/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END * * Copyright 2005 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. * * Copyright (c) 1983, 1984, 1985, 1986, 1987, 1988, 1989 AT&T * All Rights Reserved * * Portions of this source code were derived from Berkeley * 4.3 BSD under license from the Regents of the University of * California. */ #pragma ident "%Z%%M% %I% %E% SMI" #define _SVID_GETTOD #include extern int gettimeofday(struct timeval *); #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "ypsym.h" #include "ypdefs.h" #include "yp_b.h" #include "shim.h" #include "yptol.h" #ifdef DEBUG #undef YPPROG #define YPPROG ((ulong_t)109999) #undef YPBINDPROG #define YPBINDPROG ((ulong_t)109998) #endif #define INTER_TRY 12 /* Seconds between tries */ #define PORTMAP_TIME 30 /* Seconds before decide its down */ #define TIMEOUT INTER_TRY*4 /* Total time for timeout */ #define CUR_PAR 4 /* Total parallal yppushes */ #define MIN_GRACE 25 /* select timeout and minimum grace */ #define GRACE_PERIOD 800 /* Total seconds we'll wait for */ /* responses from ypxfrs, yes */ /* virginia yp map transfers */ /* can take a long time, we */ /* only worry if the slave */ /* crashes ... */ USE_YPDBPATH static char *pusage; static char *domain = NULL; static char *host = NULL; static char my_name[YPMAXPEER +1]; static char default_domain_name[YPMAXDOMAIN]; static char domain_alias[MAXNAMLEN]; /* nickname for domain - */ /* used in sysv filesystems */ static char map_alias[MAXNAMLEN]; /* nickname for map - */ /* used in sysv filesystems */ static char *map = NULL; static bool verbose = FALSE; static bool onehost = FALSE; static bool oldxfr = FALSE; static bool callback_timeout = FALSE; /* set when a callback times out */ int grace_period = GRACE_PERIOD; int curpar = CUR_PAR; /* should be set by other stuff */ static char ypmapname[1024]; /* Used to check for map's existence */ static struct timeval intertry = { INTER_TRY, /* Seconds */ 0 /* Microseconds */ }; static struct timeval timeout = { TIMEOUT, /* Seconds */ 0 /* Microseconds */ }; static SVCXPRT *transport4; static SVCXPRT *transport6; struct server { struct server *pnext; struct dom_binding domb; char svc_name[YPMAXPEER+1]; unsigned long xactid; unsigned short state; unsigned long status; bool oldvers; int start_time; }; #define n_conf dom_binding->ypbind_nconf #define svc_addr dom_binding->ypbind_svcaddr static struct server *server_list = (struct server *)NULL; static struct server *active_list = (struct server *)NULL; /* State values for server.state field */ #define SSTAT_INIT 0 #define SSTAT_CALLED 1 #define SSTAT_RESPONDED 2 #define SSTAT_PROGNOTREG 3 #define SSTAT_RPC 4 #define SSTAT_RSCRC 5 #define SSTAT_SYSTEM 6 static char err_usage[] = "Usage:\n\typpush [-p ] [-d ] [-h ] [-v] map\n"; static char err_bad_args[] = "The %s argument is bad.\n"; static char err_cant_get_kname[] = "Can't get %s from system call.\n"; static char err_null_kname[] = "The %s hasn't been set on this machine.\n"; static char err_bad_domainname[] = "domainname"; static char err_cant_bind[] = "Can't find a yp server for domain %s. Reason: %s.\n"; static char err_cant_build_serverlist[] = "Can't build server list from map \"ypservers\". Reason: %s.\n"; static char err_cant_find_host[] = "Can't find host %s in map \"ypservers\".\n"; /* * State_duple table. All messages should take 1 arg - the node name. */ struct state_duple { int state; char *state_msg; }; static struct state_duple state_duples[] = { {SSTAT_INIT, "Internal error trying to talk to %s."}, {SSTAT_CALLED, "%s has been called."}, {SSTAT_RESPONDED, "%s (v1 ypserv) sent an old-style request."}, {SSTAT_PROGNOTREG, "nis server not registered at %s."}, {SSTAT_RPC, "RPC error to %s: "}, {SSTAT_RSCRC, "Local resource allocation failure - can't talk to %s."