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socat/xioopen.c

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2008-01-28 16:37:16 -05:00
/* source: xioopen.c */
/* Copyright Gerhard Rieger 2001-2008 */
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/* Published under the GNU General Public License V.2, see file COPYING */
/* this is the source file of the extended open function */
#include "xiosysincludes.h"
#include "xioopen.h"
#include "xiomodes.h"
#include "nestlex.h"
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#include "xiosigchld.h"
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void *xioopenleftthenengine(void *thread_void);
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static xiosingle_t *xioparse_single(const char **addr);
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static int
xioopen_inter_single(xiofile_t *xfd, int xioflags);
static int
xioopen_endpoint_single(xiofile_t *xfd, int xioflags);
static int
xioopen_unoverload(xiosingle_t *sfd,
int mayleft, /* what may be on left side: or'd
XIOBIT_RDWR, XIOBIT_RDONLY,
XIOBIT_WRONLY */
int *isleft, /* what the selected address desc
provides on left side: XIO_RDWR,
XIO_RDONLY, or XIO_WRONLY */
int mayright, /* what may be on right side: or'd
XIOBIT_RDWR, XIOBIT_RDONLY,
XIOBIT_WRONLY */
int *isright); /* what the selected address desc
provides on right side: XIO_RDWR,
XIO_RDONLY, or XIO_WRONLY */
const struct xioaddrname address_names[] = {
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#if 1
#if WITH_STDIO
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{ "-", xioaddrs_stdio },
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#endif
#if defined(WITH_UNIX) && defined(WITH_ABSTRACT_UNIXSOCKET)
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{ "abstract", xioaddrs_abstract_client },
{ "abstract-client", xioaddrs_abstract_client },
{ "abstract-connect", xioaddrs_abstract_connect },
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#if WITH_LISTEN
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{ "abstract-listen", xioaddrs_abstract_listen },
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#endif
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{ "abstract-recv", xioaddrs_abstract_recv },
{ "abstract-recvfrom", xioaddrs_abstract_recvfrom },
{ "abstract-sendto", xioaddrs_abstract_sendto },
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#endif /* defined(WITH_UNIX) && defined(WITH_ABSTRACT_UNIXSOCKET) */
#if WITH_CREAT
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{ "creat", xioaddrs_creat },
{ "create", xioaddrs_creat },
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#endif
#if WITH_GENERICSOCKET
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{ "datagram", xioaddrs_socket_datagram },
{ "dgram", xioaddrs_socket_datagram },
#endif
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#if WITH_PIPE
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{ "echo", xioaddrs_pipe },
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#endif
#if WITH_EXEC
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{ "exec", xioaddrs_exec },
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#endif
#if WITH_FDNUM
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{ "fd", xioaddrs_fdnum },
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#endif
#if WITH_PIPE
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{ "fifo", xioaddrs_pipe },
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#endif
#if WITH_FILE
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{ "file", xioaddrs_open },
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#endif
#if WITH_GOPEN
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{ "gopen", xioaddrs_gopen },
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#endif
#if WITH_INTERFACE
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{ "if", xioaddrs_interface },
#endif
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#if (WITH_IP4 || WITH_IP6) && WITH_TCP
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{ "inet", xioaddrs_tcp_connect },
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#endif
#if (WITH_IP4 || WITH_IP6) && WITH_TCP && WITH_LISTEN
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{ "inet-l", xioaddrs_tcp_listen },
{ "inet-listen", xioaddrs_tcp_listen },
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#endif
#if WITH_IP4 && WITH_TCP
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{ "inet4", xioaddrs_tcp4_connect },
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#endif
#if WITH_IP4 && WITH_TCP && WITH_LISTEN
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{ "inet4-l", xioaddrs_tcp4_listen },
{ "inet4-listen", xioaddrs_tcp4_listen },
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#endif
#if WITH_IP6 && WITH_TCP
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{ "inet6", xioaddrs_tcp6_connect },
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#endif
#if WITH_IP6 && WITH_TCP && WITH_LISTEN
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{ "inet6-l", xioaddrs_tcp6_listen },
{ "inet6-listen", xioaddrs_tcp6_listen },
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#endif
#if WITH_INTERFACE
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{ "interface", xioaddrs_interface },
#endif
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#if WITH_RAWIP
#if (WITH_IP4 || WITH_IP6)
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{ "ip", xioaddrs_rawip_sendto },
{ "ip-datagram", xioaddrs_rawip_datagram },
{ "ip-dgram", xioaddrs_rawip_datagram },
{ "ip-recv", xioaddrs_rawip_recv },
{ "ip-recvfrom", xioaddrs_rawip_recvfrom },
{ "ip-send", xioaddrs_rawip_sendto },
{ "ip-sendto", xioaddrs_rawip_sendto },
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#endif
#if WITH_IP4
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{ "ip4", xioaddrs_rawip4_sendto },
{ "ip4-datagram", xioaddrs_rawip4_datagram },
{ "ip4-dgram", xioaddrs_rawip4_datagram },
{ "ip4-recv", xioaddrs_rawip4_recv },
{ "ip4-recvfrom", xioaddrs_rawip4_recvfrom },
{ "ip4-send", xioaddrs_rawip4_sendto },
{ "ip4-sendto", xioaddrs_rawip4_sendto },
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#endif
#if WITH_IP6
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{ "ip6", xioaddrs_rawip6_sendto },
{ "ip6-datagram", xioaddrs_rawip6_datagram },
