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* Asterisk -- An open source telephony toolkit.
*
* Copyright (C) 2009, Eliel C. Sardanons (LU1ALY) <eliels@gmail.com>
*
* 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.
*/
/*!
* \file
* \brief Data retrieval API.
* \author Brett Bryant <brettbryant@gmail.com>
* \author Eliel C. Sardanons (LU1ALY) <eliels@gmail.com>
* \arg \ref AstDataRetrieval
*/
#ifndef ASTERISK_DATA_H
#define ASTERISK_DATA_H
#include "asterisk/frame.h"
/*!
* \page AstDataRetrieval The Asterisk DATA retrieval API.
*
* This module implements an abstraction for retrieving asterisk data and
* export it.
*
* \section USAGE
*
* \subsection Provider
*
* \b Register
*
* To register a callback use:
*
* \code
* static const struct ast_data_handler callback_handler = {
* .get = callback_handler_get_function,
* };
*
* ast_data_register("/node/path", &callback_handler);
* \endcode
*
* If you instead want to register multiple nodes at once use:
* \code
* static const struct ast_data_handler handler_struct1 = {
* .get = handler_callback_read,
* };
* ... other handlers ...
*
* static const struct ast_data_entry list_providers[] = {
* AST_DATA_ENTRY("/path1/node1", &handler_struct1),
* AST_DATA_ENTRY("/path2/node2", &handler_struct2),
* AST_DATA_ENTRY("/path3/node3", &handler_struct3),
* };
*
* ...
*
* ast_data_register_multiple(list_providers, ARRAY_LEN(list_providers));
* \endcode
*
* \b Unregister
*
* To unregister a callback function already registered you can just call:
*
* \code
* ast_data_unregister(NULL);
* \endcode
* And every node registered by the current module (file) will be unregistered.
* If you want to unregister a specific node use:
*
* \code
* ast_data_unregister("/node/path");
* \endcode
*
* \b Implementation
*
* A simple callback function implementation:
*
* \code
* #include <data.h>
*
* struct test_structure {
* int a;
* double b;
* };
*
* DATA_EXPORT_TEST_STRUCTURE(MEMBER) \
* MEMBER(test_structure, a, AST_DATA_INTEGER) \
* MEMBER(test_structure, b, AST_DATA_DOUBLE)
*
* AST_DATA_STRUCTURE(test_structure, DATA_EXPORT_TEST_STRUCTURE)
*
* static int my_callback_function(struct ast_data_search *search,
* struct ast_data *root_node)
* {
* struct ast_data *internal_node;
* struct test_structure ts = {
* .a = 10,
* .b = 20
* };
*
* internal_node = ast_data_add_node(root_node, "test_node");
* if (!internal_node) {
* return -1;
* }
*
* ast_data_add_structure(test_structure, internal_node, ts);
*
* if (!ast_data_search_match(search, internal_node)) {
* ast_data_remove_node(root_node, internal_node);
* }
*
* return 0;
* }
*
* \endcode
*
* \subsection Get
*
* \b Getting \b the \b tree
*
* To get the tree you need to create a query, a query is based on three parameters
* a \b path to the provider, a \b search condition and a \b filter condition.
* \code
* struct ast_data *result;
* struct ast_data_query query = {
* .path = "/asterisk/application/app_queue/queues",
* .search = "/queues/queue/name=queue1",
* .filter = "/queues/queue/name|wrapuptime|members/member/interface"
* };
*
* result = ast_data_get(&query);
* \endcode
*
* After using it you need to release the allocated memory of the returned tree:
* \code
* ast_data_free(result);
* \endcode
*
* \b Iterate
*
* To retrieve nodes from the tree, it is possible to iterate through the returned
* nodes of the tree using:
* \code
* struct ast_data_iterator *i;
* struct ast_data *internal_node;
*
* i = ast_data_iterator_init(result_tree, "path/node_name");
* while ((internal_node = ast_data_iterator_next(i))) {
* ... do something with node ...
* }
* ast_data_iterator_end(i);
* \endcode
* node_name is the name of the nodes to retrieve and path is the path to the internal
* nodes to retrieve (if needed).
