rpc/004070000060310000000000000000000574101542100122605ustar00delgadoroot00000000000001rpc/MANIFEST010060000000000000000000000103530443763512000127710ustar00rootroot00000000000001 File Name Archive # Description ----------------------------------------------------------- ./Makefile 1 ./README 7 ./README.FIRST 1 ./demo 1 ./demo/Makefile 1 ./demo/dir 1 ./demo/dir/Makefile 1 ./demo/dir/dir.x 1 ./demo/dir/dir_proc.c 1 ./demo/dir/rls.c 1 ./demo/msg 1 ./demo/msg/Makefile 1 ./demo/msg/msg.x 1 ./demo/msg/msg_proc.c 1 ./demo/msg/printmsg.c 1 ./demo/msg/rprintmsg.c 1 ./demo/sort 1 ./demo/sort/Makefile 1 ./demo/sort/rsort.c 1 ./demo/sort/sort.x 1 ./demo/sort/sort_proc.c 1 ./doc 1 ./doc/Makefile 1 ./doc/nfs.rfc.ms 15 ./doc/rpc.prog.ms.1 14 ./doc/rpc.prog.ms.2 13 ./doc/rpc.rfc.ms 16 ./doc/rpcgen.ms 11 ./doc/xdr.nts.ms 17 ./doc/xdr.rfc.ms 12 ./etc 1 ./etc/Makefile 2 ./etc/getopt.c 1 ./etc/portmap.c 8 ./etc/rpc 1 ./etc/rpcinfo.c 10 ./man 1 ./man/man1 1 ./man/man1/rpcgen.1 3 ./man/man1/rstat.1 1 ./man/man3 1 ./man/man3/bindresvport.3n 1 ./man/man3/getrpcent.3n 2 ./man/man3/getrpcport.3r 1 ./man/man3/rpc.3n 10 ./man/man3/xdr.3n 9 ./man/man5 1 ./man/man5/rpc.5 1 ./man/man8 1 ./man/man8/portmap.8c 1 ./man/man8/rpcinfo.8c 2 ./man/man8/rstat_svc.8c 1 ./rpc 1 ./rpc/Makefile 3 ./rpc/auth.h 4 ./rpc/auth_none.c 3 ./rpc/auth_unix.c 6 ./rpc/auth_unix.h 2 ./rpc/authunix_prot.c 2 ./rpc/bindresvport.c 2 ./rpc/clnt.h 6 ./rpc/clnt_generic.c 3 ./rpc/clnt_perror.c 5 ./rpc/clnt_raw.c 5 ./rpc/clnt_simple.c 3 ./rpc/clnt_tcp.c 9 ./rpc/clnt_udp.c 8 ./rpc/get_myaddress.c 2 ./rpc/getrpcent.c 4 ./rpc/getrpcport.c 1 ./rpc/netdb.h 1 ./rpc/pmap_clnt.c 3 ./rpc/pmap_clnt.h 2 ./rpc/pmap_getmaps.c 2 ./rpc/pmap_getport.c 2 ./rpc/pmap_prot.c 1 ./rpc/pmap_prot.h 3 ./rpc/pmap_prot2.c 4 ./rpc/pmap_rmt.c 8 ./rpc/pmap_rmt.h 1 ./rpc/rpc.h 2 ./rpc/rpc_callmsg.c 4 ./rpc/rpc_commondata.c 1 ./rpc/rpc_dtablesize.c 1 ./rpc/rpc_msg.h 4 ./rpc/rpc_prot.c 5 ./rpc/svc.c 8 ./rpc/svc.h 6 ./rpc/svc_auth.c 3 ./rpc/svc_auth.h 1 ./rpc/svc_auth_unix.c 4 ./rpc/svc_raw.c 4 ./rpc/svc_run.c 2 ./rpc/svc_simple.c 4 ./rpc/svc_tcp.c 7 ./rpc/svc_udp.c 9 ./rpc/types.h 2 ./rpc/xdr.c 8 ./rpc/xdr.h 7 ./rpc/xdr_array.c 4 ./rpc/xdr_float.c 5 ./rpc/xdr_mem.c 4 ./rpc/xdr_rec.c 9 ./rpc/xdr_reference.c 3 ./rpc/xdr_stdio.c 4 ./rpcgen 1 ./rpcgen/Makefile 1 ./rpcgen/rpc_clntout.c 3 ./rpcgen/rpc_cout.c 5 ./rpcgen/rpc_hout.c 6 ./rpcgen/rpc_main.c 7 ./rpcgen/rpc_parse.c 7 ./rpcgen/rpc_parse.h 3 ./rpcgen/rpc_scan.c 6 ./rpcgen/rpc_scan.h 2 ./rpcgen/rpc_svcout.c 5 ./rpcgen/rpc_util.c 6 ./rpcgen/rpc_util.h 2 ./rpcsvc 1 ./rpcsvc/Makefile 2 ./rpcsvc/bootparam_prot.x 2 ./rpcsvc/klm_prot.x 3 ./rpcsvc/mount.x 4 ./rpcsvc/nfs_prot.x 6 ./rpcsvc/nlm_prot.x 3 ./rpcsvc/rex.x 5 ./rpcsvc/rnusers.x 2 ./rpcsvc/rquota.x 1 ./rpcsvc/rstat.c 2 ./rpcsvc/rstat.x 3 ./rpcsvc/rstat_proc.c 7 ./rpcsvc/sm_inter.x 3 ./rpcsvc/spray.x 2 ./rpcsvc/yp.x 5 ./rpcsvc/yppasswd.x 2 MANIFEST 1 This shipping list rpc/Makefile010060000000000000000000000033240574101501400132710ustar00rootroot00000000000001# #ident "@(#)Makefile 1.10 93/07/05 SMI" # # Sun RPC is a product of Sun Microsystems, Inc. and is provided for # unrestricted use provided that this legend is included on all tape # media and as a part of the software program in whole or part. Users # may copy or modify Sun RPC without charge, but are not authorized # to license or distribute it to anyone else except as part of a product or # program developed by the user. # # SUN RPC IS PROVIDED AS IS WITH NO WARRANTIES OF ANY KIND INCLUDING THE # WARRANTIES OF DESIGN, MERCHANTIBILITY AND FITNESS FOR A PARTICULAR # PURPOSE, OR ARISING FROM A COURSE OF DEALING, USAGE OR TRADE PRACTICE. # # Sun RPC is provided with no support and without any obligation on the # part of Sun Microsystems, Inc. to assist in its use, correction, # modification or enhancement. # # SUN MICROSYSTEMS, INC. SHALL HAVE NO LIABILITY WITH RESPECT TO THE # INFRINGEMENT OF COPYRIGHTS, TRADE SECRETS OR ANY PATENTS BY SUN RPC # OR ANY PART THEREOF. # # In no event will Sun Microsystems, Inc. be liable for any lost revenue # or profits or other special, indirect and consequential damages, even if # Sun has been advised of the possibility of such damages. # # Sun Microsystems, Inc. # 2550 Garcia Avenue # Mountain View, California 94043 # # Copyright (c) 1989 by Sun Microsystems, Inc. # # cmd/rpcgen/Makefile PROG= rpcgen OBJS= rpc_clntout.o rpc_cout.o rpc_hout.o rpc_main.o rpc_parse.o \ rpc_scan.o rpc_svcout.o rpc_tblout.o rpc_util.o rpc_sample.o SRCS= $(OBJS:%.o=%.c) include ../Makefile.cmd LDLIBS += .KEEP_STATE: all: $(PROG) $(PROG): $(OBJS) $(LINK.c) $(OBJS) -o $@ $(LDLIBS) $(POST_PROCESS) install: all $(ROOTPROG) clean: $(RM) $(OBJS) lint: lint_PROG include ../Makefile.targ rpc/README010060000000000000000000000212750443763512000125250ustar00rootroot00000000000001RPCSRC 4.0 8/11/88 This distribution contains Sun Microsystem's implementation of the RPC and XDR protocols and is compatible with 4.2BSD and 4.3BSD. Also included is complete documentation, utilities, RPC service specification files, and demonstration services in the format used by the RPC protocol compiler (rpcgen). See WHAT'S NEW below for details. NOTE ABOUT SECURE RPC: This release of RPCSRC contains most of the code needed to implement Secure RPC (see "DES Authentication" in the RPC Protocol Specification, doc/rpc.rfc.ms). Due to legal considerations, we are unable to distribute an implementation of DES, the Data Encryption Standard, which Secure RPC requires. For this reason, all of the files, documentation, and programs associated with Secure RPC have been placed into a separate directory, secure_rpc. The RPC library contained in the main body of this release *DOES NOT* support Secure RPC. See secure_rpc/README for more details. If you wish to report bugs found in this release, send mail to: Portable ONC/NFS Sun Microsystems, Inc MS 12-33 2550 Garcia Avenue Mountain View, CA 94043 or send Email to nfsnet@sun.com (the Internet) or sun!nfsnet (Usenet). ROADMAP The directory hierarchy is as follows: demo/ Various demonstration services demo/dir Remote directory lister demo/msg Remote console message delivery service demo/sort Remote sort service doc/ Documentation for RPC, XDR and NFS in "-ms" format. etc/ Utilities (rpcinfo and portmap). portmap must be started by root before any other RPC network services are used. SEE BELOW FOR BUGFIX TO 4.3BSD COMPILER. man/ Manual pages for RPC library, rpcgen, and utilities. rpc/ The RPC and XDR library. SEE BELOW FOR BUGFIX TO 4.2BSD COMPILER. rpcgen/ The RPC Language compiler (for .x files) rpcsvc/ Service definition files for various services and the server and client code for the Remote Status service. secure_rpc/ The files in this directory are used to build a version of the RPC library with DES Authentication. See the README file in that directory for more details. BUILD INSTRUCTIONS Makefiles can be found in all directories except for man. The Makefile in the top directory will cause these others to be invoked (except for in the doc, man and demo directories), in turn building the entire release. WARNING! THE DEFAULT INSTALLATION PROCEDURES WILL INSTALL FILES IN /usr/include, /usr/lib, /usr/bin and /etc. After making any compiler fixes that are needed (see below), at the top directory, type: make install For all installations, the Makefile macro DESTDIR is prepended to the installation path. It is defined to be null in the Makefiles, so installations are relative to root. (You will probably need root privileges for installing the files under the default path.) To install the files under some other tree (e.g., /usr/local), use the command: make install DESTDIR=/usr/local This will place the include files in /usr/local/usr/include, the RPC library in /usr/local/usr/lib, rpcgen in /usr/local/usr/bin, and the utilities in /usr/local/etc. You'll have to edit the Makefiles or install the files by hand if you want to do anything other than this kind of relocation of the installation tree. The RPC library will be built and installed first. By default it is installed in /usr/lib as "librpclib.a". The directory /usr/include/rpc will also be created, and several header files will be installed there. ALL RPC SERVICES INCLUDE THESE HEADER FILES. The programs in etc/ link in routines from librpclib.a. If you change where it is installed, be sure to edit etc/'s Makefile to reflect this. These programs are installed in /etc. PORTMAP MUST BE RUNNING ON YOUR SYSTEM BEFORE YOU START ANY OTHER RPC SERVICE. rpcgen is installed in /usr/bin. This program is required to build the demonstration services in demo and the rstat client and server in rpcsvc/. The rpcsvc/ directory will install its files in the directory /usr/include/rpcsvc. The Remote Status service (rstat_svc) will be compiled and installed in /etc. If you wish to make this service available, you should either start this service when needed or have it started at boot time by invoking it in your /etc/rc.local script. (Be sure that portmap is started first!) Sun has modified its version of inetd to automatically start RPC services. (Use "make LIB=" when building rstat on a Sun Workstation.) The Remote Status client (rstat) will be installed in /usr/bin. This program queries the rstat_svc on a remote host and prints a system status summary similar to the one printed by "uptime". The documentation is not built during the "make install" command. Typing "make" in the doc directory will cause all of the manuals to be formatted using nroff into a single file. We have had a report that certain "troff" equivalents have trouble processing the full manual. If you have trouble, try building the manuals individually (see the Makefile). The demonstration services in the demo directory are not built by the top-level "make install" command. To build these, cd to the demo directory and enter "make". The three services will be built. RPCGEN MUST BE INSTALLED in a path that make can find. To run the services, start the portmap program as root and invoke the service (you probably will want to put it in the background). rpcinfo can be used to check that the service succeeded in getting registered with portmap, and to ping the service (see rpcinfo's man page). You can then use the corresponding client program to exercise the service. To build these services on a Sun workstation, you must prevent the Makefile from trying to link the RPC library (as these routines are already a part of Sun's libc). Use: "make LIB=". BUGFIX FOR 4.3BSD COMPILER The use of a 'void *' declaration for one of the arguments in the reply_proc() procedure in etc/rpcinfo.c will trigger a bug in the 4.3BSD compiler. The bug is fixed by the following change to the compiler file mip/manifest.h: *** manifest.h.r1.1 Thu Apr 30 13:52:25 1987 --- manifest.h.r1.2 Mon Nov 23 18:58:17 1987 *************** *** 21,27 **** /* * Bogus type values */ ! #define TNULL PTR /* pointer to UNDEF */ #define TVOID FTN /* function returning UNDEF (for void) */ /* --- 21,27 ---- /* * Bogus type values */ ! #define TNULL INCREF(MOETY) /* pointer to MOETY -- impossible type */ #define TVOID FTN /* function returning UNDEF (for void) */ /* If you cannot fix your compiler, change the declaration in reply_proc() from 'void *' to 'char *'. BUGFIX FOR 4.2BSD COMPILER Unpatched 4.2BSD compilers complain about valid C. You can make old compilers happy by changing some voids to ints. However, the fix to the 4.2 VAX compiler is as follows (to mip/trees.c): *** trees.c.r1.1 Mon May 11 13:47:58 1987 --- trees.c.r1.2 Wed Jul 2 18:28:52 1986 *************** *** 1247,1253 **** if(o==CAST && mt1==0)return(TYPL+TYMATCH); if( mt12 & MDBI ) return( TYPL+LVAL+TYMATCH ); else if( (mt1&MENU)||(mt2&MENU) ) return( LVAL+NCVT+TYPL+PTMATCH+PUN ); ! else if( mt12 == 0 ) break; else if( mt1 & MPTR ) return( LVAL+PTMATCH+PUN ); else if( mt12 & MPTI ) return( TYPL+LVAL+TYMATCH+PUN ); break; --- 1261,1269 ---- if(o==CAST && mt1==0)return(TYPL+TYMATCH); if( mt12 & MDBI ) return( TYPL+LVAL+TYMATCH ); else if( (mt1&MENU)||(mt2&MENU) ) return( LVAL+NCVT+TYPL+PTMATCH+PUN ); ! /* if right is TVOID and looks like a CALL, is not ok */ ! else if (mt2 == 0 && (p->in.right->in.op == CALL || p->in.right->in.op == UNARY CALL)) ! break; else if( mt1 & MPTR ) return( LVAL+PTMATCH+PUN ); else if( mt12 & MPTI ) return( TYPL+LVAL+TYMATCH+PUN ); break; WHAT'S NEW IN THIS RELEASE: RPCSRC 4.0 The previous release was RPCSRC 3.9. As with all previous releases, this release is based directly on files from Sun Microsystem's implementation. Upgrade from RPCSRC 3.9 1) RPCSRC 4.0 upgrades RPCSRC 3.9. Improvements from SunOS 4.0 have been integrated into this release. Secure RPC (in the secure_rpc/ directory) 2) DES Authentication routines and programs are provided. 3) A new manual, "Secure NFS" is provided, which describes Secure RPC and Secure NFS. 4) Skeleton routines and manual pages are provided which describe the DES encryption procedures required by Secure RPC. HOWEVER, NO DES ROUTINE IS PROVIDED. New Functionality 5) rpcinfo can now be used to de-register services from the portmapper which may have terminated abnormally. 6) A new client, rstat, is provided which queries the rstat_svc and prints a status line similar to the one displayed by "uptime". rpc/README.FIRST010060000000000000000000000017520443763512000134110ustar00rootroot00000000000001RPCSRC 4.0: rpc_40 distribution This distribution contains all of RPCSRC 4.0 except for those related to Secure RPC. These files can be found in the distribution secure_rpc. One file was too big for distribution and was split in two. You will have to put it back together again. The file is doc/rpc.prog.ms which appears as doc/rpc.prog.ms.1 and doc/rpc.prog.ms.2 in this distribution. Append the second file to the first to recreate doc/rpc.prog.ms. This release is fully functional by itself. The Secure RPC files found in the secure_rpc distribtion add nearly all of the Secure RPC functionality. PLEASE NOTE THAT NO DES ENCRYPTION ROUTINE IS PROVIDED in that distribution due to export restrictions. If you wish to use Secure RPC, you'll have to provide your own DES routine. If you can do without Secure RPC, this distribution is all that you need. Be sure to read the README file for details as to what is new in RPCSRC 4.0. Good luck! The Portable ONC Group Sun Microsystems, Inc. rpc/README.LINUX010060000000000000000000000014110525773312400134150ustar00rootroot00000000000001This is a source distribution of sunrpc-4.0 patched for Linux. It is the RPC (Remote Procedure Call) and XDR (eXternal Data Represenation) library source. The original freely distributable sunrpc was written by Sun Microsystems for BSD systems. I did not include any secure_rpc stuff because I don't think it is very widely used and the secure_rpc distribution didn't include the necessary DES encrpytion. I did a fair amount of hacking to get it to work with Linux. Plus I fixed a couple of ugly bugs. The archive includes: README this file diffs my patches to sunrpc-4.0 for linux sunrpc/* the entire patched sunrpc distribution For installation details and precompiled binaries see the rcp-bin-4.0.tar.Z distribution. Enjoy, Rick Sladkey jrs@world.std.com any secure_rpc stuff because I don't think it is very widely used and the secure_rpc distribution didn't include the necessary DES encrpytion. I did a fair amount of hacking to get it to work with Linux. Plus I fixed a couple of ugly bugs. Therpc/demo/004070000000000000000000000000000534640657200125725ustar00rootroot00000000000001rpc/demo/dir/004070000000000000000000000000000614611633600133435ustar00rootroot00000000000001rpc/demo/dir/rls.c010060000000000000000000000031070443763512100143060ustar00rootroot00000000000001/* @(#)rls.c 2.2 88/08/12 4.0 RPCSRC */ /* * rls.c: Remote directory listing client */ #include #include /* always need this */ #include "dir.h" /* need this too: will be generated by rpcgen*/ extern int errno; main(argc, argv) int argc; char *argv[]; { CLIENT *cl; char *server; char *dir; readdir_res *result; namelist nl; if (argc != 3) { fprintf(stderr, "usage: %s host directory\n", argv[0]); exit(1); } /* * Remember what our command line arguments refer to */ server = argv[1]; dir = argv[2]; /* * Create client "handle" used for calling DIRPROG on the * server designated on the command line. We tell the rpc package * to use the "tcp" protocol when contacting the server. */ cl = clnt_create(server, DIRPROG, DIRVERS, "tcp"); if (cl == NULL) { /* * Couldn't establish connection with server. * Print error message and die. */ clnt_pcreateerror(server); exit(1); } /* * Call the remote procedure "readdir" on the server */ result = readdir_1(&dir, cl); if (result == NULL) { /* * An error occurred while calling the server. * Print error message and die. */ clnt_perror(cl, server); exit(1); } /* * Okay, we successfully called the remote procedure. */ if (result->errno != 0) { /* * A remote system error occurred. * Print error message and die. */ errno = result->errno; perror(dir); exit(1); } /* * Successfuly got a directory listing. * Print it out. */ for (nl = result->readdir_res_u.list; nl != NULL; nl = nl->next) { printf("%s\n", nl->name); } } rpc/demo/dir/dir.h~010060000060310000145000000014320614440621000154120ustar00delgadooraweb00000000000001/* * Please do not edit this file. * It was generated using rpcgen. */ #ifndef _DIR_H_RPCGEN #define _DIR_H_RPCGEN #include #define MAXNAMELEN 255 typedef char *nametype; typedef struct namenode *namelist; struct namenode { nametype name; namelist next; }; typedef struct namenode namenode; struct readdir_res { int errno; union { namelist list; } readdir_res_u; }; typedef struct readdir_res readdir_res; #define DIRPROG ((unsigned long)(76)) #define DIRVERS ((unsigned long)(1)) #define READDIR ((unsigned long)(1)) extern readdir_res * readdir_1(); extern int dirprog_1_freeresult(); /* the xdr functions */ extern bool_t xdr_nametype(); extern bool_t xdr_namelist(); extern bool_t xdr_namenode(); extern bool_t xdr_readdir_res(); #endif /* !