{ "ip6-dgram", xioaddrs_rawip6_datagram },
{ "ip6-recv", xioaddrs_rawip6_recv },
{ "ip6-recvfrom", xioaddrs_rawip6_recvfrom },
{ "ip6-send", xioaddrs_rawip6_sendto },
{ "ip6-sendto", xioaddrs_rawip6_sendto },
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#endif
#endif /* WITH_RAWIP */
#if WITH_UNIX
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{ "local", xioaddrs_unix_connect },
#endif
#if WITH_NOP
{ "nop", xioaddrs_nop },
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#endif
#if WITH_FILE
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{ "open", xioaddrs_open },
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#endif
#if WITH_OPENSSL
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{ "openssl", xioaddrs_openssl_connect },
{ "openssl-client", xioaddrs_openssl_connect },
{ "openssl-connect", xioaddrs_openssl_connect },
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#if WITH_LISTEN
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{ "openssl-listen", xioaddrs_openssl_listen },
{ "openssl-server", xioaddrs_openssl_listen },
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#endif
#endif
#if WITH_PIPE
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{ "pipe", xioaddrs_pipe },
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#endif
#if WITH_PROXY
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{ "proxy", xioaddrs_proxy_connect },
{ "proxy-connect", xioaddrs_proxy_connect },
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#endif
#if WITH_PTY
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{ "pty", xioaddrs_pty },
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#endif
#if WITH_READLINE
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{ "readline", xioaddrs_readline },
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#endif
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#if (WITH_IP4 || WITH_IP6) && WITH_SCTP
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{ "sctp", xioaddrs_sctp_connect },
{ "sctp-connect", xioaddrs_sctp_connect },
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#if WITH_LISTEN
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{ "sctp-l", xioaddrs_sctp_listen },
{ "sctp-listen", xioaddrs_sctp_listen },
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#endif
#if WITH_IP4
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{ "sctp4", xioaddrs_sctp4_connect },
{ "sctp4-connect", xioaddrs_sctp4_connect },
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#if WITH_LISTEN
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{ "sctp4-l", xioaddrs_sctp4_listen },
{ "sctp4-listen", xioaddrs_sctp4_listen },
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#endif
#endif /* WITH_IP4 */
#if WITH_IP6
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{ "sctp6", xioaddrs_sctp6_connect },
{ "sctp6-connect", xioaddrs_sctp6_connect },
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#if WITH_LISTEN
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{ "sctp6-l", xioaddrs_sctp6_listen },
{ "sctp6-listen", xioaddrs_sctp6_listen },
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#endif
#endif /* WITH_IP6 */
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#endif /* (WITH_IP4 || WITH_IP6) && WITH_SCTP */
#if WITH_GENERICSOCKET
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{ "sendto", xioaddrs_socket_sendto },
#endif
#if WITH_GENERICSOCKET
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{ "socket-connect", xioaddrs_socket_connect },
{ "socket-datagram", xioaddrs_socket_datagram },
#if WITH_LISTEN
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{ "socket-listen", xioaddrs_socket_listen },
#endif /* WITH_LISTEN */
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{ "socket-recv", xioaddrs_socket_recv },
{ "socket-recvfrom", xioaddrs_socket_recvfrom },
{ "socket-sendto", xioaddrs_socket_sendto },
#endif
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#if WITH_SOCKS4
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{ "socks", xioaddrs_socks4_connect },
{ "socks-client", xioaddrs_socks4_connect },
{ "socks4", xioaddrs_socks4_connect },
{ "socks4-client", xioaddrs_socks4_connect },
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#endif
#if WITH_SOCKS4A
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{ "socks4a", xioaddrs_socks4a_connect },
{ "socks4a-client", xioaddrs_socks4a_connect },
#endif
#if WITH_SOCKS5
{ "socks5", xioaddrs_socks5_client },
{ "socks5-client", xioaddrs_socks5_client },
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#endif
#if WITH_OPENSSL
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{ "ssl", xioaddrs_openssl_connect },
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#if WITH_LISTEN
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{ "ssl-l", xioaddrs_openssl_listen },
{ "ssl-s", xioaddrs_openssl_listen },
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#endif
#endif
#if WITH_STDIO
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{ "stderr", xioaddrs_stderr },
{ "stdin", xioaddrs_stdin },
{ "stdio", xioaddrs_stdio },
{ "stdout", xioaddrs_stdout },
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#endif
#if WITH_SYSTEM
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{ "system", xioaddrs_system },
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#endif
#if (WITH_IP4 || WITH_IP6) && WITH_TCP
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{ "tcp", xioaddrs_tcp_connect },
{ "tcp-connect", xioaddrs_tcp_connect },
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#endif
#if (WITH_IP4 || WITH_IP6) && WITH_TCP && WITH_LISTEN
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{ "tcp-l", xioaddrs_tcp_listen },
{ "tcp-listen", xioaddrs_tcp_listen },
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#endif
#if WITH_IP4 && WITH_TCP
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{ "tcp4", xioaddrs_tcp4_connect },
{ "tcp4-connect", xioaddrs_tcp4_connect },
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#endif
#if WITH_IP4 && WITH_TCP && WITH_LISTEN
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{ "tcp4-l", xioaddrs_tcp4_listen },
{ "tcp4-listen", xioaddrs_tcp4_listen },
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#endif
#if WITH_IP6 && WITH_TCP
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{ "tcp6", xioaddrs_tcp6_connect },