*
* \b Retrieving
*
* After getting the node you where searching for, you will need to retrieve its value,
* to do that you may use one of the ast_data_retrieve_##type functions:
* \code
* int a = ast_data_retrieve_int(tree, "path/to/the/node");
* double b = ast_data_retrieve_dbl(tree, "path/to/the/node");
* unsigned int c = ast_data_retrieve_bool(tree, "path/to/the/node");
* char *d = ast_data_retrieve_string(tree, "path/to/the/node");
* struct sockaddr_in e = ast_data_retrieve_ipaddr(tree, "path/to/the/node");
* unsigned int f = ast_data_retrieve_uint(tree, "path/to/the/node");
* void *g = ast_data_retrieve_ptr(tree, "path/to/the/node");
* \endcode
*
*/
#if defined(__cplusplus) || defined(c_plusplus)
extern "C" {
#endif
/*! \brief The data type of the data node. */
enum ast_data_type {
AST_DATA_CONTAINER,
AST_DATA_INTEGER,
AST_DATA_UNSIGNED_INTEGER,
AST_DATA_DOUBLE,
AST_DATA_BOOLEAN,
AST_DATA_STRING,
AST_DATA_CHARACTER,
AST_DATA_PASSWORD,
AST_DATA_IPADDR,
AST_DATA_TIMESTAMP,
AST_DATA_SECONDS,
AST_DATA_MILLISECONDS,
AST_DATA_POINTER
};
/*! \brief The Data API structures version. */
#define AST_DATA_HANDLER_VERSION 1
#define AST_DATA_QUERY_VERSION 1
/*! \brief opaque definition of an ast_data handler, a tree node. */
struct ast_data;
/*! \brief opaque definition of an ast_data_iterator handler. */
struct ast_data_iterator;
/*! \brief opaque definition of an ast_data_search structure. */
struct ast_data_search;
/*! \brief structure retrieved from a node, with the nodes content. */
struct ast_data_retrieve {
/*! \brief The type of the node retrieved. */
enum ast_data_type type;
union {
char AST_DATA_CHARACTER;
char *AST_DATA_STRING;
char *AST_DATA_PASSWORD;
int AST_DATA_INTEGER;
unsigned int AST_DATA_TIMESTAMP;
unsigned int AST_DATA_SECONDS;
unsigned int AST_DATA_MILLISECONDS;
double AST_DATA_DOUBLE;
unsigned int AST_DATA_UNSIGNED_INTEGER;
unsigned int AST_DATA_BOOLEAN;
void *AST_DATA_POINTER;
struct in_addr AST_DATA_IPADDR;
void *AST_DATA_CONTAINER;
} value;
};
/*!
* \brief The get callback definition.
*/
typedef int (*ast_data_get_cb)(const struct ast_data_search *search,
struct ast_data *root);
/*! \brief The structure of the node handler. */
struct ast_data_handler {
/*! \brief Structure version. */
uint32_t version;
/*! \brief Data get callback implementation. */
ast_data_get_cb get;
};
/*! \brief This entries are for multiple registers. */
struct ast_data_entry {
/*! \brief Path of the node to register. */
const char *path;
/*! \brief Data handler structure. */
const struct ast_data_handler *handler;
};
#define AST_DATA_ENTRY(__path, __handler) { .path = __path, .handler = __handler }
/*! \brief A query to the data API is specified in this structure. */
struct ast_data_query {
/*! \brief Data query version. */
uint32_t version;
/*! \brief Path to the node to retrieve. */
char *path;
/*! \brief Filter string, return the internal nodes specified here.
