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More doxygen fun. 

git-svn-id: http://svn.freeswitch.org/svn/freeswitch/trunk@257 d0543943-73ff-0310-b7d9-9358b9ac24b2
This commit is contained in:
Michael Jerris 2006-01-02 22:36:01 +00:00
parent 5eb15f329e
commit e29d980b68
4 changed files with 458 additions and 58 deletions
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3
docs/Doxygen.conf
View File

@ -217,7 +217,8 @@ SEARCH_INCLUDES = YES
INCLUDE_PATH = ../libs/apr/include
INCLUDE_FILE_PATTERNS = *.h
PREDEFINED = SWITCH_DECLARE(x)=x \
APR_DECLARE(x)=x
APR_DECLARE(x)=x \
DoxyDefine(x)=x
EXPAND_AS_DEFINED = NO
SKIP_FUNCTION_MACROS = NO

436
src/include/switch_apr.h
View File

@ -83,18 +83,12 @@ extern "C" {
#define SWITCH_POLLHUP APR_POLLHUP /**< Hangup occurred */
#define SWITCH_POLLNVAL APR_POLLNVAL /**< Descriptior invalid */
/** Opaque thread-local mutex structure */
typedef apr_thread_mutex_t switch_mutex_t;
/** Abstract type for hash tables. */
typedef apr_hash_t switch_hash;
/** Abstract type for scanning hash tables. */
typedef apr_hash_index_t switch_hash_index_t;
/** The fundamental pool type */
typedef apr_pool_t switch_memory_pool;
/** number of microseconds since 00:00:00 january 1, 1970 UTC */
typedef apr_time_t switch_time_t;
@ -212,14 +206,14 @@ typedef apr_file_t switch_file_t;
* @remark If perm is SWITCH_FPROT_OS_DEFAULT and the file is being created,
* appropriate default permissions will be used.
*/
apr_status_t switch_file_open(switch_file_t **newf, const char *fname, apr_int32_t flag, switch_fileperms_t perm, switch_pool_t *pool);
DoxyDefine(apr_status_t switch_file_open(switch_file_t **newf, const char *fname, apr_int32_t flag, switch_fileperms_t perm, switch_pool_t *pool);)
#define switch_file_open apr_file_open
/**
* Close the specified file.
* @param file The file descriptor to close.
*/
apr_status_t switch_file_close(switch_file_t *file);
DoxyDefine(apr_status_t switch_file_close(switch_file_t *file);)
#define switch_file_close apr_file_close
/**
@ -239,7 +233,7 @@ apr_status_t switch_file_close(switch_file_t *file);
* @remark It is not possible for both bytes to be read and an APR_EOF
* or other error to be returned. APR_EINTR is never returned.
*/
apr_status_t switch_file_read(switch_file_t *thefile, void *buf, switch_size_t *nbytes);
DoxyDefine(apr_status_t switch_file_read(switch_file_t *thefile, void *buf, switch_size_t *nbytes);)
#define switch_file_read apr_file_read
/**
@ -257,7 +251,7 @@ apr_status_t switch_file_read(switch_file_t *thefile, void *buf, switch_size_t *
* @remark It is possible for both bytes to be written and an error to
* be returned. APR_EINTR is never returned.
*/
apr_status_t swich_file_write(switch_file_t *thefile, const void *buf, switch_size_t *nbytes);
DoxyDefine(apr_status_t switch_file_write(switch_file_t *thefile, const void *buf, switch_size_t *nbytes);)
#define switch_file_write apr_file_write
/** @} */
@ -284,7 +278,7 @@ typedef apr_thread_cond_t switch_thread_cond_t;
* will be stored.
* @param pool the pool from which to allocate the mutex.
*/
apr_status_t switch_thread_cond_create(switch_thread_cond_t **cond, switch_pool_t *pool);
DoxyDefine(apr_status_t switch_thread_cond_create(switch_thread_cond_t **cond, switch_pool_t *pool);)
#define switch_thread_cond_create apr_thread_cond_create
/**
@ -299,7 +293,7 @@ apr_status_t switch_thread_cond_create(switch_thread_cond_t **cond, switch_pool_
* is released while the thread is asleep, and is again acquired before
* returning from this function.