{ "tcp6-connect", xioaddrs_tcp6_connect },
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#endif
#if WITH_IP6 && WITH_TCP && WITH_LISTEN
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{ "tcp6-l", xioaddrs_tcp6_listen },
{ "tcp6-listen", xioaddrs_tcp6_listen },
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#endif
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#if WITH_TEST
{ "test", xioaddrs_test },
{ "testrev", xioaddrs_testrev },
{ "testuni", xioaddrs_testuni },
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#endif
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#if WITH_TUN
{ "tun", xioaddrs_tun },
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#endif
#if (WITH_IP4 || WITH_IP6) && WITH_UDP
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{ "udp", xioaddrs_udp_connect },
{ "udp-connect", xioaddrs_udp_connect },
{ "udp-datagram", xioaddrs_udp_datagram },
{ "udp-dgram", xioaddrs_udp_datagram },
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#endif
#if (WITH_IP4 || WITH_IP6) && WITH_UDP && WITH_LISTEN
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{ "udp-l", xioaddrs_udp_listen },
{ "udp-listen", xioaddrs_udp_listen },
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#endif
#if (WITH_IP4 || WITH_IP6) && WITH_UDP
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{ "udp-recv", xioaddrs_udp_recv },
{ "udp-recvfrom", xioaddrs_udp_recvfrom },
{ "udp-send", xioaddrs_udp_sendto },
{ "udp-sendto", xioaddrs_udp_sendto },
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#endif
#if WITH_IP4 && WITH_UDP
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{ "udp4", xioaddrs_udp4_connect },
{ "udp4-connect", xioaddrs_udp4_connect },
{ "udp4-datagram", xioaddrs_udp4_datagram },
{ "udp4-dgram", xioaddrs_udp4_datagram },
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#endif
#if WITH_IP4 && WITH_UDP && WITH_LISTEN
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{ "udp4-l", xioaddrs_udp4_listen },
{ "udp4-listen", xioaddrs_udp4_listen },
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#endif
#if WITH_IP4 && WITH_UDP
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{ "udp4-recv", xioaddrs_udp4_recv },
{ "udp4-recvfrom", xioaddrs_udp4_recvfrom },
{ "udp4-send", xioaddrs_udp4_sendto },
{ "udp4-sendto", xioaddrs_udp4_sendto },
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#endif
#if WITH_IP6 && WITH_UDP
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{ "udp6", xioaddrs_udp6_connect },
{ "udp6-connect", xioaddrs_udp6_connect },
{ "udp6-datagram", xioaddrs_udp6_datagram },
{ "udp6-dgram", xioaddrs_udp6_datagram },
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#endif
#if WITH_IP6 && WITH_UDP && WITH_LISTEN
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{ "udp6-l", xioaddrs_udp6_listen },
{ "udp6-listen", xioaddrs_udp6_listen },
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#endif
#if WITH_IP6 && WITH_UDP
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{ "udp6-recv", xioaddrs_udp6_recv },
{ "udp6-recvfrom", xioaddrs_udp6_recvfrom },
{ "udp6-send", xioaddrs_udp6_sendto },
{ "udp6-sendto", xioaddrs_udp6_sendto },
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#endif
#if WITH_UNIX
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{ "unix", xioaddrs_unix_client },
{ "unix-client", xioaddrs_unix_client },
{ "unix-connect", xioaddrs_unix_connect },
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#endif
#if WITH_UNIX && WITH_LISTEN
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{ "unix-l", xioaddrs_unix_listen },
{ "unix-listen", xioaddrs_unix_listen },
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#endif
#if WITH_UNIX
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{ "unix-recv", xioaddrs_unix_recv },
{ "unix-recvfrom", xioaddrs_unix_recvfrom },
{ "unix-send", xioaddrs_unix_sendto },
{ "unix-sendto", xioaddrs_unix_sendto },
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#endif
#else /* !0 */
# if WITH_INTEGRATE
# include "xiointegrate.c"
# else
# include "xioaddrtab.c"
# endif
#endif /* !0 */
{ NULL } /* end marker */
} ;
/* prepares a xiofile_t record for dual address type:
sets the tag and allocates memory for the substreams.
returns 0 on success, or <0 if an error occurred.
*/
int xioopen_makedual(xiofile_t *file) {
file->tag = XIO_TAG_DUAL;
file->common.flags = XIO_RDWR;
if ((file->dual.stream[0] = (xiosingle_t *)xioallocfd()) == NULL)
return -1;
file->dual.stream[0]->flags = XIO_RDONLY;
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file->dual.stream[0]->fdtype = FDTYPE_SINGLE;
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if ((file->dual.stream[1] = (xiosingle_t *)xioallocfd()) == NULL)
return -1;
file->dual.stream[1]->flags = XIO_WRONLY;
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file->dual.stream[1]->fdtype = FDTYPE_SINGLE;
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return 0;
}
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/* returns NULL if an error occurred */
xiofile_t *xioallocfd(void) {
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xiofile_t *fd;
if ((fd = Calloc(1, sizeof(xiofile_t))) == NULL) {
return NULL;
}
/* some default values; 0's and NULL's need not be applied (calloc'ed) */
fd->common.tag = XIO_TAG_INVALID;
/* fd->common.addr = NULL; */
fd->common.flags = XIO_RDWR;
#if WITH_RETRY
/* fd->stream.retry = 0; */
/* fd->stream.forever = false; */
fd->stream.intervall.tv_sec = 1;
/* fd->stream.intervall.tv_nsec = 0; */
#endif /* WITH_RETRY */
/* fd->common.ignoreeof = false; */
/* fd->common.eof = 0; */
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fd->stream.fd1 = -1;
fd->stream.fd2 = -1;
fd->stream.fdtype = FDTYPE_SINGLE;
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fd->stream.dtype = XIODATA_STREAM;
#if _WITH_SOCKET
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/* fd->stream.salen = 0; */
#endif /* _WITH_SOCKET */
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/* fd->stream.howtoshut = XIOSHUT_UNSPEC;*/
/* fd->stream.howtoclose = XIOCLOSE_UNSPEC;*/
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/* fd->stream.name = NULL; */
fd->stream.escape = -1;
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/* fd->stream.para.exec.pid = 0; */
fd->stream.lineterm = LINETERM_RAW;