* Setting it to NULL will return every internal node. */
char *filter;
/*! \brief Search condition. */
char *search;
};
/*! \brief Map the members of a structure. */
struct ast_data_mapping_structure {
/*! \brief structure member name. */
const char *name;
/*! \brief structure member type. */
enum ast_data_type type;
/*! \brief member getter. */
union {
char (*AST_DATA_CHARACTER)(void *ptr);
char *(*AST_DATA_STRING)(void *ptr);
char *(*AST_DATA_PASSWORD)(void *ptr);
int (*AST_DATA_INTEGER)(void *ptr);
int (*AST_DATA_TIMESTAMP)(void *ptr);
int (*AST_DATA_SECONDS)(void *ptr);
int (*AST_DATA_MILLISECONDS)(void *ptr);
double (*AST_DATA_DOUBLE)(void *ptr);
unsigned int (*AST_DATA_UNSIGNED_INTEGER)(void *ptr);
unsigned int (*AST_DATA_BOOLEAN)(void *ptr);
void *(*AST_DATA_POINTER)(void *ptr);
struct in_addr (*AST_DATA_IPADDR)(void *ptr);
void *(*AST_DATA_CONTAINER)(void *ptr);
} get;
};
/* Generate the structure and the functions to access the members of a structure. */
#define AST_DATA_STRUCTURE(__struct, __name) \
__name(__AST_DATA_MAPPING_FUNCTION); \
static const struct ast_data_mapping_structure __data_mapping_structure_##__struct[] = { \
__name(__AST_DATA_MAPPING_STRUCTURE) \
}
/* Generate the structure to access the members and setup the pointer of the getter. */
#define __AST_DATA_MAPPING_STRUCTURE(__structure, __member, __type) \
{ .name = #__member, .get.__type = data_mapping_structure_get_##__structure##__member, \
.type = __type },
/* based on the data type, specifify the type of return value for the getter function. */
#define __AST_DATA_MAPPING_FUNCTION_AST_DATA_PASSWORD(__structure, __member) \
__AST_DATA_MAPPING_FUNCTION_TYPE(__structure, __member, AST_DATA_PASSWORD, char *)
#define __AST_DATA_MAPPING_FUNCTION_AST_DATA_STRING(__structure, __member) \
__AST_DATA_MAPPING_FUNCTION_TYPE(__structure, __member, AST_DATA_STRING, char *)
#define __AST_DATA_MAPPING_FUNCTION_AST_DATA_CHARACTER(__structure, __member) \
__AST_DATA_MAPPING_FUNCTION_TYPE(__structure, __member, AST_DATA_CHARACTER, char)
#define __AST_DATA_MAPPING_FUNCTION_AST_DATA_INTEGER(__structure, __member) \
__AST_DATA_MAPPING_FUNCTION_TYPE(__structure, __member, AST_DATA_INTEGER, int)
#define __AST_DATA_MAPPING_FUNCTION_AST_DATA_TIMESTAMP(__structure, __member) \
__AST_DATA_MAPPING_FUNCTION_TYPE(__structure, __member, AST_DATA_INTEGER, int)
#define __AST_DATA_MAPPING_FUNCTION_AST_DATA_SECONDS(__structure, __member) \
__AST_DATA_MAPPING_FUNCTION_TYPE(__structure, __member, AST_DATA_INTEGER, int)
#define __AST_DATA_MAPPING_FUNCTION_AST_DATA_MILLISECONDS(__structure, __member) \
__AST_DATA_MAPPING_FUNCTION_TYPE(__structure, __member, AST_DATA_INTEGER, int)
#define __AST_DATA_MAPPING_FUNCTION_AST_DATA_UNSIGNED_INTEGER(__structure, __member) \
__AST_DATA_MAPPING_FUNCTION_TYPE(__structure, __member, AST_DATA_UNSIGNED_INTEGER, unsigned int)
#define __AST_DATA_MAPPING_FUNCTION_AST_DATA_BOOLEAN(__structure, __member) \
__AST_DATA_MAPPING_FUNCTION_TYPE(__structure, __member, AST_DATA_BOOLEAN, unsigned int)
#define __AST_DATA_MAPPING_FUNCTION_AST_DATA_POINTER(__structure, __member) \
__AST_DATA_MAPPING_FUNCTION_TYPE(__structure, __member, AST_DATA_POINTER, void *)
#define __AST_DATA_MAPPING_FUNCTION_AST_DATA_IPADDR(__structure, __member) \
__AST_DATA_MAPPING_FUNCTION_TYPE(__structure, __member, AST_DATA_IPADDR, struct in_addr)
#define __AST_DATA_MAPPING_FUNCTION_AST_DATA_DOUBLE(__structure, __member) \
__AST_DATA_MAPPING_FUNCTION_TYPE(__structure, __member, AST_DATA_DBL, double)
#define __AST_DATA_MAPPING_FUNCTION_AST_DATA_CONTAINER(__structure, __member) \
__AST_DATA_MAPPING_FUNCTION_TYPE(__structure, __member, AST_DATA_CONTAINER, void *)
#define __AST_DATA_MAPPING_FUNCTION(__structure, __member, __type) \
__AST_DATA_MAPPING_FUNCTION_##__type(__structure, __member)
/* Create the function to retrieve a member of the structure. */
#define __AST_DATA_MAPPING_FUNCTION_TYPE(__structure, __member, __type, __real_type) \
static __real_type data_mapping_structure_get_##__structure##__member(void *ptr) { \
struct __structure *struct_##__member = (struct __structure *) ptr; \
return (__real_type) struct_##__member->__member; \
}
/*!
