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416 lines
13 KiB
C
416 lines
13 KiB
C
/* source: xio-listen.c */
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/* Copyright Gerhard Rieger and contributors (see file CHANGES) */
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/* Published under the GNU General Public License V.2, see file COPYING */
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/* this file contains the source for listen socket options */
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#include "xiosysincludes.h"
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#if WITH_LISTEN
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#include "xioopen.h"
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#include "xio-named.h"
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#include "xio-socket.h"
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#include "xio-ip.h"
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#include "xio-ip4.h"
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#include "xio-listen.h"
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#include "xio-tcpwrap.h"
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/***** LISTEN options *****/
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const struct optdesc opt_backlog = { "backlog", NULL, OPT_BACKLOG, GROUP_LISTEN, PH_LISTEN, TYPE_INT, OFUNC_SPEC };
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const struct optdesc opt_fork = { "fork", NULL, OPT_FORK, GROUP_CHILD, PH_PASTACCEPT, TYPE_BOOL, OFUNC_SPEC };
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const struct optdesc opt_max_children = { "max-children", NULL, OPT_MAX_CHILDREN, GROUP_CHILD, PH_PASTACCEPT, TYPE_INT, OFUNC_SPEC };
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/**/
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#if (WITH_UDP || WITH_TCP)
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const struct optdesc opt_range = { "range", NULL, OPT_RANGE, GROUP_RANGE, PH_ACCEPT, TYPE_STRING, OFUNC_SPEC };
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#endif
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const struct optdesc opt_accept_timeout = { "accept-timeout", "listen-timeout", OPT_ACCEPT_TIMEOUT, GROUP_LISTEN, PH_LISTEN, TYPE_TIMEVAL, OFUNC_OFFSET, XIO_OFFSETOF(para.socket.accept_timeout) };
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/*
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applies and consumes the following option:
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PH_INIT, PH_PASTSOCKET, PH_PREBIND, PH_BIND, PH_PASTBIND, PH_EARLY,
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PH_PREOPEN, PH_FD, PH_CONNECTED, PH_LATE, PH_LATE2
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OPT_FORK, OPT_SO_TYPE, OPT_SO_PROTOTYPE, OPT_BACKLOG, OPT_RANGE, tcpwrap,
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OPT_SOURCEPORT, OPT_LOWPORT, cloexec
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*/
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int
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xioopen_listen(struct single *xfd, int xioflags,
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struct sockaddr *us, socklen_t uslen,
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struct opt *opts, struct opt *opts0,
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int pf, int socktype, int proto) {
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int level;
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int result;
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#if WITH_RETRY
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if (xfd->forever || xfd->retry) {
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level = E_INFO;
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} else
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#endif /* WITH_RETRY */
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level = E_ERROR;
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while (true) { /* loop over failed attempts */
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/* tcp listen; this can fork() for us; it only returns on error or on
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successful establishment of tcp connection */
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result = _xioopen_listen(xfd, xioflags,
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(struct sockaddr *)us, uslen,
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opts, pf, socktype, proto, level);
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/*! not sure if we should try again on retry/forever */
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switch (result) {
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case STAT_OK: break;
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#if WITH_RETRY
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case STAT_RETRYLATER:
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case STAT_RETRYNOW:
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if (xfd->forever || xfd->retry) {
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dropopts(opts, PH_ALL); opts = copyopts(opts0, GROUP_ALL);
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if (result == STAT_RETRYLATER) {
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Nanosleep(&xfd->intervall, NULL);
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}
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dropopts(opts, PH_ALL); opts = copyopts(opts0, GROUP_ALL);
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--xfd->retry;
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continue;
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}
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return STAT_NORETRY;
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#endif /* WITH_RETRY */
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default:
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return result;
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}
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break;
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} /* drop out on success */
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return result;
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}
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/* creates the listening socket, bind, applies options; waits for incoming
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connection, checks its source address and port. Depending on fork option, it
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may fork a subprocess.
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pf specifies the syntax expected for range option. In the case of generic
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socket it is 0 (expecting raw binary data), and the real pf can be obtained
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from us->af_family; for other socket types pf == us->af_family
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Returns 0 if a connection was accepted; with fork option, this is always in
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a subprocess!
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Other return values indicate a problem; this can happen in the master
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process or in a subprocess.
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This function does not retry. If you need retries, handle this in a
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loop in the calling function (and always provide the options...)