/*!! support n socks */
if (!sock[0]) {
sock[0] = fd;
} else {
sock[1] = fd;
}
return fd;
}
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void xiofreefd(xiofile_t *xfd) {
if (xfd->stream.opts != NULL) {
dropopts(xfd->stream.opts, PH_ALL);
}
free(xfd);
}
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/* handle one chain of addresses
dirs is one of XIO_RDWR, XIO_RDONLY, or XIO_WRONLY
*/
xiofile_t *socat_open(const char *addrs0, int dirs, int flags) {
const char *addrs;
xiosingle_t *sfdA; /* what we just parse(d) */
xiosingle_t *sfdB; /* what we just parse(d) - second part of dual */
int newpipesep = 1; /* dual address: 1%0 instead of 0!!1 */
int reverseA, reverseB=0;
bool currentisendpoint = false;
int mayleftA, mayrightA, mayleftB, mayrightB;
int isleftA, isrightA, isleftB, isrightB;
int srchleftA, srchrightA, srchleftB=0, srchrightB=0;
xiofile_t *xfd0; /* what we return */
xiofile_t *xfd1; /* left hand of engine */
xiofile_t *xfd2; /* return by sub address */
int dirs0, dirs1, dirs2; /* the data directions for respective xfd */
int xfd0shut;
int xfd0close;
int lefttoright[2];
int righttoleft[2];
struct threadarg_struct *thread_arg;
/*0 pthread_t thread = 0;*/
/*pthread_attr_t attr;*/
int _errno = 0;
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/* loop over retries */
while (true) {
addrs = addrs0;
skipsp(&addrs);
dirs0 = dirs;
/* here we do not know much: will the next sub address be inter or
endpoint, single or dual, reverse? */
/* check the logical direction of the current subaddress */
reverseA = !(strncmp(addrs, xioparams->reversechar,
strlen(xioparams->reversechar)));
if (reverseA) {
addrs += strlen(xioparams->reversechar); /* consume "reverse" */
skipsp(&addrs);
}
if ((sfdA = xioparse_single(&addrs)) == NULL) {
Error1("syntax error in \"%s\"", addrs);
return NULL;
}
skipsp(&addrs);
/* is it a dual sub address? */
if (!strncmp(addrs, xioparams->pipesep, strlen(xioparams->pipesep))) {
/* yes, found dual-address operator */
if (dirs != XIO_RDWR) {
Error("dual address cannot handle single direction data stream");
}
skipsp(&addrs);
addrs += strlen(xioparams->pipesep); /* consume "%" */
/* check the logical direction of the current subaddress */
skipsp(&addrs);
reverseB = !(strncmp(addrs, xioparams->reversechar,
strlen(xioparams->reversechar)));
if (reverseB) {
addrs += strlen(xioparams->reversechar); /* consume "reverse" */
skipsp(&addrs);
}
if ((sfdB = xioparse_single(&addrs)) == NULL) {
Error1("syntax error in \"%s\"", addrs);
return NULL;
}
skipsp(&addrs);
} else {
sfdB = NULL;
}
/* is it the final sub address? */
if (*addrs == '\0') {
currentisendpoint = true;
} else if (!strncmp(addrs, xioparams->chainsep,
strlen(xioparams->chainsep))) {
addrs += strlen(xioparams->chainsep);
skipsp(&addrs);
currentisendpoint = false;
} else {
Error2("syntax error on \"%s\": expected eol or \"%s\"",
addrs, xioparams->chainsep);
xiofreefd((xiofile_t *)sfdA);
if (sfdB != NULL) xiofreefd((xiofile_t *)sfdB);
return NULL;
}
/* now we know the context of the current sub address:
currentisendpoint...it is an endpoint, not an inter address
sfdB.......if not null, we have a dual type address
reverseA...sfdA is reverse
reverseB...if dual address then sfdB is reverse
dirs0......the data directions of xfd0 */
/* note: with dual inter, sfdB is implicitely reverse */
/* calculate context parameters that are easier to handle */
if (sfdB == NULL) {
srchleftA = mayleftA = (1 << dirs0);
srchrightA = mayrightA = (currentisendpoint ? 0 : XIOBIT_ALL);
if (reverseA) {
/*srchrightA = XIOBIT_REVERSE(srchleftA);*/
srchrightA = srchleftA;
srchleftA = XIOBIT_ALL;
}
} else { /* A is only part of dual */
srchleftA = mayleftA = XIOBIT_WRONLY;
srchrightA = mayrightA = (currentisendpoint ? 0 : XIOBIT_RDONLY);
if (reverseA) {
srchleftA = XIOBIT_RDONLY;
srchrightA = XIOBIT_WRONLY;
}
srchleftB = mayleftB = (currentisendpoint ? XIOBIT_RDONLY : XIOBIT_WRONLY);
srchrightB = mayrightB = (currentisendpoint ? 0 : XIOBIT_RDONLY);
if (reverseB) {
srchleftB = XIOBIT_RDONLY;
srchrightB = XIOBIT_WRONLY;
}
}
if (((dirs0+1) & (XIO_WRONLY+1)) || currentisendpoint) {
if (xioopen_unoverload(sfdA, srchleftA, &isleftA, srchrightA, &isrightA)
< 0) {
Error1("address \"%s\" can not be used in this context",
sfdA->addrdescs[0]->inter_desc.defname);
}
} else {
if (xioopen_unoverload(sfdA, srchrightA, &isrightA, srchleftA, &isleftA)
< 0) {
Error1("address \"%s\" can not be used in this context",
sfdA->addrdescs[0]->inter_desc.defname);
}
}
if (reverseA) { isrightA = isleftA; }
if (sfdB != NULL) {
if (xioopen_unoverload(sfdB, srchleftB, &isleftB, srchrightB, &isrightB)
< 0) {
Error1("address \"%s\" can not be used in this context",
sfdB->addrdescs[0]->inter_desc.defname);
}
if (reverseB) { isleftB = XIOBIT_REVERSE(srchrightB); }
if (!currentisendpoint && ((isrightA+1) & (isleftB+1))) {
/* conflict in directions on right side (xfd1) */
Error("conflict in data directions");/*!!*/
}
dirs1 = ((isrightA+1) | (isleftB+1)) - 1;
} else {
dirs1 = isrightA;
}
dirs2 = (dirs1==XIO_RDWR) ? XIO_RDWR : (dirs1==XIO_RDONLY) ? XIO_WRONLY :
XIO_RDONLY;
/* now we know exactly what to do with the current sub address */
/* we need the values for retry, forever, and intervall */
applyopts_offset(sfdA, sfdA->opts);
if (sfdB != NULL) {
applyopts_offset(sfdB, sfdB->opts);
}
if (currentisendpoint) {
if (sfdB != NULL) {
if ((xfd0 = xioallocfd()) == NULL) {
xiofreefd((xiofile_t *)sfdA); xiofreefd((xiofile_t *)sfdB);
return NULL;
}
xioopen_makedual(xfd0);
xfd0->dual.stream[0] = sfdB;
xfd0->dual.stream[1] = sfdA;
} else {
xfd0 = (xiofile_t *)sfdA;
}
/* open it and be ready in this thread */
if (xioopen_endpoint_dual(xfd0, dirs0|flags) < 0) {
xiofreefd(xfd0);
return NULL;
}
return xfd0;
}
/* the current addr is not the final sub address */
/* recursively open the following addresses of chain */
/* loop over retries if appropriate */
do {
xfd2 = socat_open(addrs, dirs2, flags);
if (xfd2 != NULL) {
break; /* succeeded */
}
if (sfdA->retry == 0 && !sfdA->forever) {
xiofreefd((xiofile_t *)sfdA);
if (sfdB != NULL) xiofreefd((xiofile_t *)sfdB);
/*! close()? */
return NULL;
}
Nanosleep(&sfdA->intervall, NULL);
if (sfdA->retry) --sfdA->retry;
} while (true);
/* only xfd2 is valid here, contains a handle for the rest of the chain
*/
/* yupp, and the single addresses sfdA and ev.sfdB are valid too */
/* what are xfd0, xfd1, and xfd2?
