/* Copyright (C) 2007-2008 The Android Open Source Project ** ** This software is licensed under the terms of the GNU General Public ** License version 2, as published by the Free Software Foundation, and ** may be copied, distributed, and modified under those terms. ** ** 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. */ /* headers to use the BSD sockets */ #ifndef QEMU_SOCKET_H #define QEMU_SOCKET_H #include <stddef.h> #include <stdint.h> #include <errno.h> /* we're going to hide the implementation details of sockets behind * a simple wrapper interface declared here. * * all socket operations set the global 'errno' variable on error. * this is unlike Winsock which instead modifies another internal * variable accessed through WSAGetLastError() and WSASetLastError() */ /* the wrapper will convert any Winsock error message into an errno * code for you. There are however a few standard Unix error codes * that are not defined by the MS C library headers, so we add them * here. We use the official Winsock error codes, which are documented * even though we don't want to include the Winsock headers */ #ifdef _WIN32 # ifndef EINTR # define EINTR 10004 # endif # ifndef EAGAIN # define EAGAIN 10035 # endif # ifndef EWOULDBLOCK # define EWOULDBLOCK EAGAIN # endif # ifndef EINPROGRESS # define EINPROGRESS 10036 # endif # ifndef EALREADY # define EALREADY 10037 # endif # ifndef EDESTADDRREQ # define EDESTADDRREQ 10039 # endif # ifndef EMSGSIZE # define EMSGSIZE 10040 # endif # ifndef EPROTOTYPE # define EPROTOTYPE 10041 # endif # ifndef ENOPROTOOPT # define ENOPROTOOPT 10042 # endif # ifndef EAFNOSUPPORT # define EAFNOSUPPORT 10047 # endif # ifndef EADDRINUSE # define EADDRINUSE 10048 # endif # ifndef EADDRNOTAVAIL # define EADDRNOTAVAIL 10049 # endif # ifndef ENETDOWN # define ENETDOWN 10050 # endif # ifndef ENETUNREACH # define ENETUNREACH 10051 # endif # ifndef ENETRESET # define ENETRESET 10052 # endif # ifndef ECONNABORTED # define ECONNABORTED 10053 # endif # ifndef ECONNRESET # define ECONNRESET 10054 # endif # ifndef ENOBUFS # define ENOBUFS 10055 # endif # ifndef EISCONN # define EISCONN 10056 # endif # ifndef ENOTCONN # define ENOTCONN 10057 # endif # ifndef ESHUTDOWN # define ESHUTDOWN 10058 # endif # ifndef ETOOMANYREFS # define ETOOMANYREFS 10059 # endif # ifndef ETIMEDOUT # define ETIMEDOUT 10060 # endif # ifndef ECONNREFUSED # define ECONNREFUSED 10061 # endif # ifndef ELOOP # define ELOOP 10062 # endif # ifndef EHOSTDOWN # define EHOSTDOWN 10064 # endif # ifndef EHOSTUNREACH # define EHOSTUNREACH 10065 # endif #endif /* _WIN32 */ /* Define 'errno_str' as a handy macro to return the string * corresponding to a given errno code. On Unix, this is * equivalent to strerror(errno), but on Windows, this will * take care of Winsock-originated errors as well. */ #ifdef _WIN32 extern const char* _errno_str(void); # define errno_str _errno_str() #else # define errno_str strerror(errno) #endif /* always enable IPv6 sockets for now. * the QEMU internal router is not capable of * supporting them, but we plan to replace it * with something better in the future. */ #define HAVE_IN6_SOCKETS 1 /* Unix sockets are not available on Win32 */ #ifndef _WIN32 # define HAVE_UNIX_SOCKETS 1 #endif /* initialize the socket sub-system. this must be called before * using any of the declarations below. */ int socket_init( void ); /* return the name of the current host */ char* host_name( void ); /* supported socket types */ typedef enum { SOCKET_DGRAM = 0, SOCKET_STREAM } SocketType; /* supported socket families */ typedef enum { SOCKET_UNSPEC, SOCKET_INET, SOCKET_IN6, SOCKET_UNIX } SocketFamily; /* Generic socket address structure. Note that for Unix * sockets, the path is stored in a heap-allocated block, * unless the 'owner' field is cleared. If this is the case, */ typedef struct { SocketFamily family; union { struct { uint16_t port; uint32_t address; } inet; struct { uint16_t port; uint8_t address[16]; } in6; struct { int owner; const