_DIR_H_RPCGEN */ rpc/demo/dir/dir.x010060000000000000000000000014140443763512100143100ustar00rootroot00000000000001/* @(#)dir.x 2.1 88/08/02 4.0 RPCSRC */ /* * dir.x: Remote directory listing protocol */ const MAXNAMELEN = 255; /* maximum length of a directory entry */ typedef string nametype; /* a directory entry */ typedef struct namenode *namelist; /* a link in the listing */ /* * A node in the directory listing */ struct namenode { nametype name; /* name of directory entry */ namelist next; /* next entry */ }; /* * The result of a READDIR operation. */ union readdir_res switch (int errno) { case 0: namelist list; /* no error: return directory listing */ default: void; /* error occurred: nothing else to return */ }; /* * The directory program definition */ program DIRPROG { version DIRVERS { readdir_res READDIR(nametype) = 1; } = 1; } = 76; rpc/demo/dir/Makefile010060000060310000145000000010540614611624300157330ustar00delgadooraweb00000000000001# # @(#)Makefile 2.1 88/08/02 4.0 RPCSRC # BIN = dir_svc rls GEN = dir_clnt.c dir_svc.c dir_xdr.c dir.h LIB = -L/mit/athena-backup/tools/tirpc/usr/lib -L/usr/athena/lib -lrpc -lkrb -ldes -ldl -lnsl -lintl RPCCOM = rpcgen CFLAGS = -DDEBUG CC = cc all: $(BIN) $(GEN): dir.x $(RPCCOM) dir.x dir_svc: dir_proc.o dir_svc.o dir_xdr.o $(CC) -o $@ dir_proc.o dir_svc.o dir_xdr.o $(LIB) rls: rls.o dir_clnt.o dir_xdr.o $(CC) -o $@ rls.o dir_clnt.o dir_xdr.o $(LIB) rls.o: rls.c dir.h dir_proc.o: dir_proc.c dir.h clean cleanup: rm -f $(GEN) *.o $(BIN) rpc/demo/dir/Makefile.orig010060000000000000000000000007330534640664200157470ustar00rootroot00000000000001# # @(#)Makefile 2.1 88/08/02 4.0 RPCSRC # BIN = dir_svc rls GEN = dir_clnt.c dir_svc.c dir_xdr.c dir.h LIB = -L../../rpc -lrpclib -linet RPCCOM = rpcgen CC = gcc -g all: $(BIN) $(GEN): dir.x $(RPCCOM) dir.x dir_svc: dir_proc.o dir_svc.o dir_xdr.o $(CC) -o $@ dir_proc.o dir_svc.o dir_xdr.o $(LIB) rls: rls.o dir_clnt.o dir_xdr.o $(CC) -o $@ rls.o dir_clnt.o dir_xdr.o $(LIB) rls.o: rls.c dir.h dir_proc.o: dir_proc.c dir.h clean cleanup: rm -f $(GEN) *.o $(BIN) rpc/demo/dir/dir_xdr.c010060000060310000145000000017610614611626000160760ustar00delgadooraweb00000000000001/* * Please do not edit this file. * It was generated using rpcgen. */ #include "dir.h" bool_t xdr_nametype(xdrs, objp) register XDR *xdrs; nametype *objp; { register long *buf; if (!xdr_string(xdrs, objp, MAXNAMELEN)) return (FALSE); return (TRUE); } bool_t xdr_namelist(xdrs, objp) register XDR *xdrs; namelist *objp; { register long *buf; if (!xdr_pointer(xdrs, (char **)objp, sizeof (struct namenode), (xdrproc_t) xdr_namenode)) return (FALSE); return (TRUE); } bool_t xdr_namenode(xdrs, objp) register XDR *xdrs; namenode *objp; { register long *buf; if (!xdr_nametype(xdrs, &objp->name)) return (FALSE); if (!xdr_namelist(xdrs, &objp->next)) return (FALSE); return (TRUE); } bool_t xdr_readdir_res(xdrs, objp) register XDR *xdrs; readdir_res *objp; { register long *buf; if (!xdr_int(xdrs, &objp->errno)) return (FALSE); switch (objp->errno) { case 0: if (!xdr_namelist(xdrs, &objp->readdir_res_u.list)) return (FALSE); break; } return (TRUE); } rpc/demo/dir/dir.h010060000060310000145000000014320614611626000152210ustar00delgadooraweb00000000000001/* * Please do not edit this file. * It was generated using rpcgen. */ #ifndef _DIR_H_RPCGEN #define _DIR_H_RPCGEN #include #define MAXNAMELEN 255 typedef char *nametype; typedef struct namenode *namelist; struct namenode { nametype name; namelist next; }; typedef struct namenode namenode; struct readdir_res { int errno; union { namelist list; } readdir_res_u; }; typedef struct readdir_res readdir_res; #define DIRPROG ((unsigned long)(76)) #define DIRVERS ((unsigned long)(1)) #define READDIR ((unsigned long)(1)) extern readdir_res * readdir_1(); extern int dirprog_1_freeresult(); /* the xdr functions */ extern bool_t xdr_nametype(); extern bool_t xdr_namelist(); extern bool_t xdr_namenode(); extern bool_t xdr_readdir_res(); #endif /* !_DIR_H_RPCGEN */ rpc/demo/dir/dir_proc.c010060000060310000145000000016520614611110200162310ustar00delgadooraweb00000000000001/* @(#)dir_proc.c 2.1 88/08/02 4.0 RPCSRC */ /* * dir_proc.c: remote readdir implementation */ #include #include #include #include "dir.h" extern int errno; extern char *malloc(); extern char *strcpy(); readdir_res * readdir_1(dirname) nametype *dirname; { DIR *dirp; struct direct *d; namelist nl; namelist *nlp; static readdir_res res; /* must be static! */ /* * Open directory */ dirp = opendir(*dirname); if (dirp == NULL) { res.errno = errno; return (&res); } /* * Free previous result */ xdr_free(xdr_readdir_res, &res); /* * Collect directory entries */ nlp = &res.readdir_res_u.list; while (d = readdir(dirp)) { nl = *nlp = (namenode *) malloc(sizeof(namenode)); nl->name = malloc(strlen(d->d_name)+1); strcpy(nl->name, d->d_name); nlp = &nl->next; } *nlp = NULL; /* * Return the result */ res.errno = 0; closedir(dirp); return (&res); } rpc/demo/dir/dir_clnt.c010060000060310000145000000010400614611626000162270ustar00delgadooraweb00000000000001/* * Please do not edit this file. * It was generated using rpcgen. */ #include "dir.h" /* Default timeout can be changed using clnt_control() */ static struct timeval TIMEOUT = { 25, 0 }; readdir_res * readdir_1(argp, clnt) nametype *argp; CLIENT *clnt; { static readdir_res clnt_res; memset((char *)&clnt_res, 0, sizeof (clnt_res)); if (clnt_call(clnt, READDIR, (xdrproc_t) xdr_nametype, (caddr_t) argp, (xdrproc_t) xdr_readdir_res, (caddr_t) &clnt_res, TIMEOUT) != RPC_SUCCESS) { return (NULL); } return (&clnt_res); } rpc/demo/dir/dir_svc.c010060000060310000145000000105210614611626000160660ustar00delgadooraweb00000000000001/* * Please do not edit this file. * It was generated using rpcgen. */ #include "dir.h" #include #include /* getenv, exit */ #include #include #include #include #include #include /* rlimit */ #include #ifdef DEBUG #define RPC_SVC_FG #endif #define _RPCSVC_CLOSEDOWN 120 static int _rpcpmstart; /* Started by a port monitor ? */ /* States a server can be in wrt request */ #define _IDLE 0 #define _SERVED 1 static int _rpcsvcstate = _IDLE; /* Set when a request is serviced */ static int _rpcsvccount = 0; /* Number of requests being serviced */ static void _msgout(msg) char *msg; { #ifdef RPC_SVC_FG if (_rpcpmstart) syslog(LOG_ERR, msg); else (void) fprintf(stderr, "%s\n", msg); #else syslog(LOG_ERR, msg); #endif } static void closedown(sig) int sig; { if (_rpcsvcstate == _IDLE && _rpcsvccount == 0) { extern fd_set svc_fdset; static int size; int i, openfd; struct t_info tinfo; if (!t_getinfo(0, &tinfo) && (tinfo.servtype == T_CLTS)) exit(0); if (size == 0) { struct rlimit rl; rl.rlim_max = 0; getrlimit(RLIMIT_NOFILE, &rl); if ((size = rl.rlim_max) == 0) { return; } } for (i = 0, openfd = 0; i < size && openfd < 2; i++) if (FD_ISSET(i, &svc_fdset)) openfd++; if (openfd <= 1) exit(0); } else _rpcsvcstate = _IDLE; (void) signal(SIGALRM, (void(*)()) closedown); (void) alarm(_RPCSVC_CLOSEDOWN/2); } static void dirprog_1(rqstp, transp) struct svc_req *rqstp; register SVCXPRT *transp; { union { nametype readdir_1_arg; } argument; char *result; bool_t (*xdr_argument)(), (*xdr_result)(); char *(*local)(); _rpcsvccount++; switch (rqstp->rq_proc) { case NULLPROC: (void) svc_sendreply(transp, xdr_void, (char *)NULL); _rpcsvccount--; _rpcsvcstate = _SERVED; return; case READDIR: xdr_argument = xdr_nametype; xdr_result = xdr_readdir_res; local = (char *(*)()) readdir_1; break; default: svcerr_noproc(transp); _rpcsvccount--; _rpcsvcstate = _SERVED; return; } (void) memset((char *)&argument, 0, sizeof (argument)); if (!svc_getargs(transp, xdr_argument, &argument)) { svcerr_decode(transp); _rpcsvccount--; _rpcsvcstate = _SERVED; return; } result = (*local)(&argument, rqstp); if (result != NULL && !svc_sendreply(transp, xdr_result, result)) { svcerr_systemerr(transp); } if (!svc_freeargs(transp, xdr_argument, &argument)) { _msgout("unable to free arguments"); exit(1); } _rpcsvccount--; _rpcsvcstate = _SERVED; return; } main() { pid_t pid; int i; char mname[FMNAMESZ + 1]; (void) sigset(SIGPIPE, SIG_IGN); if (!ioctl(0, I_LOOK, mname) && (!strcmp(mname, "sockmod") || !strcmp(mname, "timod"))) { char *netid; struct netconfig *nconf = NULL; SVCXPRT *transp; int pmclose; _rpcpmstart = 1; openlog("dir", LOG_PID, LOG_DAEMON); if ((netid = getenv("NLSPROVIDER")) == NULL) { /* started from inetd */ pmclose = 1; } else { if ((nconf = getnetconfigent(netid)) == NULL) _msgout("cannot get transport info"); pmclose = (t_getstate(0) != T_DATAXFER); } if (strcmp(mname, "sockmod") == 0) { if (ioctl(0, I_POP, 0) || ioctl(0, I_PUSH, "timod")) { _msgout("could not get the right module"); exit(1); } } if ((transp = svc_tli_create(0, nconf, NULL, 0, 0)) == NULL) { _msgout("cannot create server handle"); exit(1); } if (nconf) freenetconfigent(nconf); if (!svc_reg(transp, DIRPROG, DIRVERS, dirprog_1, 0)) { _msgout("unable to register (DIRPROG, DIRVERS)."); exit(1); } if (pmclose) { (void) signal(SIGALRM, (void(*)()) closedown); (void) alarm(_RPCSVC_CLOSEDOWN/2); } svc_run(); exit(1); /* NOTREACHED */ } else { #ifndef RPC_SVC_FG int size; struct rlimit rl; pid = fork(); if (pid < 0) { perror("cannot fork"); exit(1); } if (pid) exit(0); rl.rlim_max = 0; getrlimit(RLIMIT_NOFILE, &rl); if ((size = rl.rlim_max) == 0) exit(1); for (i = 0; i < size; i++) (void) close(i); i = open("/dev/console", 2); (void) dup2(i, 1); (void) dup2(i, 2); setsid(); openlog("dir", LOG_PID, LOG_DAEMON); #endif } if (!svc_create(dirprog_1, DIRPROG, DIRVERS, "netpath")) { _msgout("unable to create (DIRPROG, DIRVERS) for netpath."); exit(1); } svc_run(); _msgout("svc_run returned"); exit(1); /* NOTREACHED */ } RPC_SVC_FG #endif #define _RPCSVC_CLOSEDOWN 120 static int _rpcpmstart; /* Started by a port monitor ? */ /* States a server can be in wrt request */ #define _IDLE 0 #defrpc/demo/dir/dir_proc.o010060000060310000145000000071500614611631300162550ustar00delgadooraweb00000000000001ELF 4( .shstrtab.text.bss.stab.index.stab.indexstr.comment.strtab.symtab.rela.text㿈'DD @' @ !  ! $ ! 'L! #`@@! '% @'$ ' @ @$   @@ '@' $  ! $ @! ' <4dir_proc.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -DDEBUG -c dir_proc.c -W0,-xp@(#)limits.h 1.22 94/06/08 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)rpc.h 1.11 93/02/04 SMI@(#)types.h 1.18 94/03/08 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.25 94/02/07 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.33 93/11/19 SMI@(#)rpc_com.h 1.15 94/01/18 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)rpc_msg.h 1.12 94/06/01 SMI@(#)auth_sys.h 1.13 93/11/12 SMI@(#)auth_des.h 1.12 93/05/30 SMI@(#)auth_kerb.h 1.8 93/05/26 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)svc.h 1.30 94/01/18 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)svc_auth.h 1.10 93/11/12 SMI@(#)rpcb_clnt.h 1.11 93/07/16 SMI@(#)rpcb_prot.x 1.3 92/07/14 SMI@(#)dirent.h 1.18 93/09/28 SMI@(#)dirent.h 1.14 93/10/15 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1dir_proc.cclosedirreaddirstrcpystrlenmallocxdr_readdir_resxdr_freeopendirreaddir_1errno $+2BKS]$ H L T X ` d t x |     <l p   4U @@$ "d1d: cB J   rpc/demo/dir/dir_clnt.c,v010040000060310000145000000014030614611046700164750ustar00delgadooraweb00000000000001head 1.1; branch ; access ; symbols ; locks delgado:1.1; strict; comment @ * @; 1.1 date 96.05.14.09.57.04; author delgado; state Exp; branches ; next ; desc @@ 1.1 log @Initial revision @ text @/* * Please do not edit this file. * It was generated using rpcgen. */ #include "dir.h" /* Default timeout can be changed using clnt_control() */ static struct timeval TIMEOUT = { 25, 0 }; readdir_res * readdir_1(argp, clnt) nametype *argp; CLIENT *clnt; { static readdir_res clnt_res; memset((char *)&clnt_res, 0, sizeof (clnt_res)); if (clnt_call(clnt, READDIR, (xdrproc_t) xdr_nametype, (caddr_t) argp, (xdrproc_t) xdr_readdir_res, (caddr_t) &clnt_res, TIMEOUT) != RPC_SUCCESS) { return (NULL); } return (&clnt_res); } @ rpc/demo/dir/dir_proc.c,v010040000060310000145000000021730614611050700165000ustar00delgadooraweb00000000000001head 1.1; branch ; access ; symbols ; locks delgado:1.1; strict; comment @ * @; 1.1 date 96.05.14.09.57.21; author delgado; state Exp; branches ; next ; desc @@ 1.1 log @Initial revision @ text @/* @@(#)dir_proc.c 2.1 88/08/02 4.0 RPCSRC */ /* * dir_proc.c: remote readdir implementation */ #include #include #include "dir.h" extern int errno; extern char *malloc(); extern char *strcpy(); readdir_res * readdir_1(dirname) nametype *dirname; { DIR *dirp; struct direct *d; namelist nl; namelist *nlp; static readdir_res res; /* must be static! */ /* * Open directory */ dirp = opendir(*dirname); if (dirp == NULL) { res.errno = errno; return (&res); } /* * Free previous result */ xdr_free(xdr_readdir_res, &res); /* * Collect directory entries */ nlp = &res.readdir_res_u.list; while (d = readdir(dirp)) { nl = *nlp = (namenode *) malloc(sizeof(namenode)); nl->name = malloc(strlen(d->d_name)+1); strcpy(nl->name, d->d_name); nlp = &nl->next; } *nlp = NULL; /* * Return the result */ res.errno = 0; closedir(dirp); return (&res); } @ rpc/demo/dir/dir_svc.o010060000060310000145000000205600614611631600161100ustar00delgadooraweb00000000000001ELFh4( .shstrtab.text.bss.rodata1.data.data1.stab.index.stab.indexstr.comment.strtab.symtab.rela.text㿠'D!    D@@ ! #`D@@p'D!  g!  a ܐ@@   @!   'ؠ Ԑ@@'! $ Ѐ D ' ' 4 ,#`    ,  ' '!  @   @ ! $  #`@@ <@㿈'H'D!   ! $ 2!  @@@!  $ ! $  ! $ ! '! '! '@@!  $ ! $  ! $ uD     @@`   @@Ā@@!  $ ! $  ! $ CD@Ā' @@@@@@`   @@Ā !  @!  $ ! $  ! $ x  @@ #c@@#`@@ #`@@ ' ! $ !   @@! @' @ '@' @! Q @  2 'ؠ#`@@ & #c @@ #c%@@ !  @    @@'ܠ @ !  @@ܢ L ' @@ !  @؀  #`@@ <@@ @!  L '@@ !  @@!  @%s dirNLSPROVIDERnetpathunable to free argumentssockmodtimodcannot get transport infosockmodtimodcould not get the right modulecannot create server handleunable to register (DIRPROG, DIRVERS).unable to create (DIRPROG, DIRVERS) for netpath.svc_run returned <4*dir_svc.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -DDEBUG -c dir_svc.c -W0,-xpmain@(#)rpc.h 1.11 93/02/04 SMI@(#)types.h 1.18 94/03/08 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.25 94/02/07 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.33 93/11/19 SMI@(#)rpc_com.h 1.15 94/01/18 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)rpc_msg.h 1.12 94/06/01 SMI@(#)auth_sys.h 1.13 93/11/12 SMI@(#)auth_des.h 1.12 93/05/30 SMI@(#)auth_kerb.h 1.8 93/05/26 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)svc.h 1.30 94/01/18 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)svc_auth.h 1.10 93/11/12 SMI@(#)rpcb_clnt.h 1.11 93/07/16 SMI@(#)rpcb_prot.x 1.3 92/07/14 SMI@(#)stdlib.h 1.24 94/03/28 SMI@(#)signal.h 1.24 94/07/12 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)procset.h 1.15 93/05/05 SMI@(#)stropts.h 1.7 94/01/12 SMI@(#)stropts.h 1.15 94/12/20 SMI@(#)conf.h 1.36 94/05/10 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)resource.h 1.10 93/12/21 SMI@(#)syslog.h 1.8 93/11/01 SMI@(#)syslog.h 1.10 92/07/14 SMI@(#)stdarg.h 1.11 94/01/05 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1dir_svc.c_rpcsvcstate_rpcsvccount_rpcpmstart_msgoutclosedowndirprog_1svc_createsvc_runsvc_regfreenetconfigentsvc_tli_createt_getstategetnetconfigentgetenvopenlogstrcmpioctlsigsetmainsvcerr_systemerrsvcerr_decodememsetsvcerr_noprocreaddir_1xdr_readdir_resxdr_nametypexdr_voidsvc_sendreplyalarmsignalgetrlimitexitt_getinfosvc_fdsetfprintfsyslog__iob %1p9CMX`hyp8 &/=CJTYcmu|  @*P+ T+ X \ p)    '&  @%T X ( (   4&H L X \ h$x#    ! ! "         ( , 4 8 LT X d h t x    , 0 < @ "  &  $ 0 4 @ D    $ $$ ( 0 4 LT X ` , , H HHl Pp P X X& x  x$&DX \ x  &  $# &       $  8  P T l& t |  &4k   H H d% l, p0 8 G ]PX` ` H  rpc/demo/dir/dir_xdr.o010060000060310000145000000066340614611632300161160ustar00delgadooraweb00000000000001ELF 44( .shstrtab.text.stab.index.stab.indexstr.comment.strtab.symtab.rela.text㿘'H'DH @@ ' '㿘'H'DH %@@ ' '㿘'H'DH@ 'H @ ' '㿘'H'DH@ 'H @ ' H  ' <4dir_xdr.