*/
apr_status_t switch_thread_cond_wait(switch_thread_cond_t *cond, switch_thread_mutex_t *mutex);
DoxyDefine(apr_status_t switch_thread_cond_wait(switch_thread_cond_t *cond, switch_thread_mutex_t *mutex);)
#define switch_thread_cond_wait apr_thread_cond_wait
/**
@ -318,7 +312,7 @@ apr_status_t switch_thread_cond_wait(switch_thread_cond_t *cond, switch_thread_m
* will wake up before this time, otherwise the error APR_TIMEUP
* is returned.
*/
apr_status_t switch_thread_cond_timedwait(switch_thread_cond_t *cond, switch_thread_mutex_t *mutex, switch_interval_time_t timeout);
DoxyDefine(apr_status_t switch_thread_cond_timedwait(switch_thread_cond_t *cond, switch_thread_mutex_t *mutex, switch_interval_time_t timeout);)
#define switch_thread_cond_timedwait apr_thread_cond_timedwait
/**
@ -328,7 +322,7 @@ apr_status_t switch_thread_cond_timedwait(switch_thread_cond_t *cond, switch_thr
* is desired, that mutex must be locked while calling this function.
* @param cond the condition variable on which to produce the signal.
*/
apr_status_t switch_thread_cond_signal(switch_thread_cond_t *cond);
DoxyDefine(apr_status_t switch_thread_cond_signal(switch_thread_cond_t *cond);)
#define switch_thread_cond_signal apr_thread_cond_signal
/**
@ -337,14 +331,14 @@ apr_status_t switch_thread_cond_signal(switch_thread_cond_t *cond);
* the associated mutex. This will happen in a serialized manner.
* @param cond the condition variable on which to produce the broadcast.
*/
apr_status_t switch_thread_cond_broadcast(switch_thread_cond_t *cond);
DoxyDefine(apr_status_t switch_thread_cond_broadcast(switch_thread_cond_t *cond);)
#define switch_thread_cond_broadcast apr_thread_cond_broadcast
/**
* Destroy the condition variable and free the associated memory.
* @param cond the condition variable to destroy.
*/
apr_status_t switch_thread_cond_destroy(switch_thread_cond_t *cond);
DoxyDefine(apr_status_t switch_thread_cond_destroy(switch_thread_cond_t *cond);)
#define switch_thread_cond_destroy apr_thread_cond_destroy
/** @} */
@ -355,13 +349,6 @@ apr_status_t switch_thread_cond_destroy(switch_thread_cond_t *cond);
* @{
*/
/** Lock Flags */
typedef enum {
SWITCH_MUTEX_DEFAULT = APR_THREAD_MUTEX_DEFAULT /**< platform-optimal lock behavior */,
SWITCH_MUTEX_NESTED = APR_THREAD_MUTEX_NESTED /**< enable nested (recursive) locks */,
SWITCH_MUTEX_UNNESTED = APR_THREAD_MUTEX_UNNESTED /**< disable nested locks */
} switch_lock_flag;
/** Opaque Thread structure. */
typedef apr_thread_t switch_thread;
@ -380,7 +367,7 @@ typedef apr_thread_start_t switch_thread_start_t;
* @param new_attr The newly created threadattr.
* @param cont The pool to use
*/
apr_status_t switch_threadattr_create(switch_threadattr_t **new_attr, switch_pool_t *cont);
DoxyDefine(apr_status_t switch_threadattr_create(switch_threadattr_t **new_attr, switch_pool_t *cont);)
#define switch_threadattr_create apr_threadattr_create
/**
@ -388,7 +375,7 @@ apr_status_t switch_threadattr_create(switch_threadattr_t **new_attr, switch_poo
* @param attr The threadattr to affect
* @param on Non-zero if detached threads should be created.
