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[/] [openrisc/] [trunk/] [rtos/] [rtems/] [c/] [src/] [librpc/] [src/] [rpc/] [auth_time.c] - Rev 486
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#pragma ident "@(#)auth_time.c 1.4 92/11/10 SMI" /* * auth_time.c * * This module contains the private function __rpc_get_time_offset() * which will return the difference in seconds between the local system's * notion of time and a remote server's notion of time. This must be * possible without calling any functions that may invoke the name * service. (netdir_getbyxxx, getXbyY, etc). The function is used in the * synchronize call of the authdes code to synchronize clocks between * NIS+ clients and their servers. * * Note to minimize the amount of duplicate code, portions of the * synchronize() function were folded into this code, and the synchronize * call becomes simply a wrapper around this function. Further, if this * function is called with a timehost it *DOES* recurse to the name * server so don't use it in that mode if you are doing name service code. * * Copyright (c) 1992 Sun Microsystems Inc. * All rights reserved. * * Side effects : * When called a client handle to a RPCBIND process is created * and destroyed. Two strings "netid" and "uaddr" are malloc'd * and returned. The SIGALRM processing is modified only if * needed to deal with TCP connections. * * NOTE: This code has had the crap beaten out it in order to convert * it from TI-RPC back to TD-RPC for use on FreeBSD. * * $FreeBSD: src/lib/libc/rpc/auth_time.c,v 1.4 2000/01/27 23:06:35 jasone Exp $ */ #include <stdio.h> #include <syslog.h> #include <string.h> #include <stdlib.h> #include <unistd.h> #include <netdb.h> #include <sys/signal.h> #include <sys/errno.h> #include <sys/socket.h> #include <netinet/in.h> #include <arpa/inet.h> #include <rpc/rpc.h> #include <rpc/rpc_com.h> #undef NIS #include <rpcsvc/nis.h> /* * FreeBSD currently uses RPC 4.0, which uses portmap rather than * rpcbind. Consequently, we need to fake up these values here. * Luckily, the RPCB_GETTIME procedure uses only base XDR data types * so we don't need anything besides these magic numbers. */ #define RPCBPROG (u_long)100000 #define RPCBVERS (u_long)3 #define RPCBPROC_GETTIME (u_long)6 #ifdef TESTING #define msg(x) printf("ERROR: %s\n", x) /* #define msg(x) syslog(LOG_ERR, "%s", x) */ #else #define msg(x) #endif static int saw_alarm = 0; static void alarm_hndler(s) int s; { saw_alarm = 1; return; } /* * The internet time server defines the epoch to be Jan 1, 1900 * whereas UNIX defines it to be Jan 1, 1970. To adjust the result * from internet time-service time, into UNIX time we subtract the * following offset : */ #define NYEARS (1970 - 1900) #define TOFFSET ((u_long)60*60*24*(365*NYEARS + (NYEARS/4))) /* * Stolen from rpc.nisd: * Turn a 'universal address' into a struct sockaddr_in. * Bletch. */ static int uaddr_to_sockaddr(uaddr, sin) #ifdef foo endpoint *endpt; #endif char *uaddr; struct sockaddr_in *sin; { unsigned char p_bytes[2]; int i; unsigned long a[6]; i = sscanf(uaddr, "%lu.%lu.%lu.%lu.%lu.%lu", &a[0], &a[1], &a[2], &a[3], &a[4], &a[5]); if (i < 6) return(1); for (i = 0; i < 4; i++) sin->sin_addr.s_addr |= (a[i] & 0x000000FF) << (8 * i); p_bytes[0] = (unsigned char)a[4] & 0x000000FF; p_bytes[1] = (unsigned char)a[5] & 0x000000FF; sin->sin_family = AF_INET; /* always */ bcopy((char *)&p_bytes, (char *)&sin->sin_port, 2); return (0); } /* * free_eps() * * Free the strings that were strduped into the eps structure. */ static void free_eps(eps, num) endpoint eps[]; int num; { int i; for (i = 0; i < num; i++) { free(eps[i].uaddr); free(eps[i].proto); free(eps[i].family); } return; } /* * get_server() * * This function constructs a nis_server structure description for the * indicated hostname. * * NOTE: There is a chance we may end up recursing here due to the * fact that gethostbyname() could do an NIS search. Ideally, the * NIS+ server will call __rpc_get_time_offset() with the nis_server * structure already populated. */ static nis_server * get_server(sin, host, srv, eps, maxep) struct sockaddr_in *sin; char *host; /* name of the time host */ nis_server *srv; /* nis_server struct to use. */ endpoint eps[]; /* array of endpoints */ int maxep; /* max array size */ { char hname[256]; int num_ep = 0, i; struct hostent *he; struct hostent dummy; char *ptr[2]; if (host == NULL && sin == NULL) return (NULL); if (sin == NULL) { he = gethostbyname(host); if (he == NULL) return(NULL); } else { he = &dummy; ptr[0] = (char *)&sin->sin_addr.s_addr; ptr[1] = NULL; dummy.h_addr_list = ptr; } /* * This is lame. We go around once for TCP, then again * for UDP. */ for (i = 0; (he->h_addr_list[i] != NULL) && (num_ep < maxep); i++, num_ep++) { struct in_addr *a; a = (struct in_addr *)he->h_addr_list[i]; snprintf(hname, sizeof(hname), "%s.0.111", inet_ntoa(*a)); eps[num_ep].uaddr = strdup(hname); eps[num_ep].family = strdup("inet"); eps[num_ep].proto = strdup("tcp"); } for (i = 0; (he->h_addr_list[i] != NULL) && (num_ep < maxep); i++, num_ep++) { struct in_addr *a; a = (struct in_addr *)he->h_addr_list[i]; snprintf(hname, sizeof(hname), "%s.0.111", inet_ntoa(*a)); eps[num_ep].uaddr = strdup(hname); eps[num_ep].family = strdup("inet"); eps[num_ep].proto = strdup("udp"); } srv->name = (nis_name) host; srv->ep.ep_len = num_ep; srv->ep.ep_val = eps; srv->key_type = NIS_PK_NONE; srv->pkey.n_bytes = NULL; srv->pkey.n_len = 0; return (srv); } /* * __rpc_get_time_offset() * * This function uses a nis_server structure to contact the a remote * machine (as named in that structure) and returns the offset in time * between that machine and this one. This offset is returned in seconds * and may be positive or negative. * * The first time through, a lot of fiddling is done with the netconfig * stuff to find a suitable transport. The function is very aggressive * about choosing UDP or at worst TCP if it can. This is because * those transports support both the RCPBIND call and the internet * time service. * * Once through, *uaddr is set to the universal address of * the machine and *netid is set to the local netid for the transport * that uaddr goes with. On the second call, the netconfig stuff * is skipped and the uaddr/netid pair are used to fetch the netconfig * structure and to then contact the machine for the time. * * td = "server" - "client" */ int __rpc_get_time_offset(td, srv, thost, uaddr, netid) struct timeval *td; /* Time difference */ nis_server *srv; /* NIS Server description */ char *thost; /* if no server, this is the timehost */ char **uaddr; /* known universal address */ struct sockaddr_in *netid; /* known network identifier */ { CLIENT *clnt; /* Client handle */ endpoint *ep, /* useful endpoints */ *useep = NULL; /* endpoint of xp */ char *useua = NULL; /* uaddr of selected xp */ int epl, i; /* counters */ enum clnt_stat status; /* result of clnt_call */ u_long thetime, delta; int needfree = 0; struct timeval tv; int time_valid; int udp_ep = -1, tcp_ep = -1; int a1, a2, a3, a4; char ut[64], ipuaddr[64]; endpoint teps[32]; nis_server tsrv; void (*oldsig)() = NULL; /* old alarm handler */ struct sockaddr_in sin; int s = RPC_ANYSOCK, len; int type = 0; td->tv_sec = 0; td->tv_usec = 0; /* * First check to see if we need to find and address for this * server. */ if (*uaddr == NULL) { if ((srv != NULL) && (thost != NULL)) { msg("both timehost and srv pointer used!"); return (0); } if (! srv) { srv = get_server(netid, thost, &tsrv, teps, 32); if (srv == NULL) { msg("unable to contruct server data."); return (0); } needfree = 1; /* need to free data in endpoints */ } ep = srv->ep.ep_val; epl = srv->ep.ep_len; /* Identify the TCP and UDP endpoints */ for (i = 0; (i < epl) && ((udp_ep == -1) || (tcp_ep == -1)); i++) { if (strcasecmp(ep[i].proto, "udp") == 0) udp_ep = i; if (strcasecmp(ep[i].proto, "tcp") == 0) tcp_ep = i; } /* Check to see if it is UDP or TCP */ if (tcp_ep > -1) { useep = &ep[tcp_ep]; useua = ep[tcp_ep].uaddr; type = SOCK_STREAM; } else if (udp_ep > -1) { useep = &ep[udp_ep]; useua = ep[udp_ep].uaddr; type = SOCK_DGRAM; } if (useep == NULL) { msg("no acceptable transport endpoints."); if (needfree) free_eps(teps, tsrv.ep.ep_len); return (0); } } /* * Create a sockaddr from the uaddr. */ if (*uaddr != NULL) useua = *uaddr; /* Fixup test for NIS+ */ sscanf(useua, "%d.