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -DDEBUG -c dir_xdr.c -W0,-xp@(#)rpc.h 1.11 93/02/04 SMI@(#)types.h 1.18 94/03/08 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.25 94/02/07 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.33 93/11/19 SMI@(#)rpc_com.h 1.15 94/01/18 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)rpc_msg.h 1.12 94/06/01 SMI@(#)auth_sys.h 1.13 93/11/12 SMI@(#)auth_des.h 1.12 93/05/30 SMI@(#)auth_kerb.h 1.8 93/05/26 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)svc.h 1.30 94/01/18 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)svc_auth.h 1.10 93/11/12 SMI@(#)rpcb_clnt.h 1.11 93/07/16 SMI@(#)rpcb_prot.x 1.3 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1dir_xdr.cxdr_intxdr_readdir_resxdr_namenodexdr_pointerxdr_namelistxdr_stringxdr_nametype #0<tITh0  (`4P x$ $,5 a= DE ` 26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/rpc/demo/dir/dir_svc010070000060310000145000013024100614611632400156510ustar00delgadooraweb00000000000001ELFZ44 (44:Q/usr/lib/ld.so.1-~xp\3&i^-]fFgmm`V =   RZb)'+G*fNXpzU?>j{O9P,6| "c J %1#Lxb:SwCyq=8<d078Frho\KEuW4(-B`vo_V!E}+K(Iu<rAq4 L5a[kN@eB@)5"~7nz*Z.Da;$/d>R3,}{%MTA !^[ySC H.n2w:jt;|iTY?hgX&Q]$YHPsltk_'1JIM9Wc lUDs6/QO0#v e2G 3TTUZ4 t    \ ,TxFN`]h*|; Wbp b N ]  Zt %<3`,<x8O]HmryX]@OOKx4] P(&S4jx `h|c0<IjpD-6 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H*  㿐 W @! 2?   , `2`4@? ?W @  I  J JJJJJ J@JJJJJJ J JJJ@JJJJJJJ J@JJJJJJJ "@` J JJJJJ J@JJJJJJ J JJ"@ɒ`㿀   @I @I  䀦     3    2@2   $  !@@ `@2@2@2@2`2@2@2@2`@d@2@`@a@@@@ 2 2  2@ & 2  (  " `2 @2 @2`&` 2@2@2@2`@h@@`@b@@   L!L"NL"O#N#M#L#''耣`+` ?+` /+` +`? +`  +` 0 3`?` @ 3` 3` #   (    "*   @ ? 3  ?@ *3 ? *3  ? * 3  ? *3  `* @ @*3` ? *3` ? *'* * * *    `  @     @@@ 22 2@222`  @ @``@ @@@`  @2@2@2`2@2 @2@2 (@ $2@ "22 2@!2@2@2` h@@` d@@` b@2@2`2a2 @@2@@2` ''`@F @F 0&@&` 㿐WW X`"`h W  l@Fܔ W p@Fה  W"`lW "`pk)WW X+W9W#W'WW `  @F   @F % X $   X `h* ```h X l % X `p $ ݖ   l@F  l` ' l `p@F `p  $`p` ' l  $`p ```@Fu `W`d@Fo  `&@`&@` W `" `"`W" lWa" p  W l@FR W p@FM  W"`lW "`pI%WW X9WW `)W'W   @F4  `@F/  X$X $` Xd ` l ' ` p `$ `@F ` @F   ` `&@` &@` `X % l ` $p 㿐WW t "` W |@E W @E  W`|"`| "9W9W t%W'WW |   @EΔ   @Eɔ  ' t $    t * `` t| ' t ` $  Ҁ ``W`|@E W`@E  WW | |&@`&`W 㿐W " W @D, @DE @ $WN  `    , ?  ,24  ``?#`(NW W"  W  L*   ``#`  *@@3!W  =  @C @#Q" X"Pc@@C`㿐Q j `@D%       Qp  *$  Qp  ` `$  㿠@$?E㿠@?svc_getreqset: No transport handle for fd %d %s : %ssvc_vc_createout of memorycould not get transport informationsvc_fd_createsvc_vc_create: makefd_xprt rendezvous_requestdo_acceptxdr_%s: out of memoryxdrrec_create: out of memoryxdrrec_create: out of memory<svc_dg_create: %scould not get transport information transport does not support data transferout of memorysvc_enablecache: %s %scache already enabledcould not allocate cache cache_set: %svictim not foundvictim alloc failedcould not allocate new rpc bufferrpc_reg: %s: %scan't find appropriate transportt_getinfo() failedunsupported transport sizeout of memory prog %d vers %dSUNW_OST_NETRPC%s : %sclnt_vc_createout of memoryread_vc%s : %sauthsys_createout of memoryauthsys_create_default: get%s failed: %mmarshal_new_auth - Fatal marshalling problemclnt_dg_create: out of memory%s dirNLSPROVIDERnetpathinetcan't open connectionbytesstringCreating integrity ops *** kerberos ticket not valid - expiredData len = %d checksum high %d low %d 0.0.0.0.%d.%dpmap_getmaps rpc problemnetpathvisiblecircuit_vdatagram_vcircuit_ndatagram_ntcpudpudpudpRW_READ_HELD(&rpcbaddr_cache_lock)rpc/rpcb_clnt.cRW_WRITE_HELD(&rpcbaddr_cache_lock)rpc/rpcb_clnt.cloopback%d%dinettcptcploopback%s: %s %dcan't reassign procedure number %d%s cant find suitable transport for %ssvc_sendreply failedrpc: rpc_reg trouble replying to prog %d vers %drpc: rpc_reg: never registered prog %d vers %ddatagram_ninetAuthentication OKInvalid client credentialServer rejected credentialInvalid client verifierServer rejected verifierClient credential too weakInvalid server verifierFailed (unspecified error)Could not decode authenticatorTime of credential expiredSomething wrong with kerberos ticket fileIncorrect network address in kerberos ticketKerberos generic errorUnknown authentication error%s: ; %s; %s; %s; errno = %s; %s; low version = %lu, high version = %lu; why = %s(unknown authentication error - %d); low version = %lu, high version = %lu; s1 = %lu, s2 = %lu%s %s %s: - - - Error %d - ()TLI Error %dError %d - %s RPC: SuccessRPC: Can't encode argumentsRPC: Can't decode resultRPC: Unable to sendRPC: Unable to receiveRPC: Timed outRPC: Incompatible versions of RPCRPC: Authentication errorRPC: Program unavailableRPC: Program/version mismatchRPC: Procedure unavailableRPC: Server can't decode argumentsRPC: Remote system errorRPC: Unknown hostRPC: Unknown protocolRPC: Rpcbind failureRPC: Name to address translation failedRPC: Broadcast not supportedRPC: Program not registeredRPC: Remote server address unknownRPC: Miscellaneous tli errorRPC: Failed (unspecified error)RPC: RAC call in progressRPC: Stale RAC handleRPC: (unknown error code)clnt_raw_create : Fatal header serialization error.netpathvc_cv == (cond_t *) NULLrpc/clnt_vc.cvc_cv != (cond_t *) NULLrpc/clnt_vc.cdg_cv == (cond_t *) NULLrpc/clnt_dg.cdg_cv != (cond_t *) NULLrpc/clnt_dg.c    4 t3  ,UTT 00<0H0T0`0l0x00000000000000 0,080D0P0\0h0t0000000000000~0{0x(0u40r@0oL0lX0id0fp0c|0`0]0Z0W0T0Q0N0K0H0E0B0? 0<09$06003<00H0-T0*`0'l0$x0!0000000 0 00000 0,080D0P0\0h0t000000000000000(040@0L0X0d0p0|000000000000 0|0y@PPxdr_reference: out of memorydd cd@`ddXaaHa(debe^Xdpdd`a`] D L T ` l x  <xdr_array: out of memory$Header: /afs/dev.mit.edu/source/src80/athena/lib/kerberos.p9/lib/krb/RCS/get_krbrlm.c,v 4.9 1991/08/07 16:04:29 lwvanels Exp $ /etc/athena/krb.confr/etc/krb.confrATHENA.MIT.EDU%s$Header: /afs/dev.mit.edu/source/src80/athena/lib/kerberos.p9/lib/krb/RCS/rd_req.c,v 4.17 1991/05/27 14:52:15 probe Exp $P/etc/athena/srvtabticket->length: %dauthent->length: %dCan't decode ticketTicket Contents. Aname: %s%s%s@%s.Athena Service: %s%s%s. sname=%s, sinst=%sAbout to decrypt authenticatorDone.Pname: %s %sRealm: %s %sAddress: %d %dTime out of range: %d - %d = %dTime: %d Issue Date: %d Diff: %d Life %x$Id: read_service_key.c,v 4.11 1991/08/07 15:49:19 probe Exp $AthenaATHENA.MIT.EDU$Header: /afs/dev.mit.edu/source/src80/athena/lib/kerberos.p9/lib/krb/RCS/debug_decl.c,v 4.5 1988/10/07 06:07:49 shanzer Exp $$Header: /afs/dev.mit.edu/source/src80/athena/lib/kerberos.p9/lib/krb/RCS/decomp_ticket.c,v 4.14 1993/04/28 18:38:10 vrt Exp $ /kerberos/tkt.des/kerberos/tkt.clearATHENA.MIT.EDUservice=%s.%s len(sname)=%d, len(sinstance)=%dptr - tkt->dat=%d$Header: /afs/dev.mit.edu/source/src80/athena/lib/kerberos.p9/lib/krb/RCS/getst.c,v 4.5 1988/11/15 16:31:39 jtkohl Exp $$Header: /source/athena/lib/kerberos/lib/krb/RCS/log.c,v 4.9 1995/06/30 03:23:04 cfields Exp $!/kerberos/kerberos.log!a%2d-%s-%02d %02d:%02d:%02d a %2d-%s-%02d %02d:%02d:%02d %s %20s%s$Header: /afs/dev.mit.edu/source/src80/athena/lib/kerberos.p9/lib/krb/RCS/month_sname.c,v 4.4 1988/11/15 16:39:32 jtkohl Exp $"####x#p#h#`#X#P#H#@#8DecNovOctSepAugJulJunMayAprMarFebJan$Header: /afs/dev.mit.edu/source/src80/athena/lib/kerberos.p9/lib/krb/RCS/one.c,v 4.1 1988/11/15 16:51:41 jtkohl Exp $$Header: /afs/dev.mit.edu/source/src80/athena/lib/kerberos.p9/lib/des/RCS/key_sched.c,v 4.8 1991/02/28 23:36:23 probe Exp $5&<7'?.%,>=$/!2#)3;"9 + :1-4/7= &<$65>?' *9!+ 3 1 #2)5$>'-6<, 7&%./=;  ) :# !293"% =7.>&,?<56'4-+1: 39 * ;")# 2<-'>. ?5/,%&$6!*; 2#)9+1:",.6</%?54=>7 & +9:" 1)2 !3*4? =&,5/6%$-.'< )* 9;! "3:1#$/<6-=?%>45&7, 2; :)+1 #*! 3?'4.%57<6,- /$=*3; 2!# ) "9: +/$5%=' 6,&?<>7-1#+9":2;  )*37%-<&?6/ =,45.'! 23)* "1+: # 6'=4,/&<-?>$% ;1"# 2:! 3* 9>&-$4 6?5,/.7<+! 3" * 9#:;) .47$<&/5%>? '=6,2 :#1;3) *+96 $'7,%>5./<4-&?" 139*!+ #2 ; )=.?/$6 -&'4,%7):+ 1" ;#*39!$Header: /afs/dev.mit.edu/source/src80/athena/lib/kerberos.p9/lib/des/RCS/des.c,v 4.14 1994/03/22 15:03:08 miki Exp $                                                                                                                    @@AA@@@@@@@@@A@A@@AA@@@@@@@@@A@A@@AAHHHHH@H@HAHA@@AAHHHHH@H@HAHA@@AA@@@@@@@@@A@A@@AA@@@@@@@@@A@A@@AAHHHHH@H@HAHA@@AAHHHHH@H@HAHABBCC@@@@@B@B@C@CBBCC@@@@@B@B@C@CBBCCHHHHHBHBHCHCBBCCHHHHHBHBHCHCBBCC@@@@@B@B@C@CBBCC@@@@@B@B@C@CBBCCHHHHHBHBHCHCBBCCHHHHHBHBHCHC """"    " " " "        """"    " " " "        """"    " " " "           """"    " " " "     !!!! ! ! ! !""""!!!!"!"!"!"!    !!!! ! ! ! !""""!!!!"!"!"!"!    !!!! ! ! ! !""""!!!!"!"!"!"!    !!!! ! ! ! !""""!!!!"!"!"!"!                                $$$$$$$$$$$$ $ $ $ $$$$$$$$$$$$$ $ $ $ $                                    $$$$$$$$$$$$ $ $ $ $$$$$$$$$$$$$ $ $ $ $  @@@@ @ @ @ @    PPPP P P P P   @@@@ @ @ @ @    PPPP P P P P@@HH @ @ H H@@@@H@H@ @@ @@ H@ H@@@HH @ @ H H@P@PHPHP @P @P HP HP@@HH @ @ H H@@@@H@H@ @@ @@ H@ H@@@HH @ @ H H@P@PHPHP @P @P HP HP0000@@@@0@0@0@0@0000PPPP0P0P0P0P0000@@@@0@0@0@0@0000PPPP0P0P0P0P@@HH0@0@0H0H@@@@H@H@0@@0@@0H@0H@@@HH0@0@0H0H@P@PHPHP0@P0@P0HP0HP@@HH0@0@0H0H@@@@H@H@0@@0@@0H@0H@@@HH0@0@0H0H@P@PHPHP0@P0@P0HP0HP$Id: pcbc_encrypt.c,v 4.12 1994/03/22 15:04:08 miki Exp $$Id: cksum.c,v 4.10 1990/01/02 13:46:25 jtkohl Exp $$Id: string_to_key.c,v 4.12 1994/03/22 15:05:08 miki Exp $ Resulting string_to_key = 0x%x 0x%x $Header: /afs/dev.mit.edu/source/src80/athena/lib/kerberos.p9/lib/des/RCS/weak_key.c,v 4.4 1994/03/22 15:05:35 miki Exp $$Header: /afs/dev.mit.edu/source/src80/athena/lib/kerberos.p9/lib/des/RCS/key_parity.c,v 4.0 1989/01/22 11:45:12 jtkohl Exp $  ##%%&&))**,,//1122447788;;==>>@@CCEEFFIIJJLLOOQQRRTTWWXX[[]]^^aabbddgghhkkmmnnppssuuvvyyzz||$Header: /afs/dev.mit.edu/source/src80/athena/lib/kerberos.p9/lib/des/RCS/debug_decl.c,v 4.2 1988/02/24 14:20:36 steiner Exp $unable to free argumentssockmodtimodcannot get transport infosockmodtimodcould not get the right modulecannot create server handleunable to register (DIRPROG, DIRVERS).unable to create (DIRPROG, DIRVERS) for netpath.svc_run returnedbad auth_len gid %d str %d auth %dsvc_create: unknown protocolsvc_create: could not register prog %d vers %d on %ssvc_create: no memorysvc_tp_create: invalid netconfig structure for prog %d vers %dsvc_tp_create: Could not register prog %d vers %d on %ssvc_tli_create: invalid netconfigsvc_tli_create: could not open connection for %ssvc_tli_create: could not do t_sync: %ssvc_tli_create: could not get transport informationsvc_tli_create: No memory!svc_tli_create: could not bind: %ssvc_tli_create: could not bind to requested address: %ssvc_tli_create: could not bind: %ssvc_tli_create: illegal netbuf lengthsvc_tli_create: other side wants torelease connectionsvc_tli_create: connection in a wierd state (%d)svc_tli_create: bad service typesvc_tli_create: No memory!svc_vc_create: transport does not support data transfertransport does not support data transfersvc_fd_create: No memory!can't find dev numbercannot read netconfig databaseno suitable transportdo_accept: illegal transportt_bind failedcannot accept connection: %s (current state %d)udptcpudptcpinettcpudpudptcpinettcpinetudpudpudptcpCould not get %s transportsvc%s_create: could not open connectiontcpudpudpudpudptcprpcbindgetclnthandle:udpdatagram_vnetpathsvc_dg_reply: t_sndudata error t_errno=%d errno=%d datafifonetpath%s couldn't register prog %d vers %d for %sinetudp\3rpcbindCannot send broadcastpacket: %minetudpCannot send broadcast packet: %mCannot receive reply to broadcast: %m: xdr_authsys_parms failedhostnamegroups 3TTUZ4 t    \ ,TxFN Z %\18DOYxf|sN]0p]_N N u !N*5 DSN\g vN N Oy (L "@*3L>XQ [j`0zh ht O O' 60GH(\uL`pP p8((+<C X\qp\O,  (P " @0 > L P[eOPny $`p&X( L8!h H 8 88'<50DD"HUhd$\sOP OP Op OP# 2B0=D@HCpRCD_iOr} O O O  #O,7 FTO]h wO qrxXO  O   *, :( I X dO m x T P< D   |  O    O    ( 30 ?l K U b lPh {t P h  O      0  0 H   +  ; 0@ K XO a l p {(  O    O    O    $O - 8 G<8H M= Y dP  m x [h U Y Y Z Z8 [@  P(   %\hx 6 @PP I T ck` u } P q  8 |(L | ~0 ~X  P|x".Ph7B Q^o}480xP| ;  @ h`.p>PNXPal Y {XPLP <ָҰxx &9?HN\W[dxl{t[|VV(V@(V UPVVh(\X#)2\<(KQ^Tmx\  T!y" \\%!1\9?M#T4c#w}`#w$|`\@$ 30v!1'-<C:Q\`\Hk\ht\l|\p\XCP5\| \\t\\C;'\@0\6<GtVDj[CzlrEpD~4Fp4 l `]h2|C _jp b N ] Zt' -<;`,Dx8WeHuzX]@OOKx4]  P(.[4r `h|c0<IjpD &5> HO_OHl0<3]e0|]d P#(*29@ pIxRX`z<pwN^PTN \0b@ $ .*  $5 BJOt mLzP,P^Xo0^p$g~`^ (H+H81h\D8\f,lOPO`OPP`+P&z|2 KpVPxxl` `xPP4T\h((L70@`HN@([@k - P(XhO~@Hň`'/@7@ XLh\l} TYP|Ph  `@-Hta@ *Q3;MHU  yO[8P a( px8 T "` +O W< `H q _L 2 4@ h @     !o  !-w!;a@!B!KaH!]!evH!s !!|!0!\!!| P!L!!!(! "XT"T"X"-P"90"Nd"_ "gh"xiP"O"0h"O"F""- # #0d#9}h\#Iɠ#QsP#`PP#q#~)P#@#@#N# \#$4# ! $  4 $( G $D$Kx$RO $sx$}T$@$Fh\$,$$L$ݰH$  $|%pT%%Ԩ%( %D%QD%Y0h%g %P% + %%s%`8%%t%%&  &%&.FX&:$&Akp&I\&X&_&k  &y &P&,&T&O &a`@&a'4,'PT'44'Ph'Wb'db@'j84'y'd 'O''0'c'#Pp'y@((Jx(/w (= (Y\ (z(GH8(<(T((c(((((@|(N )S)"PD)7$ )U)`8)fy88)z4) ))) )O,$))c){x*oX* t*ڠh*d*'*-P*N*YG@*lO***ؐp* H*(t* *y$*l*]+M P+d + O+Pd8+Vt+`'T+n+} + +0++h+ +Op++p, , ,7(X,A ,` ,oPH,,,,tP,,O,ЀT,, p- -6N-Pd@-] -lP$-O--ب---4---  . ..'  .FdX.RD.\O.~..O.Ph...6<..f / 4/ /3 p /O@/d/n/w 4///\/N/,//`// 0/dp/`/H0000d0)@0C0Jd0X0bH0d00gPt0 0 0   0(01T81 1-RD18d1C$1J1SX 1q^ !1x0p1`1#41 1b811ր10122X242$ܘh2/O2X l2f$2u  2V`22W22<2Ph22d3P3o3$^H35P03W 3w33 3l3" 33D33fh484 4$H4-4;e4Gt8 4MN 4mx4~T4\4 ; 4P4 4qp4P55 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94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.25 94/02/07 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.33 93/11/19 SMI@(#)rpc_com.h 1.15 94/01/18 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)rpc_msg.h 1.12 94/06/01 SMI@(#)auth_sys.h 1.13 93/11/12 SMI@(#)auth_des.h 1.12 93/05/30 SMI@(#)auth_kerb.h 1.8 93/05/26 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)svc.h 1.30 94/01/18 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)svc_auth.h 1.10 93/11/12 SMI@(#)rpcb_clnt.h 1.11 93/07/16 SMI@(#)rpcb_prot.x 1.3 92/07/14 SMI@(#)dirent.h 1.18 93/09/28 SMI@(#)dirent.h 1.14 93/10/15 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)rpc.h 1.11 93/02/04 SMI@(#)types.h 1.18 94/03/08 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.25 94/02/07 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.33 93/11/19 SMI@(#)rpc_com.h 1.15 94/01/18 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)rpc_msg.h 1.12 94/06/01 SMI@(#)auth_sys.h 1.13 93/11/12 SMI@(#)auth_des.h 1.12 93/05/30 SMI@(#)auth_kerb.h 1.8 93/05/26 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)svc.h 1.30 94/01/18 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)svc_auth.h 1.10 93/11/12 SMI@(#)rpcb_clnt.h 1.11 93/07/16 SMI@(#)rpcb_prot.x 1.3 92/07/14 SMI@(#)stdlib.h 1.24 94/03/28 SMI@(#)signal.h 1.24 94/07/12 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)procset.h 1.15 93/05/05 SMI@(#)stropts.h 1.7 94/01/12 SMI@(#)stropts.h 1.15 94/12/20 SMI@(#)conf.h 1.36 94/05/10 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)resource.h 1.10 93/12/21 SMI@(#)syslog.h 1.8 93/11/01 SMI@(#)syslog.h 1.10 92/07/14 SMI@(#)stdarg.h 1.11 94/01/05 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)rpc.h 1.11 93/02/04 SMI@(#)types.h 1.18 94/03/08 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.25 94/02/07 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.33 93/11/19 SMI@(#)rpc_com.h 1.15 94/01/18 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)rpc_msg.h 1.12 94/06/01 SMI@(#)auth_sys.h 1.13 93/11/12 SMI@(#)auth_des.h 1.12 93/05/30 SMI@(#)auth_kerb.h 1.8 93/05/26 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)svc.h 1.30 94/01/18 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)svc_auth.h 1.10 93/11/12 SMI@(#)rpcb_clnt.h 1.11 93/07/16 SMI@(#)rpcb_prot.x 1.3 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)rpc_comdata.c 1.11 94/04/24 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)trace.h 1.9 94/04/29 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)svc.c 1.23 94/04/24 SMI@(#)assert.h 1.9 92/07/14 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)errno.h 1.12 94/03/21 SMI@(#)errno.h 1.15 95/01/24 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)pmap_clnt.h 1.11 94/04/25 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)syslog.h 1.10 92/07/14 SMI@(#)stdlib.h 1.24 94/03/28 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)svc_auth.c 1.16 94/04/24 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)trace.h 1.9 94/04/29 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)svc_auth_sys.c 1.12 93/07/05 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)syslog.h 1.10 92/07/14 SMI@(#)trace.h 1.9 94/04/29 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)svc_generic.c 1.19 94/04/24 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)errno.h 1.12 94/03/21 SMI@(#)errno.h 1.15 95/01/24 SMI@(#)syslog.h 1.10 92/07/14 SMI@(#)nettype.h 1.11 94/04/25 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)malloc.h 1.8 92/07/14 SMI@(#)string.h 1.15 93/12/15 SMI@(#)stropts.h 1.7 94/01/12 SMI@(#)stropts.h 1.15 94/12/20 SMI@(#)conf.h 1.36 94/05/10 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)svc_run.c 1.14 94/04/24 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)errno.h 1.12 94/03/21 SMI@(#)errno.h 1.15 95/01/24 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)syslog.h 1.10 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)svc_vc.c 1.22 94/04/24 SMI@(#)svc_vc.c 1.22 94/04/24 