*/
apr_status_t switch_threadattr_detach_set(switch_threadattr_t *attr, switch_int32_t on);
DoxyDefine(apr_status_t switch_threadattr_detach_set(switch_threadattr_t *attr, switch_int32_t on);)
#define switch_threadattr_detach_set apr_threadattr_detach_set
/**
@ -399,7 +386,7 @@ apr_status_t switch_threadattr_detach_set(switch_threadattr_t *attr, switch_int3
* @param data Any data to be passed to the starting function
* @param cont The pool to use
*/
apr_status_t switch_thread_create(switch_thread_t **new_thread, switch_threadattr_t *attr, switch_thread_start_t func, void *data, switch_pool_t *cont);
DoxyDefine(apr_status_t switch_thread_create(switch_thread_t **new_thread, switch_threadattr_t *attr, switch_thread_start_t func, void *data, switch_pool_t *cont);)
#define switch_thread_create apr_thread_create
/** @} */
@ -426,7 +413,7 @@ typedef apr_sockaddr_t switch_sockaddr_t;
* @param protocol The protocol of the socket (e.g., APR_PROTO_TCP).
* @param cont The pool to use
*/
apr_status_t switch_socket_create(switch_socket_t **new_sock, int family, int type, int protocol, switch_pool_t *cont);
DoxyDefine(apr_status_t switch_socket_create(switch_socket_t **new_sock, int family, int type, int protocol, switch_pool_t *cont);)
#define switch_socket_create apr_socket_create
/**
@ -442,14 +429,14 @@ apr_status_t switch_socket_create(switch_socket_t **new_sock, int family, int ty
* @remark This does not actually close the socket descriptor, it just
* controls which calls are still valid on the socket.
*/
apr_status_t switch_socket_shutdown(switch_socket_t *thesocket, switch_shutdown_how_e how);
DoxyDefine(apr_status_t switch_socket_shutdown(switch_socket_t *thesocket, switch_shutdown_how_e how);)
#define switch_socket_shutdown apr_socket_shutdown
/**
* Close a socket.
* @param thesocket The socket to close
*/
apr_status_t switch_socket_close(switch_socket_t *thesocket);
DoxyDefine(apr_status_t switch_socket_close(switch_socket_t *thesocket);)
#define switch_socket_close apr_socket_close
/**
@ -459,7 +446,7 @@ apr_status_t switch_socket_close(switch_socket_t *thesocket);
* @remark This may be where we will find out if there is any other process
* using the selected port.
*/
apr_status_t switch_socket_bind(switch_socket_t *sock, switch_sockaddr_t *sa);
DoxyDefine(apr_status_t switch_socket_bind(switch_socket_t *sock, switch_sockaddr_t *sa);)
#define switch_socket_bind apr_socket_bind
/**
@ -469,7 +456,7 @@ apr_status_t switch_socket_bind(switch_socket_t *sock, switch_sockaddr_t *sa);
* listen queue. If this value is less than zero, the listen
* queue size is set to zero.
*/
apr_status_t switch_socket_listen(switch_socket_t *sock, switch_int32_t backlog);
DoxyDefine(apr_status_t switch_socket_listen(switch_socket_t *sock, switch_int32_t backlog);)
#define switch_socket_listen apr_socket_listen
/**
@ -480,7 +467,7 @@ apr_status_t switch_socket_listen(switch_socket_t *sock, switch_int32_t backlog)
* @param sock The socket we are listening on.
* @param connection_pool The pool for the new socket.
*/
apr_status_t switch_socket_accept(switch_socket_t **new_sock, switch_socket_t *sock, switch_pool_t *connection_pool);
DoxyDefine(apr_status_t switch_socket_accept(switch_socket_t **new_sock, switch_socket_t *sock, switch_pool_t *connection_pool);)
#define switch_socket_accept apr_socket_accept
/**
@ -489,7 +476,7 @@ apr_status_t switch_socket_accept(switch_socket_t **new_sock, switch_socket_t *s
* @param sock The socket we wish to use for our side of the connection
* @param sa The address of the machine we wish to connect to.
*/
apr_status_t switch_socket_connect(switch_socket_t *sock, switch_sockaddr_t *sa);
DoxyDefine(apr_status_t switch_socket_connect(switch_socket_t *sock, switch_sockaddr_t *sa);)
#define switch_socket_connect apr_socket_connect
/**
@ -515,12 +502,12 @@ apr_status_t switch_socket_connect(switch_socket_t *sock, switch_sockaddr_t *sa)
* </PRE>
* @param p The pool for the apr_sockaddr_t and associated storage.