consider chain: addr1|addr2
with no reverse address, this will run like:
_socat(<upstream>,addr1) --- _socat(-, addr2)
_socat(???, xfd0) --- _socat(xfd1,xfd2)
xfd0 will be opened in this routine
xfd1 will be assembled now, just using FDs
xfd2 comes from recursive open call
*/
/* but, with reverse, it looks so:
consider chain: ^addr1|addr2
_socat(<upstream>,-) --- _socat(addr1,addr2)
_socat(??? ,xfd0) --- _socat(xfd1, xfd2)
xfd0 will be assembled now, just using FDs
xfd1 was just initialized in this routine
xfd2 comes from recursive open call
*/
/* even worse, with mixed forward/reverse dual address:
consider chain: addr1a%^addr1b|addr2
_socat(<upstream, addr1a%nop) --- _socat(nop%addr1b, addr2)
_socat(???, xfd0) --- _socat(xfd1, xfd2)
*/
/* prepare FD based communication of current addr with its right neighbor
(xfd0-xfd1) */
if (1) {
int sv[2];
if (Socketpair(PF_UNIX, SOCK_STREAM, 0, sv) < 0) {
Error2("socketpair(PF_UNIX, PF_STREAM, 0, %s): %s",
sv, strerror(errno));
}
lefttoright[0] = righttoleft[1] = sv[0];
lefttoright[1] = righttoleft[0] = sv[1];
xfd0shut = XIOSHUT_DOWN;
xfd0close = XIOCLOSE_CLOSE;
/*xfd0fdtype = FDTYPE_SINGLE;*/
} else {
if (Pipe(lefttoright) < 0) {
Error2("pipe(%p): %s", lefttoright, strerror(errno)); }
if (Pipe(righttoleft) < 0) {
Error2("pipe(%p): %s", righttoleft, strerror(errno)); }
xfd0shut = XIOSHUT_CLOSE;
xfd0close = XIOCLOSE_CLOSE;
/*xfd0fdtype = FDTYPE_DOUBLE;*/
}
/* now assemble xfd0 and xfd1 */
if (sfdB != NULL && reverseA == reverseB) {
/* dual address, differing orientation (B is impl.reverse) */
/* dual implies (dirs0==dirs1==XIO_RDWR) */
if (!reverseA) {
/* A is not reverse, but B */
char addr[15];
xfd0 = xioallocfd();
xioopen_makedual(xfd0);
xfd0->dual.stream[1] = sfdA;
sprintf(addr, "FD:%u", righttoleft[0]);
if ((xfd0->dual.stream[0] =
(xiosingle_t *)socat_open(addr, XIO_WRONLY, 0))
== NULL) {
xiofreefd(xfd0); xiofreefd(xfd2); return NULL;
}
/* address type FD keeps the FDs open per default, but ... */
xfd1 = xioallocfd();
xioopen_makedual(xfd1);
xfd1->dual.stream[1] = sfdB;
sprintf(addr, "FD:%u", lefttoright[0]);
if ((xfd1->dual.stream[0] =
(xiosingle_t *)socat_open(addr, XIO_RDONLY, 0))
== NULL) {
xiofreefd(xfd0); xiofreefd(xfd1); xiofreefd(xfd2);
return NULL;
}
} else {
/* A is reverse, but B is not */
char addr[15];
xfd0 = xioallocfd();
xioopen_makedual(xfd0);
xfd0->dual.stream[0] = sfdB;
sprintf(addr, "FD:%u", lefttoright[1]);
if ((xfd0->dual.stream[1] =
(xiosingle_t *)socat_open(addr, XIO_RDONLY, 0))
== NULL) {
xiofreefd(xfd0); xiofreefd(xfd2); return NULL;
}
xfd1 = xioallocfd();
xioopen_makedual(xfd1);
xfd1->dual.stream[0] = sfdA;
sprintf(addr, "FD:%u", righttoleft[1]);
if ((xfd1->dual.stream[1] =
(xiosingle_t *)socat_open(addr, XIO_RDONLY, 0))
== NULL) {
xiofreefd(xfd0); xiofreefd(xfd1); xiofreefd(xfd2);
return NULL;
}
}
xfd0->dual.stream[0]->fd1 = lefttoright[1];
xfd0->dual.stream[1]->fd1 = righttoleft[0];
xfd1->dual.stream[0]->fd1 = righttoleft[1];
xfd1->dual.stream[1]->fd1 = lefttoright[0];
} else {
/* either dual with equal directions, or non-dual */
xiofile_t *tfd; /* temp xfd */
char addr[15];
if (sfdB != NULL) {
/* dual, none or both are reverse */
tfd = xioallocfd();
xioopen_makedual(tfd);
tfd->dual.stream[1] = sfdA;
tfd->dual.stream[0] = sfdB;
} else {
/* non-dual */
tfd = (xiofile_t *)sfdA;
}
/* now take care of orientation */
if (!reverseA) {
/* forward */
xfd0 = tfd;
if (dirs1 == XIO_RDWR) {
sprintf(addr, "FD:%u:%u", righttoleft[1], lefttoright[0]);
} else if (dirs1 == XIO_RDONLY) {
sprintf(addr, "FD:%u", lefttoright[0]);
} else {
sprintf(addr, "FD:%u", righttoleft[1]);
}
if ((xfd1 = socat_open(addr, dirs1, 0)) == NULL) {
xiofreefd(xfd0); xiofreefd(xfd2);
return NULL;
}
} else {
/* reverse */
xfd1 = tfd;
if (dirs0 == XIO_RDWR) {
sprintf(addr, "FD:%u:%u", lefttoright[1], righttoleft[0]);
} else if (dirs0 == XIO_RDONLY) {
sprintf(addr, "FD:%u", righttoleft[0]);
} else {
sprintf(addr, "FD:%u", lefttoright[1]);
}
if ((xfd0 = socat_open(addr, XIO_RDWR, 0)) == NULL) {
xiofreefd(xfd1); xiofreefd(xfd2);
return NULL;
}
/* address type FD keeps the FDs open per default, but ... */
}
if (xfd0->tag == XIO_TAG_DUAL) {
xfd0->dual.stream[0]->fd1 = lefttoright[1];
xfd0->dual.stream[1]->fd1 = righttoleft[0];
} else {
xfd0->stream.fd1 = righttoleft[0];
xfd0->stream.fd2 = lefttoright[1];
}
if (xfd1->tag == XIO_TAG_DUAL) {
xfd1->dual.stream[0]->fd1 = righttoleft[1];
xfd1->dual.stream[1]->fd1 = lefttoright[0];
} else {
xfd1->stream.fd1 = lefttoright[0];
xfd1->stream.fd2 = righttoleft[1];
}
}
/* address type FD keeps the FDs open per default, but ... */
if (xfd0->tag == XIO_TAG_DUAL) {
xfd0->dual.stream[0]->howtoshut = xfd0shut;
xfd0->dual.stream[0]->howtoclose = xfd0close;
xfd0->dual.stream[1]->howtoshut = xfd0shut;
xfd0->dual.stream[1]->howtoclose = xfd0close;
} else {
xfd0->stream.howtoshut = xfd0shut;
xfd0->stream.howtoclose = xfd0close;
}
if (xfd1->tag == XIO_TAG_DUAL) {
xfd1->dual.stream[0]->howtoshut = xfd0shut;
xfd1->dual.stream[0]->howtoclose = xfd0close;
xfd1->dual.stream[1]->howtoshut = xfd0shut;
xfd1->dual.stream[1]->howtoclose = xfd0close;
} else {
xfd1->stream.howtoshut = xfd0shut;
xfd1->stream.howtoclose = xfd0close;
}