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)errno.h 1.12 94/03/21 SMI@(#)errno.h 1.15 95/01/24 SMI@(#)stat.h 1.21 93/12/15 SMI@(#)mkdev.h 1.14 93/10/13 SMI@(#)syslog.h 1.10 92/07/14 SMI@(#)nettype.h 1.11 94/04/25 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)string.h 1.15 93/12/15 SMI@(#)stropts.h 1.7 94/01/12 SMI@(#)stropts.h 1.15 94/12/20 SMI@(#)conf.h 1.36 94/05/10 SMI@(#)kerb_private.h 1.9 94/04/25 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)xdr.c 1.16 94/04/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)syslog.h 1.10 92/07/14 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)limits.h 1.22 94/06/08 SMI@(#)types.h 1.16 94/04/25 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)xdr_rec.c 1.20 94/04/24 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)types.h 1.16 94/04/25 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)syslog.h 1.10 92/07/14 SMI@(#)memory.h 1.8 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)xdr_mem.c 1.15 94/04/24 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)types.h 1.16 94/04/25 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)memory.h 1.8 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)xdr_rec.c 1.20 94/04/24 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)types.h 1.16 94/04/25 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)syslog.h 1.10 92/07/14 SMI@(#)memory.h 1.8 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)xdr_refer.c 1.10 93/07/05 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)syslog.h 1.10 92/07/14 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)types.h 1.16 94/04/25 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)memory.h 1.8 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)rpc_sel2poll.c 1.6 94/04/24 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)poll.h 1.18 94/06/07 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)rpc_td.c 1.8 94/04/24 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)errno.h 1.12 94/03/21 SMI@(#)errno.h 1.15 95/01/24 SMI@(#)string.h 1.15 93/12/15 SMI@(#)stropts.h 1.7 94/01/12 SMI@(#)stropts.h 1.15 94/12/20 SMI@(#)conf.h 1.36 94/05/10 SMI@(#)tcp.h 1.5 93/08/18 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)svcauth_kerb.c 1.11 94/04/25 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)systm.h 1.44 94/05/18 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)types.h 1.16 94/04/25 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)t_kuser.h 1.16 93/11/01 SMI@(#)file.h 1.34 94/01/21 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)kerb_private.h 1.9 94/04/25 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)synch.h 1.21 93/04/13 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)mt_misc.c 1.24 93/04/29 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)stdlib.h 1.24 94/03/28 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)authsys_prot.c 1.10 93/07/05 SMI@(#)types.h 1.16 94/04/25 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)auth_sys.h 1.13 94/04/25 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)pmap_clnt.c 1.15 94/04/24 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)nettype.h 1.11 94/04/25 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)netdir.h 1.14 92/12/23 SMI@(#)pmap_prot.x 1.6 94/04/29 SMI@(#)pmap_clnt.h 1.11 94/04/25 SMI@(#)pmap_rmt.h 1.10 93/07/05 SMI@(#)syslog.h 1.10 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)pmap_prot.c 1.13 94/04/24 SMI@(#)types.h 1.16 94/04/25 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)pmap_prot.x 1.6 94/04/29 SMI@(#)pmap_rmt.h 1.10 93/07/05 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)port.c 1.10 93/07/05 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)trace.h 1.9 94/04/29 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)rpc_callmsg.c 1.10 93/07/05 SMI@(#)param.h 1.29 94/06/09 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)rpc_generic.c 1.17 94/04/24 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)nettype.h 1.11 94/04/25 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)mkdev.h 1.14 93/10/13 SMI@(#)stat.h 1.21 93/12/15 SMI@(#)ctype.h 1.15 93/11/02 SMI@(#)resource.h 1.10 93/12/21 SMI@(#)malloc.h 1.8 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)rpc_prot.c 1.11 93/07/05 SMI@(#)param.h 1.29 94/06/09 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)rpc_soc.c 1.17 94/04/24 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)netdb.h 1.13 94/01/26 SMI@(#)netdir.h 1.14 92/12/23 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)errno.h 1.12 94/03/21 SMI@(#)errno.h 1.15 95/01/24 SMI@(#)syslog.h 1.10 92/07/14 SMI@(#)pmap_clnt.h 1.11 94/04/25 SMI@(#)pmap_prot.x 1.6 94/04/29 SMI@(#)nettype.h 1.11 94/04/25 SMI@(#)stdlib.h 1.24 94/03/28 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)rpcb_clnt.c 1.27 94/04/24 SMI@(#)assert.h 1.9 92/07/14 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)netdir.h 1.14 92/12/23 SMI@(#)nettype.h 1.11 94/04/25 SMI@(#)pmap_prot.x 1.6 94/04/29 SMI@(#)utsname.h 1.21 94/08/02 SMI@(#)errno.h 1.12 94/03/21 SMI@(#)errno.h 1.15 95/01/24 SMI@(#)stdlib.h 1.24 94/03/28 SMI@(#)string.h 1.15 93/12/15 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)rpcb_prot.c 1.13 94/04/24 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)trace.h 1.9 94/04/29 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)svc_dg.c 1.17 94/04/24 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)errno.h 1.12 94/03/21 SMI@(#)errno.h 1.15 95/01/24 SMI@(#)syslog.h 1.10 92/07/14 SMI@(#)stdlib.h 1.24 94/03/28 SMI@(#)kerb_private.h 1.9 94/04/25 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)svc_raw.c 1.16 94/04/24 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)raw.h 1.11 94/04/25 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)svc_simple.c 1.18 94/04/24 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)syslog.h 1.10 92/07/14 SMI@(#)nettype.h 1.11 94/04/25 SMI@(#)netconfig.h 1.12 93/02/04 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)xdr_array.c 1.11 93/07/05 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)syslog.h 1.10 92/07/14 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)types.h 1.16 94/04/25 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)memory.h 1.8 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)clnt_bcast.c 1.18 94/05/03 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)nettype.h 1.11 94/04/25 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)netdir.h 1.14 92/12/23 SMI@(#)pmap_prot.x 1.6 94/04/29 SMI@(#)pmap_clnt.h 1.11 94/04/25 SMI@(#)pmap_rmt.h 1.10 93/07/05 SMI@(#)errno.h 1.12 94/03/21 SMI@(#)errno.h 1.15 95/01/24 SMI@(#)syslog.h 1.10 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)clnt_generic.c 1.20 94/05/03 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)errno.h 1.12 94/03/21 SMI@(#)errno.h 1.15 95/01/24 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)nettype.h 1.11 94/04/25 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)netdir.h 1.14 92/12/23 SMI@(#)string.h 1.15 93/12/15 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)clnt_perror.c 1.22 94/04/22 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)libintl.h 1.7 93/10/06 SMI@(#)string.h 1.15 93/12/15 SMI@(#)types.h 1.16 94/04/25 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)stdlib.h 1.24 94/03/28 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)clnt_raw.c 1.15 94/04/24 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)raw.h 1.11 94/04/25 SMI@(#)syslog.h 1.10 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)clnt_simple.c 1.17 94/04/24 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)errno.h 1.12 94/03/21 SMI@(#)errno.h 1.15 95/01/24 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)string.h 1.15 93/12/15 SMI@(#)stdlib.h 1.24 94/03/28 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)clnt_vc.c 1.25 94/04/24 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)assert.h 1.9 92/07/14 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)errno.h 1.12 94/03/21 SMI@(#)errno.h 1.15 95/01/24 SMI@(#)mkdev.h 1.14 93/10/13 SMI@(#)syslog.h 1.10 92/07/14 SMI@(#)stdlib.h 1.24 94/03/28 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)auth_none.c 1.15 94/04/18 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)types.h 1.16 94/04/25 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)auth_sys.c 1.17 94/04/20 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)syslog.h 1.10 92/07/14 SMI@(#)types.h 1.16 94/04/25 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)auth_sys.h 1.13 94/04/25 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)clnt_dg.c 1.23 94/04/22 SMI@(#)assert.h 1.9 92/07/14 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)errno.h 1.12 94/03/21 SMI@(#)errno.h 1.15 95/01/24 SMI@(#)syslog.h 1.10 92/07/14 SMI@(#)kstat.h 1.9 94/04/19 SMI@(#)stdlib.h 1.24 94/03/28 SMI@(#)kerb_private.h 1.9 94/04/25 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1as: SC3.1 dev 09 May 1994 GCC: (GNU) 2.6-95q2as: SC3.1 dev 09 May 1994 GCC: (GNU) 2.6-95q2as: SC3.1 dev 09 May 1994 GCC: (GNU) 2.6-95q2as: SC3.1 dev 09 May 1994 GCC: (GNU) 2.6-95q2as: SC3.1 dev 09 May 1994 GCC: (GNU) 2.6-95q2as: SC3.1 dev 09 May 1994 GCC: (GNU) 2.6-95q2as: SC3.1 dev 09 May 1994 GCC: (GNU) 2.6-95q2as: SC3.1 dev 09 May 1994 GCC: (GNU) 2.6-95q2as: SC3.1 dev 09 May 1994 GCC: (GNU) 2.6-95q2as: SC3.1 dev 09 May 1994 GCC: (GNU) 2.6-95q2as: SC3.1 dev 09 May 1994 GCC: (GNU) 2.6-95q2as: SC3.1 dev 09 May 1994 GCC: (GNU) 2.6-95q2as: SC3.1 dev 09 May 1994 GCC: (GNU) 2.6-95q2as: SC3.1 dev 09 May 1994 GCC: (GNU) 2.6-95q2as: SC3.1 dev 09 May 1994 GCC: (GNU) 2.6-95q2as: SC3.1 dev 09 May 1994 GCC: (GNU) 2.6-95q2as: SC3.1 dev 09 May 1994 GCC: (GNU) 2.6-95q2as: SC3.1 dev 09 May 1994 GCC: (GNU) 2.6-95q2ld: (SGU) SunOS/ELF (LK-2.0 (S/I) - versioning).interp.hash.dynsym.dynstr.rela.ex_shared.rela.bss.rela.plt.text.init.fini.exception_ranges.rodata.rodata1.got.dynamic.plt.ex_shared.data.data1.bss.symtab.strtab.stab.index.comment.shstrtab.stab.indexstrvalues-Xt.cXt ; V=3.0 ; R=3.0/export/set/seva/bootstrap/3.0.1/lang/csu/sparc; /export/set/seva/bootstrap/3.0.1/boot3/bin/sparc/SC3.0.1/../bin/../SC3.0.1/bin/cc -c -O -DELF -o values-xt.o ../src/values-Xt.c -W0,-xpdir_proc.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -DDEBUG -c dir_proc.c -W0,-xpdir_svc.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -DDEBUG -c dir_svc.c -W0,-xpmaindir_xdr.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -DDEBUG -c dir_xdr.c -W0,-xprpc_comdata.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/rpc_comdata.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSBWOkxAzV./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/rpc_comdata.o rpc/rpc_comdata.c -W0,-xp\$XAbAQsSBWOkxAzV._svc_getreqset_procsvc_fdset_null_auth/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(rpc_comdata.o)svc.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/svc.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSjWOkxA3V./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/svc.o rpc/svc.c -W0,-xp\$XAbAQsSjWOkxA3V.$XAbAQsSjWOkxA3V.svc_getreqset_errstr$XAbAQsSjWOkxA3V.svc_getreqset_errstrxprt_registerxprt_unregistersvc_regsvc_unregsvc_registersvc_unregistersvc_sendreplysvcerr_noprocsvcerr_decodesvcerr_systemerr__svc_versquiet_on__svc_versquiet_offsvc_versquiet__svc_versquiet_getsvcerr_authsvcerr_weakauthsvcerr_noprogsvcerr_progverssvc_getreqsvc_getreqsetsvc_getreq_pollsvc_getreq_common$XAbAQsSjWOkxA3V.svc_head$XAbAQsSjWOkxA3V.xports/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(svc.o)svc_auth.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/svc_auth.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSpWOkxg3V./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/svc_auth.o rpc/svc_auth.c -W0,-xp\$XAbAQsSpWOkxg3V.$XAbAQsSpWOkxg3V.Auths__authenticate__svcauth_nullsvc_auth_reg/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(svc_auth.o)svc_auth_sys.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/svc_auth_sys.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsStWOkxA4V./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/svc_auth_sys.o rpc/svc_auth_sys.c -W0,-xp\$XAbAQsStWOkxA4V.__svcauth_sys__svcauth_short__svcauth_unix/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(svc_auth_sys.o)svc_generic.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/svc_generic.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsS1WOkxA5V./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/svc_generic.o rpc/svc_generic.c -W0,-xp\$XAbAQsS1WOkxA5V.svc_create$XBbAQsS1WOkxA5V.svc_create.xprtlistsvc_tp_createsvc_tli_create/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(svc_generic.o)svc_run.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/svc_run.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSAXOkxA6V./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/svc_run.o rpc/svc_run.c -W0,-xp\$XAbAQsSAXOkxA6V.svc_runsvc_exit/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(svc_run.o)svc_vc.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/svc_vc.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSJXOkxA7V./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/svc_vc.o rpc/svc_vc.c -W0,-xp\$XAbAQsSJXOkxA7V.$XAbAQsSJXOkxA7V.errstring$XAbAQsSJXOkxA7V.errstring$XAbAQsSJXOkxA7V.svc_vc_create_str$XAbAQsSJXOkxA7V.svc_vc_create_str$XAbAQsSJXOkxA7V.svc_fd_create_str$XAbAQsSJXOkxA7V.svc_fd_create_str$XAbAQsSJXOkxA7V.makefd_xprt_str$XAbAQsSJXOkxA7V.makefd_xprt_str$XAbAQsSJXOkxA7V.rendezvous_request_str$XAbAQsSJXOkxA7V.rendezvous_request_str$XAbAQsSJXOkxA7V.do_accept_str$XAbAQsSJXOkxA7V.do_accept_str$XAbAQsSJXOkxA7V.no_mem_str$XAbAQsSJXOkxA7V.no_mem_str$XAbAQsSJXOkxA7V.no_tinfo_str$XAbAQsSJXOkxA7V.no_tinfo_strsvc_vc_create__svc_vc_setflagsvc_fd_create$XBbAQsSJXOkxA7V.svc_vc_ops.ops$XBbAQsSJXOkxA7V.svc_vc_rendezvous_ops.opssvc_vc_checksumsvc_vc_set_integritysvc_vc_cksum_noop$XAbAQsSJXOkxA7V.cksum_ops/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(svc_vc.o)xdr.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/xdr.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSRXOkxg7V./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/xdr.o rpc/xdr.c -W0,-xp\$XAbAQsSRXOkxg7V.xdr_freexdr_voidxdr_intxdr_u_intxdr_longxdr_u_longxdr_shortxdr_u_shortxdr_charxdr_u_charxdr_boolxdr_enumxdr_opaque$XAbAQsSRXOkxg7V.xdr_err$XAbAQsSRXOkxg7V.xdr_errxdr_bytesxdr_netobjxdr_unionxdr_stringxdr_hyperxdr_u_hyperxdr_longlong_txdr_u_longlong_txdr_wrapstring$XAbAQsSRXOkxg7V.xdr_zero/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(xdr.o)xdr_rec_integrity.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/xdr_rec_integrity.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSXXOkxA9V./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/xdr_rec_integrity.o rpc/xdr_rec_integrity.c -W0,-xp\$XAbAQsSXXOkxA9V.$XAbAQsSXXOkxA9V.mem_err_msg_rec$XAbAQsSXXOkxA9V.mem_err_msg_recxdrrec_integrity_createxdrrec_integrity_readbytesxdrrec_integrity_skiprecordxdrrec_integrity_eofxdrrec_integrity_endofrecord__is_xdrrec_integrity_first__xdrrec_integrity_setfirst__xdrrec_integrity_resetfirstxdrrec_integrity_set_cksumxdrs_eofend_of_record__setfirst__resetfirst__is_first__skiprecordxdrrec_integrity_checksum_inintegrity_ops/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(xdr_rec_integrity.o)xdr_mem.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/xdr_mem.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSbXOkxg9V./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/xdr_mem.o rpc/xdr_mem.c -W0,-xp\$XAbAQsSbXOkxg9V.xdrmem_create$XBbAQsSbXOkxg9V.xdrmem_ops.ops/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(xdr_mem.o)xdr_rec.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/xdr_rec.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSdXOkxA_V./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/xdr_rec.o rpc/xdr_rec.c -W0,-xp\$XAbAQsSdXOkxA_V.$XAbAQsSdXOkxA_V.mem_err_msg_rec$XAbAQsSdXOkxA_V.mem_err_msg_recxdrrec_createxdrrec_readbytesxdrrec_skiprecordxdrrec_eofxdrrec_endofrecord__is_xdrrec_first__xdrrec_setfirst__xdrrec_resetfirst$XBbAQsSdXOkxA_V.xdrrec_ops.ops/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(xdr_rec.o)xdr_refer.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/xdr_refer.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSgXOkxg_V./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/xdr_refer.o rpc/xdr_refer.c -W0,-xp\$XAbAQsSgXOkxg_V.mem_err_msg_refxdr_referencexdr_pointer/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(xdr_refer.o)rpc_sel2poll.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/rpc_sel2poll.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSf6OkxwPW./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/rpc_sel2poll.o rpc/rpc_sel2poll.c -W0,-xp\$XAbAQsSf6OkxwPW.__rpc_select_to_poll__rpc_timeval_to_msec/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(rpc_sel2poll.o)rpc_td.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/rpc_td.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSh6OkxQQW./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/rpc_td.o rpc/rpc_td.c -W0,-xp\$XAbAQsSh6OkxQQW.