}, {SSTAT_SYSTEM, "System error talking to %s: "}, {0, (char *)NULL} }; /* * Status_duple table. No messages should require any args. */ static struct status_duple { long status; char *status_msg; }; static struct status_duple status_duples[] = { {YPPUSH_SUCC, "Map successfully transferred."}, {YPPUSH_AGE, "Transfer not done: master's version isn't newer."}, {YPPUSH_NOMAP, "Failed - ypxfr there can't find a server for map."}, {YPPUSH_NODOM, "Failed - domain isn't supported."}, {YPPUSH_RSRC, "Failed - local resource allocation failure."}, {YPPUSH_RPC, "Failed - ypxfr had an RPC failure"}, {YPPUSH_MADDR, "Failed - ypxfr couldn't get the map master's address."}, {YPPUSH_YPERR, "Failed - nis server or map format error."}, {YPPUSH_BADARGS, "Failed - args to ypxfr were bad."}, {YPPUSH_DBM, "Failed - dbm operation on map failed."}, {YPPUSH_FILE, "Failed - file I/O operation on map failed"}, {YPPUSH_SKEW, "Failed - map version skew during transfer."}, {YPPUSH_CLEAR, "Map successfully transferred, but ypxfr \ couldn't send \"Clear map\" to ypserv "}, {YPPUSH_FORCE, "Failed - no local order number in map - use -f flag to ypxfr."}, {YPPUSH_XFRERR, "Failed - ypxfr internal error."}, {YPPUSH_REFUSED, "Failed - Transfer request refused."}, {YPPUSH_NOALIAS, "Failed - System V domain/map alias not in alias file."}, {0, (char *)NULL} }; /* * rpcerr_duple table */ static struct rpcerr_duple { enum clnt_stat rpc_stat; char *rpc_msg; }; static struct rpcerr_duple rpcerr_duples[] = { {RPC_SUCCESS, "RPC success"}, {RPC_CANTENCODEARGS, "RPC Can't encode args"}, {RPC_CANTDECODERES, "RPC Can't decode results"}, {RPC_CANTSEND, "RPC Can't send"}, {RPC_CANTRECV, "RPC Can't recv"}, {RPC_TIMEDOUT, "NIS server registered, but does not respond"}, {RPC_VERSMISMATCH, "RPC version mismatch"}, {RPC_AUTHERROR, "RPC auth error"}, {RPC_PROGUNAVAIL, "RPC remote program unavailable"}, {RPC_PROGVERSMISMATCH, "RPC program mismatch"}, {RPC_PROCUNAVAIL, "RPC unknown procedure"}, {RPC_CANTDECODEARGS, "RPC Can't decode args"}, {RPC_UNKNOWNHOST, "unknown host"}, {RPC_RPCBFAILURE, "rpcbind failure (host is down?)"}, {RPC_PROGNOTREGISTERED, "RPC prog not registered"}, {RPC_SYSTEMERROR, "RPC system error"}, {RPC_SUCCESS, (char *)NULL} /* Duplicate rpc_stat */ /* unused in list-end */ /* entry */ }; static void get_default_domain_name(void); static void get_command_line_args(int argc, char **argv); static unsigned short send_message(struct server *ps, unsigned long program, long *err); static void make_server_list(void); static void one_host_list(void); static void add_server(char *sname, int namelen); static int generate_callback(unsigned long *program); static void xactid_seed(unsigned long *xactid); static void main_loop(unsigned long program); static void listener_exit(unsigned long program, int stat); static void listener_dispatch(struct svc_req *rqstp, SVCXPRT *transp); static void print_state_msg(struct server *s, long e); static void print_callback_msg(struct server *s); static void rpcerr_msg(enum clnt_stat e); static void get_xfr_response(SVCXPRT *transp); #ifdef SYSVCONFIG extern void sysvconfig(void); #endif extern int yp_getalias(char *key, char *key_alias, int maxlen); extern int getdomainname(char *, int); extern struct rpc_createerr rpc_createerr; extern CLIENT *__yp_clnt_create_rsvdport(); int main(int argc, char **argv) { unsigned long program; struct stat sbuf; get_command_line_args(argc, argv); if (!domain) { get_default_domain_name(); } #ifdef SYSVCONFIG sysvconfig(); #endif if (yp_getalias(domain, domain_alias, NAME_MAX) != 0) fprintf(stderr, "domain alias for %s not found\n", domain); if (yp_getalias(map, map_alias, MAXALIASLEN) != 0) fprintf(stderr, "map alias for %s not found\n", map); /* check to see if the map exists in this domain */ if (is_yptol_mode()) sprintf(ypmapname, "%s/%s/%s%s.dir", ypdbpath, domain_alias, NTOL_PREFIX, map_alias); else sprintf(ypmapname, "%s/%s/%s.dir", ypdbpath, domain_alias, map_alias); if (stat(ypmapname, &sbuf) < 0) { fprintf(stderr, "yppush: Map does not exist.