* \brief Register a data provider.
* \param[in] path The path of the node to register.
* \param[in] handler The structure defining this node handler.
* \param[in] registrar Who is registering this node.
* \param[in] mod The module registering this handler.
* \see ast_data_unregister
* \retval <0 on error.
* \retval 0 on success.
* \see __ast_data_unregister, __ast_data_register_multiple
*/
int __ast_data_register(const char *path, const struct ast_data_handler *handler,
const char *registrar, struct ast_module *mod);
#define ast_data_register(path, handler) __ast_data_register(path, handler, __FILE__, ast_module_info->self)
#define ast_data_register_core(path, handler) __ast_data_register(path, handler, __FILE__, NULL)
/*!
* \brief Register multiple data providers at once.
* \param[in] data_entries An array of data_entries structures.
* \param[in] entries The number of entries in the data_entries array.
* \param[in] registrar Who is registering this nodes.
* \param[in] mod The module registering this handlers.
* \retval <0 on error (none of the nodes are being registered on error).
* \retval 0 on success.
* \see __ast_data_register, __ast_data_unregister
*/
int __ast_data_register_multiple(const struct ast_data_entry *data_entries,
size_t entries, const char *registrar, struct ast_module *mod);
#define ast_data_register_multiple(data_entries, entries) \
__ast_data_register_multiple(data_entries, entries, __FILE__, ast_module_info->self)
#define ast_data_register_multiple_core(data_entries, entries) \
__ast_data_register_multiple(data_entries, entries, __FILE__, NULL)
/*!
* \brief Unregister a data provider.
* \param[in] path Which node to unregister, if path is NULL unregister every node
* registered by the passed 'registrar'.
* \param[in] registrar Who is trying to unregister this node, only the owner (the
* one who registered the node) will be able to unregister it.
* \see ast_data_register
* \retval <0 on error.
* \retval 0 on success.
* \see __ast_data_register, __ast_data_register_multiple
*/
int __ast_data_unregister(const char *path, const char *registrar);
#define ast_data_unregister(path) __ast_data_unregister(path, __FILE__)
/*!
* \brief Check the current generated node to know if it matches the search
* condition.
* \param[in] search The search condition.
* \param[in] data The AstData node generated.
* \return 1 If the "data" node matches the search condition.
* \return 0 If the "data" node does not matches the search condition.
* \see ast_data_remove_node
*/
int ast_data_search_match(const struct ast_data_search *search, struct ast_data *data);
/*!
* \brief Based on a search tree, evaluate every member of a structure against it.
* \param[in] search The search tree.
* \param[in] mapping The structure mapping.
* \param[in] mapping_len The lenght of the structure mapping.
* \param[in] structure The structure pointer.
* \param[in] structure_name The name of the structure to compare.
* \retval 0 If the structure matches.
* \retval 1 If the structure doesn't match.
*/
int __ast_data_search_cmp_structure(const struct ast_data_search *search,
const struct ast_data_mapping_structure *mapping, size_t mapping_len,
void *structure, const char *structure_name);
#define ast_data_search_cmp_structure(search, structure_name, structure, structure_name_cmp) \
__ast_data_search_cmp_structure(search, __data_mapping_structure_##structure_name, \
ARRAY_LEN(__data_mapping_structure_##structure_name), structure, structure_name_cmp)
/*!
* \brief Retrieve a subtree from the asterisk data API.
* \param[in] query The query structure specifying what nodes to retrieve.
* \retval NULL on error.
* \retval non-NULL The dynamically allocated requested sub-tree (it needs to be
* released using ast_data_free.
* \see ast_data_free, ast_data_get_xml
*/
struct ast_data *ast_data_get(const struct ast_data_query *query);
#ifdef HAVE_LIBXML2
/*!
* \brief Retrieve a subtree from the asterisk data API in XML format..
* \param[in] query The query structure specifying what nodes to retrieve.
