/* * Copyright (C) 2008-2011 Teluu Inc. (http://www.teluu.com) * Copyright (C) 2003-2008 Benny Prijono * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #ifndef __PJ_SOCK_H__ #define __PJ_SOCK_H__ /** * @file sock.h * @brief Socket Abstraction. */ #include #include PJ_BEGIN_DECL /** * @defgroup PJ_SOCK Socket Abstraction * @ingroup PJ_IO * @{ * * The PJLIB socket abstraction layer is a thin and very portable abstraction * for socket API. It provides API similar to BSD socket API. The abstraction * is needed because BSD socket API is not always available on all platforms, * therefore it wouldn't be possible to create a trully portable network * programs unless we provide such abstraction. * * Applications can use this API directly in their application, just * as they would when using traditional BSD socket API, provided they * call #pj_init() first. * * \section pj_sock_examples_sec Examples * * For some examples on how to use the socket API, please see: * * - Socket test: \src{pjlib/src/pjlib-test/sock.c} * - Socket Select() test: \src{pjlib/src/pjlib-test/select.c} * - Socket Performance test: \src{pjlib/src/pjlib-test/sock_perf.c} */ /** * Supported address families. * APPLICATION MUST USE THESE VALUES INSTEAD OF NORMAL AF_*, BECAUSE * THE LIBRARY WILL DO TRANSLATION TO THE NATIVE VALUE. */ /** Address family is unspecified. @see pj_AF_UNSPEC() */ extern const pj_uint16_t PJ_AF_UNSPEC; /** Unix domain socket. @see pj_AF_UNIX() */ extern const pj_uint16_t PJ_AF_UNIX; /** POSIX name for AF_UNIX */ #define PJ_AF_LOCAL PJ_AF_UNIX; /** Internet IP protocol. @see pj_AF_INET() */ extern const pj_uint16_t PJ_AF_INET; /** IP version 6. @see pj_AF_INET6() */ extern const pj_uint16_t PJ_AF_INET6; /** Packet family. @see pj_AF_PACKET() */ extern const pj_uint16_t PJ_AF_PACKET; /** IRDA sockets. @see pj_AF_IRDA() */ extern const pj_uint16_t PJ_AF_IRDA; /* * Accessor functions for various address family constants. These * functions are provided because Symbian doesn't allow exporting * global variables from a DLL. */ #if defined(PJ_DLL) /** Get #PJ_AF_UNSPEC value */ PJ_DECL(pj_uint16_t) pj_AF_UNSPEC(void); /** Get #PJ_AF_UNIX value. */ PJ_DECL(pj_uint16_t) pj_AF_UNIX(void); /** Get #PJ_AF_INET value. */ PJ_DECL(pj_uint16_t) pj_AF_INET(void); /** Get #PJ_AF_INET6 value. */ PJ_DECL(pj_uint16_t) pj_AF_INET6(void); /** Get #PJ_AF_PACKET value. */ PJ_DECL(pj_uint16_t) pj_AF_PACKET(void); /** Get #PJ_AF_IRDA value. */ PJ_DECL(pj_uint16_t) pj_AF_IRDA(void); #else /* When pjlib is not built as DLL, these accessor functions are * simply a macro to get their constants */ /** Get #PJ_AF_UNSPEC value */ # define pj_AF_UNSPEC() PJ_AF_UNSPEC /** Get #PJ_AF_UNIX value. */ # define pj_AF_UNIX() PJ_AF_UNIX /** Get #PJ_AF_INET value. */ # define pj_AF_INET() PJ_AF_INET /** Get #PJ_AF_INET6 value. */ # define pj_AF_INET6() PJ_AF_INET6 /** Get #PJ_AF_PACKET value. */ # define pj_AF_PACKET() PJ_AF_PACKET /** Get #PJ_AF_IRDA value. */ # define pj_AF_IRDA() PJ_AF_IRDA #endif /** * Supported types of sockets. * APPLICATION MUST USE THESE VALUES INSTEAD OF NORMAL SOCK_*, BECAUSE * THE LIBRARY WILL TRANSLATE THE VALUE TO THE NATIVE VALUE. */ /** Sequenced, reliable, connection-based byte streams. * @see pj_SOCK_STREAM() */ extern const pj_uint16_t PJ_SOCK_STREAM; /** Connectionless, unreliable datagrams of fixed maximum lengths. * @see pj_SOCK_DGRAM() */ extern const pj_uint16_t PJ_SOCK_DGRAM; /** Raw protocol interface. @see pj_SOCK_RAW() */ extern const pj_uint16_t PJ_SOCK_RAW; /** Reliably-delivered messages. @see pj_SOCK_RDM() */ extern const pj_uint16_t PJ_SOCK_RDM; /** The close-on-exec flag. @see pj_SOCK_CLOEXEC() */ extern const int PJ_SOCK_CLOEXEC; /* * Accessor functions for various constants. These functions are provided * because Symbian doesn't allow exporting global variables from a DLL. */ #if defined(PJ_DLL) /** Get #PJ_SOCK_STREAM constant */ PJ_DECL(int) pj_SOCK_STREAM(void); /** Get #PJ_SOCK_DGRAM constant */ PJ_DECL(int) pj_SOCK_DGRAM(void); /** Get #PJ_SOCK_RAW constant */ PJ_DECL(int) pj_SOCK_RAW(void); /** Get #PJ_SOCK_RDM constant */ PJ_DECL(int) pj_SOCK_RDM(void); /** Get #PJ_SOCK_CLOEXEC constant */ PJ_DECL(int) pj_SOCK_CLOEXEC(void); #else /** Get #PJ_SOCK_STREAM constant */ # define pj_SOCK_STREAM() PJ_SOCK_STREAM /** Get #PJ_SOCK_DGRAM constant */ # define pj_SOCK_DGRAM() PJ_SOCK_DGRAM /** Get #PJ_SOCK_RAW constant */ # define pj_SOCK_RAW() PJ_SOCK_RAW /** Get #PJ_SOCK_RDM constant */ # define pj_SOCK_RDM() PJ_SOCK_RDM /** Get #PJ_SOCK_CLOEXEC constant */ # define pj_SOCK_CLOEXEC() PJ_SOCK_CLOEXEC #endif /** * Socket level specified in #pj_sock_setsockopt() or #pj_sock_getsockopt(). * APPLICATION MUST USE THESE VALUES INSTEAD OF NORMAL SOL_*, BECAUSE * THE LIBRARY WILL TRANSLATE THE VALUE TO THE NATIVE VALUE. */ /** Socket level. @see pj_SOL_SOCKET() */ extern const pj_uint16_t PJ_SOL_SOCKET; /** IP level. @see pj_SOL_IP() */ extern const pj_uint16_t PJ_SOL_IP; /** TCP level. @see pj_SOL_TCP() */ extern const pj_uint16_t PJ_SOL_TCP; /** UDP level. @see pj_SOL_UDP() */ extern const pj_uint16_t PJ_SOL_UDP; /** IP version 6. @see pj_SOL_IPV6() */ extern const pj_uint16_t PJ_SOL_IPV6; /* * Accessor functions for various constants. These functions are provided * because Symbian doesn't allow exporting global variables from a DLL. */ #if defined(PJ_DLL) /** Get #PJ_SOL_SOCKET constant */ PJ_DECL(pj_uint16_t) pj_SOL_SOCKET(void); /** Get #PJ_SOL_IP constant */ PJ_DECL(pj_uint16_t) pj_SOL_IP(void); /** Get #PJ_SOL_TCP constant */ PJ_DECL(pj_uint16_t) pj_SOL_TCP(void); /** Get #PJ_SOL_UDP constant */ PJ_DECL(pj_uint16_t) pj_SOL_UDP(void); /** Get #PJ_SOL_IPV6 constant */ PJ_DECL(pj_uint16_t) pj_SOL_IPV6(void); #else /** Get #PJ_SOL_SOCKET constant */ # define pj_SOL_SOCKET() PJ_SOL_SOCKET /** Get #PJ_SOL_IP