\n"); exit(1); } if (onehost) { one_host_list(); } else { make_server_list(); } /* * All process exits after the call to generate_callback should be * through listener_exit(program, status), not exit(status), so the * transient server can get unregistered with the portmapper. */ if (!generate_callback(&program)) { fprintf(stderr, "Can't set up transient callback server.\n"); } main_loop(program); listener_exit(program, 0); /* NOTREACHED */ return (0); } /* * This does the command line parsing. */ static void get_command_line_args(int argc, char **argv) { pusage = err_usage; argv++; if (argc < 2) { fprintf(stderr, pusage); exit(1); } while (--argc) { if ((*argv)[0] == '-') { switch ((*argv)[1]) { case 'v': verbose = TRUE; argv++; break; case 'd': if (argc > 1) { argv++; argc--; domain = *argv; argv++; if (((int)strlen(domain)) > YPMAXDOMAIN) { fprintf(stderr, err_bad_args, err_bad_domainname); exit(1); } } else { fprintf(stderr, pusage); exit(1); } break; case 'h': if (argc > 1) { onehost = TRUE; argv++; argc--; host = *argv; argv++; } else { fprintf(stderr, pusage); exit(1); } break; case 'p': if (argc > 1) { argv++; argc--; if (sscanf(*argv, "%d", &curpar) != 1) { (void) fprintf(stderr, pusage); exit(1); } argv++; if (curpar < 1) { (void) fprintf(stderr, pusage); exit(1); } } else { (void) fprintf(stderr, pusage); exit(1); } break; default: fprintf(stderr, pusage); exit(1); } } else { if (!map) { map = *argv; } else { fprintf(stderr, pusage); exit(1); } argv++; } } if (!map) { fprintf(stderr, pusage); exit(1); } } /* * This gets the local kernel domainname, and sets the global domain to it. */ static void get_default_domain_name(void) { if (!getdomainname(default_domain_name, YPMAXDOMAIN)) { domain = default_domain_name; } else { fprintf(stderr, err_cant_get_kname, err_bad_domainname); exit(1); } if ((int)strlen(domain) == 0) { fprintf(stderr, err_null_kname, err_bad_domainname); exit(1); } } /* * This verifies that the hostname supplied by the user is in the map * "ypservers" then calls add_server to make it the only entry on the * list of servers. */ static void one_host_list(void) { char *key; int keylen; char *val; int vallen; int err; char *ypservers = "ypservers"; if (verbose) { printf("Verifying YP server: %s\n", host); fflush(stdout); } if (err = yp_bind(domain_alias)) { fprintf(stderr, err_cant_bind, domain, yperr_string(err)); exit(1); } keylen = strlen(host); if (yp_match(domain_alias, ypservers, host, keylen, &val, &vallen)) { fprintf(stderr, err_cant_find_host, host); exit(1); } add_server(host, keylen); } /* * This uses yp operations to retrieve each server name in the map * "ypservers". add_server is called for each one to add it to the list of * servers. */ static void make_server_list(void) { char *key; int keylen; char *outkey; int outkeylen; char *val; int vallen; int err; char *ypservers = "ypservers"; int count; if (verbose) { printf("Finding YP servers: "); fflush(stdout); count = 4; } if (err = yp_bind(domain_alias)) { fprintf(stderr, err_cant_bind, domain, yperr_string(err)); exit(1); } if (err = yp_first(domain_alias, ypservers, &outkey, &outkeylen, &val, &vallen)) { fprintf(stderr, err_cant_build_serverlist, yperr_string(err)); exit(1); } for (;;) { add_server(outkey, outkeylen); if (verbose) { printf(" %s", outkey); fflush(stdout); if (count++ == 8) { printf("\n"); count = 0; } } free(val); key = outkey; keylen = outkeylen; if (err = yp_next(domain_alias, ypservers, key, keylen, &outkey, &outkeylen, &val, &vallen)) { if (err == YPERR_NOMORE) { break; } else { fprintf(stderr, err_cant_build_serverlist, yperr_string(err)); exit(1); } } free(key); } if (count != 0) { if (verbose) printf("\n"); } } /* * This adds a single server to the server list. */ static void add_server(char *sname, int namelen) { struct server *ps; static unsigned long seq; static unsigned long xactid = 0; if (strcmp(sname, my_name) == 0) return; if (xactid == 0) { xactid_seed(&xactid); } if ((ps = (struct server *)malloc((unsigned)sizeof (struct server))) == (struct server *)NULL) { perror("yppush: malloc failure"); exit(1); } sname[namelen] = '\0'; strcpy(ps->svc_name, sname); ps->state = SSTAT_INIT; ps->status = 0; ps->oldvers = FALSE; ps->xactid = xactid + seq++; ps->pnext = server_list; server_list = ps; } /* * This sets the base range for the transaction ids used in speaking the the * server ypxfr processes. */ static void xactid_seed(unsigned long *xactid) { struct timeval t; if (gettimeofday(&t) == -1) { perror("yppush gettimeofday failure"); *xactid = 1234567; } else { *xactid = t.tv_sec; } } /* * This generates the channel which will be used as the listener process' * service rendezvous point, and comes up with a transient program number * for the use of the RPC messages from the ypxfr processes. */ static int generate_callback(unsigned long *program) { unsigned long prognum = 0x40000000, maxprognum; union { unsigned long p; unsigned char b[sizeof (unsigned long)]; } u; int ret, i; struct netconfig *nc4, *nc6, *nc; SVCXPRT *trans; nc4 = getnetconfigent("udp"); nc6 = getnetconfigent("udp6"); if (nc4 == 0 && nc6 == 0) { fprintf(stderr, "yppush: Could not get udp or udp6 netconfig entry\n"); exit(1); } transport4 = (nc4 == 0) ? 0 : svc_tli_create(RPC_ANYFD, nc4, 0, 0, 0); transport6 = (nc6 == 0) ? 0 : svc_tli_create(RPC_ANYFD, nc6, 0, 0, 0); if (transport4 == 0 && transport6 == 0) { fprintf(stderr, "yppush: Could not create server handle(s)\n"); exit(1); } /* Find the maximum possible program number using an unsigned long */ for (i = 0; i < sizeof (u.b); i++) u.b[i] = 0xff; maxprognum = u.p; if (transport4 != 0) { trans = transport4; nc = nc4; } else { trans = transport6; nc = nc6; } while (prognum < maxprognum && (ret = rpcb_set(prognum, YPPUSHVERS, nc, &trans->xp_ltaddr)) == 0) prognum++; if (ret == 0) { fprintf(stderr, "yppush: Could not create callback service\n"); exit(1); } else { if (trans == transport4 && transport6 != 0) { ret = rpcb_set(prognum, YPPUSHVERS, nc6, &transport6->xp_ltaddr); if (ret == 0) { fprintf(stderr, "yppush: Could not create udp6 callback service\n"); exit(1); } } *program = prognum; } return (ret); } /* * This is the main loop. Send messages to each server, * and then wait for a response. */ add_to_active() { struct server *ps; ps = server_list; if (ps == NULL) return (0); server_list = server_list->pnext; /* delete from server_list */ ps->pnext = active_list; active_list = ps; return (1); } delete_active(in) struct server *in; { struct server *p; struct server *n; if (in == active_list) { active_list = active_list->pnext; return (1); } p = active_list; for (n = active_list; n; n = n->pnext) { if (in == n) { p->pnext = n->pnext; return (0); } p = n; } return (-1); } void main_loop(program) unsigned long program; { pollfd_t *pollset = NULL; int npollfds = 0; int pollret; struct server *ps; long error; int hpar; /* this times par count */ int i; int j; int time_now; int docb; int actives = 0; int dead = 0; if (grace_period < MIN_GRACE) grace_period = MIN_GRACE; if (transport4 != 0) { if (!svc_reg(transport4, program, YPPUSHVERS, listener_dispatch, 0)) { fprintf(stderr, "Can't set up transient udp callback server.\n"); } } if (transport6 != 0) { if (!svc_reg(transport6, program, YPPUSHVERS, listener_dispatch, 0)) { fprintf(stderr, "Can't set up transient udp6 callback server.