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After fork, we set the forever/retry of the child process to 0
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applies and consumes the following option:
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PH_INIT, PH_PASTSOCKET, PH_PREBIND, PH_BIND, PH_PASTBIND, PH_EARLY,
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PH_PREOPEN, PH_FD, PH_CONNECTED, PH_LATE, PH_LATE2
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OPT_FORK, OPT_SO_TYPE, OPT_SO_PROTOTYPE, OPT_BACKLOG, OPT_RANGE, tcpwrap,
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OPT_SOURCEPORT, OPT_LOWPORT, cloexec
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*/
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int _xioopen_listen(struct single *xfd, int xioflags, struct sockaddr *us, socklen_t uslen,
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struct opt *opts, int pf, int socktype, int proto, int level) {
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struct sockaddr sa;
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socklen_t salen;
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int backlog = 5; /* why? 1 seems to cause problems under some load */
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char *rangename;
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bool dofork = false;
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int maxchildren = 0;
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char infobuff[256];
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char lisname[256];
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union sockaddr_union _peername;
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union sockaddr_union _sockname;
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union sockaddr_union *pa = &_peername; /* peer address */
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union sockaddr_union *la = &_sockname; /* local address */
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socklen_t pas = sizeof(_peername); /* peer address size */
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socklen_t las = sizeof(_sockname); /* local address size */
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int result;
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retropt_bool(opts, OPT_FORK, &dofork);
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if (dofork) {
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if (!(xioflags & XIO_MAYFORK)) {
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Error("option fork not allowed here");
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return STAT_NORETRY;
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}
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xfd->flags |= XIO_DOESFORK;
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}
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retropt_int(opts, OPT_MAX_CHILDREN, &maxchildren);
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if (! dofork && maxchildren) {
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Error("option max-children not allowed without option fork");
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return STAT_NORETRY;
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}
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if (applyopts_single(xfd, opts, PH_INIT) < 0) return -1;
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if (dofork) {
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xiosetchilddied(); /* set SIGCHLD handler */
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}
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if ((xfd->fd = xiosocket(opts, us->sa_family, socktype, proto, level)) < 0) {
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return STAT_RETRYLATER;
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}
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applyopts(xfd->fd, opts, PH_PASTSOCKET);
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applyopts_offset(xfd, opts);
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applyopts_cloexec(xfd->fd, opts);
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applyopts(xfd->fd, opts, PH_PREBIND);
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applyopts(xfd->fd, opts, PH_BIND);
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if (Bind(xfd->fd, (struct sockaddr *)us, uslen) < 0) {
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Msg4(level, "bind(%d, {%s}, "F_socklen"): %s", xfd->fd,
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sockaddr_info(us, uslen, infobuff, sizeof(infobuff)), uslen,
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strerror(errno));
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Close(xfd->fd);
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return STAT_RETRYLATER;
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}
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#if WITH_UNIX
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if (us->sa_family == AF_UNIX) {
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if (((union sockaddr_union *)us)->un.sun_path[0] != '\0') {
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applyopts_named(((struct sockaddr_un *)us)->sun_path, opts, PH_FD);
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} else {
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applyopts(xfd->fd, opts, PH_FD);
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}
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}
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#endif
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/* under some circumstances (e.g., TCP listen on port 0) bind() fills empty
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fields that we want to know. */
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salen = sizeof(sa);
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if (Getsockname(xfd->fd, us, &uslen) < 0) {
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Warn4("getsockname(%d, %p, {%d}): %s",
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xfd->fd, &us, uslen, strerror(errno));
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}
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applyopts(xfd->fd, opts, PH_PASTBIND);
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#if WITH_UNIX
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if (us->sa_family == AF_UNIX) {
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if (((union sockaddr_union *)us)->un.sun_path[0] != '\0') {
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/*applyopts_early(((struct sockaddr_un *)us)->sun_path, opts);*/
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applyopts_named(((struct sockaddr_un *)us)->sun_path, opts, PH_EARLY);
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applyopts_named(((struct sockaddr_un *)us)->sun_path, opts, PH_PREOPEN);
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} else {
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applyopts(xfd->fd, opts, PH_EARLY);
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applyopts(xfd->fd, opts, PH_PREOPEN);
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}
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}
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#endif /* WITH_UNIX */
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#if WITH_IP4 /*|| WITH_IP6*/
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if (retropt_string(opts, OPT_RANGE, &rangename) >= 0) {
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if (xioparserange(rangename, pf, &xfd->para.socket.range)
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< 0) {
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free(rangename);
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return STAT_NORETRY;
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}
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free(rangename);
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xfd->para.socket.dorange = true;
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}
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#endif
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#if (WITH_TCP || WITH_UDP) && WITH_LIBWRAP
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xio_retropt_tcpwrap(xfd, opts);
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#endif /* && (WITH_TCP || WITH_UDP) && WITH_LIBWRAP */