constant */ # define pj_SOL_IP() PJ_SOL_IP /** Get #PJ_SOL_TCP constant */ # define pj_SOL_TCP() PJ_SOL_TCP /** Get #PJ_SOL_UDP constant */ # define pj_SOL_UDP() PJ_SOL_UDP /** Get #PJ_SOL_IPV6 constant */ # define pj_SOL_IPV6() PJ_SOL_IPV6 #endif /* IP_TOS * * Note: * TOS CURRENTLY DOES NOT WORK IN Windows 2000 and above! * See http://support.microsoft.com/kb/248611 */ /** IP_TOS optname in setsockopt(). @see pj_IP_TOS() */ extern const pj_uint16_t PJ_IP_TOS; /* * IP TOS related constats. * * Note: * TOS CURRENTLY DOES NOT WORK IN Windows 2000 and above! * See http://support.microsoft.com/kb/248611 */ /** Minimize delays. @see pj_IPTOS_LOWDELAY() */ extern const pj_uint16_t PJ_IPTOS_LOWDELAY; /** Optimize throughput. @see pj_IPTOS_THROUGHPUT() */ extern const pj_uint16_t PJ_IPTOS_THROUGHPUT; /** Optimize for reliability. @see pj_IPTOS_RELIABILITY() */ extern const pj_uint16_t PJ_IPTOS_RELIABILITY; /** "filler data" where slow transmission does't matter. * @see pj_IPTOS_MINCOST() */ extern const pj_uint16_t PJ_IPTOS_MINCOST; #if defined(PJ_DLL) /** Get #PJ_IP_TOS constant */ PJ_DECL(int) pj_IP_TOS(void); /** Get #PJ_IPTOS_LOWDELAY constant */ PJ_DECL(int) pj_IPTOS_LOWDELAY(void); /** Get #PJ_IPTOS_THROUGHPUT constant */ PJ_DECL(int) pj_IPTOS_THROUGHPUT(void); /** Get #PJ_IPTOS_RELIABILITY constant */ PJ_DECL(int) pj_IPTOS_RELIABILITY(void); /** Get #PJ_IPTOS_MINCOST constant */ PJ_DECL(int) pj_IPTOS_MINCOST(void); #else /** Get #PJ_IP_TOS constant */ # define pj_IP_TOS() PJ_IP_TOS /** Get #PJ_IPTOS_LOWDELAY constant */ # define pj_IPTOS_LOWDELAY() PJ_IP_TOS_LOWDELAY /** Get #PJ_IPTOS_THROUGHPUT constant */ # define pj_IPTOS_THROUGHPUT() PJ_IP_TOS_THROUGHPUT /** Get #PJ_IPTOS_RELIABILITY constant */ # define pj_IPTOS_RELIABILITY() PJ_IP_TOS_RELIABILITY /** Get #PJ_IPTOS_MINCOST constant */ # define pj_IPTOS_MINCOST() PJ_IP_TOS_MINCOST #endif /** IPV6_TCLASS optname in setsockopt(). @see pj_IPV6_TCLASS() */ extern const pj_uint16_t PJ_IPV6_TCLASS; #if defined(PJ_DLL) /** Get #PJ_IPV6_TCLASS constant */ PJ_DECL(int) pj_IPV6_TCLASS(void); #else /** Get #PJ_IPV6_TCLASS constant */ # define pj_IPV6_TCLASS() PJ_IPV6_TCLASS #endif /** * Values to be specified as \c optname when calling #pj_sock_setsockopt() * or #pj_sock_getsockopt(). */ /** Socket type. @see pj_SO_TYPE() */ extern const pj_uint16_t PJ_SO_TYPE; /** Buffer size for receive. @see pj_SO_RCVBUF() */ extern const pj_uint16_t PJ_SO_RCVBUF; /** Buffer size for send. @see pj_SO_SNDBUF() */ extern const pj_uint16_t PJ_SO_SNDBUF; /** Disables the Nagle algorithm for send coalescing. @see pj_TCP_NODELAY */ extern const pj_uint16_t PJ_TCP_NODELAY; /** Allows the socket to be bound to an address that is already in use. * @see pj_SO_REUSEADDR */ extern const pj_uint16_t PJ_SO_REUSEADDR; /** Do not generate SIGPIPE. @see pj_SO_NOSIGPIPE */ extern const pj_uint16_t PJ_SO_NOSIGPIPE; /** Set the protocol-defined priority for all packets to be sent on socket. */ extern const pj_uint16_t PJ_SO_PRIORITY; /** IP multicast interface. @see pj_IP_MULTICAST_IF() */ extern const pj_uint16_t PJ_IP_MULTICAST_IF; /** IP multicast ttl. @see pj_IP_MULTICAST_TTL() */ extern const pj_uint16_t PJ_IP_MULTICAST_TTL; /** IP multicast loopback. @see pj_IP_MULTICAST_LOOP() */ extern const pj_uint16_t PJ_IP_MULTICAST_LOOP; /** Add an IP group membership. @see pj_IP_ADD_MEMBERSHIP() */ extern const pj_uint16_t PJ_IP_ADD_MEMBERSHIP; /** Drop an IP group membership. @see pj_IP_DROP_MEMBERSHIP() */ extern const pj_uint16_t PJ_IP_DROP_MEMBERSHIP; #if defined(PJ_DLL) /** Get #PJ_SO_TYPE constant */ PJ_DECL(pj_uint16_t) pj_SO_TYPE(void); /** Get #PJ_SO_RCVBUF constant */ PJ_DECL(pj_uint16_t) pj_SO_RCVBUF(void); /** Get #PJ_SO_SNDBUF constant */ PJ_DECL(pj_uint16_t) pj_SO_SNDBUF(void); /** Get #PJ_TCP_NODELAY constant */ PJ_DECL(pj_uint16_t) pj_TCP_NODELAY(void); /** Get #PJ_SO_REUSEADDR constant */ PJ_DECL(pj_uint16_t) pj_SO_REUSEADDR(void); /** Get #PJ_SO_NOSIGPIPE constant */ PJ_DECL(pj_uint16_t) pj_SO_NOSIGPIPE(void); /** Get #PJ_SO_PRIORITY constant */ PJ_DECL(pj_uint16_t) pj_SO_PRIORITY(void); /** Get #PJ_IP_MULTICAST_IF constant */ PJ_DECL(pj_uint16_t) pj_IP_MULTICAST_IF(void); /** Get #PJ_IP_MULTICAST_TTL constant */ PJ_DECL(pj_uint16_t) pj_IP_MULTICAST_TTL(void); /** Get #PJ_IP_MULTICAST_LOOP constant */ PJ_DECL(pj_uint16_t) pj_IP_MULTICAST_LOOP(void); /** Get #PJ_IP_ADD_MEMBERSHIP constant */ PJ_DECL(pj_uint16_t) pj_IP_ADD_MEMBERSHIP(void); /** Get #PJ_IP_DROP_MEMBERSHIP constant */ PJ_DECL(pj_uint16_t) pj_IP_DROP_MEMBERSHIP(void); #else /** Get #PJ_SO_TYPE constant */ # define pj_SO_TYPE() PJ_SO_TYPE /** Get #PJ_SO_RCVBUF constant */ # define pj_SO_RCVBUF() PJ_SO_RCVBUF /** Get #PJ_SO_SNDBUF constant */ # define pj_SO_SNDBUF() PJ_SO_SNDBUF /** Get #PJ_TCP_NODELAY constant */ # define pj_TCP_NODELAY() PJ_TCP_NODELAY /** Get #PJ_SO_REUSEADDR constant */ # define pj_SO_REUSEADDR() PJ_SO_REUSEADDR /** Get #PJ_SO_NOSIGPIPE constant */ # define pj_SO_NOSIGPIPE() PJ_SO_NOSIGPIPE /** Get #PJ_SO_PRIORITY constant */ # define pj_SO_PRIORITY() PJ_SO_PRIORITY /** Get #PJ_IP_MULTICAST_IF constant */ # define pj_IP_MULTICAST_IF() PJ_IP_MULTICAST_IF /** Get #PJ_IP_MULTICAST_TTL constant */ # define pj_IP_MULTICAST_TTL() PJ_IP_MULTICAST_TTL /** Get #PJ_IP_MULTICAST_LOOP constant */ # define pj_IP_MULTICAST_LOOP() PJ_IP_MULTICAST_LOOP /** Get #PJ_IP_ADD_MEMBERSHIP constant */ # define pj_IP_ADD_MEMBERSHIP() PJ_IP_ADD_MEMBERSHIP /** Get #PJ_IP_DROP_MEMBERSHIP constant */ # define pj_IP_DROP_MEMBERSHIP() PJ_IP_DROP_MEMBERSHIP #endif /* * Flags to be specified in #pj_sock_recv, #pj_sock_send, etc. */ /** Out-of-band messages. @see pj_MSG_OOB() */ extern const int PJ_MSG_OOB; /** Peek, don't remove from buffer. @see pj_MSG_PEEK() */ extern const int PJ_MSG_PEEK; /** Don't route. @see