*/
apr_status_t switch_sockaddr_info_get(switch_sockaddr_t **sa,
const char *hostname,
switch_int32_t family,
switch_port_t port,
switch_int32_t flags,
switch_pool_t *p);
DoxyDefine(apr_status_t switch_sockaddr_info_get(switch_sockaddr_t **sa,
const char *hostname,
switch_int32_t family,
switch_port_t port,
switch_int32_t flags,
switch_pool_t *p);)
#define switch_sockaddr_info_get apr_sockaddr_info_get
/**
@ -529,9 +516,9 @@ apr_status_t switch_sockaddr_info_get(switch_sockaddr_t **sa,
* @param sa The apr_sockaddr_t.
* @param flags Special processing flags.
*/
apr_status_t switch_getnameinfo(char **hostname,
DoxyDefine(apr_status_t switch_getnameinfo(char **hostname,
switch_sockaddr_t *sa,
switch_int32_t flags);
switch_int32_t flags);)
#define switch_getnameinfo apr_getnameinfo
/**
@ -564,11 +551,11 @@ apr_status_t switch_getnameinfo(char **hostname,
* required, check for addr == NULL in addition to checking the
* return code.
*/
apr_status_t switch_parse_addr_port(char **addr,
DoxyDefine(apr_status_t switch_parse_addr_port(char **addr,
char **scope_id,
switch_port_t *port,
const char *str,
switch_pool_t *p);
switch_pool_t *p);)
#define switch_parse_addr_port apr_parse_addr_port
/**
@ -579,7 +566,7 @@ apr_status_t switch_parse_addr_port(char **addr,
* @param cont The pool to use.
* @remark If the buffer was not large enough, an error will be returned.
*/
apr_status_t switch_gethostname(char *buf, int len, switch_pool_t *cont);
DoxyDefine(apr_status_t switch_gethostname(char *buf, int len, switch_pool_t *cont);)
#define switch_gethostname apr_gethostname
/**
@ -588,8 +575,8 @@ apr_status_t switch_gethostname(char *buf, int len, switch_pool_t *cont);
* @param key The key to associate with the user data.
* @param sock The currently open socket.
*/
apr_status_t switch_socket_data_get(void **data, const char *key,
switch_socket_t *sock);
DoxyDefine(apr_status_t switch_socket_data_get(void **data, const char *key,
switch_socket_t *sock);)
#define switch_socket_data_get apr_socket_data_get
/**
@ -599,39 +586,390 @@ apr_status_t switch_socket_data_get(void **data, const char *key,
* @param key The key to associate with the data.
* @param cleanup The cleanup to call when the socket is destroyed.
*/
apr_status_t switch_socket_data_set(switch_socket_t *sock, void *data,
const char *key,
switch_status_t (*cleanup)(void*));
DoxyDefine(apr_status_t switch_socket_data_set(switch_socket_t *sock,
void *data,
const char *key,
switch_status_t (*cleanup)(void*));)
#define switch_socket_data_set apr_socket_data_set
/**
* Send data over a network.
* @param sock The socket to send the data over.
* @param buf The buffer which contains the data to be sent.
* @param len On entry, the number of bytes to send; on exit, the number
* of bytes sent.
* @remark
* <PRE>
* This functions acts like a blocking write by default. To change
* this behavior, use apr_socket_timeout_set() or the APR_SO_NONBLOCK
* socket option.
*
* It is possible for both bytes to be sent and an error to be returned.
*
* APR_EINTR is never returned.
* </PRE>
*/
DoxyDefine(apr_status_t switch_socket_send(switch_socket_t *sock,
const char *buf,
apr_size_t *len);)
#define switch_socket_send apr_socket_send
/**
* Send multiple packets of data over a network.
* @param sock The socket to send the data over.
* @param vec The array of iovec structs containing the data to send
* @param nvec The number of iovec structs in the array
* @param len Receives the number of bytes actually written
* @remark
* <PRE>
* This functions acts like a blocking write by default. To change
* this behavior, use apr_socket_timeout_set() or the APR_SO_NONBLOCK
* socket option.
* The number of bytes actually sent is stored in argument 3.
*
* It is possible for both bytes to be sent and an error to be returned.
*
* APR_EINTR is never returned.