%d.%d.%d.", &a1, &a2, &a3, &a4); sprintf(ipuaddr, "%d.%d.%d.%d.0.111", a1, a2, a3, a4); useua = &ipuaddr[0]; bzero((char *)&sin, sizeof(sin)); if (uaddr_to_sockaddr(useua, &sin)) { msg("unable to translate uaddr to sockaddr."); if (needfree) free_eps(teps, tsrv.ep.ep_len); return (0); } /* * Create the client handle to rpcbind. Note we always try * version 3 since that is the earliest version that supports * the RPCB_GETTIME call. Also it is the version that comes * standard with SVR4. Since most everyone supports TCP/IP * we could consider trying the rtime call first. */ clnt = clnttcp_create(&sin, RPCBPROG, RPCBVERS, &s, 0, 0); if (clnt == NULL) { msg("unable to create client handle to rpcbind."); if (needfree) free_eps(teps, tsrv.ep.ep_len); return (0); } tv.tv_sec = 5; tv.tv_usec = 0; time_valid = 0; status = clnt_call(clnt, RPCBPROC_GETTIME, xdr_void, NULL, xdr_u_long, (char *)&thetime, tv); /* * The only error we check for is anything but success. In * fact we could have seen PROGMISMATCH if talking to a 4.1 * machine (pmap v2) or TIMEDOUT if the net was busy. */ if (status == RPC_SUCCESS) time_valid = 1; else { int save; /* Blow away possible stale CLNT handle. */ if (clnt != NULL) { clnt_destroy(clnt); clnt = NULL; } /* * Convert PMAP address into timeservice address * We take advantage of the fact that we "know" what * the universal address looks like for inet transports. * * We also know that the internet timeservice is always * listening on port 37. */ sscanf(useua, "%d.%d.%d.%d.", &a1, &a2, &a3, &a4); sprintf(ut, "%d.%d.%d.%d.0.37", a1, a2, a3, a4); if (uaddr_to_sockaddr(ut, &sin)) { msg("cannot convert timeservice uaddr to sockaddr."); goto error; } s = socket(AF_INET, type, 0); if (s == -1) { msg("unable to open fd to network."); goto error; } /* * Now depending on whether or not we're talking to * UDP we set a timeout or not. */ if (type == SOCK_DGRAM) { struct timeval timeout = { 20, 0 }; struct sockaddr_in from; fd_set readfds; int res; if (sendto(s, &thetime, sizeof(thetime), 0, (struct sockaddr *)&sin, sizeof(sin)) == -1) { msg("udp : sendto failed."); goto error; } do { FD_ZERO(&readfds); FD_SET(s, &readfds); res = select(_rpc_dtablesize(), &readfds, (fd_set *)NULL, (fd_set *)NULL, &timeout); } while (res < 0 && errno == EINTR); if (res <= 0) goto error; len = sizeof(from); res = recvfrom(s, (char *)&thetime, sizeof(thetime), 0, (struct sockaddr *)&from, &len); if (res == -1) { msg("recvfrom failed on udp transport."); goto error; } time_valid = 1; } else { int res; oldsig = (void (*)())signal(SIGALRM, alarm_hndler); saw_alarm = 0; /* global tracking the alarm */ alarm(20); /* only wait 20 seconds */ res = connect(s, (struct sockaddr *)&sin, sizeof(sin)); if (res == -1) { msg("failed to connect to tcp endpoint."); goto error; } if (saw_alarm) { msg("alarm caught it, must be unreachable."); goto error; } res = _read(s, (char *)&thetime, sizeof(thetime)); if (res != sizeof(thetime)) { if (saw_alarm) msg("timed out TCP call."); else msg("wrong size of results returned"); goto error; } time_valid = 1; } save = errno; (void)_close(s); errno = save; s = RPC_ANYSOCK; if (time_valid) { thetime = ntohl(thetime); thetime = thetime - TOFFSET; /* adjust to UNIX time */ } else thetime = 0; } gettimeofday(&tv, 0); error: /* * clean up our allocated data structures. */ if (s != RPC_ANYSOCK) (void)_close(s); if (clnt != NULL) clnt_destroy(clnt); alarm(0); /* reset that alarm if its outstanding */ if (oldsig) { signal(SIGALRM, oldsig); } /* * note, don't free uaddr strings until after we've made a * copy of them. */ if (time_valid) { if (*uaddr == NULL) *uaddr = strdup(useua); /* Round to the nearest second */ tv.tv_sec += (tv.tv_sec > 500000) ? 1 : 0; delta = (thetime > tv.tv_sec) ? thetime - tv.tv_sec : tv.tv_sec - thetime; td->tv_sec = (thetime < tv.tv_sec) ? - delta : delta; td->tv_usec = 0; } else { msg("unable to get the server's time."); } if (needfree) free_eps(teps, tsrv.ep.ep_len); return (time_valid); }
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