pj_MSG_DONTROUTE() */ extern const int PJ_MSG_DONTROUTE; #if defined(PJ_DLL) /** Get #PJ_MSG_OOB constant */ PJ_DECL(int) pj_MSG_OOB(void); /** Get #PJ_MSG_PEEK constant */ PJ_DECL(int) pj_MSG_PEEK(void); /** Get #PJ_MSG_DONTROUTE constant */ PJ_DECL(int) pj_MSG_DONTROUTE(void); #else /** Get #PJ_MSG_OOB constant */ # define pj_MSG_OOB() PJ_MSG_OOB /** Get #PJ_MSG_PEEK constant */ # define pj_MSG_PEEK() PJ_MSG_PEEK /** Get #PJ_MSG_DONTROUTE constant */ # define pj_MSG_DONTROUTE() PJ_MSG_DONTROUTE #endif /** * Flag to be specified in #pj_sock_shutdown(). */ typedef enum pj_socket_sd_type { PJ_SD_RECEIVE = 0, /**< No more receive. */ PJ_SHUT_RD = 0, /**< Alias for SD_RECEIVE. */ PJ_SD_SEND = 1, /**< No more sending. */ PJ_SHUT_WR = 1, /**< Alias for SD_SEND. */ PJ_SD_BOTH = 2, /**< No more send and receive. */ PJ_SHUT_RDWR = 2 /**< Alias for SD_BOTH. */ } pj_socket_sd_type; /** Address to accept any incoming messages. */ #define PJ_INADDR_ANY ((pj_uint32_t)0) /** Address indicating an error return */ #define PJ_INADDR_NONE ((pj_uint32_t)0xffffffff) /** Address to send to all hosts. */ #define PJ_INADDR_BROADCAST ((pj_uint32_t)0xffffffff) /** * Maximum length specifiable by #pj_sock_listen(). * If the build system doesn't override this value, then the lowest * denominator (five, in Win32 systems) will be used. */ #if !defined(PJ_SOMAXCONN) # define PJ_SOMAXCONN 5 #endif /** * Constant for invalid socket returned by #pj_sock_socket() and * #pj_sock_accept(). */ #define PJ_INVALID_SOCKET (-1) /* Undefining UNIX standard library macro such as s_addr is not * recommended as it may cause build issues for anyone who uses * the macro. See #2311 for more details. */ #if 0 /* Must undefine s_addr because of pj_in_addr below */ #undef s_addr typedef struct pj_in_addr { pj_uint32_t s_addr; /**< The 32bit IP address. */ } pj_in_addr; #else /** * This structure describes Internet address. */ typedef struct in_addr pj_in_addr; #endif /** * Maximum length of text representation of an IPv4 address. */ #define PJ_INET_ADDRSTRLEN 16 /** * Maximum length of text representation of an IPv6 address. */ #define PJ_INET6_ADDRSTRLEN 46 /** * The size of sin_zero field in pj_sockaddr_in structure. Most OSes * use 8, but others such as the BSD TCP/IP stack in eCos uses 24. */ #ifndef PJ_SOCKADDR_IN_SIN_ZERO_LEN # define PJ_SOCKADDR_IN_SIN_ZERO_LEN 8 #endif /** * This structure describes Internet socket address. * If PJ_SOCKADDR_HAS_LEN is not zero, then sin_zero_len member is added * to this struct. As far the application is concerned, the value of * this member will always be zero. Internally, PJLIB may modify the value * before calling OS socket API, and reset the value back to zero before * returning the struct to application. */ struct pj_sockaddr_in { #if defined(PJ_SOCKADDR_HAS_LEN) && PJ_SOCKADDR_HAS_LEN!=0 pj_uint8_t sin_zero_len; /**< Just ignore this. */ pj_uint8_t sin_family; /**< Address family. */ #else pj_uint16_t sin_family; /**< Address family. */ #endif pj_uint16_t sin_port; /**< Transport layer port number. */ pj_in_addr sin_addr; /**< IP address. */ char sin_zero_pad[PJ_SOCKADDR_IN_SIN_ZERO_LEN]; /**< Padding.*/ }; /* Undefining C standard library macro such as s6_addr is not * recommended as it may cause build issues for anyone who uses * the macro. See #2311 for more details. */ #if 0 #undef s6_addr typedef union pj_in6_addr { /* This is the main entry */ pj_uint8_t s6_addr[16]; /**< 8-bit array */ /* While these are used for proper alignment */ pj_uint32_t u6_addr32[4]; /* Do not use this with Winsock2, as this will align pj_sockaddr_in6 * to 64-bit boundary and Winsock2 doesn't like it! * Update 26/04/2010: * This is now disabled, see https://github.com/pjsip/pjproject/issues/1058 */ #if 0 && defined(PJ_HAS_INT64) && PJ_HAS_INT64!=0 && \ (!defined(PJ_WIN32) || PJ_WIN32==0) pj_int64_t u6_addr64[2]; #endif } pj_in6_addr; #else /** * This structure describes IPv6 address. */ typedef struct in6_addr pj_in6_addr; #endif /** Initializer value for pj_in6_addr. */ #define PJ_IN6ADDR_ANY_INIT { { { 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0 } } } /** Initializer value for pj_in6_addr. */ #define PJ_IN6ADDR_LOOPBACK_INIT { { { 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1 } } } /** * This structure describes IPv6 socket address. * If PJ_SOCKADDR_HAS_LEN is not zero, then sin_zero_len member is added * to this struct. As far the application is concerned, the value of * this member will always be zero. Internally, PJLIB may modify the value * before calling OS socket API, and reset the value back to zero before * returning the struct to application. */ typedef struct pj_sockaddr_in6 { #if defined(PJ_SOCKADDR_HAS_LEN) && PJ_SOCKADDR_HAS_LEN!=0 pj_uint8_t sin6_zero_len; /**< Just ignore this. */ pj_uint8_t sin6_family; /**< Address family. */ #else pj_uint16_t sin6_family; /**< Address family */ #endif pj_uint16_t sin6_port; /**< Transport layer port number. */ pj_uint32_t sin6_flowinfo; /**< IPv6 flow information */ pj_in6_addr sin6_addr; /**< IPv6 address. */ pj_uint32_t sin6_scope_id; /**< Set of interfaces for a scope */ } pj_sockaddr_in6; /** * This structure describes common attributes found in transport addresses. * If PJ_SOCKADDR_HAS_LEN is not zero, then sa_zero_len member is added * to this struct. As far the application is concerned, the value of * this member will always be zero. Internally, PJLIB may modify the value * before calling OS socket API, and reset the value back to zero before * returning the struct to application. */ typedef struct pj_addr_hdr { #if defined(PJ_SOCKADDR_HAS_LEN) && PJ_SOCKADDR_HAS_LEN!