* </PRE>
*/
DoxyDefine(apr_status_t switch_socket_sendv(switch_socket_t *sock,
const struct iovec *vec,
apr_int32_t nvec, apr_size_t *len);)
#define switch_socket_sendv apr_socket_sendv
/**
* @param sock The socket to send from
* @param where The apr_sockaddr_t describing where to send the data
* @param flags The flags to use
* @param buf The data to send
* @param len The length of the data to send
*/
DoxyDefine(apr_status_t switch_socket_sendto(switcj_socket_t *sock,
apr_sockaddr_t *where,
apr_int32_t flags,
const char *buf,
apr_size_t *len);)
#define switch_socket_sendto apr_socket_sendto
/**
* @param from The apr_sockaddr_t to fill in the recipient info
* @param sock The socket to use
* @param flags The flags to use
* @param buf The buffer to use
* @param len The length of the available buffer
*/
DoxyDefine(apr_status_t switch_socket_recvfrom(switch_sockaddr_t *from,
switch_socket_t *sock,
apr_int32_t flags,
char *buf,
apr_size_t *len);)
#define switch_socket_recvfrom apr_socket_recvfrom
/**
* Send a file from an open file descriptor to a socket, along with
* optional headers and trailers
* @param sock The socket to which we're writing
* @param file The open file from which to read
* @param hdtr A structure containing the headers and trailers to send
* @param offset Offset into the file where we should begin writing
* @param len (input) - Number of bytes to send from the file
* (output) - Number of bytes actually sent,
* including headers, file, and trailers
* @param flags APR flags that are mapped to OS specific flags
* @remark This functions acts like a blocking write by default. To change
* this behavior, use apr_socket_timeout_set() or the
* APR_SO_NONBLOCK socket option.
* The number of bytes actually sent is stored in the len parameter.
* The offset parameter is passed by reference for no reason; its
* value will never be modified by the apr_socket_sendfile() function.
*/
DoxyDefine(apr_status_t switch_socket_sendfile(apr_socket_t *sock,
switch_file_t *file,
apr_hdtr_t *hdtr,
apr_off_t *offset,
apr_size_t *len,
apr_int32_t flags);)
#define switch_socket_sendfile apr_socket_sendfile
/**
* Read data from a network.
* @param sock The socket to read the data from.
* @param buf The buffer to store the data in.
* @param len On entry, the number of bytes to receive; on exit, the number
* of bytes received.
* @remark
* <PRE>
* This functions acts like a blocking read by default. To change
* this behavior, use apr_socket_timeout_set() or the APR_SO_NONBLOCK
* socket option.
* The number of bytes actually received is stored in argument 3.
*
* It is possible for both bytes to be received and an APR_EOF or
* other error to be returned.
*
* APR_EINTR is never returned.
* </PRE>
*/
DoxyDefine(apr_status_t switch_socket_recv(switch_socket_t *sock,
char *buf,
apr_size_t *len);)
#define switch_socket_recv apr_socket_recv
/**
* Setup socket options for the specified socket
* @param sock The socket to set up.
* @param opt The option we would like to configure. One of:
* <PRE>
* APR_SO_DEBUG -- turn on debugging information
* APR_SO_KEEPALIVE -- keep connections active
* APR_SO_LINGER -- lingers on close if data is present
* APR_SO_NONBLOCK -- Turns blocking on/off for socket
* When this option is enabled, use
* the APR_STATUS_IS_EAGAIN() macro to
* see if a send or receive function
* could not transfer data without
* blocking.
* APR_SO_REUSEADDR -- The rules used in validating addresses
* supplied to bind should allow reuse
* of local addresses.
* APR_SO_SNDBUF -- Set the SendBufferSize
* APR_SO_RCVBUF -- Set the ReceiveBufferSize
* </PRE>
* @param on Value for the option.
*/
DoxyDefine(apr_status_t switch_socket_opt_set(switch_socket_t *sock,
apr_int32_t opt,
apr_int32_t on);)
#define switch_socket_opt_set apr_socket_opt_set
/**
* Setup socket timeout for the specified socket
* @param sock The socket to set up.
* @param t Value for the timeout.