char* path; } _unix; } u; } SockAddress; #define SOCK_ADDRESS_INET_ANY 0x00000000 #define SOCK_ADDRESS_INET_LOOPBACK 0x7f000001 /* initialize a new IPv4 socket address, the IP address and port are * in host endianess. */ void sock_address_init_inet( SockAddress* a, uint32_t ip, uint16_t port ); /* Initialize an IPv6 socket address, the address is in network order * and the port in host endianess. */ #if HAVE_IN6_SOCKETS void sock_address_init_in6 ( SockAddress* a, const uint8_t* ip6[16], uint16_t port ); #endif /* Intialize a Unix socket address, this will copy the 'path' string into the * heap. You need to call sock_address_done() to release the copy */ #if HAVE_UNIX_SOCKETS void sock_address_init_unix( SockAddress* a, const char* path ); #endif /* Finalize a socket address, only needed for now for Unix addresses */ void sock_address_done( SockAddress* a ); int sock_address_equal( const SockAddress* a, const SockAddress* b ); /* return a static string describing the address */ const char* sock_address_to_string( const SockAddress* a ); static __inline__ SocketFamily sock_address_get_family( const SockAddress* a ) { return a->family; } /* return the port number of a given socket address, or -1 if it's a Unix one */ int sock_address_get_port( const SockAddress* a ); /* set the port number of a given socket address, don't do anything for Unix ones */ void sock_address_set_port( SockAddress* a, uint16_t port ); /* return the path of a given Unix socket, returns NULL for non-Unix ones */ const char* sock_address_get_path( const SockAddress* a ); /* return the inet address, or -1 if it's not SOCKET_INET */ int sock_address_get_ip( const SockAddress* a ); /* bufprint a socket address into a human-readable string */ char* bufprint_sock_address( char* p, char* end, const SockAddress* a ); /* resolve a hostname or decimal IPv4/IPv6 address into a socket address. * returns 0 on success, or -1 on failure. Note that the values or errno * set by this function are the following: * * EINVAL : invalid argument * EHOSTDOWN : could not reach DNS server * ENOENT : no host with this name, or host doesn't have any IP address * ENOMEM : not enough memory to perform request */ int sock_address_init_resolve( SockAddress* a, const char* hostname, uint16_t port, int preferIn6 ); int sock_address_get_numeric_info( SockAddress* a, char* host, size_t hostlen, char* serv, size_t servlen ); /* Support for listing all socket addresses of a given host */ enum { SOCKET_LIST_PASSIVE = (1 << 0), SOCKET_LIST_FORCE_INET = (1 << 1), SOCKET_LIST_FORCE_IN6 = (1 << 2), SOCKET_LIST_DGRAM = (1 << 3), }; /* resolve a host and service/port name into a list of SockAddress objects. * returns a NULL-terminated array of SockAddress pointers on success, * or NULL in case of failure, with the value of errno set to one of the * following: * * EINVAL : invalid argument * EHOSTDOWN : could not reach DNS server * ENOENT : no host with this name, or host doesn't have IP address * ENOMEM : not enough memory to perform request * * other system-level errors can also be set depending on the host sockets * implementation. * * This function loops on EINTR so the caller shouldn't have to check for it. */ SockAddress** sock_address_list_create( const char* hostname, const char* port, unsigned flags ); /* resolve a string containing host and port name into a list of SockAddress * objects. Parameter host_and_port should be in format [host:]port, where * 'host' addresses the machine and must be resolvable into an IP address, and * 'port' is a decimal numeric value for the port. 