=0 pj_uint8_t sa_zero_len; pj_uint8_t sa_family; #else pj_uint16_t sa_family; /**< Common data: address family. */ #endif } pj_addr_hdr; /** * This union describes a generic socket address. */ typedef union pj_sockaddr { pj_addr_hdr addr; /**< Generic transport address. */ pj_sockaddr_in ipv4; /**< IPv4 transport address. */ pj_sockaddr_in6 ipv6; /**< IPv6 transport address. */ } pj_sockaddr; /** * This structure provides multicast group information for IPv4 addresses. */ typedef struct pj_ip_mreq { pj_in_addr imr_multiaddr; /**< IP multicast address of group. */ pj_in_addr imr_interface; /**< local IP address of interface. */ } pj_ip_mreq; /** * Options to be set for the socket. */ typedef struct pj_sockopt_params { /** The number of options to be applied. */ unsigned cnt; /** Array of options to be applied. */ struct { /** The level at which the option is defined. */ int level; /** Option name. */ int optname; /** Pointer to the buffer in which the option is specified. */ void *optval; /** Buffer size of the buffer pointed by optval. */ int optlen; } options[PJ_MAX_SOCKOPT_PARAMS]; } pj_sockopt_params; /***************************************************************************** * * SOCKET ADDRESS MANIPULATION. * ***************************************************************************** */ /** * Convert 16-bit value from network byte order to host byte order. * * @param netshort 16-bit network value. * @return 16-bit host value. */ PJ_DECL(pj_uint16_t) pj_ntohs(pj_uint16_t netshort); /** * Convert 16-bit value from host byte order to network byte order. * * @param hostshort 16-bit host value. * @return 16-bit network value. */ PJ_DECL(pj_uint16_t) pj_htons(pj_uint16_t hostshort); /** * Convert 32-bit value from network byte order to host byte order. * * @param netlong 32-bit network value. * @return 32-bit host value. */ PJ_DECL(pj_uint32_t) pj_ntohl(pj_uint32_t netlong); /** * Convert 32-bit value from host byte order to network byte order. * * @param hostlong 32-bit host value. * @return 32-bit network value. */ PJ_DECL(pj_uint32_t) pj_htonl(pj_uint32_t hostlong); /** * Convert an Internet host address given in network byte order * to string in standard numbers and dots notation. * * @param inaddr The host address. * @return The string address. */ PJ_DECL(char*) pj_inet_ntoa(pj_in_addr inaddr); /** * This function converts the Internet host address cp from the standard * numbers-and-dots notation into binary data and stores it in the structure * that inp points to. * * @param cp IP address in standard numbers-and-dots notation. * @param inp Structure that holds the output of the conversion. * * @return nonzero if the address is valid, zero if not. */ PJ_DECL(int) pj_inet_aton(const pj_str_t *cp, pj_in_addr *inp); /** * This function converts an address in its standard text presentation form * into its numeric binary form. It supports both IPv4 and IPv6 address * conversion. * * @param af Specify the family of the address. The PJ_AF_INET and * PJ_AF_INET6 address families shall be supported. * @param src Points to the string being passed in. * @param dst Points to a buffer into which the function stores the * numeric address; this shall be large enough to hold the * numeric address (32 bits for PJ_AF_INET, 128 bits for * PJ_AF_INET6). * * @return PJ_SUCCESS if conversion was successful. */ PJ_DECL(pj_status_t) pj_inet_pton(int af, const pj_str_t *src, void *dst); /** * This function converts a numeric address into a text string suitable * for presentation. It supports both IPv4 and IPv6 address * conversion. * @see pj_sockaddr_print() * * @param af Specify the family of the address. This can be PJ_AF_INET * or PJ_AF_INET6. * @param src Points to a buffer holding an IPv4 address if the af argument * is PJ_AF_INET, or an IPv6 address if the af argument is * PJ_AF_INET6; the address must be in network byte order. * @param dst Points to a buffer where the function stores the resulting * text string; it shall not be NULL. * @param size Specifies the size of this buffer, which shall be large * enough to hold the text string (PJ_INET_ADDRSTRLEN characters * for IPv4, PJ_INET6_ADDRSTRLEN characters for IPv6). * * @return PJ_SUCCESS if conversion was successful. */ PJ_DECL(pj_status_t) pj_inet_ntop(int af, const void *src, char *dst, int size); /** * Converts numeric address into its text string representation. * @see pj_sockaddr_print() * * @param af Specify the family of the address. This can be PJ_AF_INET * or PJ_AF_INET6. * @param src Points to a buffer holding an IPv4 address if the af argument * is PJ_AF_INET, or an IPv6 address if the af argument is * PJ_AF_INET6; the address must be in network byte order. * @param dst Points to a buffer where the function stores the resulting * text string; it shall not be NULL. * @param size Specifies the size of this buffer, which shall be large * enough to hold the text string (PJ_INET_ADDRSTRLEN characters * for IPv4, PJ_INET6_ADDRSTRLEN characters for IPv6). * * @return The address string or NULL if failed. */ PJ_DECL(char*) pj_inet_ntop2(int af, const void *src, char *dst, int size); /** * Print socket address. * * @param addr The socket address. * @param buf Text buffer. * @param size Size of buffer. * @param flags Bitmask combination of these value: * - 1: port number is included. * - 2: square bracket is included for IPv6 address. * * @return The address string. */ PJ_DECL(char*) pj_sockaddr_print(const pj_sockaddr_t *addr, char *buf, int size, unsigned flags); /** * Convert address string with numbers and dots to binary IP address. * * @param cp The IP address in numbers and dots notation. * @return If success, the IP address is returned in network * byte order. If failed, PJ_INADDR_NONE will be * returned. * @remark * This is an obsolete interface to #pj_inet_aton(); it is obsolete * because -1 is a valid address (255.255.255.255), and #pj_inet_aton() * provides a cleaner way to indicate error return. */ PJ_DECL(pj_in_addr) pj_inet_addr(const pj_str_t *cp); /** * Convert address string with numbers and dots to binary IP address. * * @param cp The IP address in numbers and dots notation. * @return If success, the IP address is returned in network * byte order. If failed, PJ_INADDR_NONE will be * returned. * @remark * This is an obsolete interface to #pj_inet_aton(); it is obsolete * because -1 is a valid address (255.255.255.255), and #pj_inet_aton() * provides a cleaner way to indicate error return. */ PJ_DECL(pj_in_addr) pj_inet_addr2(const char *cp); /** * Initialize IPv4 socket address based on the address and port info. * The string address may be in a standard numbers and dots notation or * may be a hostname. If hostname is specified, then the function will * resolve the host into the IP address. * * @see pj_sockaddr_init() * * @param addr The IP socket address to be set. * @param cp The address string, which can be in a standard * dotted numbers or a hostname to be resolved. * @param port The port number, in host byte order. * * @return Zero on success. */ PJ_DECL(pj_status_t) pj_sockaddr_in_init( pj_sockaddr_in *addr, const pj_str_t *cp, pj_uint16_t port); /** * Initialize IP socket address based on the address and port info. * The string address may be in a standard numbers and dots notation or * may be a hostname. If hostname is specified, then the function will * resolve the host into the IP address. * * @see pj_sockaddr_in_init() * * @param af Internet address family. * @param addr The IP socket address to be set. * @param cp The address string, which can be in a standard * dotted numbers or a hostname to be resolved. * @param port The port number, in host byte order. * * @return Zero on success. */ PJ_DECL(pj_status_t) pj_sockaddr_init(int af, pj_sockaddr *addr, const pj_str_t *cp, pj_uint16_t port); /** * Compare two socket addresses. * * @param addr1 First address. * @param addr2 Second address. * * @return Zero on equal, -1 if addr1 is less than addr2, * and +1 if addr1 is more than addr2. */ PJ_DECL(int) pj_sockaddr_cmp(const pj_sockaddr_t *addr1, const pj_sockaddr_t *addr2); /** * Get pointer to the address part of a socket address. * * @param addr Socket address. * * @return Pointer to address part (sin_addr or sin6_addr, * depending on address family) */ PJ_DECL(void*) pj_sockaddr_get_addr(const pj_sockaddr_t *addr); /** * Check that a socket address contains a non-zero address part. * * @param addr Socket address. * * @return Non-zero if address is set to non-zero. */ PJ_DECL(pj_bool_t) pj_sockaddr_has_addr(const pj_sockaddr_t *addr); /** * Get the address part length of a socket address, based on its address * family. For PJ_AF_INET, the length will be sizeof(pj_in_addr), and * for PJ_AF_INET6, the length will be sizeof(pj_in6_addr). * * @param addr Socket address. * * @return Length in bytes. */ PJ_DECL(unsigned) pj_sockaddr_get_addr_len(const pj_sockaddr_t *addr); /** * Get the socket address length, based on its address * family. For PJ_AF_INET, the length will be sizeof(pj_sockaddr_in), and * for PJ_AF_INET6, the length will be sizeof(pj_sockaddr_in6). * * @param addr Socket address. * * @return Length in bytes. */ PJ_DECL(unsigned) pj_sockaddr_get_len(const pj_sockaddr_t *addr); /** * Copy only the address part (sin_addr/sin6_addr) of a socket address. * * @param dst Destination socket address. * @param src Source socket address. * * @see pj_sockaddr_cp() */ PJ_DECL(void) pj_sockaddr_copy_addr(pj_sockaddr *dst, const pj_sockaddr *src); /** * Copy socket address. This will copy the whole structure depending * on the address family of the source socket address. * * @param dst Destination socket address. * @param src Source socket address. * * @see pj_sockaddr_copy_addr() */ PJ_DECL(void) pj_sockaddr_cp(pj_sockaddr_t *dst, const pj_sockaddr_t *src); /** * If the source's and desired address family matches, copy the address, * otherwise synthesize a new address with the desired address family, * from the source address. This can be useful to generate an IPv4-mapped * IPv6 address. * * @param dst_af Desired address family. * @param dst Destination socket address, invalid if synthesis is * required and failed. * @param src Source socket address. * * @return PJ_SUCCESS on success, or the error status * if synthesis is required and failed. */ PJ_DECL(pj_status_t) pj_sockaddr_synthesize(int dst_af, pj_sockaddr_t *dst, const pj_sockaddr_t *src); /** * Get the IP address of an IPv4 socket address. * The address is returned as 32bit value in host byte order. * * @param addr The IP socket address. * @return 32bit address, in host byte order. */ PJ_DECL(pj_in_addr) pj_sockaddr_in_get_addr(const pj_sockaddr_in *addr); /** * Set the IP address of an IPv4 socket address. * * @param addr The IP socket address. * @param hostaddr The host address, in host byte order. */ PJ_DECL(void) pj_sockaddr_in_set_addr(pj_sockaddr_in *addr, pj_uint32_t hostaddr); /** * Set the IP address of an IP socket address from string address, * with resolving the host if necessary. The string address may be in a * standard numbers and dots notation or may be a hostname. If hostname * is specified, then the function will resolve the host into the IP * address. * * @see pj_sockaddr_set_str_addr() * * @param addr The IP socket address to be set. * @param cp The address string, which can be in a standard * dotted numbers or a hostname to be resolved. * * @return PJ_SUCCESS on success. */ PJ_DECL(pj_status_t) pj_sockaddr_in_set_str_addr( pj_sockaddr_in *addr, const pj_str_t *cp); /** * Set the IP address of an IPv4 or IPv6 socket address from string address, * with resolving the host if necessary. The string address may be in a * standard IPv6 or IPv6 address or may be a hostname. If hostname * is specified, then