\n"); } } for (;;) { time_now = time(0); if (server_list == NULL) { actives = 0; dead = 0; for (ps = active_list; ps; ps = ps->pnext) if (ps->state == SSTAT_CALLED) { if ((time_now - ps->start_time) < grace_period) actives++; else dead++; } if (actives == 0) { if (verbose) { printf("terminating %d dead\n", dead); fflush(stdout); } for (ps = active_list; ps; ps = ps->pnext) if (ps->state == SSTAT_CALLED) { if ((time_now - ps->start_time) >= grace_period) { if (verbose) { printf( "no response from %s -- grace of %d seconds expired.\n", ps->svc_name, grace_period); fflush(stdout); } fprintf(stderr, "No response from ypxfr on %s\n", ps->svc_name); } } break; } } actives = 0; for (ps = active_list; ps; ps = ps->pnext) { if (ps->state == SSTAT_CALLED) { if ((time_now - ps->start_time) < grace_period) { actives++; if (verbose) { printf( "No response yet from ypxfr on %s\n", ps->svc_name); fflush(stdout); } } } else { if (verbose) { printf("Deactivating %s\n", ps->svc_name); fflush(stdout); } delete_active(ps); } } /* add someone to the active list keep up with curpar */ for (i = 0; i < (curpar - actives); i++) { if (add_to_active()) { ps = active_list; ps->state = send_message(ps, program, &error); print_state_msg(ps, error); if (ps->state != SSTAT_CALLED) delete_active(ps); /* zorch it */ else ps->start_time = time(0); /* set time */ } } docb = 0; for (ps = active_list; ps; ps = ps->pnext) if (ps->state == SSTAT_CALLED) { docb = 1; break; } if (docb == 0) { if (verbose) { printf("No one to wait for this pass.\n"); fflush(stdout); } continue; /* try curpar more */ } if (npollfds != svc_max_pollfd) { pollset = realloc(pollset, sizeof (pollfd_t) * svc_max_pollfd); npollfds = svc_max_pollfd; } /* * Get existing array of pollfd's, should really compress * this but it shouldn't get very large (or sparse). */ (void) memcpy(pollset, svc_pollfd, sizeof (pollfd_t) * svc_max_pollfd); errno = 0; switch (pollret = poll(pollset, npollfds, MIN_GRACE * 1000)) { case -1: if (errno != EINTR) { (void) perror("main loop select"); } break; case 0: if (verbose) { (void) printf("timeout in main loop select.\n"); fflush(stdout); } break; default: svc_getreq_poll(pollset, pollret); break; } /* switch */ } /* for */ } /* * This does the listener process cleanup and process exit. */ static void listener_exit(unsigned long program, int stat) { svc_unreg(program, YPPUSHVERS); exit(stat); } /* * This is the listener process' RPC service dispatcher. */ static void listener_dispatch(struct svc_req *rqstp, SVCXPRT *transp) { switch (rqstp->rq_proc) { case YPPUSHPROC_NULL: if (!svc_sendreply(transp, xdr_void, 0)) { fprintf(stderr, "Can't reply to rpc call.\n"); } break; case YPPUSHPROC_XFRRESP: get_xfr_response(transp); break; default: svcerr_noproc(transp); break; } } /* * This dumps a server state message to stdout. It is called in cases where * we have no expectation of receiving a callback from the remote ypxfr. */ static void print_state_msg(struct server *s, long e) { struct state_duple *sd; if (s->state == SSTAT_SYSTEM) return; /* already printed */ if (!verbose && (s->state == SSTAT_RESPONDED || s->state == SSTAT_CALLED)) return; for (sd = state_duples; sd->state_msg; sd++) { if (sd->state == s->state) { printf(sd->state_msg, s->svc_name); if (s->state == SSTAT_RPC) { rpcerr_msg((enum clnt_stat) e); } printf("\n"); fflush(stdout); return; } } fprintf(stderr, "yppush: Bad server state value %d.\n", s->state); } /* * This dumps a transfer status message to stdout. It is called in * response to a received RPC message from the called ypxfr. */ static void print_callback_msg(struct server *s) { register struct status_duple *sd; if (!verbose && (s->status == YPPUSH_AGE) || (s->status == YPPUSH_SUCC)) return; for (sd = status_duples; sd->status_msg; sd++) { if (sd->status == s->status) { printf("Status received from ypxfr on %s:\n\t%s\n", s->svc_name, sd->status_msg); fflush(stdout); return; } } fprintf(stderr, "yppush listener: Garbage transaction " "status (value %d) from ypxfr on %s.