'host' is optional, and if * ommited, localhost will be used. * returns a NULL-terminated array of SockAddress pointers on success, * or NULL in case of failure, with the value of errno set to one of the * following: * * EINVAL : invalid argument * EHOSTDOWN : could not reach DNS server * ENOENT : no host with this name, or host doesn't have IP address * ENOMEM : not enough memory to perform request * * other system-level errors can also be set depending on the host sockets * implementation. * * This function loops on EINTR so the caller shouldn't have to check for it. */ SockAddress** sock_address_list_create2(const char* host_and_port, unsigned flags ); void sock_address_list_free( SockAddress** list ); /* create a new socket, return the socket number of -1 on failure */ int socket_create( SocketFamily family, SocketType type ); /* create a new socket intended for IPv4 communication. returns the socket number, * or -1 on failure. */ int socket_create_inet( SocketType type ); /* create a new socket intended for IPv6 communication. returns the socket number, * or -1 on failure. */ #if HAVE_IN6_SOCKETS int socket_create_in6 ( SocketType type ); #endif /* create a unix/local domain socket. returns the socket number, * or -1 on failure. */ #if HAVE_UNIX_SOCKETS int socket_create_unix( SocketType type ); #endif /* return the type of a given socket */ SocketType socket_get_type(int fd); /* set SO_REUSEADDR on Unix, SO_EXCLUSIVEADDR on Windows */ int socket_set_xreuseaddr(int fd); /* set socket in non-blocking mode */ int socket_set_nonblock(int fd); /* set socket in blocking mode */ int socket_set_blocking(int fd); /* disable the TCP Nagle algorithm for lower latency */ int socket_set_nodelay(int fd); /* send OOB data inline for this socket */ int socket_set_oobinline(int fd); /* force listening to IPv6 interfaces only */ int socket_set_ipv6only(int fd); /* retrieve last socket error code */ int socket_get_error(int fd); /* close an opened socket. Note that this is unlike the Unix 'close' because: * - it will properly shutdown the socket in the background * - it does not modify errno */ void socket_close( int fd ); /* the following functions are equivalent to the BSD sockets ones */ int socket_recv ( int fd, void* buf, int buflen ); int socket_recvfrom( int fd, void* buf, int buflen, SockAddress* from ); int socket_send ( int fd, const void* buf, int buflen ); int socket_send_oob( int fd, const void* buf, int buflen ); int socket_sendto( int fd, const void* buf, int buflen, const SockAddress* to ); int socket_connect( int fd, const SockAddress* address ); int socket_bind( int fd, const SockAddress* address ); int socket_get_address( int fd, SockAddress* address ); int socket_get_peer_address( int fd, SockAddress* address ); int socket_listen( int fd, int backlog ); int socket_accept( int fd, SockAddress* address ); /* returns the number of bytes that can be read from a socket */ int socket_can_read( int fd ); /* this call creates a pair of non-blocking sockets connected * to each other. this is equivalent to calling the Unix function: * socketpair(AF_LOCAL,SOCK_STREAM,0,&fds) * * on Windows, this will use a pair of TCP loopback sockets instead * returns 0 on success, -1 on error. */ int socket_pair(int *fd1, int *fd2); /* create a server socket listening on the host's loopback interface */ int socket_loopback_server( int port, SocketType type ); /* connect to a port on the host's loopback interface */ int socket_loopback_client( int port, SocketType type ); /* create a server socket listening to a Unix domain path */ #if HAVE_UNIX_SOCKETS int socket_unix_server( const char* name, SocketType type ); #endif /* create a Unix sockets and connects it to a Unix server */ #if HAVE_UNIX_SOCKETS int socket_unix_client( const char* name, SocketType type ); #endif /* create an IPv4 client socket and connect it to a given host */ int socket_network_client( const char* host, int port, SocketType type ); /* create an IPv4 socket and binds it to a given port of the host's interface */ int socket_anyaddr_server( int port, SocketType type ); /* accept a connection from the host's any interface, return the new socket * descriptor or -1 */ int socket_accept_any( int server_fd ); int socket_mcast_inet_add_membership( int s, uint32_t ip ); int socket_mcast_inet_drop_membership( int s, uint32_t ip ); int socket_mcast_inet_set_loop( int s, int enabled ); int socket_mcast_inet_set_ttl( int s, int ttl ); #endif /* QEMU_SOCKET_H */