* <PRE>
* t > 0 -- read and write calls return APR_TIMEUP if specified time
* elapsess with no data read or written
* t == 0 -- read and write calls never block
* t < 0 -- read and write calls block
* </PRE>
*/
DoxyDefine(apr_status_t switch_socket_timeout_set(switch_socket_t *sock,
apr_interval_time_t t);)
#define switch_socket_timeout_set apr_socket_timeout_set
/**
* Query socket options for the specified socket
* @param sock The socket to query
* @param opt The option we would like to query. One of:
* <PRE>
* APR_SO_DEBUG -- turn on debugging information
* APR_SO_KEEPALIVE -- keep connections active
* APR_SO_LINGER -- lingers on close if data is present
* APR_SO_NONBLOCK -- Turns blocking on/off for socket
* APR_SO_REUSEADDR -- The rules used in validating addresses
* supplied to bind should allow reuse
* of local addresses.
* APR_SO_SNDBUF -- Set the SendBufferSize
* APR_SO_RCVBUF -- Set the ReceiveBufferSize
* APR_SO_DISCONNECTED -- Query the disconnected state of the socket.
* (Currently only used on Windows)
* </PRE>
* @param on Socket option returned on the call.
*/
DoxyDefine(apr_status_t switch_socket_opt_get(switch_socket_t *sock,
apr_int32_t opt, apr_int32_t *on);)
#define switch_socket_opt_get apr_socket_opt_get
/**
* Query socket timeout for the specified socket
* @param sock The socket to query
* @param t Socket timeout returned from the query.
*/
DoxyDefine(apr_status_t switch_socket_timeout_get(switch_socket_t *sock,
apr_interval_time_t *t);)
#define switch_socket_timeout_get apr_socket_timeout_get
/**
* Query the specified socket if at the OOB/Urgent data mark
* @param sock The socket to query
* @param atmark Is set to true if socket is at the OOB/urgent mark,
* otherwise is set to false.
*/
DoxyDefine(apr_status_t switch_socket_atmark(switch_socket_t *sock,
int *atmark);)
#define switch_socket_atmark apr_socket_atmark
/**
* Return an apr_sockaddr_t from an apr_socket_t
* @param sa The returned apr_sockaddr_t.
* @param which Which interface do we want the apr_sockaddr_t for?
* @param sock The socket to use
*/
DoxyDefine(apr_status_t switch_socket_addr_get(switch_sockaddr_t **sa,
apr_interface_e which,
switch_socket_t *sock);)
#define switch_socket_addr_get apr_socket_addr_get
/**
* Return the IP address (in numeric address string format) in
* an APR socket address. APR will allocate storage for the IP address
* string from the pool of the apr_sockaddr_t.
* @param addr The IP address.
* @param sockaddr The socket address to reference.
*/
DoxyDefine(apr_status_t switch_sockaddr_ip_get(char **addr,
switch_sockaddr_t *sockaddr);)
#define switch_sockaddr_ip_get apr_sockaddr_ip_get
/**
* See if the IP addresses in two APR socket addresses are
* equivalent. Appropriate logic is present for comparing
* IPv4-mapped IPv6 addresses with IPv4 addresses.
*
* @param addr1 One of the APR socket addresses.
* @param addr2 The other APR socket address.
* @remark The return value will be non-zero if the addresses
* are equivalent.
*/
DoxyDefine(int switch_sockaddr_equal(const switch_sockaddr_t *addr1,
const switch_sockaddr_t *addr2);)
#define switch_sockaddr_equal apr_sockaddr_equal
/**
* Return the type of the socket.
* @param sock The socket to query.
* @param type The returned type (e.g., SOCK_STREAM).
*/
DoxyDefine(apr_status_t switch_socket_type_get(switch_socket_t *sock,
int *type);)
#define switch_socket_type_get apr_socket_type_get
/**
* Given an switch_sockaddr_t and a service name, set the port for the service
* @param sockaddr The switch_sockaddr_t that will have its port set
* @param servname The name of the service you wish to use
*/
DoxyDefine(apr_status_t switch_getservbyname(switch_sockaddr_t *sockaddr,
const char *servname);)
#define switch_getservbyname apr_getservbyname
/**
* Build an ip-subnet representation from an IP address and optional netmask or
* number-of-bits.