\n", (int)s->status, s->svc_name); } /* * This dumps an RPC error message to stdout. This is basically a rewrite * of clnt_perrno, but writes to stdout instead of stderr. */ static void rpcerr_msg(enum clnt_stat e) { struct rpcerr_duple *rd; for (rd = rpcerr_duples; rd->rpc_msg; rd++) { if (rd->rpc_stat == e) { printf(rd->rpc_msg); return; } } fprintf(stderr, "Bad error code passed to rpcerr_msg: %d.\n", e); } /* * This picks up the response from the ypxfr process which has been started * up on the remote node. The response status must be non-zero, otherwise * the status will be set to "ypxfr error". */ static void get_xfr_response(SVCXPRT *transp) { struct yppushresp_xfr resp; register struct server *s; if (!svc_getargs(transp, (xdrproc_t)xdr_yppushresp_xfr, (caddr_t)&resp)) { svcerr_decode(transp); return; } if (!svc_sendreply(transp, xdr_void, 0)) { (void) fprintf(stderr, "Can't reply to rpc call.\n"); } for (s = active_list; s; s = s->pnext) { if (s->xactid == resp.transid) { s->status = resp.status ? resp.status: YPPUSH_XFRERR; print_callback_msg(s); s->state = SSTAT_RESPONDED; return; } } } /* * This sends a message to a single ypserv process. The return value is * a state value. If the RPC call fails because of a version * mismatch, we'll assume that we're talking to a version 1 ypserv process, * and will send him an old "YPPROC_GET" request, as was defined in the * earlier version of yp_prot.h */ static unsigned short send_message(struct server *ps, unsigned long program, long *err) { struct ypreq_newxfr req; struct ypreq_xfr oldreq; enum clnt_stat s; struct rpc_err rpcerr; if ((ps->domb.dom_client = __yp_clnt_create_rsvdport(ps->svc_name, YPPROG, YPVERS, (char *)NULL, 0, 0)) == NULL) { if (rpc_createerr.cf_stat == RPC_PROGNOTREGISTERED) { return (SSTAT_PROGNOTREG); } else { printf("Error talking to %s: ", ps->svc_name); rpcerr_msg(rpc_createerr.cf_stat); printf("\n"); fflush(stdout); return (SSTAT_SYSTEM); } } if (sysinfo(SI_HOSTNAME, my_name, sizeof (my_name)) == -1) { return (SSTAT_RSCRC); } if (!oldxfr) { req.ypxfr_domain = domain; req.ypxfr_map = map; req.ypxfr_ordernum = 0; req.ypxfr_owner = my_name; req.name = ps->svc_name; /* * the creation of field req.name, instead of ypreq_xfr (old) * req.port, does not make any sense. it doesn't give any * information to receiving ypserv except its own name !! * new ypserv duplicates work for YPPROC_XFR and YPPROC_NEWXFR */ req.transid = ps->xactid; req.proto = program; s = (enum clnt_stat) clnt_call(ps->domb.dom_client, YPPROC_NEWXFR, (xdrproc_t)xdr_ypreq_newxfr, (caddr_t)&req, xdr_void, 0, timeout); } clnt_geterr(ps->domb.dom_client, &rpcerr); if (s == RPC_PROCUNAVAIL) { oldreq.ypxfr_domain = domain; oldreq.ypxfr_map = map; oldreq.ypxfr_ordernum = 0; oldreq.ypxfr_owner = my_name; oldreq.transid = ps->xactid; oldreq.proto = program; oldreq.port = 0; s = (enum clnt_stat) clnt_call(ps->domb.dom_client, YPPROC_XFR, (xdrproc_t)xdr_ypreq_xfr, (caddr_t)&oldreq, xdr_void, 0, timeout); clnt_geterr(ps->domb.dom_client, &rpcerr); } clnt_destroy(ps->domb.dom_client); if (s == RPC_SUCCESS) { return (SSTAT_CALLED); } else { *err = (long)rpcerr.re_status; return (SSTAT_RPC); } /*NOTREACHED*/ } /* * FUNCTION: is_yptol_mode(); * * DESCRIPTION: Determines if we should run in N2L or traditional mode based * on the presence of the N2L mapping file. * * This is a copy of a function from libnisdb. If more than this * one function become required it may be worth linking the * entire lib. * * INPUTS: Nothing * * OUTPUTS: TRUE = Run in N2L mode * FALSE = Run in traditional mode. */ bool_t is_yptol_mode() { struct stat filestat; if (stat(NTOL_MAP_FILE, &filestat) != -1) return (TRUE); return (FALSE); }