the function will resolve the host into the IP * address according to the address family. * * @param af Address family. * @param addr The IP socket address to be set. * @param cp The address string, which can be in a standard * IP numbers (IPv4 or IPv6) or a hostname to be resolved. * * @return PJ_SUCCESS on success. */ PJ_DECL(pj_status_t) pj_sockaddr_set_str_addr(int af, pj_sockaddr *addr, const pj_str_t *cp); /** * Get the port number of a socket address, in host byte order. * This function can be used for both IPv4 and IPv6 socket address. * * @param addr Socket address. * * @return Port number, in host byte order. */ PJ_DECL(pj_uint16_t) pj_sockaddr_get_port(const pj_sockaddr_t *addr); /** * Get the transport layer port number of an Internet socket address. * The port is returned in host byte order. * * @param addr The IP socket address. * @return Port number, in host byte order. */ PJ_DECL(pj_uint16_t) pj_sockaddr_in_get_port(const pj_sockaddr_in *addr); /** * Set the port number of an Internet socket address. * * @param addr The socket address. * @param hostport The port number, in host byte order. */ PJ_DECL(pj_status_t) pj_sockaddr_set_port(pj_sockaddr *addr, pj_uint16_t hostport); /** * Set the port number of an IPv4 socket address. * * @see pj_sockaddr_set_port() * * @param addr The IP socket address. * @param hostport The port number, in host byte order. */ PJ_DECL(void) pj_sockaddr_in_set_port(pj_sockaddr_in *addr, pj_uint16_t hostport); /** * Parse string containing IP address and optional port into socket address, * possibly also with address family detection. This function supports both * IPv4 and IPv6 parsing, however IPv6 parsing may only be done if IPv6 is * enabled during compilation. * * This function supports parsing several formats. Sample IPv4 inputs and * their default results:: * - "10.0.0.1:80": address 10.0.0.1 and port 80. * - "10.0.0.1": address 10.0.0.1 and port zero. * - "10.0.0.1:": address 10.0.0.1 and port zero. * - "10.0.0.1:0": address 10.0.0.1 and port zero. * - ":80": address 0.0.0.0 and port 80. * - ":": address 0.0.0.0 and port 0. * - "localhost": address 127.0.0.1 and port 0. * - "localhost:": address 127.0.0.1 and port 0. * - "localhost:80": address 127.0.0.1 and port 80. * * Sample IPv6 inputs and their default results: * - "[fec0::01]:80": address fec0::01 and port 80 * - "[fec0::01]": address fec0::01 and port 0 * - "[fec0::01]:": address fec0::01 and port 0 * - "[fec0::01]:0": address fec0::01 and port 0 * - "fec0::01": address fec0::01 and port 0 * - "fec0::01:80": address fec0::01:80 and port 0 * - "::": address zero (::) and port 0 * - "[::]": address zero (::) and port 0 * - "[::]:": address zero (::) and port 0 * - ":::": address zero (::) and port 0 * - "[::]:80": address zero (::) and port 0 * - ":::80": address zero (::) and port 80 * * Note: when the IPv6 socket address contains port number, the IP * part of the socket address should be enclosed with square brackets, * otherwise the port number will be included as part of the IP address * (see "fec0::01:80" example above). * * @param af Optionally specify the address family to be used. If the * address family is to be deducted from the input, specify * pj_AF_UNSPEC() here. Other supported values are * #pj_AF_INET() and #pj_AF_INET6() * @param options Additional options to assist the parsing, must be zero * for now. * @param str The input string to be parsed. * @param addr Pointer to store the result. * * @return PJ_SUCCESS if the parsing is successful. * * @see pj_sockaddr_parse2() */ PJ_DECL(pj_status_t) pj_sockaddr_parse(int af, unsigned options, const pj_str_t *str, pj_sockaddr *addr); /** * This function is similar to #pj_sockaddr_parse(), except that it will not * convert the hostpart into IP address (thus possibly resolving the hostname * into a #pj_sockaddr. * * Unlike #pj_sockaddr_parse(), this function has a limitation that if port * number is specified in an IPv6 input string, the IP part of the IPv6 socket * address MUST be enclosed in square brackets, otherwise the port number will * be considered as part of the IPv6 IP address. * * @param af Optionally specify the address family to be used. If the * address family is to be deducted from the input, specify * #pj_AF_UNSPEC() here. Other supported values are * #pj_AF_INET() and #pj_AF_INET6() * @param options Additional options to assist the parsing, must be zero * for now. * @param str The input string to be parsed. * @param hostpart Optional pointer to store the host part of the socket * address, with any brackets removed. * @param port Optional pointer to store the port number. If port number * is not found, this will be set to zero upon return. * @param raf Optional pointer to store the detected address family of * the input address. * * @return PJ_SUCCESS if the parsing is successful. * * @see pj_sockaddr_parse() */ PJ_DECL(pj_status_t) pj_sockaddr_parse2(int af, unsigned options, const pj_str_t *str, pj_str_t *hostpart, pj_uint16_t *port, int *raf); /***************************************************************************** * * HOST NAME AND ADDRESS. * ***************************************************************************** */ /** * Get system's host name. * * @return The hostname, or empty string if the hostname can not * be identified. */ PJ_DECL(const pj_str_t*) pj_gethostname(void); /** * Get host's IP address, which the the first IP address that is resolved * from the hostname. * * @return The host's IP address, PJ_INADDR_NONE if the host * IP address can not be identified. */ PJ_DECL(pj_in_addr) pj_gethostaddr(void); /***************************************************************************** * * SOCKET API. * ***************************************************************************** */ /** * Create