__td_setnodelay$XBbAQsSh6OkxQQW.__td_setnodelay.td_opt_lock$XBbAQsSh6OkxQQW.__td_setnodelay.t_optreq$XBbAQsSh6OkxQQW.__td_setnodelay.t_optret/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(rpc_td.o)svcauth_kerb.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/svcauth_kerb.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSp6OkxQRW./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/svcauth_kerb.o rpc/svcauth_kerb.c -W0,-xp\$XAbAQsSp6OkxQRW.$XAbAQsSp6OkxQRW.authkerb_cache$XAbAQsSp6OkxQRW.def_mycred$XAbAQsSp6OkxQRW.my_credpserver_boottimesvc_kerb_reg__svcauth_kerbkerb_get_session_credkerb_error__svcauth_kerb_checksum_datasvcauthkerbstats_lockauthkerb_lock$XAbAQsSp6OkxQRW.svcauthkerb_stats$XAbAQsSp6OkxQRW.authkerb_lru/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(svcauth_kerb.o)mt_misc.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/mt_misc.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSv6OkxQSW./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/mt_misc.o rpc/mt_misc.c -W0,-xp\$XAbAQsSv6OkxQSW.$XAbAQsSv6OkxQSW.rwlock_table$XAbAQsSv6OkxQSW.rwlock_table$XAbAQsSv6OkxQSW.mutex_table$XAbAQsSv6OkxQSW.mutex_table_libnsl_lock_init__rpc_createerr$XBbAQsSv6OkxQSW.__rpc_createerr.rce_keyrpc_createerrlock_valueserialize_pkeyxprtlist_locktsd_locksvcraw_lockrpcsoc_lockproglst_lockportnum_lockops_lockloopnconf_locklibnsl_trace_lockkeyserv_lockdupreq_lockdname_lockclntraw_lockclnt_fd_lockauthsvc_lockauthnone_lockauthdes_lockrpcbaddr_cache_locksvc_fd_locksvc_lock/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(mt_misc.o)authsys_prot.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/authsys_prot.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSuUOkxAoV./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/authsys_prot.o rpc/authsys_prot.c -W0,-xp\$XAbAQsSuUOkxAoV.xdr_authsys_parmsxdr_uid_txdr_gid_t/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(authsys_prot.o)pmap_clnt.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/pmap_clnt.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSwVOkxAxV./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/pmap_clnt.o rpc/pmap_clnt.c -W0,-xp\$XAbAQsSwVOkxAxV.$XAbAQsSwVOkxAxV.timeout$XAbAQsSwVOkxAxV.tottimeout$XAbAQsSwVOkxAxV.rmttimeoutpmap_setpmap_unsetpmap_getportpmap_getmapspmap_rmtcall/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(pmap_clnt.o)pmap_prot.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/pmap_prot.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsS0VOkxgxV./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/pmap_prot.o rpc/pmap_prot.c -W0,-xp\$XAbAQsS0VOkxgxV.xdr_pmapxdr_pmaplist_ptrxdr_pmaplistxdr_rmtcallargsxdr_rmtcallres/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(pmap_prot.o)port.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/port.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsS5VOkxAyV./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/port.o rpc/port.c -W0,-xp\$XAbAQsS5VOkxAyV.ffs/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(port.o)rpc_callmsg.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/rpc_callmsg.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsS_VOkxgyV./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/rpc_callmsg.o rpc/rpc_callmsg.c -W0,-xp\$XAbAQsS_VOkxgyV.xdr_callmsg/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(rpc_callmsg.o)rpc_generic.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/rpc_generic.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSFWOkxgzV./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/rpc_generic.o rpc/rpc_generic.c -W0,-xp\$XAbAQsSFWOkxgzV._rpctypelist__rpc_dtbsize$XBbAQsSFWOkxgzV.__rpc_dtbsize.tbsize__rpc_get_t_size__rpc_get_a_size__rpc_getconfip$XBbAQsSFWOkxgzV.__rpc_getconfip.netid_tcp_main$XBbAQsSFWOkxgzV.__rpc_getconfip.netid_udp_main$XBbAQsSFWOkxgzV.__rpc_getconfip.tcp_key$XBbAQsSFWOkxgzV.__rpc_getconfip.udp_key__rpc_setconf__rpc_getconf__rpc_endconfrpc_nullproc__rpcgettp/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(rpc_generic.o)rpc_prot.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/rpc_prot.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSJWOkxA0V./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/rpc_prot.o rpc/rpc_prot.c -W0,-xp\$XAbAQsSJWOkxA0V.xdr_opaque_authxdr_des_blockxdr_accepted_replyxdr_rejected_replyxdr_replymsgxdr_callhdr__seterr_reply_null_auth/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(rpc_prot.o)rpc_soc.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/rpc_soc.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSNWOkxg0V./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/rpc_soc.o rpc/rpc_soc.c -W0,-xp\$XAbAQsSNWOkxg0V.clntudp_bufcreateclntudp_createclnttcp_createclntraw_createsvctcp_createsvcudp_bufcreatesvcfd_createsvcudp_createsvcraw_create__rpc_bindresvport$XBbAQsSNWOkxg0V.__rpc_bindresvport.portget_myaddresscallrpcregisterrpcclnt_broadcastauthdes_create$XAbAQsSNWOkxg0V.clnt_broadcast_result_main$XAbAQsSNWOkxg0V.clnt_broadcast_key/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(rpc_soc.o)rpcb_clnt.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/rpcb_clnt.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsS9sJmxw9n./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/rpcb_clnt.o rpc/rpcb_clnt.c -W0,-xp\$XAbAQsS9sJmxw9n.$XAbAQsS9sJmxw9n.tottimeout$XAbAQsS9sJmxw9n.rmttimeout$XAbAQsS9sJmxw9n.nullstring$XAbAQsS9sJmxw9n.nullstring__rpc_control$XBbAQsS9sJmxw9n.local_rpcb.loopnconf$XBbAQsS9sJmxw9n.local_rpcb.hostnamerpcb_setrpcb_unset__rpcb_findaddrrpcb_getaddrrpcb_getmapsrpcb_rmtcallrpcb_gettimerpcb_taddr2uaddrrpcb_uaddr2taddr$XAbAQsS9sJmxw9n.cachesize$XAbAQsS9sJmxw9n.front/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(rpcb_clnt.o)rpcb_prot.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/rpcb_prot.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSZWOkxg1V./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/rpcb_prot.o rpc/rpcb_prot.c -W0,-xp\$XAbAQsSZWOkxg1V.xdr_rpcbxdr_rpcblist_ptrxdr_rpcblistxdr_rpcb_entryxdr_rpcb_entry_list_ptrxdr_rpcb_rmtcallargsxdr_rpcb_rmtcallresxdr_netbuf/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(rpcb_prot.o)svc_dg.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/svc_dg.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSxWOkxg4V./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/svc_dg.o rpc/svc_dg.c -W0,-xp\$XAbAQsSxWOkxg4V.$XAbAQsSxWOkxg4V.svc_dg_str$XAbAQsSxWOkxg4V.svc_dg_str$XAbAQsSxWOkxg4V.svc_dg_err1$XAbAQsSxWOkxg4V.svc_dg_err1$XAbAQsSxWOkxg4V.svc_dg_err2$XAbAQsSxWOkxg4V.svc_dg_err2$XAbAQsSxWOkxg4V.__no_mem_str$XAbAQsSxWOkxg4V.__no_mem_strsvc_dg_create$XBbAQsSxWOkxg4V.svc_dg_ops.ops$XAbAQsSxWOkxg4V.cache_enable_str$XAbAQsSxWOkxg4V.cache_enable_str$XAbAQsSxWOkxg4V.alloc_err$XAbAQsSxWOkxg4V.alloc_err$XAbAQsSxWOkxg4V.enable_err$XAbAQsSxWOkxg4V.enable_errsvc_dg_enablecache$XAbAQsSxWOkxg4V.cache_set_str$XAbAQsSxWOkxg4V.cache_set_str$XAbAQsSxWOkxg4V.cache_set_err1$XAbAQsSxWOkxg4V.cache_set_err1$XAbAQsSxWOkxg4V.cache_set_err2$XAbAQsSxWOkxg4V.cache_set_err2$XAbAQsSxWOkxg4V.cache_set_err3$XAbAQsSxWOkxg4V.cache_set_err3svc_dg_checksumsvc_dg_cksum_noop/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(svc_dg.o)svc_raw.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/svc_raw.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsS7WOkxg5V./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/svc_raw.o rpc/svc_raw.c -W0,-xp\$XAbAQsS7WOkxg5V.svc_raw_create$XBbAQsS7WOkxg5V.svc_raw_ops.ops$XAbAQsS7WOkxg5V.svc_raw_private_rawcombuf/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(svc_raw.o)svc_simple.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/svc_simple.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSFXOkxg6V./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/svc_simple.o rpc/svc_simple.c -W0,-xp\$XAbAQsSFXOkxg6V.$XAbAQsSFXOkxg6V.rpc_reg_err$XAbAQsSFXOkxg6V.rpc_reg_err$XAbAQsSFXOkxg6V.rpc_reg_msg$XAbAQsSFXOkxg6V.rpc_reg_msg$XAbAQsSFXOkxg6V.__reg_err1$XAbAQsSFXOkxg6V.__reg_err1$XAbAQsSFXOkxg6V.__reg_err2$XAbAQsSFXOkxg6V.__reg_err2$XAbAQsSFXOkxg6V.__reg_err3$XAbAQsSFXOkxg6V.__reg_err3$XAbAQsSFXOkxg6V.__no_mem_str$XAbAQsSFXOkxg6V.__no_mem_strrpc_reg$XAbAQsSFXOkxg6V.__univ_err$XAbAQsSFXOkxg6V.__univ_err$XAbAQsSFXOkxg6V.proglst/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(svc_simple.o)xdr_array.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/xdr_array.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSTXOkxA8V./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/xdr_array.o rpc/xdr_array.c -W0,-xp\$XAbAQsSTXOkxA8V.mem_err_msg_arrxdr_arrayxdr_vector/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(xdr_array.o)clnt_bcast.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/clnt_bcast.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSwUOkxgoV./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/clnt_bcast.o rpc/clnt_bcast.c -W0,-xp\$XAbAQsSwUOkxgoV.lowversrpc_broadcast_exprpc_broadcast/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(clnt_bcast.o)clnt_generic.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/clnt_generic.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsS9UOkxAqV./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/clnt_generic.o rpc/clnt_generic.c -W0,-xp\$XAbAQsS9UOkxAqV.clnt_create_versclnt_createclnt_tp_createclnt_tli_create/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(clnt_generic.o)clnt_perror.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/clnt_perror.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSBVOkxgqV./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/clnt_perror.o rpc/clnt_perror.c -W0,-xp\$XAbAQsSBVOkxgqV.__nsl_dom$XBbAQsSBVOkxgqV.__buf.perror_keyclnt_sperrorclnt_perrorclnt_perrnoclnt_spcreateerrorclnt_pcreateerrorclnt_sperrno/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(clnt_perror.o)clnt_raw.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/clnt_raw.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSFVOkxArV./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/clnt_raw.o rpc/clnt_raw.c -W0,-xp\$XAbAQsSFVOkxArV.clnt_raw_create$XBbAQsSFVOkxArV.clnt_raw_freeres.dummy$XBbAQsSFVOkxArV.clnt_raw_ops.ops$XAbAQsSFVOkxArV.clnt_raw_private_rawcombuf/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(clnt_raw.o)clnt_simple.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/clnt_simple.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSIVOkxgrV./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/clnt_simple.o rpc/clnt_simple.c -W0,-xp\$XAbAQsSIVOkxgrV.rpc_call$XBbAQsSIVOkxgrV.rpc_call.rpc_call_key$XAbAQsSIVOkxgrV.rpc_call_private_main/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(clnt_simple.o)clnt_vc.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/clnt_vc.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSMVOkxAsV./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/clnt_vc.o rpc/clnt_vc.c -W0,-xp\$XAbAQsSMVOkxAsV.$XAbAQsSMVOkxAsV.clnt_vc_errstr$XAbAQsSMVOkxAsV.clnt_vc_errstr$XAbAQsSMVOkxAsV.clnt_vc_str$XAbAQsSMVOkxAsV.clnt_vc_str$XAbAQsSMVOkxAsV.clnt_read_vc_str$XAbAQsSMVOkxAsV.clnt_read_vc_str$XAbAQsSMVOkxAsV.__no_mem_str$XAbAQsSMVOkxAsV.__no_mem_strclnt_vc_create$XBbAQsSMVOkxAsV.read_vc.pfdp_main$XBbAQsSMVOkxAsV.read_vc.pfdp_key$XBbAQsSMVOkxAsV.clnt_vc_ops.opsclnt_vc_setup_integrity$XAbAQsSMVOkxAsV.vc_cv$XAbAQsSMVOkxAsV.vc_fd_locks/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(clnt_vc.o)auth_none.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/auth_none.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSoUOkxAnV./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/auth_none.o rpc/auth_none.c -W0,-xp\$XAbAQsSoUOkxAnV.authnone_create$XBbAQsSoUOkxAnV.authnone_ops.ops$XAbAQsSoUOkxAnV.authnone_private/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(auth_none.o)auth_sys.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/auth_sys.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSqUOkxgnV./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/auth_sys.o rpc/auth_sys.c -W0,-xp\$XAbAQsSqUOkxgnV.$XAbAQsSqUOkxgnV.auth_sys_str$XAbAQsSqUOkxgnV.auth_sys_str$XAbAQsSqUOkxgnV.authsys_create_str$XAbAQsSqUOkxgnV.authsys_create_str$XAbAQsSqUOkxgnV.__no_mem_auth$XAbAQsSqUOkxgnV.__no_mem_authauthsys_create$XAbAQsSqUOkxgnV.authsys_def_str$XAbAQsSqUOkxgnV.authsys_def_strauthsys_create_default$XAbAQsSqUOkxgnV.marshal_new_auth_str$XAbAQsSqUOkxgnV.marshal_new_auth_str$XBbAQsSqUOkxgnV.authsys_ops.ops/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(auth_sys.o)clnt_dg.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/clnt_dg.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsS4UOkxgpV./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/clnt_dg.o rpc/clnt_dg.c -W0,-xp\$XAbAQsS4UOkxgpV.$XAbAQsS4UOkxgpV.mem_err_clnt_dg$XAbAQsS4UOkxgpV.mem_err_clnt_dgclnt_dg_createclnt_dg_call$XBbAQsS4UOkxgpV.clnt_dg_ops.ops$XAbAQsS4UOkxgpV.dg_cv$XAbAQsS4UOkxgpV.dg_fd_locks/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(clnt_dg.o) $   !33 TT /TTH 9UU CZZ<I44@Ott8Ugo \ \ *x},,( TT xx,|FFNNN<`5 ߔ'xche_set_err3svc_dg_checksumsvc_dg_cksum_noop/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(svc_dg.o)svc_raw.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/librpc/demo/dir/rls.o010060000060310000145000000071540614611633300152620ustar00delgadooraweb00000000000001ELF 4( .shstrtab.text.rodata1.stab.index.stab.indexstr.comment.strtab.symtab.rela.text㿈'H'DD #`%H @@ @H  'H  ' L '@@' @ @ @@@' @ @@ @  ! $ @ @  '#` @@  ' @usage: %s host directory tcp%s <4*rls.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -DDEBUG -c rls.c -W0,-xpmain@(#)stdio.h 1.34 94/06/07 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)rpc.h 1.11 93/02/04 SMI@(#)types.h 1.18 94/03/08 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)auth.h 1.25 94/02/07 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.33 93/11/19 SMI@(#)rpc_com.h 1.15 94/01/18 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)rpc_msg.h 1.12 94/06/01 SMI@(#)auth_sys.h 1.13 93/11/12 SMI@(#)auth_des.h 1.12 93/05/30 SMI@(#)auth_kerb.h 1.8 93/05/26 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)svc.h 1.30 94/01/18 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)svc_auth.h 1.10 93/11/12 SMI@(#)rpcb_clnt.h 1.11 93/07/16 SMI@(#)rpcb_prot.x 1.3 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1rls.cprintfperrorclnt_perrorreaddir_1clnt_pcreateerrorclnt_createexitfprintfmainerrno__iob!+=INV[a, 0 4 8 P `    4D h l |   4Y $0 &5> gF N  rpc/demo/dir/dir_clnt.o010060000060310000145000000062340614611633500162600ustar00delgadooraweb00000000000001ELF 4( .shstrtab.text.bss.data.stab.index.stab.indexstr.comment.strtab.symtab.rela.text㿐'H'D!   @@H   H %D+`-/@@$ $ #\  '! ' <4dir_clnt.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -DDEBUG -c dir_clnt.c -W0,-xp@(#)rpc.h 1.11 93/02/04 SMI@(#)types.h 1.18 94/03/08 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.25 94/02/07 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.33 93/11/19 SMI@(#)rpc_com.h 1.15 94/01/18 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)rpc_msg.h 1.12 94/06/01 SMI@(#)auth_sys.h 1.13 93/11/12 SMI@(#)auth_des.h 1.12 93/05/30 SMI@(#)auth_kerb.h 1.8 93/05/26 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)svc.h 1.30 94/01/18 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)svc_auth.h 1.10 93/11/12 SMI@(#)rpcb_clnt.h 1.11 93/07/16 SMI@(#)rpcb_prot.x 1.3 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1dir_clnt.cTIMEOUTxdr_readdir_resxdr_nametypememsetreaddir_1 $18  8X \ d h l p t x   4[ $ (7n@ uBH P H  rpc/demo/dir/rls010070000060310000145000006626200614611633600150360ustar00delgadooraweb00000000000001ELF;4aX4 (44){2/usr/lib/ld.so.1af(H%R_oP;8NB{Ba3QSc `0 \7O/L:zb^De>MZce;E QyA]?8H@,.A/j[*_' Wdl= L9M<n^dY6W%iF<YPXR.+h6!V*&T$`?#u4=EK}4UD#1CV|"GaTbF[$ (-7@X&]+U:fSrwv52JNKpZmGqO3k'xts\)1I"0>9~52-! JIg)C, "l666;    h Pp0``8%0:M8V w;t~$,@c@4& :P PJwǸ4fh<| Px  ;lG@*$38A$pFfhV(`6d{@p p<| !@!R  8L!p8jJ`l0z$?` ((H|HD\@ 7=g$`,:Xl t "xC@NUZctkT8(x:- l<( )x1h: (@C}QX(tg ht `98 > T-L:@ @@PQ0@[8 { ` P 4 J@\XT0 7GXPXPiv_hP'0@\Y4`T@Y\a d H &@ CH| PԐ [ ht p + h    p  ] Z@X H\ * 6 T| m@   !@ (  34 ! !@  h #  /#8 <Xp N Y( ` k#P y, D  3`4 D 7p $ d  h #` 0 %D F QZ d D @ p Xt  $! `P  #x  2# 8 B]T P \8 g s {  p (X   H   ܐP h;TDK2pg\~ #  #ѐ)\2J8<BMYP` @Hlp[`#B @`%(/#<C8Mxp(H#?pt $ ^pPP $ h  !L `p+YH4=L<Q0d o4XhO `$(hP 1hHBtddo{\>h`$@8  0\ 9"& >pOP[ait 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'{  @@F @@%D @ <Ѐ   4 'p/   @@^'p`\p/   'tp p @@] '`!"'Ġ @@X\@@`   @t ' ܀@'h@@]@]̀̐@] /  @]/   @]  $   @˭'㿈'X'T'P'L'H'DDHLPTX\`/5@d@@#\#`#d#h#l$'''X'T'P'L'H'D ' t@]W t@@]R!#@]! <  @}'hh ,'ll@]! <$ ! <  @!#@]  @@]"! <  l@@\! @  @!!#a @@] 'd 'dh ,'pp@\! @$ ! @  @! < @\ ! <$ !#@\  @@\ '``h@! @ `,   @@\` '``h@! @  @!!#aФ @@\ 'p 'p!#@\n  @@\H @  $  'Dؐ@@\4? $  | $ @\/ s  $  '\T@ƿ'TX@Ʒ'XT @X @ N$  I $  C  $  ', @\' @T  4 ,'TX  4 ,'XTX h@[ @H  @['ll`$ l @` H  H  @@[H  'hh`$ h` $ `dX`T$  `$  `$ ?`$ ?