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#if WITH_TCP || WITH_UDP
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if (retropt_ushort(opts, OPT_SOURCEPORT, &xfd->para.socket.ip.sourceport) >= 0) {
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xfd->para.socket.ip.dosourceport = true;
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}
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retropt_bool(opts, OPT_LOWPORT, &xfd->para.socket.ip.lowport);
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#endif /* WITH_TCP || WITH_UDP */
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applyopts(xfd->fd, opts, PH_PRELISTEN);
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retropt_int(opts, OPT_BACKLOG, &backlog);
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applyopts(xfd->fd, opts, PH_LISTEN);
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if (Listen(xfd->fd, backlog) < 0) {
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Error3("listen(%d, %d): %s", xfd->fd, backlog, strerror(errno));
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return STAT_RETRYLATER;
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}
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if (xioopts.logopt == 'm') {
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Info("starting accept loop, switching to syslog");
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diag_set('y', xioopts.syslogfac); xioopts.logopt = 'y';
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} else {
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Info("starting accept loop");
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}
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while (true) { /* but we only loop if fork option is set */
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char peername[256];
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char sockname[256];
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int ps; /* peer socket */
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pa = &_peername;
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la = &_sockname;
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salen = sizeof(struct sockaddr);
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do {
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/*? int level = E_ERROR;*/
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Notice1("listening on %s", sockaddr_info(us, uslen, lisname, sizeof(lisname)));
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if (xfd->para.socket.accept_timeout.tv_sec > 0 ||
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xfd->para.socket.accept_timeout.tv_usec > 0) {
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fd_set rfd;
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struct timeval tmo;
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FD_ZERO(&rfd);
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FD_SET(xfd->fd, &rfd);
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tmo.tv_sec = xfd->para.socket.accept_timeout.tv_sec;
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tmo.tv_usec = xfd->para.socket.accept_timeout.tv_usec;
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while (1) {
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if (Select(xfd->fd+1, &rfd, NULL, NULL, &tmo) < 0) {
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if (errno != EINTR) {
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Error5("Select(%d, &0x%lx, NULL, NULL, {%ld.%06ld}): %s", xfd->fd+1, 1L<<(xfd->fd+1),
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xfd->para.socket.accept_timeout.tv_sec, xfd->para.socket.accept_timeout.tv_usec,
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strerror(errno));
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}
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} else {
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break;
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}
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}
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if (!FD_ISSET(xfd->fd, &rfd)) {
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struct sigaction act;
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Warn1("accept: %s", strerror(ETIMEDOUT));
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Close(xfd->fd);
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Notice("Waiting for child processes to terminate");
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memset(&act, 0, sizeof(struct sigaction));
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act.sa_flags = SA_NOCLDSTOP/*|SA_RESTART*/
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#ifdef SA_SIGINFO /* not on Linux 2.0(.33) */
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|SA_SIGINFO
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#endif
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#ifdef SA_NOMASK
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|SA_NOMASK
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#endif
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;
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#if HAVE_STRUCT_SIGACTION_SA_SIGACTION && defined(SA_SIGINFO)
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act.sa_sigaction = 0;
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#else /* Linux 2.0(.33) does not have sigaction.sa_sigaction */
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act.sa_handler = 0;
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#endif
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sigemptyset(&act.sa_mask);
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Sigaction(SIGCHLD, &act, NULL);
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wait(NULL);
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Exit(0);
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}
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}
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ps = Accept(xfd->fd, (struct sockaddr *)&sa, &salen);
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if (ps >= 0) {
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/*0 Info4("accept(%d, %p, {"F_Zu"}) -> %d", xfd->fd, &sa, salen, ps);*/
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break; /* success, break out of loop */
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}
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if (errno == EINTR) {
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continue;
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}
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if (errno == ECONNABORTED) {
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Notice4("accept(%d, %p, {"F_socklen"}): %s",
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xfd->fd, &sa, salen, strerror(errno));
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continue;
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}
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Msg4(level, "accept(%d, %p, {"F_socklen"}): %s",
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xfd->fd, &sa, salen, strerror(errno));
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Close(xfd->fd);
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return STAT_RETRYLATER;
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} while (true);
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applyopts_cloexec(ps, opts);
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if (Getpeername(ps, &pa->soa, &pas) < 0) {
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Warn4("getpeername(%d, %p, {"F_socklen"}): %s",
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ps, pa, pas, strerror(errno));
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pa = NULL;
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}
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if (Getsockname(ps, &la->soa, &las) < 0) {
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Warn4("getsockname(%d, %p, {"F_socklen"}): %s",
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ps, la, las, strerror(errno));
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la = NULL;
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}
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Notice2("accepting connection from %s on %s",
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pa?