new socket/endpoint for communication. * * @param family Specifies a communication domain; this selects the * protocol family which will be used for communication. * @param type The socket has the indicated type, which specifies the * communication semantics. * @param protocol Specifies a particular protocol to be used with the * socket. Normally only a single protocol exists to support * a particular socket type within a given protocol family, * in which a case protocol can be specified as 0. * @param sock New socket descriptor, or PJ_INVALID_SOCKET on error. * * @return Zero on success. */ PJ_DECL(pj_status_t) pj_sock_socket(int family, int type, int protocol, pj_sock_t *sock); /** * Close the socket descriptor. * * @param sockfd The socket descriptor. * * @return Zero on success. */ PJ_DECL(pj_status_t) pj_sock_close(pj_sock_t sockfd); /** * This function gives the socket sockfd the local address my_addr. my_addr is * addrlen bytes long. Traditionally, this is called assigning a name to * a socket. When a socket is created with #pj_sock_socket(), it exists in a * name space (address family) but has no name assigned. * * @param sockfd The socket desriptor. * @param my_addr The local address to bind the socket to. * @param addrlen The length of the address. * * @return Zero on success. */ PJ_DECL(pj_status_t) pj_sock_bind( pj_sock_t sockfd, const pj_sockaddr_t *my_addr, int addrlen); /** * Bind the IP socket sockfd to the given address and port. * * @param sockfd The socket descriptor. * @param addr Local address to bind the socket to, in host byte order. * @param port The local port to bind the socket to, in host byte order. * * @return Zero on success. */ PJ_DECL(pj_status_t) pj_sock_bind_in( pj_sock_t sockfd, pj_uint32_t addr, pj_uint16_t port); /** * Bind the IP socket sockfd to the given address and a random port in the * specified range. * * @param sockfd The socket desriptor. * @param addr The local address and port to bind the socket to. * @param port_range The port range, relative the to start port number * specified in port field in addr. Note that if the * port is zero, this param will be ignored. * @param max_try Maximum retries. * * @return Zero on success. */ PJ_DECL(pj_status_t) pj_sock_bind_random( pj_sock_t sockfd, const pj_sockaddr_t *addr, pj_uint16_t port_range, pj_uint16_t max_try); #if PJ_HAS_TCP /** * Listen for incoming connection. This function only applies to connection * oriented sockets (such as PJ_SOCK_STREAM or PJ_SOCK_SEQPACKET), and it * indicates the willingness to accept incoming connections. * * @param sockfd The socket descriptor. * @param backlog Defines the maximum length the queue of pending * connections may grow to. * * @return Zero on success. */ PJ_DECL(pj_status_t) pj_sock_listen( pj_sock_t sockfd, int backlog ); /** * Accept new connection on the specified connection oriented server socket. * * @param serverfd The server socket. * @param newsock New socket on success, of PJ_INVALID_SOCKET if failed. * @param addr A pointer to sockaddr type. If the argument is not NULL, * it will be filled by the address of connecting entity. * @param addrlen Initially specifies the length of the address, and upon * return will be filled with the exact address length. * * @return Zero on success, or the error number. */ PJ_DECL(pj_status_t) pj_sock_accept( pj_sock_t serverfd, pj_sock_t *newsock, pj_sockaddr_t *addr, int *addrlen); #endif /** * The file descriptor sockfd must refer to a socket. If the socket is of * type PJ_SOCK_DGRAM then the serv_addr address is the address to which * datagrams are sent by default, and the only address from which datagrams * are received. If the socket is of type PJ_SOCK_STREAM or PJ_SOCK_SEQPACKET, * this call attempts to make a connection to another socket. The * other socket is specified by serv_addr, which is an address (of length * addrlen) in the communications space of the socket. Each communications * space interprets the serv_addr parameter in its own way. * * @param sockfd The socket descriptor. * @param serv_addr Server address to connect to. * @param addrlen The length of server address. * * @return Zero on success. */ PJ_DECL(pj_status_t) pj_sock_connect( pj_sock_t sockfd, const pj_sockaddr_t *serv_addr, int addrlen); /** * Return the address of peer which is connected to socket sockfd. * * @param sockfd The socket descriptor. * @param addr Pointer to sockaddr structure to which the address * will be returned. * @param namelen Initially the length of the addr. Upon return the value * will be set to the actual length of the address. * * @return Zero on success. */ PJ_DECL(pj_status_t) pj_sock_getpeername(pj_sock_t sockfd, pj_sockaddr_t *addr, int *namelen); /** * Return the current name of the specified socket. * * @param sockfd The socket descriptor. * @param addr Pointer to sockaddr structure to which the address * will be returned. * @param namelen Initially the length of the addr. Upon return the value * will be set to the actual length of the address. * * @return Zero on success. */ PJ_DECL(pj_status_t) pj_sock_getsockname( pj_sock_t sockfd, pj_sockaddr_t *addr, int *namelen); /** * Get socket option associated with a socket. Options may exist at multiple * protocol levels; they are always present at the uppermost socket level. * * @param sockfd The socket descriptor. * @param level The level which to get the option from. * @param optname The option name. * @param optval Identifies the buffer which the value will be * returned. * @param optlen Initially contains the length of the buffer, upon * return will be set to the actual size of the value. * * @return Zero on success. */ PJ_DECL(pj_status_t) pj_sock_getsockopt( pj_sock_t sockfd, pj_uint16_t level, pj_uint16_t optname, void *optval, int *optlen); /** * Manipulate