/* here xfd2 is valid and ready for transfer;
and xfd0 and xfd1 are valid and ready for opening */
if ((thread_arg = Malloc(sizeof(struct threadarg_struct))) == NULL) {
/*! free something */
xiofreefd(xfd0); xiofreefd(xfd1); xiofreefd(xfd2);
return NULL;
}
thread_arg->xfd1 = xfd1;
thread_arg->xfd2 = xfd2;
if ((_errno =
Pthread_create(&xfd0->stream.subthread, NULL,
(reverseA||(sfdB!=NULL)&&!reverseB)?xioopenleftthenengine:xioengine,
thread_arg))
!= 0) {
Error4("pthread_create(%p, {}, xioengine, {%p,%p}): %s",
&xfd0->stream.subthread, thread_arg->xfd1, thread_arg->xfd2,
strerror(_errno));
xiofreefd(xfd0); xiofreefd(xfd1); xiofreefd(xfd2);
free(thread_arg); return NULL;
}
Info1("started thread "F_thread, xfd0->stream.subthread);
xfd1 = NULL;
xfd2 = NULL;
/* open protocol part */
if (xioopen_inter_dual(xfd0, dirs|flags)
< 0) {
/*! close sub chain */
if (xfd0->stream.retry == 0 && !xfd0->stream.forever) {
xiofreefd(xfd0); /*! close()? */ return NULL;
}
Nanosleep(&xfd0->stream.intervall, NULL);
if (xfd0->stream.retry) --xfd0->stream.retry;
continue;
}
break;
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}
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/*!!!?*/
#if 0
xfd0->stream.howtoshut = XIOSHUT_CLOSE;
#endif
return xfd0;
}
void *xioopenleftthenengine(void *thread_void) {
struct threadarg_struct *thread_arg = thread_void;
xiofile_t *xfd1 = thread_arg->xfd1;
xiofile_t *xfd2 = thread_arg->xfd2;
/*! design a function with better interface */
if (xioopen_inter_dual(xfd1, XIO_RDWR|XIO_MAYCONVERT) < 0) {
xioclose(xfd2);
xiofreefd(xfd1);
xiofreefd(xfd2);
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return NULL;
}
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xioengine(thread_void);
return NULL;
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}
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xiofile_t *xioparse_dual(const char **addr) {
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xiofile_t *xfd;
xiosingle_t *sfd1;
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int reverse;
/* check the logical direction of the current subaddress */
reverse = !(strncmp(*addr, xioparams->reversechar,
strlen(xioparams->reversechar)));
if (reverse) {
/* skip "reverse" token */
*addr += strlen(xioparams->reversechar);
}
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/* we parse a single address */
if ((sfd1 = xioparse_single(addr)) == NULL) {
return NULL;
}
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sfd1->reverse = reverse;
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/* and now we see if we reached a dual-address separator */
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if (strncmp(*addr, xioopts.pipesep, strlen(xioopts.pipesep))) {
/* no, finish */
return (xiofile_t *)sfd1;
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}
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/* we found the dual-address operator, so we parse the second single address
*/
*addr += strlen(xioparams->pipesep);
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if ((xfd = xioallocfd()) == NULL) {
xiofreefd((xiofile_t *)sfd1);
return NULL;
}
xfd->tag = XIO_TAG_DUAL;
xfd->dual.stream[0] = sfd1;
if ((xfd->dual.stream[1] = xioparse_single(addr)) == NULL) {
xiofreefd(xfd); /*! and maybe have free some if its contents */
return NULL;
}
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return xfd;
}
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int xioopen_inter_dual(xiofile_t *xfd, int xioflags) {
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if (xfd->tag == XIO_TAG_DUAL) {
/* a really dual address */
if ((xioflags&XIO_ACCMODE) != XIO_RDWR) {
Warn("unidirectional open of dual address");
}
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/* a "usual" bidirectional stream specification, one address */
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if (((xioflags&XIO_ACCMODE)+1) & (XIO_RDONLY+1)) {
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if (xioopen_inter_single((xiofile_t *)xfd->dual.stream[0], XIO_RDONLY|(xioflags&~XIO_ACCMODE&~XIO_MAYEXEC))
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< 0) {
return -1;
}
}
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/*! should come before xioopensingle? */
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if (((xioflags&XIO_ACCMODE)+1) & (XIO_WRONLY+1)) {
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if (xioopen_inter_single((xiofile_t *)xfd->dual.stream[1], XIO_WRONLY|(xioflags&~XIO_ACCMODE&~XIO_MAYEXEC))
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< 0) {
xioclose((xiofile_t *)xfd->dual.stream[0]);
return -1;
}
}
return 0;
}
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return xioopen_inter_single(xfd, xioflags);
}
int xioopen_endpoint_dual(xiofile_t *xfd, int xioflags) {
if (xfd->tag == XIO_TAG_DUAL) {
/* a really dual address */
if ((xioflags&XIO_ACCMODE) != XIO_RDWR) {
Warn("unidirectional open of dual address");
}
/* a "usual" bidirectional stream specification, one address */
if (((xioflags&XIO_ACCMODE)+1) & (XIO_WRONLY+1)) {
if (xioopen_endpoint_single((xiofile_t *)xfd->dual.stream[1], XIO_WRONLY|(xioflags&~XIO_ACCMODE&~XIO_MAYEXEC))
< 0) {
return -1;
}
}