* \retval NULL on error.
* \retval non-NULL The dynamically allocated requested sub-tree (it needs to be
* released using ast_data_free.
* \see ast_data_free, ast_data_get
*/
struct ast_xml_doc *ast_data_get_xml(const struct ast_data_query *query);
#endif
/*!
* \brief Release the allocated memory of a tree.
* \param[in] root The sub-tree pointer returned by a call to ast_data_get.
* \see ast_data_get
*/
void ast_data_free(struct ast_data *root);
/*!
* \brief Get a node type.
* \param[in] res A pointer to the ast_data result set.
* \param[in] path A path to the node to get the type.
* \return The type of the requested node type.
*/
enum ast_data_type ast_data_retrieve_type(struct ast_data *res, const char *path);
/*!
* \brief Get the node name.
* \param[in] node The node pointer.
* \returns The node name.
*/
char *ast_data_retrieve_name(struct ast_data *node);
/*!
* \brief Add a container child.
* \param[in] root The root of the ast_data to insert into.
* \param[in] childname The name of the child element to be added.
* \retval NULL on error (memory exhaustion only).
* \retval non-NULL a newly allocated node.
*/
struct ast_data *ast_data_add_node(struct ast_data *root, const char *childname);
/*!
* \brief Add an integer node type.
* \param[in] root The root of the ast_data to insert into.
* \param[in] childname The name of the child element to be added.
* \param[in] value The value for the new node.
* \retval NULL on error (memory exhaustion only).
* \retval non-NULL a newly allocated node.
*/
struct ast_data *ast_data_add_int(struct ast_data *root, const char *childname,
int value);
/*!
* \brief Add a char node type.
* \param[in] root The root of the ast_data to insert into.
* \param[in] childname The name of the child element to be added.
* \param[in] value The value for the new node.
* \retval NULL on error (memory exhaustion only).
* \retval non-NULL a newly allocated node.
*/
struct ast_data *ast_data_add_char(struct ast_data *root, const char *childname,
char value);
/*!
* \brief Add an unsigned integer node type.
* \param[in] root The root of the ast_data to insert into.
* \param[in] childname The name of the child element to be added.
* \param[in] value The value for the new node.
* \retval NULL on error (memory exhaustion only).
* \retval non-NULL a newly allocated node.
*/
struct ast_data *ast_data_add_uint(struct ast_data *root, const char *childname,
unsigned int value);
/*!
* \brief Add a floating point node type.
* \param[in] root The root of the ast_data to insert into.
* \param[in] childname The name of the child element to be added.
* \param[in] dbl The value for the new node.
* \retval NULL on error (memory exhaustion only).
* \retval non-NULL a newly allocated node.
*/
struct ast_data *ast_data_add_dbl(struct ast_data *root, const char *childname,
double dbl);
/*!
* \brief Add a ipv4 address type.
* \param[in] root The root of the ast_data to insert into.
* \param[in] childname The name of the child element to be added.
* \param[in] addr The ipv4 address value.
* \retval NULL on error (memory exhaustion only).
* \retval non-NULL a newly allocated node.
*/
struct ast_data *ast_data_add_ipaddr(struct ast_data *root, const char *childname,
struct in_addr addr);
/*!
* \brief Add a ptr node type.
* \param[in] root The root of the ast_data to insert into.
* \param[in] childname The name of the child element to be added.
* \param[in] ptr The pointer value to add.
* \retval NULL on error (memory exhaustion only).
* \retval non-NULL a newly allocated node.
*/
struct ast_data *ast_data_add_ptr(struct ast_data *root, const char *childname,
void *ptr);
/*!
* \brief Add a password node type.
* \param[in] root The root of the ast_data to insert into.
* \param[in] childname The name of the child element to be added.
* \param[in] string The value for the new node.
* \retval NULL on error (memory exhaustion only).
* \retval non-NULL a newly allocated node.
*/
struct ast_data *ast_data_add_password(struct ast_data *root, const char *childname,
const char *string);
/*!
* \brief Add a timestamp node type.
* \param[in] root The root of the ast_data to insert into.
* \param[in] childname The name of the child element to be added.
* \param[in] timestamp The value for the new node.
* \retval NULL on error (memory exhaustion only).
* \retval non-NULL a newly allocated node.