* @param ipsub The new ip-subnet representation
* @param ipstr The input IP address string
* @param mask_or_numbits The input netmask or number-of-bits string, or NULL
* @param p The pool to allocate from
*/
DoxyDefine(apr_status_t switch_ipsubnet_create(apr_ipsubnet_t **ipsub,
const char *ipstr,
const char *mask_or_numbits,
switch_pool_t *p);)
#define switch_ipsubnet_create apr_ipsubnet_create
/**
* Test the IP address in an apr_sockaddr_t against a pre-built ip-subnet
* representation.
* @param ipsub The ip-subnet representation
* @param sa The socket address to test
* @return non-zero if the socket address is within the subnet, 0 otherwise
*/
DoxyDefine(int switch_ipsubnet_test(apr_ipsubnet_t *ipsub, switch_sockaddr_t *sa);)
#define switch_ipsubnet_test apr_ipsubnet_test
/**
* Return the protocol of the socket.
* @param sock The socket to query.
* @param protocol The returned protocol (e.g., APR_PROTO_TCP).
*/
DoxyDefine(apr_status_t switch_socket_protocol_get(switch_socket_t *sock,
int *protocol);)
#define switch_socket_protocol_get apr_socket_protocol_get
/**
* Join a Multicast Group
* @param sock The socket to join a multicast group
* @param join The address of the multicast group to join
* @param iface Address of the interface to use. If NULL is passed, the
* default multicast interface will be used. (OS Dependent)
* @param source Source Address to accept transmissions from (non-NULL
* implies Source-Specific Multicast)
*/
DoxyDefine(apr_status_t switch_mcast_join(switch_socket_t *sock,
switch_sockaddr_t *join,
switch_sockaddr_t *iface,
switch_sockaddr_t *source);)
#define switch_mcast_join apr_mcast_join
/**
* Leave a Multicast Group. All arguments must be the same as
* switch_mcast_join.
* @param sock The socket to leave a multicast group
* @param addr The address of the multicast group to leave
* @param iface Address of the interface to use. If NULL is passed, the
* default multicast interface will be used. (OS Dependent)
* @param source Source Address to accept transmissions from (non-NULL
* implies Source-Specific Multicast)
*/
DoxyDefine(apr_status_t switch_mcast_leave(switch_socket_t *sock,
switch_sockaddr_t *addr,
switch_sockaddr_t *iface,
switch_sockaddr_t *source);)
#define switch_mcast_leave apr_mcast_leave
/**
* Set the Multicast Time to Live (ttl) for a multicast transmission.
* @param sock The socket to set the multicast ttl
* @param ttl Time to live to Assign. 0-255, default=1
* @remark If the TTL is 0, packets will only be seen by sockets on
* the local machine, and only when multicast loopback is enabled.
*/
DoxyDefine(apr_status_t switch_mcast_hops(switch_socket_t *sock,
apr_byte_t ttl);)
#define switch_mcast_hops apr_mcast_hops
/**
* Toggle IP Multicast Loopback
* @param sock The socket to set multicast loopback
* @param opt 0=disable, 1=enable
*/
DoxyDefine(apr_status_t switch_mcast_loopback(switch_socket_t *sock,
apr_byte_t opt);)
#define switch_mcast_loopback apr_mcast_loopback
/**
* Set the Interface to be used for outgoing Multicast Transmissions.
* @param sock The socket to set the multicast interface on
* @param iface Address of the interface to use for Multicast
*/
DoxyDefine(apr_status_t switch_mcast_interface(switch_socket_t *sock,
switch_sockaddr_t *iface);)
#define switch_mcast_interface apr_mcast_interface
/** @} */
/**
* @defgroup switch_memory_pool Memory Pool Functions
* @ingroup APR
* @{
*/
/** The fundamental pool type */
typedef apr_pool_t switch_memory_pool;
/**
* Clear all memory in the pool and run all the cleanups. This also destroys all
* subpools.
* @param p The pool to clear
* @remark This does not actually free the memory, it just allows the pool
* to re-use this memory for the next allocation.