/*! should come before xioopensingle? */
if (((xioflags&XIO_ACCMODE)+1) & (XIO_RDONLY+1)) {
if (xioopen_endpoint_single((xiofile_t *)xfd->dual.stream[0], XIO_RDONLY|(xioflags&~XIO_ACCMODE&~XIO_MAYEXEC))
< 0) {
xioclose((xiofile_t *)xfd->dual.stream[1]);
return -1;
}
}
return 0;
}
return xioopen_endpoint_single(xfd, xioflags);
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}
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/* parses the parameters and options of a single (sub)address.
returns 0 on success or -1 if an error occurred. */
static xiosingle_t *
xioparse_single(const char **addr /* input string; afterwards points to
first char not belonging to this
sub address */
) {
char addr0[20];
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xiofile_t *xfd;
xiosingle_t *sfd;
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struct xioaddrname *ae;
/*int maxparams;*/ /* max number of parameters */
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const char *ends[4+1];
const char *hquotes[] = {
"'",
NULL
} ;
const char *squotes[] = {
"\"",
NULL
} ;
const char *nests[] = {
"'", "'",
"(", ")",
"[", "]",
"{", "}",
NULL
} ;
char token[512], *tokp;
size_t len;
int i;
/* init */
i = 0;
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ends[i++] = xioopts.chainsep; /* default: "|" */
ends[i++] = xioopts.pipesep; /* default: "%" */
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ends[i++] = ","/*xioopts.comma*/; /* default: "," */
ends[i++] = ":"/*xioopts.colon*/; /* default: ":" */
ends[i++] = NULL;
if ((xfd = xioallocfd()) == NULL) {
return NULL;
}
sfd = &xfd->stream;
sfd->argc = 0;
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/* for error messages */
strncpy(addr0, *addr, sizeof(addr0)-1);
addr0[sizeof(addr0)-1] = '\0';
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len = sizeof(token); tokp = token;
if (nestlex(addr, &tokp, &len, ends, hquotes, squotes, nests,
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true, true, true, false) < 0) {
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Error2("keyword too long, in address \"%s%s\"", token, *addr);
}
*tokp = '\0'; /*! len? */
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ae = (struct xioaddrname *)
keyw((struct wordent *)&address_names, token,
sizeof(address_names)/sizeof(struct xioaddrname)-1);
if (ae != NULL) {
/* found keyword */
sfd->addrdescs = ae->desc;
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if ((sfd->argv[sfd->argc++] = strdup(token)) == NULL) {
Error1("strdup(\"%s\"): out of memory", token);
}
} else {
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if (false) { /* for canonical reasons */
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;
#if WITH_FDNUM
} else if (isdigit(token[0]&0xff) && token[1] == '\0') {
Info1("interpreting address \"%s\" as file descriptor", token);
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sfd->addrdescs = xioaddrs_fdnum;
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if ((sfd->argv[sfd->argc++] = strdup("FD")) == NULL) {
Error("strdup(\"FD\"): out of memory");
}
if ((sfd->argv[sfd->argc++] = strdup(token)) == NULL) {
Error1("strdup(\"%s\"): out of memory", token);
}
/*! check argc overflow */
#endif /* WITH_FDNUM */
#if WITH_GOPEN
} else if (strchr(token, '/')) {
Info1("interpreting address \"%s\" as file name", token);
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sfd->addrdescs = xioaddrs_gopen;
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if ((sfd->argv[sfd->argc++] = strdup("GOPEN")) == NULL) {
Error("strdup(\"GOPEN\"): out of memory");
}
if ((sfd->argv[sfd->argc++] = strdup(token)) == NULL) {
Error1("strdup(\"%s\"): out of memory", token);
}
/*! check argc overflow */
#endif /* WITH_GOPEN */
} else {
Error1("unknown device/address \"%s\"", token);
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xiofreefd(xfd);
return NULL;
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}
}
while (!strncmp(*addr, xioopts.paramsep, strlen(xioopts.paramsep))) {
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if (sfd->argc >= MAXARGV) {
Error1("address \"%s\": succeeds max number of parameters",
sfd->argv[0]);
}
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*addr += strlen(xioopts.paramsep);
len = sizeof(token); tokp = token;
if (nestlex(addr, &tokp, &len, ends, hquotes, squotes, nests,
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true, true, true, false) != 0) {
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Error2("syntax error in address \"%s%s\"", token, *addr);
}
*tokp = '\0';
if ((sfd->argv[sfd->argc++] = strdup(token)) == NULL) {
Error1("strdup(\"%s\"): out of memory", token);
}
}
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if (parseopts(addr, &sfd->opts) < 0) {
xiofreefd(xfd);
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return NULL;
}
return sfd;
}
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/* during parsing the sub address, we did not know if it is used as inter
address or endpoint; therefore we could not select the appropriate address
descriptor. Here we already know the context and thus select the address
descriptor and check the option groups.