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sockaddr_info(&pa->soa, pas, peername, sizeof(peername)):"NULL",
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la?
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sockaddr_info(&la->soa, las, sockname, sizeof(sockname)):"NULL");
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if (pa != NULL && la != NULL && xiocheckpeer(xfd, pa, la) < 0) {
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if (Shutdown(ps, 2) < 0) {
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Info2("shutdown(%d, 2): %s", ps, strerror(errno));
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}
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Close(ps);
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continue;
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}
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if (pa != NULL)
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Info1("permitting connection from %s",
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sockaddr_info((struct sockaddr *)pa, pas,
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infobuff, sizeof(infobuff)));
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if (dofork) {
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pid_t pid; /* mostly int; only used with fork */
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sigset_t mask_sigchld;
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/* we must prevent that the current packet triggers another fork;
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therefore we wait for a signal from the recent child: USR1
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indicates that is has consumed the last packet; CHLD means it has
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terminated */
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/* block SIGCHLD and SIGUSR1 until parent is ready to react */
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sigemptyset(&mask_sigchld);
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sigaddset(&mask_sigchld, SIGCHLD);
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Sigprocmask(SIG_BLOCK, &mask_sigchld, NULL);
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if ((pid = xio_fork(false, level==E_ERROR?level:E_WARN)) < 0) {
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Close(xfd->fd);
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Sigprocmask(SIG_UNBLOCK, &mask_sigchld, NULL);
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return STAT_RETRYLATER;
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}
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if (pid == 0) { /* child */
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pid_t cpid = Getpid();
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Sigprocmask(SIG_UNBLOCK, &mask_sigchld, NULL);
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Info1("just born: child process "F_pid, cpid);
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xiosetenvulong("PID", cpid, 1);
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if (Close(xfd->fd) < 0) {
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Info2("close(%d): %s", xfd->fd, strerror(errno));
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}
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xfd->fd = ps;
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#if WITH_RETRY
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/* !? */
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xfd->forever = false; xfd->retry = 0;
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level = E_ERROR;
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#endif /* WITH_RETRY */
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break;
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}
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/* server: continue loop with listen */
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/* shutdown() closes the socket even for the child process, but
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close() does what we want */
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if (Close(ps) < 0) {
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Info2("close(%d): %s", ps, strerror(errno));
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}
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/* now we are ready to handle signals */
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Sigprocmask(SIG_UNBLOCK, &mask_sigchld, NULL);
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while (maxchildren) {
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if (num_child < maxchildren) break;
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Notice("maxchildren are active, waiting");
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/* UINT_MAX would even be nicer, but Openindiana works only
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with 31 bits */
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while (!Sleep(INT_MAX)) ; /* any signal lets us continue */
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}
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Info("still listening");
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} else {
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if (Close(xfd->fd) < 0) {
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Info2("close(%d): %s", xfd->fd, strerror(errno));
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}
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xfd->fd = ps;
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break;
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}
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}
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applyopts(xfd->fd, opts, PH_FD);
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applyopts(xfd->fd, opts, PH_PASTSOCKET);
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applyopts(xfd->fd, opts, PH_CONNECTED);
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if ((result = _xio_openlate(xfd, opts)) < 0)
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return result;
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/* set the env vars describing the local and remote sockets */
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if (la != NULL) xiosetsockaddrenv("SOCK", la, las, proto);
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if (pa != NULL) xiosetsockaddrenv("PEER", pa, pas, proto);
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return 0;
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}
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#endif /* WITH_LISTEN */
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