` $ T`P$ X`X$ Т @@[@[РԠ'L'P'`4`T T @`4@͟ $   $    $ k`8   `4@`L$ D  @@[' @3`X  $ `d $ `0$  `$ D'`@ $  $ $   $   $ ``\$  à``4 '7 #a̐@@[* <$ @Z 4 $  .  $ @Z@ ` @Z@@Z '㾸'X'T'P'L'H'D   ' 't"'H(@Z (8@@Z!#@Z! < `,  ! @ `, #c@@Z! < `,  !# ! < `, $ !#@Z`  ? \$ $ `$ $  ' '`$ $ P`$ $ $ `4 '     `L @`T '$$  $$     H@   $    @    LP@Ā,!#@Z  ! < `, $ !#@Z 8 @@Z&! @ `, @ZG `$$  '    `T 'p'l '``P@@Z?9@Y `( $ @Y `($ !#@Y ! < `, $ !#@Y 8 @@Y! @ `, @Y `$$  'P 0 ,!#@Y ! < `, $ !#@Y 8 @@Y! @ `, @Y `$$  '%$ $ $ X'T'c''!Р"@@ '#Тb@$'!Р"@@ , ', '!Р"@@ '#Тb@$'!Р"@@@ @ @/!#@Y ! < `, $ !#@Y 8 @@Y ! @ `, @YA `$$  '@X 6@X `($  `( $ !#@X ! < `, $ !#@X 8 @@X! @ `, @Y `$$  '_@X   @X$ Bt @@X?  @Xz$ - 't @Xq$ $x @@X?  @X`$ x$'|$' $ '#Тb@' !Р"@@ '#Тb@$'!Р"@@x'|'@ @1@,!#@X  ! < `, $ !#@X 8 @@X;! @ `, @X\ `$$  ' @W$ `\ =@@XK'  ? `bT , <   `bT , <  4 `$$  @W$  `($ !#@W ! < `, $ !#@W 8 @@W! @ `, @W?'X '@W  @W$ ``0 @@X_'L ?'L @Wo$  @Wm$ L  @Wb L `@WW @WQ @WJ '` @@X% `( $  @W3 `( $ @W) `($ !#@W, ! < `, $ !#@W( 8 @@WG! @ `, @Wh `$$  '`0    @`d `T  @`d`0    @@'  (    $    @$ 'o `$$ EȀ  ؀  `$$ `$@Ɍ`$ Р @  ' ̐ş`$    $    @$ '' `$$ !#@Vm ! < `, $ !#@Vi 8 @@V! @ `, @V`$ '㿠'H'DD  H`$$ $ $ x'L'H'DD  `4ؐ@VF ؤ@@VA!#@V ! < `,  ! @ `, #c@@VG! < `,   ' HL@'!#@U  @@V! @ `, @V&'㿠p'L'H'DD  ؐ@U ؤ@@U!#@U! < `,  ! @ `, #c@@U! < `,  !# ! < `, $ !#@Ut `$ !#@Ua ! < `, $ !#@U]  @@U|! @ `, @U ' `$ !#@U7 ! < `, $ !#@U3  @@UR! @ `, @Us '#`D   $ !#@U  ! < `, $ !#@U  @@U$! @ `, @UE 'H   w L @)!#@T ! < `, $ !#@T  @@T! @ `, @U  'QL@)!#@T ! < `, $ !#@T  @@T! @ `, @T 'V`L$ $ %L`$ $ L` `  @@TL@Q)!#@TS ! < `, $ !#@TO  @@Tn! @ `, @T ' `L$ $ L`$ $ `L$ L`$ $ $ L'`   @C` @T  @T 'Ԡ`$ Ԡ @)!#@S ! < `, $ !#@S  @@T ! @ `, @T* '  `$   ` $ `     @@Td`T  L$ ]L  $`T $ T`T   L$ LL `T  $ D`T   L$ <L `T  $ 4!#@S~ ! < `, $ !#@Sz  @@S! @ `, @S '6H$  , !#!#@SL ! < `, $ !#@SH  @@Sg! @ `, @S '$(HhLx'DD  `'ܐ@S0 ܤ@@S+!#@R! < ,  ! @ , #c@@S1! < ,  ` @R`8   `4@ `0  $ `0  @@S` @R@@RD  D  L , < D  @RD  D  L , < D  @RD@R!#@R  @@R! @ , @Rxܐ@R ܤ@@R!#`@RS! 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D  !Р"@@ ' ''㿘'P'L'H'DLHP@Ā ' ''P'L'H'DD ' , 'XH    H @Ā' @    @ 'H    H @Ā$' l@@ H =LHP@Ā 'ldl @@P$ $ @ )  '$  'd$  'h$  ' '@\X% l @@P$ $ @ \X% @@Q   ($  'LHP@Ā ' '㿈'H'DD sD    D @Ā @?DH@ԏ 'DH @Ԁ 'DH @q 'DH @b '!'`H $ '`H  $ '`H  $ '`H  $  'D sD    D @Ā @?DH@ 'DH @  'xDH @ 'iDH @ 'Z!'` H$ '` H $ '` H $ '` H $  '5DH@ӹ%DH @ӮDH @ӣDH @Ә'' '㿐'H'D   " `  2 ' '2 '*@`  ' #c@@ '@'` 㿘'H'D@''㿀'H'D     @ @"@` ` 'z'``$ '`` $ '`` $     '` 6 'N    '` ` @ '5    '$` $     @`  '    @ '㿘'H'D@_``  ` @'' 'p'H'D `  !@ '` $ !@ '    `      4 ,` $     4 , ( @'``$ '`` $ `  'H'`` $ `  @ '7'``  $ '``  $ '``  $ ` 'ܠ` $ 'ؠ`  $       @@@N(      4 , 4 ,@` 'Ԡ` $ 'Р`  $        @@@M ' Q` 0$      @ @?` ,$ '` &`'` `$ `  ''` `$ `  @ ''` ` $ '` ` $ '` ` $ ` 'ܠ` ' 'ؠ`  $   O  !@ 'W   @   @M4 $           4 , @    @  '     @@@M;`      @ @҈     ''Ԡ` ' 'Р`  $   O  !@ '   @   @L $           4 , @    @ғ  '     @@@L     @` ($  '{     @` ,$ @``W` R`I`  @C` 9` /` %`  ` '     @` ($ ' ''T'P'L'H'D 0@K @ #a%'@@K '!@K  #a%'@@K '@j`$$ `,$  %$ $ $ ` %$ $ $   $ L @@KL'D'H'L''T'4T! @m4@@i #a%',@@Ks@L%8  4@ $  ' @KF'00 $ 0 @ #a%'@@KJ@K @@K '  T@@K\ '` '` '`@@'X @@K? #b%H@@K @K /@K@K @@K` #b%T@@J@K@@''㿠'D㿘'H'DD , H    H`a @''㿀'H'DH H , H  H   @i`  @ ` @JT `$ ` @S ` `& `& `&  '` @> `$ `& `& `& @ '`'D ,   ` @ 'b`  `$  ' 'Ġ` `  @Ģ@@+ܢ @@J' 'Ƞ  Ģ @ĀĢ@@ `& `& `& @N 'ĠĢ@@Ƞ  Đ@'㿠'D , ` @I`  @` @I , @I   @  @I@I|㿈'D ,  ! @@n@h  @_  #b:@@Is `   @!$ `   @㿘!#`@I'! `  @#a! `$ #a(! `$ #a! `$ #c0! `$ #a! `$ !#`@I ! `'㿘'H'D@̥5` @Ђ*`@3!` @P``  )!@@d ' '㿘'H'DDH@''DH@̍''㿘'H'DDH@''DH@g''㿘'X'T'P'L'H'DH  Lw '{L P   'lT@I 5,  'W@@H*H$    #`d@@H6 'A @@G  '5   @XT @@  H @G H$ '㿘'T'P'L'H'D@ @? ' @@  '㿐  t@ 2?   , `2`4@? ? t@    J JJJJJ J@JJJJJJ J JJJ@JJJJJJJ J@JJJJJJJ "@` J JJJJJ J@JJJJJJ J JJ"@ɒ`㿐 "`ܠ  @G  @G   `"` "99 %'   @F   @F  '  $     * `` ༐ '  ` $ @O Ҁ ```@F `@F    &@`&` 㿐! `@F]         *$    ` `$  㿀   @Fv @Fr  䀦     3    2@2   $  !@@ `@2@2@2@2`2@2@2@2`@d@2@`@a@@@@ 2 2  2@ & 2  (  " `2 @2 @2`&` 2@2@2@2`@h@@`@b@@    .!n!"0"0"0"0''耣`+` ?+` /+` +`? +`  +` 0 3`?` @ 3` 3` #   (    "*   @ ? 3  ?@ *3 ? *3  ? * 3  ? *3  `* @ @*3` ? *3` ? *'* * * *    `  @     @@@ 22 2@222`  @ @``@ @@@`  @2@2@2`2@2 @2@2 (@ $2@ "22 2@!2@2@2` h@@` d@@` b@2@2`2a2 @@2@@2` ''`@C @C 0&@&` 㿠@?ޜ㿠@t?SUNW_OST_NETRPC%s : %sclnt_vc_createout of memoryread_vcxdr_%s: out of memoryxdrrec_create: out of memoryxdrrec_create: out of memoryclnt_dg_create: out of memory%s : %sauthsys_createout of memoryauthsys_create_default: get%s failed: %mmarshal_new_auth - Fatal marshalling problemusage: %s host directory tcp%s inetAuthentication OKInvalid client credentialServer rejected credentialInvalid client verifierServer rejected verifierClient credential too weakInvalid server verifierFailed (unspecified error)Could not decode authenticatorTime of credential expiredSomething wrong with kerberos ticket fileIncorrect network address in kerberos ticketKerberos generic errorUnknown authentication error%s: ; %s; %s; %s; errno = %s; %s; low version = %lu, high version = %lu; why = %s(unknown authentication error - %d); low version = %lu, high version = %lu; s1 = %lu, s2 = %lu%s %s %s: - - - Error %d - ()TLI Error %dError %d - %s RPC: SuccessRPC: Can't encode argumentsRPC: Can't decode resultRPC: Unable to sendRPC: Unable to receiveRPC: Timed outRPC: Incompatible versions of RPCRPC: Authentication errorRPC: Program unavailableRPC: Program/version mismatchRPC: Procedure unavailableRPC: Server can't decode argumentsRPC: Remote system errorRPC: Unknown hostRPC: Unknown protocolRPC: Rpcbind failureRPC: Name to address translation failedRPC: Broadcast not supportedRPC: Program not registeredRPC: Remote server address unknownRPC: Miscellaneous tli errorRPC: Failed (unspecified error)RPC: RAC call in progressRPC: Stale RAC handleRPC: (unknown error code)vc_cv == (cond_t *) NULLrpc/clnt_vc.cvc_cv != (cond_t *) NULLrpc/clnt_vc.cnetpathvisiblecircuit_vdatagram_vcircuit_ndatagram_ntcpudpRW_READ_HELD(&rpcbaddr_cache_lock)rpc/rpcb_clnt.cRW_WRITE_HELD(&rpcbaddr_cache_lock)rpc/rpcb_clnt.cloopback%d%dinettcptcploopbackbytesstringCreating integrity ops datagram_ndg_cv == (cond_t *) NULLrpc/clnt_dg.cdg_cv != (cond_t *) NULLrpc/clnt_dg.c  "l  66 00<0H0T0`0l0x00000000000000 0,080D0P0\0h0t0000000000000~0{0x(0u40r@0oL0lX0id0fp0c|0`0]0Z0W0T0Q0N0K0H0E0B0? 0<09$06003<00H0-T0*`0'l0$x0!0000000 0 00000 0,080D0P0\0h0t0000000D(Hpx<xdr_reference: out of memory##x#8# $# h  #`$X!$@#$(# (!xdr_array: out of memory$Header: /afs/dev.mit.edu/source/src80/athena/lib/kerberos.p9/lib/des/RCS/key_sched.c,v 4.8 1991/02/28 23:36:23 probe Exp $5&<7'?.%,>=$/!2#)3;"9 + :1-4/7= &<$65>?' *9!+ 3 1 #2)5$>'-6<, 7&%./=;  ) :# !293"% =7.>&,?<56'4-+1: 39 * ;")# 2<-'>. ?5/,%&$6!*; 2#)9+1:",.6</%?54=>7 & +9:" 1)2 !3*4? =&,5/6%$-.'< )* 9;! "3:1#$/<6-=?%>45&7, 2; :)+1 #*! 3?'4.%57<6,- /$=*3; 2!# ) "9: +/$5%=' 6,&?<>7-1#+9":2;  )*37%-<&?6/ =,45.'! 23)* "1+: # 6'=4,/&<-?>$% ;1"# 2:! 3* 9>&-$4 6?5,/.7<+! 3" * 9#:;) .47$<&/5%>? '=6,2 :#1;3) *+96 $'7,%>5./<4-&?" 139*!+ #2 ; )=.?/$6 -&'4,%7):+ 1" ;#*39!$Id: cksum.c,v 4.10 1990/01/02 13:46:25 jtkohl Exp $$Header: /afs/dev.mit.edu/source/src80/athena/lib/kerberos.p9/lib/des/RCS/weak_key.c,v 4.4 1994/03/22 15:05:35 miki Exp $$Header: /afs/dev.mit.edu/source/src80/athena/lib/kerberos.p9/lib/des/RCS/key_parity.c,v 4.0 1989/01/22 11:45:12 jtkohl Exp $  ##%%&&))**,,//1122447788;;==>>@@CCEEFFIIJJLLOOQQRRTTWWXX[[]]^^aabbddgghhkkmmnnppssuuvvyyzz||$Header: /afs/dev.mit.edu/source/src80/athena/lib/kerberos.p9/lib/des/RCS/des.c,v 4.14 1994/03/22 15:03:08 miki Exp $                                                                                                                    @@AA@@@@@@@@@A@A@@AA@@@@@@@@@A@A@@AAHHHHH@H@HAHA@@AAHHHHH@H@HAHA@@AA@@@@@@@@@A@A@@AA@@@@@@@@@A@A@@AAHHHHH@H@HAHA@@AAHHHHH@H@HAHABBCC@@@@@B@B@C@CBBCC@@@@@B@B@C@CBBCCHHHHHBHBHCHCBBCCHHHHHBHBHCHCBBCC@@@@@B@B@C@CBBCC@@@@@B@B@C@CBBCCHHHHHBHBHCHCBBCCHHHHHBHBHCHC """"    " " " "        """"    " " " "       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L Y g t     dVd8R8h<1)4$   hdWd8*8j<104 $$  dTde88d<184  $$ 1 H   dVd8D8h<1v4$$$$$QdXd88l<1~4$ dUdM88f<1+4    : Y x$  $  ,  pdYd808n<1.4$$$ ` dVd8#8h<14 $$@(#)stdio.h 1.34 94/06/07 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)rpc.h 1.11 93/02/04 SMI@(#)types.h 1.18 94/03/08 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)auth.h 1.25 94/02/07 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.33 93/11/19 SMI@(#)rpc_com.h 1.15 94/01/18 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)rpc_msg.h 1.12 94/06/01 SMI@(#)auth_sys.h 1.13 93/11/12 SMI@(#)auth_des.h 1.12 93/05/30 SMI@(#)auth_kerb.h 1.8 93/05/26 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SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)svc.h 1.30 94/01/18 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)svc_auth.h 1.10 93/11/12 SMI@(#)rpcb_clnt.h 1.11 93/07/16 SMI@(#)rpcb_prot.x 1.3 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)rpc.h 1.11 93/02/04 SMI@(#)types.h 1.18 94/03/08 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.25 94/02/07 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.33 93/11/19 SMI@(#)rpc_com.h 1.15 94/01/18 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)rpc_msg.h 1.12 94/06/01 SMI@(#)auth_sys.h 1.13 93/11/12 SMI@(#)auth_des.h 1.12 93/05/30 SMI@(#)auth_kerb.h 1.8 93/05/26 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)svc.h 1.30 94/01/18 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)svc_auth.h 1.10 93/11/12 SMI@(#)rpcb_clnt.h 1.11 93/07/16 SMI@(#)rpcb_prot.x 1.3 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)clnt_generic.c 1.20 94/05/03 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)errno.h 1.12 94/03/21 SMI@(#)errno.h 1.15 95/01/24 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)nettype.h 1.11 94/04/25 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)netdir.h 1.14 92/12/23 SMI@(#)string.h 1.15 93/12/15 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)clnt_perror.c 1.22 94/04/22 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)libintl.h 1.7 93/10/06 SMI@(#)string.h 1.15 93/12/15 SMI@(#)types.h 1.16 94/04/25 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)stdlib.h 1.24 94/03/28 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)clnt_vc.c 1.25 94/04/24 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)assert.h 1.9 92/07/14 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)errno.h 1.12 94/03/21 SMI@(#)errno.h 1.15 95/01/24 SMI@(#)mkdev.h 1.14 93/10/13 SMI@(#)syslog.h 1.10 92/07/14 SMI@(#)stdlib.h 1.24 94/03/28 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)rpc_comdata.c 1.11 94/04/24 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)trace.h 1.9 94/04/29 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)rpc_generic.c 1.17 94/04/24 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)nettype.h 1.11 94/04/25 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)mkdev.h 1.14 93/10/13 SMI@(#)stat.h 1.21 93/12/15 SMI@(#)ctype.h 1.15 93/11/02 SMI@(#)resource.h 1.10 93/12/21 SMI@(#)malloc.h 1.8 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)rpc_prot.c 1.11 93/07/05 SMI@(#)param.h 1.29 94/06/09 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)rpcb_clnt.c 1.27 94/04/24 SMI@(#)assert.h 1.9 92/07/14 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)netdir.h 1.14 92/12/23 SMI@(#)nettype.h 1.11 94/04/25 SMI@(#)pmap_prot.x 1.6 94/04/29 SMI@(#)utsname.h 1.21 94/08/02 SMI@(#)errno.h 1.12 94/03/21 SMI@(#)errno.h 1.15 95/01/24 SMI@(#)stdlib.h 1.24 94/03/28 SMI@(#)string.h 1.15 93/12/15 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)rpcb_prot.c 1.13 94/04/24 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)trace.h 1.9 94/04/29 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)xdr.c 1.16 94/04/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)syslog.h 1.10 92/07/14 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)limits.h 1.22 94/06/08 SMI@(#)types.h 1.16 94/04/25 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)xdr_rec.c 1.20 94/04/24 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)types.h 1.16 94/04/25 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)syslog.h 1.10 92/07/14 SMI@(#)memory.h 1.8 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)xdr_mem.c 1.15 94/04/24 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)types.h 1.16 94/04/25 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)memory.h 1.8 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)xdr_rec.c 1.20 94/04/24 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)types.h 1.16 94/04/25 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)syslog.h 1.10 92/07/14 SMI@(#)memory.h 1.8 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)xdr_refer.c 1.10 93/07/05 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)syslog.h 1.10 92/07/14 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)types.h 1.16 94/04/25 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)memory.h 1.8 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)rpc_sel2poll.c 1.6 94/04/24 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)poll.h 1.18 94/06/07 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)rpc_td.c 1.8 94/04/24 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)errno.h 1.12 94/03/21 SMI@(#)errno.h 1.15 95/01/24 SMI@(#)string.h 1.15 93/12/15 SMI@(#)stropts.h 1.7 94/01/12 SMI@(#)stropts.h 1.15 94/12/20 SMI@(#)conf.h 1.36 94/05/10 SMI@(#)tcp.h 1.5 93/08/18 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)mt_misc.c 1.24 93/04/29 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)stdlib.h 1.24 94/03/28 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)auth_none.c 1.15 94/04/18 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)types.h 1.16 94/04/25 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)clnt_bcast.c 1.18 94/05/03 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)nettype.h 1.11 94/04/25 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)netdir.h 1.14 92/12/23 SMI@(#)pmap_prot.x 1.6 94/04/29 SMI@(#)pmap_clnt.h 1.11 94/04/25 SMI@(#)pmap_rmt.h 1.10 93/07/05 SMI@(#)errno.h 1.12 94/03/21 SMI@(#)errno.h 1.15 95/01/24 SMI@(#)syslog.h 1.10 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)clnt_dg.c 1.23 94/04/22 SMI@(#)assert.h 1.9 92/07/14 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)errno.h 1.12 94/03/21 SMI@(#)errno.h 1.15 95/01/24 SMI@(#)syslog.h 1.10 92/07/14 SMI@(#)kstat.h 1.9 94/04/19 SMI@(#)stdlib.h 1.24 94/03/28 SMI@(#)kerb_private.h 1.9 94/04/25 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)pmap_prot.c 1.13 94/04/24 SMI@(#)types.h 1.16 94/04/25 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMI@(#)pmap_prot.x 1.6 94/04/29 SMI@(#)pmap_rmt.h 1.10 93/07/05 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)rpc_callmsg.c 1.10 93/07/05 SMI@(#)param.h 1.29 94/06/09 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)rpc.h 1.13 94/04/25 SMI@(#)types.h 1.16 94/04/25 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.31 94/04/29 SMI@(#)rpc_com.h 1.11 93/07/05 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)clnt_soc.h 1.11 94/04/25 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)rpc_msg.h 1.11 94/04/25 SMI@(#)auth_sys.h 1.13 94/04/25 SMI@(#)auth_des.h 1.14 94/04/25 SMI@(#)auth_kerb.h 1.10 94/04/25 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)svc.h 1.27 94/04/25 SMI@(#)svc_soc.h 1.11 94/04/25 SMI@(#)svc_auth.h 1.10 93/07/05 SMI@(#)rpcb_clnt.h 1.13 94/04/25 SMI@(#)rpcb_prot.x 1.5 94/04/29 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)auth_sys.c 1.17 94/04/20 SMI@(#)rpc_mt.h 1.7 94/04/27 SMI@(#)thread.h 1.36 93/12/26 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 1.21 94/06/08 SMI@(#)synch.h 1.26 93/04/13 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)synch.h 1.21 93/04/13 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)syslog.h 1.10 92/07/14 SMI@(#)types.h 1.16 94/04/25 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)auth_sys.h 1.13 94/04/25 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)authsys_prot.c 1.10 93/07/05 SMI@(#)types.h 1.16 94/04/25 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.24 94/04/25 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)auth_sys.h 1.13 94/04/25 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)xdr_array.c 1.11 93/07/05 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)trace.h 1.9 94/04/29 SMI@(#)syslog.h 1.10 92/07/14 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)types.h 1.16 94/04/25 SMI@(#)xdr.h 1.23 94/04/25 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)memory.h 1.8 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1as: SC3.1 dev 09 May 1994 GCC: (GNU) 2.6-95q2as: SC3.1 dev 09 May 1994 GCC: (GNU) 2.6-95q2as: SC3.1 dev 09 May 1994 GCC: (GNU) 2.6-95q2as: SC3.1 dev 09 May 1994 GCC: (GNU) 2.6-95q2as: SC3.1 dev 09 May 1994 GCC: (GNU) 2.6-95q2ld: (SGU) SunOS/ELF (LK-2.0 (S/I) - versioning).interp.hash.dynsym.dynstr.rela.ex_shared.rela.bss.rela.plt.text.init.fini.exception_ranges.rodata.rodata1.got.dynamic.plt.ex_shared.data.data1.bss.symtab.strtab.stab.index.comment.shstrtab.stab.indexstrvalues-Xt.cXt ; V=3.0 ; R=3.0/export/set/seva/bootstrap/3.0.1/lang/csu/sparc; /export/set/seva/bootstrap/3.0.1/boot3/bin/sparc/SC3.0.1/../bin/../SC3.0.1/bin/cc -c -O -DELF -o values-xt.o ../src/values-Xt.c -W0,-xprls.