*/
struct ast_data *ast_data_add_timestamp(struct ast_data *root, const char *childname,
unsigned int timestamp);
/*!
* \brief Add a seconds node type.
* \param[in] root The root of the ast_data to insert into.
* \param[in] childname The name of the child element to be added.
* \param[in] seconds The value for the new node.
* \retval NULL on error (memory exhaustion only).
* \retval non-NULL a newly allocated node.
*/
struct ast_data *ast_data_add_seconds(struct ast_data *root, const char *childname,
unsigned int seconds);
/*!
* \brief Add a milliseconds node type.
* \param[in] root The root of the ast_data to insert into.
* \param[in] childname The name of the child element to be added.
* \param[in] milliseconds The value for the new node.
* \retval NULL on error (memory exhaustion only).
* \retval non-NULL a newly allocated node.
*/
struct ast_data *ast_data_add_milliseconds(struct ast_data *root, const char *childname,
unsigned int milliseconds);
/*!
* \brief Add a string node type.
* \param[in] root The root of the ast_data to insert into.
* \param[in] childname The name of the child element to be added.
* \param[in] string The value for the new node.
* \retval NULL on error (memory exhaustion only).
* \retval non-NULL a newly allocated node.
*/
struct ast_data *ast_data_add_str(struct ast_data *root, const char *childname,
const char *string);
/*!
* \brief Add a boolean node type.
* \param[in] root The root of the ast_data to insert into.
* \param[in] childname The name of the child element to be added.
* \param[in] boolean The value for the new node.
* \retval NULL on error (memory exhaustion only).
* \retval non-NULL a newly allocated node.
*/
struct ast_data *ast_data_add_bool(struct ast_data *root, const char *childname,
unsigned int boolean);
/*!
* \brief Add a complete structure to a node.
* \param[in] root Where to add the structure.
* \param[in] mapping The structure mapping array.
* \param[in] mapping_len The lenght of the mapping array.
* \param[in] structure The structure pointer.
* \retval 0 on success.
* \retval 1 on error.
*/
int __ast_data_add_structure(struct ast_data *root,
const struct ast_data_mapping_structure *mapping,
size_t mapping_len, void *structure);
#define ast_data_add_structure(structure_name, root, structure) \
__ast_data_add_structure(root, __data_mapping_structure_##structure_name, \
ARRAY_LEN(__data_mapping_structure_##structure_name), structure)
/*!
* \brief Remove a node that was added using ast_data_add_
* \param[in] root The root node of the node to be removed.
* \param[in] child The node pointer to remove.
*/
void ast_data_remove_node(struct ast_data *root, struct ast_data *child);
/*!
* \brief Initialize an iterator.
* \param[in] tree The returned tree by a call to ast_data_get.
* \param[in] elements Which elements to iterate through.
* \retval NULL on error.
* \retval non-NULL A dinamically allocated iterator structure.
*/
struct ast_data_iterator *ast_data_iterator_init(struct ast_data *tree,
const char *elements);
/*!
* \brief Release (stop using) an iterator.
* \param[in] iterator The iterator created by ast_data_iterator_start.
* \see ast_data_iterator_start
*/
void ast_data_iterator_end(struct ast_data_iterator *iterator);
/*!
* \brief Get the next node of the tree.
* \param[in] iterator The iterator structure returned by ast_data_iterator_start.
* \retval NULL when no more nodes to return.
* \retval non-NULL A node of the ast_data tree.
* \see ast_data_iterator_start, ast_data_iterator_stop
*/
struct ast_data *ast_data_iterator_next(struct ast_data_iterator *iterator);
/*!
* \brief Retrieve a value from a node in the tree.
* \param[in] tree The structure returned by a call to ast_data_get.
* \param[in] path The path to the node.
* \param[out] content The node content.
* \retval 0 on success.
* \retval <0 on error.
*/
int ast_data_retrieve(struct ast_data *tree, const char *path, struct ast_data_retrieve *content);
/*!
* \brief Retrieve the integer value of a node.
* \param[in] tree The tree from where to get the value.
* \param[in] path The node name or path.
* \returns The value of the node.
*/
static inline int ast_data_retrieve_int(struct ast_data *tree, const char *path)
{
struct ast_data_retrieve ret;
ast_data_retrieve(tree, path, &ret);
return ret.value.AST_DATA_INTEGER;
}
/*!