the options associated with a socket. Options may exist at * multiple protocol levels; they are always present at the uppermost socket * level. * * @param sockfd The socket descriptor. * @param level The level which to get the option from. * @param optname The option name. * @param optval Identifies the buffer which contain the value. * @param optlen The length of the value. * * @return PJ_SUCCESS or the status code. */ PJ_DECL(pj_status_t) pj_sock_setsockopt( pj_sock_t sockfd, pj_uint16_t level, pj_uint16_t optname, const void *optval, int optlen); /** * Set socket options associated with a socket. This method will apply all the * options specified, and ignore any errors that might be raised. * * @param sockfd The socket descriptor. * @param params The socket options. * * @return PJ_SUCCESS or the last error code. */ PJ_DECL(pj_status_t) pj_sock_setsockopt_params( pj_sock_t sockfd, const pj_sockopt_params *params); /** * Helper function to set socket buffer size using #pj_sock_setsockopt() * with capability to auto retry with lower buffer setting value until * the highest possible value is successfully set. * * @param sockfd The socket descriptor. * @param optname The option name, valid values are pj_SO_RCVBUF() * and pj_SO_SNDBUF(). * @param auto_retry Option whether auto retry with lower value is * enabled. * @param buf_size On input, specify the prefered buffer size setting, * on output, the buffer size setting applied. * * @return PJ_SUCCESS or the status code. */ PJ_DECL(pj_status_t) pj_sock_setsockopt_sobuf( pj_sock_t sockfd, pj_uint16_t optname, pj_bool_t auto_retry, unsigned *buf_size); /** * Receives data stream or message coming to the specified socket. * * @param sockfd The socket descriptor. * @param buf The buffer to receive the data or message. * @param len On input, the length of the buffer. On return, * contains the length of data received. * @param flags Flags (such as pj_MSG_PEEK()). * * @return PJ_SUCCESS or the error code. */ PJ_DECL(pj_status_t) pj_sock_recv(pj_sock_t sockfd, void *buf, pj_ssize_t *len, unsigned flags); /** * Receives data stream or message coming to the specified socket. * * @param sockfd The socket descriptor. * @param buf The buffer to receive the data or message. * @param len On input, the length of the buffer. On return, * contains the length of data received. * @param flags Flags (such as pj_MSG_PEEK()). * @param from If not NULL, it will be filled with the source * address of the connection. * @param fromlen Initially contains the length of from address, * and upon return will be filled with the actual * length of the address. * * @return PJ_SUCCESS or the error code. */ PJ_DECL(pj_status_t) pj_sock_recvfrom( pj_sock_t sockfd, void *buf, pj_ssize_t *len, unsigned flags, pj_sockaddr_t *from, int *fromlen); /** * Transmit data to the socket. * * @param sockfd Socket descriptor. * @param buf Buffer containing data to be sent. * @param len On input, the length of the data in the buffer. * Upon return, it will be filled with the length * of data sent. * @param flags Flags (such as pj_MSG_DONTROUTE()). * * @return PJ_SUCCESS or the status code. */ PJ_DECL(pj_status_t) pj_sock_send(pj_sock_t sockfd, const void *buf, pj_ssize_t *len, unsigned flags); /** * Transmit data to the socket to the specified address. * * @param sockfd Socket descriptor. * @param buf Buffer containing data to be sent. * @param len On input, the length of the data in the buffer. * Upon return, it will be filled with the length * of data sent. * @param flags Flags (such as pj_MSG_DONTROUTE()). * @param to The address to send. * @param tolen The length of the address in bytes. * * @return PJ_SUCCESS or the status code. */ PJ_DECL(pj_status_t) pj_sock_sendto(pj_sock_t sockfd, const void *buf, pj_ssize_t *len, unsigned flags, const pj_sockaddr_t *to, int tolen); #if PJ_HAS_TCP /** * The shutdown call causes all or part of a full-duplex connection on the * socket associated with sockfd to be shut down. * * @param sockfd The socket descriptor. * @param how If how is PJ_SHUT_RD, further receptions will be * disallowed. If how is PJ_SHUT_WR, further transmissions * will be disallowed. If how is PJ_SHUT_RDWR, further * receptions andtransmissions will be disallowed. * * @return Zero on success. */ PJ_DECL(pj_status_t) pj_sock_shutdown( pj_sock_t sockfd, int how); #endif /***************************************************************************** * * Utilities. * ***************************************************************************** */ /** * Print socket address string. This method will enclose the address string * with square bracket if it's IPv6 address. * * @param host_str The host address string. * @param port The port address. * @param buf Text buffer. * @param size Size of buffer. * @param flag Bitmask combination of these value: * - 1: port number is included. * * @return The address string. */ PJ_DECL(char *) pj_addr_str_print( const pj_str_t *host_str, int port, char *buf, int size, unsigned flag); /** * Create socket pair * @param family Specifies a communication domain; this selects the * protocol family which will be used for communication. * On Unix, support AF_UNIX, AF_INET and AF_INET6, * On Win32, not support AF_UNIX. * @param type The socket has the indicated type, which specifies the * communication semantics. * @param protocol Specifies a particular protocol to be used with the * socket. Normally only a single protocol exists to support * a particular socket type within a given protocol family, * in which a case protocol can be specified as 0. * @param sv The new sockets vector * * @return Zero on success. * */ PJ_DECL(pj_status_t) pj_sock_socketpair(int family, int type, int protocol, pj_sock_t sv[2]); /** * @} */ PJ_END_DECL #endif /* __PJ_SOCK_H__ */