* @see apr_pool_destroy()
*/
DoxyDefine(void switch_pool_clear(switch_memory_pool *p);)
#define switch_pool_clear apr_pool_clear
/** @} */
#define switch_strmatch_precompile apr_strmatch_precompile
#define switch_strmatch apr_strmatch
#define switch_uuid_format apr_uuid_format

67
src/include/switch_mutex.h
View File

@ -29,9 +29,10 @@
* switch_mutex.h -- Mutex Locking
*
*/
/*! \file switch_mutex.h
\brief Mutex Locking
/*! \file switch_mutex.h
\brief Mutex Locking
*/
#ifndef SWITCH_MUTEX_H
#define SWITCH_MUTEX_H
@ -41,16 +42,70 @@ extern "C" {
#include <switch.h>
SWITCH_DECLARE(switch_status) switch_mutex_init(switch_mutex_t **lock,
switch_lock_flag flags,
switch_memory_pool *pool);
/**
* @defgroup switch_thread_mutex Thread Mutex Routines
* @ingroup FREESWITCH
* @{
*/
/** Opaque thread-local mutex structure */
typedef apr_thread_mutex_t switch_mutex_t;
/** Lock Flags */
typedef enum {
SWITCH_MUTEX_DEFAULT = APR_THREAD_MUTEX_DEFAULT /**< platform-optimal lock behavior */,
SWITCH_MUTEX_NESTED = APR_THREAD_MUTEX_NESTED /**< enable nested (recursive) locks */,
SWITCH_MUTEX_UNNESTED = APR_THREAD_MUTEX_UNNESTED /**< disable nested locks */
} switch_lock_flag;
/**
* Create and initialize a mutex that can be used to synchronize threads.
* @param lock the memory address where the newly created mutex will be
* stored.
* @param flags Or'ed value of:
* <PRE>
* SWITCH_THREAD_MUTEX_DEFAULT platform-optimal lock behavior.
* SWITCH_THREAD_MUTEX_NESTED enable nested (recursive) locks.
* SWITCH_THREAD_MUTEX_UNNESTED disable nested locks (non-recursive).
* </PRE>
* @param pool the pool from which to allocate the mutex.
* @warning Be cautious in using SWITCH_THREAD_MUTEX_DEFAULT. While this is the
* most optimial mutex based on a given platform's performance charateristics,
* it will behave as either a nested or an unnested lock.
*/
SWITCH_DECLARE(switch_status) switch_mutex_init(switch_mutex_t **lock,
switch_lock_flag flags,
switch_memory_pool *pool);
/**
* Destroy the mutex and free the memory associated with the lock.
* @param lock the mutex to destroy.
*/
SWITCH_DECLARE(switch_status) switch_mutex_destroy(switch_mutex_t *lock);
/**
* Acquire the lock for the given mutex. If the mutex is already locked,
* the current thread will be put to sleep until the lock becomes available.
* @param lock the mutex on which to acquire the lock.
*/
SWITCH_DECLARE(switch_status) switch_mutex_lock(switch_mutex_t *lock);
/**
* Release the lock for the given mutex.
* @param lock the mutex from which to release the lock.
*/
SWITCH_DECLARE(switch_status) switch_mutex_unlock(switch_mutex_t *lock);
/**
* Attempt to acquire the lock for the given mutex. If the mutex has already
* been acquired, the call returns immediately with APR_EBUSY. Note: it
* is important that the APR_STATUS_IS_EBUSY(s) macro be used to determine
* if the return value was APR_EBUSY, for portability reasons.
* @param lock the mutex on which to attempt the lock acquiring.
*/
SWITCH_DECLARE(switch_status) switch_mutex_trylock(switch_mutex_t *lock);
/** @} */
#ifdef __cplusplus
}
#endif

10
src/include/switch_platform.h
View File

@ -28,8 +28,8 @@
* switch_platform.h -- Platform Specific Header
*
*/
/*! \file switch_platform.h
\brief Platform Specific Header
/*! \file switch_platform.h
\brief Platform Specific Header
*/
#ifndef SWITCH_PLATFORM_H
#define SWITCH_PLATFORM_H
@ -104,6 +104,12 @@ typedef unsigned long in_addr_t;
#endif
#endif
#ifdef DOXYGEN
#define DoxyDefine(x) x
#else
#define DoxyDefine(x)
#endif
#ifdef __cplusplus
}
#endif