must have AST_VECTOR_PTR_FREE() * called on it after you've finished with it. * * \note The type of the returned vector must be traceable to the original vector. * * The following will resut in "error: assignment from incompatible pointer type" * because these declare 2 different structures. * * \code * AST_VECTOR(, char *) vector_1; * AST_VECTOR(, char *) *vector_2; * * vector_2 = AST_VECTOR_CALLBACK_MULTIPLE(&vector_1, callback); * \endcode * * This will work because you're using the type of the first * to declare the second: * * \code * AST_VECTOR(mytype, char *) vector_1; * struct mytype *vector_2 = NULL; * * vector_2 = AST_VECTOR_CALLBACK_MULTIPLE(&vector_1, callback); * \endcode * * This will also work because you're declaring both vector_1 and * vector_2 from the same definition. * * \code * AST_VECTOR(, char *) vector_1, *vector_2 = NULL; * * vector_2 = AST_VECTOR_CALLBACK_MULTIPLE(&vector_1, callback); * \endcode */ #define AST_VECTOR_CALLBACK_MULTIPLE(vec, callback, ...) ({ \ size_t idx; \ typeof((vec)) new_vec; \ do { \ new_vec = ast_malloc(sizeof(*new_vec)); \ if (!new_vec) { \ break; \ } \ if (AST_VECTOR_INIT(new_vec, AST_VECTOR_SIZE((vec))) != 0) { \ ast_free(new_vec); \ new_vec = NULL; \ break; \ } \ for (idx = 0; idx < (vec)->current; idx++) { \ int rc = callback((vec)->elems[idx], ##__VA_ARGS__); \ if (rc & CMP_MATCH) { \ AST_VECTOR_APPEND(new_vec, (vec)->elems[idx]); \ } \ if (rc & CMP_STOP) { \ break; \ }\ } \ } while(0); \ new_vec; \ }) /*! * \brief Execute a callback on every element in a vector disregarding callback return * * \param vec Vector to operate on. * \param callback A callback that takes at least 1 argument (the element) * plus number of optional arguments */ #define AST_VECTOR_CALLBACK_VOID(vec, callback, ...) ({ \ size_t idx; \ for (idx = 0; idx < (vec)->current; idx++) { \ callback((vec)->elems[idx], ##__VA_ARGS__); \ } \ }) /*! * \brief Obtain read lock on vector * * \param vec Vector to operate on. * * \return 0 if success * \return Non-zero if error */ #define AST_VECTOR_RW_RDLOCK(vec) ast_rwlock_rdlock(&(vec)->lock) /*! * \brief Obtain write lock on vector * * \param vec Vector to operate on. * * \return 0 if success * \return Non-zero if error */ #define AST_VECTOR_RW_WRLOCK(vec) ast_rwlock_wrlock(&(vec)->lock) /*! * \brief Unlock vector * * \param vec Vector to operate on. * * \return 0 if success * \return Non-zero if error */ #define AST_VECTOR_RW_UNLOCK(vec) ast_rwlock_unlock(&(vec)->lock) /*! * \brief Try to obtain read lock on vector failing immediately if unable * * \param vec Vector to operate on. * * \return 0 if success * \return Non-zero if error */ #define AST_VECTOR_RW_RDLOCK_TRY(vec) ast_rwlock_tryrdlock(&(vec)->lock) /*! * \brief Try to obtain write lock on vector failing immediately if unable * * \param vec Vector to operate on. * * \return 0 if success * \return Non-zero if error */ #define AST_VECTOR_RW_WRLOCK_TRY(vec) ast_rwlock_trywrlock(&(vec)->lock) /*! * \brief Try to obtain read lock on vector failing after timeout if unable * * \param vec Vector to operate on. * * \return 0 if success * \return Non-zero if error */ #define AST_VECTOR_RW_RDLOCK_TIMED(vec, timespec) ast_rwlock_timedrdlock(&(vec)->lock, timespec) /*! * \brief Try to obtain write lock on vector failing after timeout if unable * * \param vec Vector to operate on. * * \return 0 if success * \return Non-zero if error */ #define AST_VECTOR_RW_WRLOCK_TIMED(vec, timespec) ast_rwlock_timedwrlock(&(vec)->lock, timespec) #endif /* _ASTERISK_VECTOR_H */