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -DDEBUG -c rls.c -W0,-xpmaindir_clnt.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -DDEBUG -c dir_clnt.c -W0,-xpdir_xdr.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -DDEBUG -c dir_xdr.c -W0,-xpclnt_generic.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/clnt_generic.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsS9UOkxAqV./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/clnt_generic.o rpc/clnt_generic.c -W0,-xp\$XAbAQsS9UOkxAqV.clnt_create_versclnt_createclnt_tp_createclnt_tli_create/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(clnt_generic.o)clnt_perror.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/clnt_perror.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSBVOkxgqV./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/clnt_perror.o rpc/clnt_perror.c -W0,-xp\$XAbAQsSBVOkxgqV.__nsl_dom$XBbAQsSBVOkxgqV.__buf.perror_keyclnt_sperrorclnt_perrorclnt_perrnoclnt_spcreateerrorclnt_pcreateerrorclnt_sperrno/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(clnt_perror.o)clnt_vc.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/clnt_vc.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSMVOkxAsV./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/clnt_vc.o rpc/clnt_vc.c -W0,-xp\$XAbAQsSMVOkxAsV.$XAbAQsSMVOkxAsV.clnt_vc_errstr$XAbAQsSMVOkxAsV.clnt_vc_errstr$XAbAQsSMVOkxAsV.clnt_vc_str$XAbAQsSMVOkxAsV.clnt_vc_str$XAbAQsSMVOkxAsV.clnt_read_vc_str$XAbAQsSMVOkxAsV.clnt_read_vc_str$XAbAQsSMVOkxAsV.__no_mem_str$XAbAQsSMVOkxAsV.__no_mem_strclnt_vc_create$XBbAQsSMVOkxAsV.read_vc.pfdp_main$XBbAQsSMVOkxAsV.read_vc.pfdp_key$XBbAQsSMVOkxAsV.clnt_vc_ops.opsclnt_vc_setup_integrity$XAbAQsSMVOkxAsV.vc_cv$XAbAQsSMVOkxAsV.vc_fd_locks/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(clnt_vc.o)rpc_comdata.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/rpc_comdata.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSBWOkxAzV./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/rpc_comdata.o rpc/rpc_comdata.c -W0,-xp\$XAbAQsSBWOkxAzV._svc_getreqset_procsvc_fdset_null_auth/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(rpc_comdata.o)rpc_generic.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/rpc_generic.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSFWOkxgzV./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/rpc_generic.o rpc/rpc_generic.c -W0,-xp\$XAbAQsSFWOkxgzV._rpctypelist__rpc_dtbsize$XBbAQsSFWOkxgzV.__rpc_dtbsize.tbsize__rpc_get_t_size__rpc_get_a_size__rpc_getconfip$XBbAQsSFWOkxgzV.__rpc_getconfip.netid_tcp_main$XBbAQsSFWOkxgzV.__rpc_getconfip.netid_udp_main$XBbAQsSFWOkxgzV.__rpc_getconfip.tcp_key$XBbAQsSFWOkxgzV.__rpc_getconfip.udp_key__rpc_setconf__rpc_getconf__rpc_endconfrpc_nullproc__rpcgettp/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(rpc_generic.o)rpc_prot.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/rpc_prot.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSJWOkxA0V./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/rpc_prot.o rpc/rpc_prot.c -W0,-xp\$XAbAQsSJWOkxA0V.xdr_opaque_authxdr_des_blockxdr_accepted_replyxdr_rejected_replyxdr_replymsgxdr_callhdr__seterr_reply_null_auth/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(rpc_prot.o)rpcb_clnt.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/rpcb_clnt.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsS9sJmxw9n./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/rpcb_clnt.o rpc/rpcb_clnt.c -W0,-xp\$XAbAQsS9sJmxw9n.$XAbAQsS9sJmxw9n.tottimeout$XAbAQsS9sJmxw9n.rmttimeout$XAbAQsS9sJmxw9n.nullstring$XAbAQsS9sJmxw9n.nullstring__rpc_control$XBbAQsS9sJmxw9n.local_rpcb.loopnconf$XBbAQsS9sJmxw9n.local_rpcb.hostnamerpcb_setrpcb_unset__rpcb_findaddrrpcb_getaddrrpcb_getmapsrpcb_rmtcallrpcb_gettimerpcb_taddr2uaddrrpcb_uaddr2taddr$XAbAQsS9sJmxw9n.cachesize$XAbAQsS9sJmxw9n.front/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(rpcb_clnt.o)rpcb_prot.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/rpcb_prot.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSZWOkxg1V./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/rpcb_prot.o rpc/rpcb_prot.c -W0,-xp\$XAbAQsSZWOkxg1V.xdr_rpcbxdr_rpcblist_ptrxdr_rpcblistxdr_rpcb_entryxdr_rpcb_entry_list_ptrxdr_rpcb_rmtcallargsxdr_rpcb_rmtcallresxdr_netbuf/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(rpcb_prot.o)xdr.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/xdr.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSRXOkxg7V./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/xdr.o rpc/xdr.c -W0,-xp\$XAbAQsSRXOkxg7V.xdr_freexdr_voidxdr_intxdr_u_intxdr_longxdr_u_longxdr_shortxdr_u_shortxdr_charxdr_u_charxdr_boolxdr_enumxdr_opaque$XAbAQsSRXOkxg7V.xdr_err$XAbAQsSRXOkxg7V.xdr_errxdr_bytesxdr_netobjxdr_unionxdr_stringxdr_hyperxdr_u_hyperxdr_longlong_txdr_u_longlong_txdr_wrapstring$XAbAQsSRXOkxg7V.xdr_zero/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(xdr.o)xdr_rec_integrity.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/xdr_rec_integrity.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSXXOkxA9V./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/xdr_rec_integrity.o rpc/xdr_rec_integrity.c -W0,-xp\$XAbAQsSXXOkxA9V.$XAbAQsSXXOkxA9V.mem_err_msg_rec$XAbAQsSXXOkxA9V.mem_err_msg_recxdrrec_integrity_createxdrrec_integrity_readbytesxdrrec_integrity_skiprecordxdrrec_integrity_eofxdrrec_integrity_endofrecord__is_xdrrec_integrity_first__xdrrec_integrity_setfirst__xdrrec_integrity_resetfirstxdrrec_integrity_set_cksumxdrs_eofend_of_record__setfirst__resetfirst__is_first__skiprecordxdrrec_integrity_checksum_inintegrity_ops/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(xdr_rec_integrity.o)xdr_mem.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/xdr_mem.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSbXOkxg9V./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/xdr_mem.o rpc/xdr_mem.c -W0,-xp\$XAbAQsSbXOkxg9V.xdrmem_create$XBbAQsSbXOkxg9V.xdrmem_ops.ops/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(xdr_mem.o)xdr_rec.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/xdr_rec.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSdXOkxA_V./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/xdr_rec.o rpc/xdr_rec.c -W0,-xp\$XAbAQsSdXOkxA_V.$XAbAQsSdXOkxA_V.mem_err_msg_rec$XAbAQsSdXOkxA_V.mem_err_msg_recxdrrec_createxdrrec_readbytesxdrrec_skiprecordxdrrec_eofxdrrec_endofrecord__is_xdrrec_first__xdrrec_setfirst__xdrrec_resetfirst$XBbAQsSdXOkxA_V.xdrrec_ops.ops/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(xdr_rec.o)xdr_refer.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/xdr_refer.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSgXOkxg_V./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/xdr_refer.o rpc/xdr_refer.c -W0,-xp\$XAbAQsSgXOkxg_V.mem_err_msg_refxdr_referencexdr_pointer/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(xdr_refer.o)rpc_sel2poll.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/rpc_sel2poll.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSf6OkxwPW./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/rpc_sel2poll.o rpc/rpc_sel2poll.c -W0,-xp\$XAbAQsSf6OkxwPW.__rpc_select_to_poll__rpc_timeval_to_msec/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(rpc_sel2poll.o)rpc_td.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/rpc_td.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSh6OkxQQW./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/rpc_td.o rpc/rpc_td.c -W0,-xp\$XAbAQsSh6OkxQQW.__td_setnodelay$XBbAQsSh6OkxQQW.__td_setnodelay.td_opt_lock$XBbAQsSh6OkxQQW.__td_setnodelay.t_optreq$XBbAQsSh6OkxQQW.__td_setnodelay.t_optret/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(rpc_td.o)mt_misc.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/mt_misc.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSv6OkxQSW./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/mt_misc.o rpc/mt_misc.c -W0,-xp\$XAbAQsSv6OkxQSW.$XAbAQsSv6OkxQSW.rwlock_table$XAbAQsSv6OkxQSW.rwlock_table$XAbAQsSv6OkxQSW.mutex_table$XAbAQsSv6OkxQSW.mutex_table_libnsl_lock_init__rpc_createerr$XBbAQsSv6OkxQSW.__rpc_createerr.rce_keyrpc_createerrlock_valueserialize_pkeyxprtlist_locktsd_locksvcraw_lockrpcsoc_lockproglst_lockportnum_lockops_lockloopnconf_locklibnsl_trace_lockkeyserv_lockdupreq_lockdname_lockclntraw_lockclnt_fd_lockauthsvc_lockauthnone_lockauthdes_lockrpcbaddr_cache_locksvc_fd_locksvc_lock/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(mt_misc.o)auth_none.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/auth_none.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSoUOkxAnV./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/auth_none.o rpc/auth_none.c -W0,-xp\$XAbAQsSoUOkxAnV.authnone_create$XBbAQsSoUOkxAnV.authnone_ops.ops$XAbAQsSoUOkxAnV.authnone_private/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(auth_none.o)clnt_bcast.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/clnt_bcast.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSwUOkxgoV./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/clnt_bcast.o rpc/clnt_bcast.c -W0,-xp\$XAbAQsSwUOkxgoV.lowversrpc_broadcast_exprpc_broadcast/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(clnt_bcast.o)clnt_dg.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/clnt_dg.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsS4UOkxgpV./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/clnt_dg.o rpc/clnt_dg.c -W0,-xp\$XAbAQsS4UOkxgpV.$XAbAQsS4UOkxgpV.mem_err_clnt_dg$XAbAQsS4UOkxgpV.mem_err_clnt_dgclnt_dg_createclnt_dg_call$XBbAQsS4UOkxgpV.clnt_dg_ops.ops$XAbAQsS4UOkxgpV.dg_cv$XAbAQsS4UOkxgpV.dg_fd_locks/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(clnt_dg.o)pmap_prot.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/pmap_prot.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsS0VOkxgxV./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/pmap_prot.o rpc/pmap_prot.c -W0,-xp\$XAbAQsS0VOkxgxV.xdr_pmapxdr_pmaplist_ptrxdr_pmaplistxdr_rmtcallargsxdr_rmtcallres/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(pmap_prot.o)rpc_callmsg.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/rpc_callmsg.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsS_VOkxgyV./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/rpc_callmsg.o rpc/rpc_callmsg.c -W0,-xp\$XAbAQsS_VOkxgyV.xdr_callmsg/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(rpc_callmsg.o)auth_sys.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/auth_sys.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSqUOkxgnV./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/auth_sys.o rpc/auth_sys.c -W0,-xp\$XAbAQsSqUOkxgnV.$XAbAQsSqUOkxgnV.auth_sys_str$XAbAQsSqUOkxgnV.auth_sys_str$XAbAQsSqUOkxgnV.authsys_create_str$XAbAQsSqUOkxgnV.authsys_create_str$XAbAQsSqUOkxgnV.__no_mem_auth$XAbAQsSqUOkxgnV.__no_mem_authauthsys_create$XAbAQsSqUOkxgnV.authsys_def_str$XAbAQsSqUOkxgnV.authsys_def_strauthsys_create_default$XAbAQsSqUOkxgnV.marshal_new_auth_str$XAbAQsSqUOkxgnV.marshal_new_auth_str$XBbAQsSqUOkxgnV.authsys_ops.ops/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(auth_sys.o)authsys_prot.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/authsys_prot.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSuUOkxAoV./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/authsys_prot.o rpc/authsys_prot.c -W0,-xp\$XAbAQsSuUOkxAoV.xdr_authsys_parmsxdr_uid_txdr_gid_t/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(authsys_prot.o)xdr_array.c/afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc/rpc/xdr_array.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSTXOkxA8V./afs/athena.mit.edu/astaff/project/athena-backup/tools/tirpc/lib/librpc; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -I/mit/athena-backup/tools/tirpc/usr/include -I/usr/athena/include -D_REENTRANT -c -DPORTMAP -DNIS -g -o objs/xdr_array.o rpc/xdr_array.c -W0,-xp\$XAbAQsSTXOkxA8V.mem_err_msg_arrxdr_arrayxdr_vector/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/dir/mit/athena-backup/tools/tirpc/usr/lib/librpc.a(xdr_array.o)  $  `"l"l66 /66H 966 C;; I@O8UgKohhvx} PP pp"00+`` `$@0_x rP*IE/rpc/xdr_rec.cXt ; g ; V=3.0 ; R=3.0 ; G=$XAbAQsSdXOkxA_V./afs/athena.mit.edu/astaff/project/athena-backup/rpc/demo/dir/core010060000060310000145000000010000614611566500151440ustar00delgadooraweb00000000000001ELF44  PPW`` GabpWc`dgk``Ǡl@@n o p'vrpc/demo/dir/Makefile~010060000000000000000000000010330614611203600151660ustar00rootroot00000000000001# # @(#)Makefile 2.1 88/08/02 4.0 RPCSRC # BIN = dir_svc rls GEN = dir_clnt.c dir_svc.c dir_xdr.c dir.h LIB = -L/mit/athena-backup/tools/tirpc/usr/lib -L/usr/athena/lib -lrpc -lkrb -ldes -ldl -lnsl -lintl RPCCOM = rpcgen CC = cc all: $(BIN) $(GEN): dir.x $(RPCCOM) dir.x dir_svc: dir_proc.o dir_svc.o dir_xdr.o $(CC) -o $@ dir_proc.o dir_svc.o dir_xdr.o $(LIB) rls: rls.o dir_clnt.o dir_xdr.o $(CC) -o $@ rls.o dir_clnt.o dir_xdr.o $(LIB) rls.o: rls.c dir.h dir_proc.o: dir_proc.c dir.h clean cleanup: rm -f $(GEN) *.o $(BIN) rpc/demo/msg/004070000000000000000000000000000614440654100133515ustar00rootroot00000000000001rpc/demo/msg/rprintmsg.c010060000000000000000000000030770443763512100155510ustar00rootroot00000000000001/* @(#)rprintmsg.c 2.1 88/08/11 4.0 RPCSRC */ /* * rprintmsg.c: remote version of "printmsg.c" */ #include #include /* always need this */ #include "msg.h" /* need this too: will be generated by rpcgen*/ main(argc, argv) int argc; char *argv[]; { CLIENT *cl; int *result; char *server; char *message; if (argc < 3) { fprintf(stderr, "usage: %s host message\n", argv[0]); exit(1); } /* * Remember what our command line arguments refer to */ server = argv[1]; message = argv[2]; /* * Create client "handle" used for calling MESSAGEPROG on the * server designated on the command line. We tell the rpc package * to use the "tcp" protocol when contacting the server. */ cl = clnt_create(server, MESSAGEPROG, MESSAGEVERS, "tcp"); if (cl == NULL) { /* * Couldn't establish connection with server. * Print error message and die. */ clnt_pcreateerror(server); exit(1); } /* * Call the remote procedure "printmessage" on the server */ result = printmessage_1(&message, cl); if (result == NULL) { /* * An error occurred while calling the server. * Print error message and die. */ clnt_perror(cl, server); exit(1); } /* * Okay, we successfully called the remote procedure. */ if (*result == 0) { /* * Server was unable to print our message. * Print error message and die. */ fprintf(stderr, "%s: sorry, %s couldn't print your message\n", argv[0], server); exit(1); } /* * The message got printed on the server's console */ printf("Message delivered to %s!\n", server); } rpc/demo/msg/Makefile010060000000000000000000000012160614440653300150110ustar00rootroot00000000000001# # @(#)Makefile 2.1 88/08/11 4.0 RPCSRC # BIN = printmsg msg_svc rprintmsg GEN = msg_clnt.c msg_svc.c msg.h LIB = -lrpcsvc -lnsl RPCCOM = rpcgen CC = cc all: $(BIN) # # This is the non-networked version of the program # printmsg: printmsg.o $(CC) -o $@ printmsg.o # # note: no xdr routines are generated here, due this service's # use of basic data types. # $(GEN): msg.x $(RPCCOM) msg.x msg_svc: msg_proc.o msg_svc.o $(CC) -o $@ msg_proc.o msg_svc.o $(LIB) rprintmsg: rprintmsg.o msg_clnt.o $(CC) -o $@ rprintmsg.o msg_clnt.o $(LIB) rprintmsg.o: rprintmsg.c msg.h msg_proc.o: msg_proc.c msg.h clean cleanup: rm -f $(GEN) *.o $(BIN) rpc/demo/msg/msg_proc.c010060000000000000000000000010620443763512200153260ustar00rootroot00000000000001/* @(#)msg_proc.c 2.1 88/08/11 4.0 RPCSRC */ /* * msg_proc.c: implementation of the remote procedure "printmessage" */ #include #include /* always need this here */ #include "msg.h" /* need this too: msg.h will be generated by rpcgen */ /* * Remote verson of "printmessage" */ int * printmessage_1(msg) char **msg; { static int result; /* must be static! */ FILE *f; f = fopen("/dev/console", "w"); if (f == NULL) { result = 0; return (&result); } fprintf(f, "%s\n", *msg); fclose(f); result = 1; return (&result); } msg_proc.c: implementation of the remote procedure "printmessage" */ #include #include /* always need this here */ #include "msg.h" /* need this too: msg.h will be generated by rpcgen */ /* * Remote verson of "printmessage" */ int * printmessage_1(msg) char **msg; { static int result; /* must be static! */ FILE *f; f = fopen("/dev/console", "w"); if (f == NULL) { result = 0; return (&result); } fprintf(f, "%s\n", *msrpc/demo/msg/msg.x010060000000000000000000000002670443763512100143350ustar00rootroot00000000000001/* @(#)msg.x 2.1 88/08/11 4.0 RPCSRC */ /* * msg.x: Remote message printing protocol */ program MESSAGEPROG { version MESSAGEVERS { int PRINTMESSAGE(string) = 1; } = 1; } = 99; rpc/demo/msg/printmsg.c010060000000000000000000000013200443763512100153540ustar00rootroot00000000000001/* @(#)printmsg.c 2.1 88/08/11 4.0 RPCSRC */ /* * printmsg.c: print a message on the console */ #include main(argc, argv) int argc; char *argv[]; { char *message; if (argc < 2) { fprintf(stderr, "usage: %s \n", argv[0]); exit(1); } message = argv[1]; if (!printmessage(message)) { fprintf(stderr, "%s: sorry, couldn't print your message\n", argv[0]); exit(1); } printf("Message delivered!