returns 0 on success or -1 if an error occurred */
static int
xioopen_unoverload(xiosingle_t *sfd,
int mayleft, /* what may be on left side: or'd
XIOBIT_RDWR, XIOBIT_RDONLY,
XIOBIT_WRONLY */
int *isleft, /* what the selected address desc
provides on left side: XIO_RDWR,
XIO_RDONLY, or XIO_WRONLY */
int mayright, /* what may be on right side: or'd
XIOBIT_RDWR, XIOBIT_RDONLY,
XIOBIT_WRONLY */
int *isright) /* what the selected address desc
provides on right side: XIO_RDWR,
XIO_RDONLY, or XIO_WRONLY */
{
const union xioaddr_desc **addrdescs;
int tag;
int i;
addrdescs = sfd->addrdescs;
tag = (mayright ? XIOADDR_INTER : XIOADDR_ENDPOINT);
/* look for a matching entry in the list of address descriptions */
while ((*addrdescs) != NULL) {
if ((*addrdescs)->tag == tag &&
addrdescs[0]->common_desc.numparams == sfd->argc-1 &&
(addrdescs[0]->common_desc.leftdirs & mayleft) != 0 &&
(mayright ? (addrdescs[0]->inter_desc.rightdirs & mayright) : 1)) {
break;
}
++addrdescs;
}
if (addrdescs[0] == NULL) {
Error3("address \"%s...\" in %s context and with %d parameter(s) is not defined",
sfd->argv[0], tag==XIOADDR_ENDPOINT?"endpoint":"intermediate",
sfd->argc-1);
xiofreefd((xiofile_t *)sfd); return -1;
}
i = (addrdescs[0]->common_desc.leftdirs & mayleft);
*isleft = 0;
while (i>>=1) {
++*isleft;
}
if (true /*0 mayright*/) {
i = (addrdescs[0]->inter_desc.rightdirs & mayright);
*isright = 0;
while (i>>=1) {
++*isright;
}
}
sfd->tag = (*isleft + 1);
sfd->addrdesc = addrdescs[0];
sfd->howtoshut = addrdescs[0]->common_desc.howtoshut;
sfd->howtoclose = addrdescs[0]->common_desc.howtoclose;
return 0;
}
static int
xioopen_inter_single(xiofile_t *xfd, int xioflags) {
const struct xioaddr_inter_desc *addrdesc;
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int result;
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addrdesc = &xfd->stream.addrdesc->inter_desc;
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if ((xioflags&XIO_ACCMODE) == XIO_RDONLY) {
xfd->tag = XIO_TAG_RDONLY;
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xfd->stream.fdtype = FDTYPE_SINGLE;
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} else if ((xioflags&XIO_ACCMODE) == XIO_WRONLY) {
xfd->tag = XIO_TAG_WRONLY;
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xfd->stream.fdtype = FDTYPE_SINGLE;
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} else if ((xioflags&XIO_ACCMODE) == XIO_RDWR) {
xfd->tag = XIO_TAG_RDWR;
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if (xfd->stream.fd2 >= 0) {
xfd->stream.fdtype = FDTYPE_DOUBLE;
} else {
xfd->stream.fdtype = FDTYPE_SINGLE;
}
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} else {
Error1("invalid mode for address \"%s\"", xfd->stream.argv[0]);
}
xfd->stream.flags &= (~XIO_ACCMODE);
xfd->stream.flags |= (xioflags & XIO_ACCMODE);
result = (*addrdesc->func)(xfd->stream.argc, xfd->stream.argv,
xfd->stream.opts, xioflags, xfd,
addrdesc->groups, addrdesc->arg1,
addrdesc->arg2, addrdesc->arg3);
return result;
}
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static int
xioopen_endpoint_single(xiofile_t *xfd, int xioflags) {
const struct xioaddr_endpoint_desc *addrdesc;
int result;
addrdesc = &xfd->stream.addrdesc->endpoint_desc;
if ((xioflags&XIO_ACCMODE) == XIO_RDONLY) {
xfd->tag = XIO_TAG_RDONLY;
xfd->stream.fdtype = FDTYPE_SINGLE;
} else if ((xioflags&XIO_ACCMODE) == XIO_WRONLY) {
xfd->tag = XIO_TAG_WRONLY;
xfd->stream.fdtype = FDTYPE_SINGLE;
} else if ((xioflags&XIO_ACCMODE) == XIO_RDWR) {
xfd->tag = XIO_TAG_RDWR;
} else {
Error1("invalid mode for address \"%s\"", xfd->stream.argv[0]);
}
xfd->stream.flags &= (~XIO_ACCMODE);
xfd->stream.flags |= (xioflags & XIO_ACCMODE);
result = (*addrdesc->func)(xfd->stream.argc, xfd->stream.argv,
xfd->stream.opts, xioflags, xfd,
addrdesc->groups, addrdesc->arg1,
addrdesc->arg2, addrdesc->arg3);
return result;
}