* \brief Retrieve the character value of a node.
* \param[in] tree The tree from where to get the value.
* \param[in] path The node name or path.
* \returns The value of the node.
*/
static inline char ast_data_retrieve_char(struct ast_data *tree, const char *path)
{
struct ast_data_retrieve ret;
ast_data_retrieve(tree, path, &ret);
return ret.value.AST_DATA_CHARACTER;
}
/*!
* \brief Retrieve the boolean value of a node.
* \param[in] tree The tree from where to get the value.
* \param[in] path The node name or path.
* \returns The value of the node.
*/
static inline unsigned int ast_data_retrieve_bool(struct ast_data *tree, const char *path)
{
struct ast_data_retrieve ret;
ast_data_retrieve(tree, path, &ret);
return ret.value.AST_DATA_BOOLEAN;
}
/*!
* \brief Retrieve the unsigned integer value of a node.
* \param[in] tree The tree from where to get the value.
* \param[in] path The node name or path.
* \returns The value of the node.
*/
static inline unsigned int ast_data_retrieve_uint(struct ast_data *tree, const char *path)
{
struct ast_data_retrieve ret;
ast_data_retrieve(tree, path, &ret);
return ret.value.AST_DATA_UNSIGNED_INTEGER;
}
/*!
* \brief Retrieve the password value of a node.
* \param[in] tree The tree from where to get the value.
* \param[in] path The node name or path.
* \returns The value of the node.
*/
static inline const char *ast_data_retrieve_password(struct ast_data *tree, const char *path)
{
struct ast_data_retrieve ret;
ast_data_retrieve(tree, path, &ret);
return ret.value.AST_DATA_PASSWORD;
}
/*!
* \brief Retrieve the string value of a node.
* \param[in] tree The tree from where to get the value.
* \param[in] path The node name or path.
* \returns The value of the node.
*/
static inline const char *ast_data_retrieve_string(struct ast_data *tree, const char *path)
{
struct ast_data_retrieve ret;
ast_data_retrieve(tree, path, &ret);
return ret.value.AST_DATA_STRING;
}
/*!
* \brief Retrieve the ptr value of a node.
* \param[in] tree The tree from where to get the value.
* \param[in] path The node name or path.
* \returns The value of the node.
*/
static inline void *ast_data_retrieve_ptr(struct ast_data *tree, const char *path)
{
struct ast_data_retrieve ret;
ast_data_retrieve(tree, path, &ret);
return ret.value.AST_DATA_POINTER;
}
/*!
* \brief Retrieve the double value of a node.
* \param[in] tree The tree from where to get the value.
* \param[in] path The node name or path.
* \returns The value of the node.
*/
static inline double ast_data_retrieve_dbl(struct ast_data *tree, const char *path)
{
struct ast_data_retrieve ret;
ast_data_retrieve(tree, path, &ret);
return ret.value.AST_DATA_DOUBLE;
}
/*!
* \brief Retrieve the ipv4 address value of a node.
* \param[in] tree The tree from where to get the value.
* \param[in] path The node name or path.
* \returns The value of the node.
*/
static inline struct in_addr ast_data_retrieve_ipaddr(struct ast_data *tree, const char *path)
{
struct ast_data_retrieve ret;
ast_data_retrieve(tree, path, &ret);
return ret.value.AST_DATA_IPADDR;
}
/*!
* \brief Add the codec in the root node based on the format parameter.
* \param[in] root The astdata root node where to add the codec node.
* \param[in] node_name The name of the node where we are going to add the codec.
* \param[in] format The codec allowed.
* \return < 0 on error.
* \return 0 on success.
*/
int ast_data_add_codec(struct ast_data *root, const char *node_name, struct ast_format *format);
/*!
* \brief Add the list of codecs in the root node based on the capability parameter.
* \param[in] root The astdata root node where to add the codecs node.
* \param[in] node_name The name of the node where we are going to add the list of
* codecs.
* \param[in] capability The codecs allowed.
* \return < 0 on error.
* \return 0 on success.
*/
int ast_data_add_codecs(struct ast_data *root, const char *node_name, struct ast_format_cap *capability);
#if defined(__cplusplus) || defined(c_plusplus)
}
#endif
#endif /* ASTERISK_DATA_H */
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