\n"); } /* * Print a message to the console. * Return a boolean indicating whether the message was actually printed. */ printmessage(msg) char *msg; { FILE *f; f = fopen("/dev/console", "w"); if (f == NULL) { return (0); } fprintf(f, "%s\n", msg); fclose(f); return(1); } rpc/demo/msg/Makefile.orig010060000000000000000000000012000534640767200157510ustar00rootroot00000000000001# # @(#)Makefile 2.1 88/08/11 4.0 RPCSRC # BIN = printmsg msg_svc rprintmsg GEN = msg_clnt.c msg_svc.c msg.h LIB = -lrpclib RPCCOM = rpcgen all: $(BIN) # # This is the non-networked version of the program # printmsg: printmsg.o $(CC) -o $@ printmsg.o # # note: no xdr routines are generated here, due this service's # use of basic data types. # $(GEN): msg.x $(RPCCOM) msg.x msg_svc: msg_proc.o msg_svc.o $(CC) -o $@ msg_proc.o msg_svc.o $(LIB) rprintmsg: rprintmsg.o msg_clnt.o $(CC) -o $@ rprintmsg.o msg_clnt.o $(LIB) rprintmsg.o: rprintmsg.c msg.h msg_proc.o: msg_proc.c msg.h clean cleanup: rm -f $(GEN) *.o $(BIN) rpc/demo/msg/printmsg.o010060000060310000145000000036500614440632000163260ustar00delgadooraweb00000000000001ELF4( .shstrtab.text.rodata1.stab.index.stab.indexstr.comment.strtab.symtab.rela.text㿘'H'DD #`%H @@ @H  '@#`%H @@ @! @㿘'D! #`@@' @ '#`D@@@ 'usage: %s %s: sorry, couldn't print your message Message delivered! /dev/consolew%s  <4*printmsg.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/msg; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -c printmsg.c -W0,-xpmain@(#)stdio.h 1.34 94/06/07 SMI@(#)feature_tests.h 1.6 93/07/09 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1printmsg.cfclosefopenprintfprintmessageexitfprintfmain__iob  -2:?, 0 4 8 P`    @ @ T  T d d X h\ hp4Y 8l0 &5k>EF<N, rpc/demo/msg/printmsg010070000060310000145000000141100614440632100160640ustar00delgadooraweb00000000000001ELF04`4 (44 < < < <4| @ @/usr/lib/ld.so.15!1&#+4*0/-3'2"%) $(.,@0 P          < @  P p0t p  x@! ( <> E J P8 P @W @` (g x@m s  p!       p  4 <    8  _start_environ_end_iob_ex_register_GLOBAL_OFFSET_TABLE_atexitexit_initfclose_DYNAMICprintf__iob_exit_ex_deregisterenviron__cg89_used__cg92_used__fnonstd_usedprintmessage_edata_PROCEDURE_LINKAGE_TABLE_fopen_etext_lib_versionmain_finifprintflibc.so.1 T' P p x%    & 4 ($ 4/ @" @D, @'$p# @@B@@!@w@ @@@@㿘'H'DD #c%BH @@@ @@H  '@ #c%BH @@@ @@!B"@@㿘'D!B"$#Bb4@@@' @ '#Bb8D@@@@@ '㿠@?㿠@?usage: %s %s: sorry, couldn't print your message Message delivered! /dev/consolew%s  @  P   @  T 00<0H0T0`0l0x0hh@0 P          < @  P p 0 & X29EPW Pa l hx0t p  x@!  <   P8  @ @ ( x@   p!       (5 p< V 4\ < c  pu 8 { printmsgcrti.s_ex_text0_ex_range0_ex_shared0crt1.svalues-Xt.cprintmsg.ccrtn.s_ex_text1_ex_range1_ex_shared1_start_environ_end_iob_ex_register_GLOBAL_OFFSET_TABLE_atexitexit_initfclose_DYNAMICprintf__iob_exit_ex_deregisterenviron__cg89_used__cg92_used__fnonstd_usedprintmessage_edata_PROCEDURE_LINKAGE_TABLE_fopen_etext_lib_versionmain_finifprintf < 4 <4*@(#)stdio.h 1.34 94/06/07 SMI@(#)feature_tests.h 1.6 93/07/09 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1ld: (SGU) SunOS/ELF (LK-2.0 (S/I) - versioning).interp.hash.dynsym.dynstr.rela.ex_shared.rela.bss.rela.plt.text.init.fini.exception_ranges.rodata.rodata1.got.dynamic.plt.ex_shared.bss.symtab.strtab.stab.index.comment.shstrtab.stab.indexstrvalues-Xt.cXt ; V=3.0 ; R=3.0/export/set/seva/bootstrap/3.0.1/lang/csu/sparc; /export/set/seva/bootstrap/3.0.1/boot3/bin/sparc/SC3.0.1/../bin/../SC3.0.1/bin/cc -c -O -DELF -o values-xt.o ../src/values-Xt.c -W0,-xpprintmsg.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/msg; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -c printmsg.c -W0,-xpmain X @@P / 9T C00 I P P8O 8U g o lx < <} @ @   P P  p pH p%T Xrpc/demo/msg/msg.h010060000060310000145000000005570614440632200152470ustar00delgadooraweb00000000000001/* * Please do not edit this file. * It was generated using rpcgen. */ #ifndef _MSG_H_RPCGEN #define _MSG_H_RPCGEN #include #define MESSAGEPROG ((unsigned long)(99)) #define MESSAGEVERS ((unsigned long)(1)) #define PRINTMESSAGE ((unsigned long)(1)) extern int * printmessage_1(); extern int messageprog_1_freeresult(); #endif /* !_MSG_H_RPCGEN */ rpc/demo/msg/msg_proc.o010060000060310000145000000062540614440632500163040ustar00delgadooraweb00000000000001ELF 4( .shstrtab.text.rodata1.bss.stab.index.stab.indexstr.comment.strtab.symtab.rela.text㿘'D! #`@@' @  ! $ ! '%D @@@ ! $ ! '/dev/consolew%s  <4msg_proc.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/msg; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -c msg_proc.c -W0,-xp@(#)stdio.h 1.34 94/06/07 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)rpc.h 1.11 93/02/04 SMI@(#)types.h 1.18 94/03/08 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)auth.h 1.25 94/02/07 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.33 93/11/19 SMI@(#)rpc_com.h 1.15 94/01/18 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)rpc_msg.h 1.12 94/06/01 SMI@(#)auth_sys.h 1.13 93/11/12 SMI@(#)auth_des.h 1.12 93/05/30 SMI@(#)auth_kerb.h 1.8 93/05/26 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)svc.h 1.30 94/01/18 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)svc_auth.h 1.10 93/11/12 SMI@(#)rpcb_clnt.h 1.11 93/07/16 SMI@(#)rpcb_prot.x 1.3 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1msg_proc.cfclosefprintffopenprintmessage_1 !   $ 0X \ d h |      4^ $ +:nC u0K S (  rpc/demo/msg/msg_clnt.c010060000060310000145000000010210614440632200162450ustar00delgadooraweb00000000000001/* * Please do not edit this file. * It was generated using rpcgen. */ #include "msg.h" /* Default timeout can be changed using clnt_control() */ static struct timeval TIMEOUT = { 25, 0 }; int * printmessage_1(argp, clnt) char **argp; CLIENT *clnt; { static int clnt_res; memset((char *)&clnt_res, 0, sizeof (clnt_res)); if (clnt_call(clnt, PRINTMESSAGE, (xdrproc_t) xdr_wrapstring, (caddr_t) argp, (xdrproc_t) xdr_int, (caddr_t) &clnt_res, TIMEOUT) != RPC_SUCCESS) { return (NULL); } return (&clnt_res); } ot edit this file. * It was generated using rpcgen. */ #include "msg.h" /* Default timeout can be changed using clnt_control() */ static struct timeval TIMEOUT = { 25, 0 }; int * printmessage_1(argp, clnt) char **argp; CLIENT *clnt; { static int clnt_res; memset((char *)&clnt_res, 0, sizeof (clnt_res)); if (clnt_call(clnt, PRINTMESSAGE, (xdrproc_t) xdr_wrapstring, (caddr_t) argp, (xdrproc_t) xdr_int, (caddr_t) &clnt_res, TIMEOUT) != RPC_SUCCESS) { return (NULL); } returrpc/demo/msg/msg_svc.c010060000060310000145000000106030614440632200161060ustar00delgadooraweb00000000000001/* * Please do not edit this file. * It was generated using rpcgen. */ #include "msg.h" #include #include /* getenv, exit */ #include #include #include #include #include #include /* rlimit */ #include #ifdef DEBUG #define RPC_SVC_FG #endif #define _RPCSVC_CLOSEDOWN 120 static int _rpcpmstart; /* Started by a port monitor ? */ /* States a server can be in wrt request */ #define _IDLE 0 #define _SERVED 1 static int _rpcsvcstate = _IDLE; /* Set when a request is serviced */ static int _rpcsvccount = 0; /* Number of requests being serviced */ static void _msgout(msg) char *msg; { #ifdef RPC_SVC_FG if (_rpcpmstart) syslog(LOG_ERR, msg); else (void) fprintf(stderr, "%s\n", msg); #else syslog(LOG_ERR, msg); #endif } static void closedown(sig) int sig; { if (_rpcsvcstate == _IDLE && _rpcsvccount == 0) { extern fd_set svc_fdset; static int size; int i, openfd; struct t_info tinfo; if (!t_getinfo(0, &tinfo) && (tinfo.servtype == T_CLTS)) exit(0); if (size == 0) { struct rlimit rl; rl.rlim_max = 0; getrlimit(RLIMIT_NOFILE, &rl); if ((size = rl.rlim_max) == 0) { return; } } for (i = 0, openfd = 0; i < size && openfd < 2; i++) if (FD_ISSET(i, &svc_fdset)) openfd++; if (openfd <= 1) exit(0); } else _rpcsvcstate = _IDLE; (void) signal(SIGALRM, (void(*)()) closedown); (void) alarm(_RPCSVC_CLOSEDOWN/2); } static void messageprog_1(rqstp, transp) struct svc_req *rqstp; register SVCXPRT *transp; { union { char *printmessage_1_arg; } argument; char *result; bool_t (*xdr_argument)(), (*xdr_result)(); char *(*local)(); _rpcsvccount++; switch (rqstp->rq_proc) { case NULLPROC: (void) svc_sendreply(transp, xdr_void, (char *)NULL); _rpcsvccount--; _rpcsvcstate = _SERVED; return; case PRINTMESSAGE: xdr_argument = xdr_wrapstring; xdr_result = xdr_int; local = (char *(*)()) printmessage_1; break; default: svcerr_noproc(transp); _rpcsvccount--; _rpcsvcstate = _SERVED; return; } (void) memset((char *)&argument, 0, sizeof (argument)); if (!svc_getargs(transp, xdr_argument, &argument)) { svcerr_decode(transp); _rpcsvccount--; _rpcsvcstate = _SERVED; return; } result = (*local)(&argument, rqstp); if (result != NULL && !svc_sendreply(transp, xdr_result, result)) { svcerr_systemerr(transp); } if (!svc_freeargs(transp, xdr_argument, &argument)) { _msgout("unable to free arguments"); exit(1); } _rpcsvccount--; _rpcsvcstate = _SERVED; return; } main() { pid_t pid; int i; char mname[FMNAMESZ + 1]; (void) sigset(SIGPIPE, SIG_IGN); if (!ioctl(0, I_LOOK, mname) && (!strcmp(mname, "sockmod") || !strcmp(mname, "timod"))) { char *netid; struct netconfig *nconf = NULL; SVCXPRT *transp; int pmclose; _rpcpmstart = 1; openlog("msg", LOG_PID, LOG_DAEMON); if ((netid = getenv("NLSPROVIDER")) == NULL) { /* started from inetd */ pmclose = 1; } else { if ((nconf = getnetconfigent(netid)) == NULL) _msgout("cannot get transport info"); pmclose = (t_getstate(0) != T_DATAXFER); } if (strcmp(mname, "sockmod") == 0) { if (ioctl(0, I_POP, 0) || ioctl(0, I_PUSH, "timod")) { _msgout("could not get the right module"); exit(1); } } if ((transp = svc_tli_create(0, nconf, NULL, 0, 0)) == NULL) { _msgout("cannot create server handle"); exit(1); } if (nconf) freenetconfigent(nconf); if (!svc_reg(transp, MESSAGEPROG, MESSAGEVERS, messageprog_1, 0)) { _msgout("unable to register (MESSAGEPROG, MESSAGEVERS)."); exit(1); } if (pmclose) { (void) signal(SIGALRM, (void(*)()) closedown); (void) alarm(_RPCSVC_CLOSEDOWN/2); } svc_run(); exit(1); /* NOTREACHED */ } else { #ifndef RPC_SVC_FG int size; struct rlimit rl; pid = fork(); if (pid < 0) { perror("cannot fork"); exit(1); } if (pid) exit(0); rl.rlim_max = 0; getrlimit(RLIMIT_NOFILE, &rl); if ((size = rl.rlim_max) == 0) exit(1); for (i = 0; i < size; i++) (void) close(i); i = open("/dev/console", 2); (void) dup2(i, 1); (void) dup2(i, 2); setsid(); openlog("msg", LOG_PID, LOG_DAEMON); #endif } if (!svc_create(messageprog_1, MESSAGEPROG, MESSAGEVERS, "netpath")) { _msgout("unable to create (MESSAGEPROG, MESSAGEVERS) for netpath."); exit(1); } svc_run(); _msgout("svc_run returned"); exit(1); /* NOTREACHED */ } rpc/demo/msg/msg_svc.o010060000060310000145000000216400614440633000161240ustar00delgadooraweb00000000000001ELF!4( .shstrtab.text.data.bss.data1.rodata1.stab.index.stab.indexstr.comment.strtab.symtab.rela.text㿠'D D@@p'D!  g!  a ܐ@@   @!   'ؠ Ԑ@@'! $ Ѐ D ' ' 4 ,#`    ,  ' '!  @   @ ! $  #`@@ <@㿈'H'D!   ! $ 2!  @@@!  $ ! $  ! $ ! '! '! '@@!  $ ! $  ! $ uD     @@`   @@Ā@@!  $ ! $  ! $ CD@Ā' @@@@@@`   @@Ā !  @!  $ ! $  ! $ x  @@ #c@@#`@@ #`@@ ' ! $ !   @@! @' @ '@' @! c @  2 'ؠ#`@@ & #c @@ #c%@@ ! - @    @@'ܠ @ !  @@ܢ c ' @@ !  @؀  #`@@ <@@ @`@'  ! @ @ @ ' ܐ@@'䀤  @ '䀤@@ '䀤@!  @@' @@ @@@!   @@!  c '@@ ! a @@! V @unable to free argumentssockmodtimodcannot get transport infosockmodtimodcould not get the right modulecannot create server handleunable to register (MESSAGEPROG, MESSAGEVERS).unable to create (MESSAGEPROG, MESSAGEVERS) for netpath.svc_run returnedmsgNLSPROVIDERcannot fork/dev/consolemsgnetpath <4*msg_svc.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/msg; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -c msg_svc.c -W0,-xpmain@(#)rpc.h 1.11 93/02/04 SMI@(#)types.h 1.18 94/03/08 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.25 94/02/07 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.33 93/11/19 SMI@(#)rpc_com.h 1.15 94/01/18 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)rpc_msg.h 1.12 94/06/01 SMI@(#)auth_sys.h 1.13 93/11/12 SMI@(#)auth_des.h 1.12 93/05/30 SMI@(#)auth_kerb.h 1.8 93/05/26 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)svc.h 1.30 94/01/18 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)svc_auth.h 1.10 93/11/12 SMI@(#)rpcb_clnt.h 1.11 93/07/16 SMI@(#)rpcb_prot.x 1.3 92/07/14 SMI@(#)stdlib.h 1.24 94/03/28 SMI@(#)signal.h 1.24 94/07/12 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)procset.h 1.15 93/05/05 SMI@(#)stropts.h 1.7 94/01/12 SMI@(#)stropts.h 1.15 94/12/20 SMI@(#)conf.h 1.36 94/05/10 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)resource.h 1.10 93/12/21 SMI@(#)syslog.h 1.8 93/11/01 SMI@(#)syslog.h 1.10 92/07/14 SMI@(#)stdarg.h 1.11 94/01/05 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1msg_svc.c_rpcsvcstate_rpcsvccount_msgoutclosedownmessageprog_1_rpcpmstartsvc_createsetsiddup2opencloseperrorforksvc_runsvc_regfreenetconfigentsvc_tli_createt_getstategetnetconfigentgetenvopenlogstrcmpioctlsigsetmainsvcerr_systemerrsvcerr_decodememsetsvcerr_noprocprintmessage_1xdr_intxdr_wrapstringxdr_voidsvc_sendreplyalarmsignalgetrlimitexitt_getinfosvc_fdsetsyslog %(-H7PEQ\chmsz(&5=LUcipz(/P T h l -,  +   \. `.   ,   H H *0)\ ` l p ' ' (      & & % % $ $ #      , 0 "!      T(p   ,      <`|   $ $       Tx ,| , H H$ P( P8P XT Xl, x x, P P0H L d, H H*),   , $, D+ l,           ,  , 8 @ P D P P 0 T 0 h    ,      ,4k   x  # 8, 0 8 G P0X `  rpc/demo/msg/msg_svc010070000060310000145000000372040614440653400157010ustar00delgadooraweb00000000000001ELF 4:L4 (44`/usr/lib/ld.so.1CT=;B-%H9$EA:KGC86</I7D?FQ0@*MS'RL13O "+2,(!.)4#5&J>NPL     0 h l x dTt| t%(*49 F\clt{ 08 `$<,DH%x,289?N ]!ell xl p  dT t H H08 $_startxdr_voidt_getstate_environ_endsvc_fdsetfork_ex_register_GLOBAL_OFFSET_TABLE_signalsvcerr_systemerratexitexitalarmopenloggetnetconfigentxdr_wrapstring_initsvcerr_decodesvc_sendreplyfreenetconfigentxdr_intfclosegetenvdup2svc_create_DYNAMICsvc_regsvcerr_noprocsigsetioctlsetsid_exitsvc_tli_create_ex_deregisterenvironperror__cg89_used__cg92_used__fnonstd_usedcloseopenstrcmpgetrlimitsvc_run_edata_PROCEDURE_LINKAGE_TABLE_fopenmemsett_getinfo_etext_lib_versionmainsyslogprintmessage_1_finifprintflibrpcsvc.so.1libnsl.so.1libc.so.1X=T"&';JS1PLF$ ($.0+<0H7TK`-l%x89E)2*</6G!?C D,38:D4 @D, @'$᠜# @CiF@Cf!0@@@C_@C`㿘'D!F!x#Fa@@CT' @  !!$ !!'%FD @@C=@C< !!$ !!'㿠'D D@@C%p'D! t g! x a ܐ@@C   @B!!  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Ԑ- @AE    @@A'ܠ @ !  @A)@Aoܢ c 'Dp @@Ae !! @A؀  #Cbh@@A <@A@AJ @@`@AE'  !F!@A= @@ @@ ' ܐ@@@'䀤  @@ '䀤@@A '䀤@!F! @@A ' @@A @@A@A!F!  @@@!D p c 'F@@@ !!@a @@y@@!!|V @@n㿠@`?㿠@(?/dev/consolew%s msgNLSPROVIDERcannot fork/dev/consolemsgnetpath,;G  0 QL d   00<0H0T0`0l0x00000000000000 0,080D0P0\0h0t0000000000d unable to free argumentssockmodtimodcannot get transport infosockmodtimodcould not get the right modulecannot create server handleunable to register (MESSAGEPROG, MESSAGEVERS).unable to create (MESSAGEPROG, MESSAGEVERS) for netpath.svc_run returnedL     0 h l x dTt|  h %\18DOYtfxs0({hph l t(  ")l:AF LTd0s8 y`$<,DHx8 #!+2l >l Jp Y_ dku}dT t H H08 msg_svccrti.s_ex_text0_ex_range0_ex_shared0crt1.svalues-Xt.cmsg_proc.cmsg_svc.c_rpcsvcstate_rpcsvccount_msgoutclosedownmessageprog_1_rpcpmstartcrtn.s_ex_text1_ex_range1_ex_shared1_startxdr_voidt_getstate_environ_endsvc_fdsetfork_ex_register_GLOBAL_OFFSET_TABLE_signalsvcerr_systemerratexitexitalarmopenloggetnetconfigentxdr_wrapstring_initsvcerr_decodesvc_sendreplyfreenetconfigentxdr_intfclosegetenvdup2svc_create_DYNAMICsvc_regsvcerr_noprocsigsetioctlsetsid_exitsvc_tli_create_ex_deregisterenvironperror__cg89_used__cg92_used__fnonstd_usedcloseopenstrcmpgetrlimitsvc_run_edata_PROCEDURE_LINKAGE_TABLE_fopenmemsett_getinfo_etext_lib_versionmainsyslogprintmessage_1_finifprintf < 4 <4 <4*@(#)stdio.h 1.34 94/06/07 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)rpc.h 1.11 93/02/04 SMI@(#)types.h 1.18 94/03/08 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)auth.h 1.25 94/02/07 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.33 93/11/19 SMI@(#)rpc_com.h 1.15 94/01/18 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)rpc_msg.h 1.12 94/06/01 SMI@(#)auth_sys.h 1.13 93/11/12 SMI@(#)auth_des.h 1.12 93/05/30 SMI@(#)auth_kerb.h 1.8 93/05/26 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)svc.h 1.30 94/01/18 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)svc_auth.h 1.10 93/11/12 SMI@(#)rpcb_clnt.h 1.11 93/07/16 SMI@(#)rpcb_prot.x 1.3 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)rpc.h 1.11 93/02/04 SMI@(#)types.h 1.18 94/03/08 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.25 94/02/07 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.33 93/11/19 SMI@(#)rpc_com.h 1.15 94/01/18 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)rpc_msg.h 1.12 94/06/01 SMI@(#)auth_sys.h 1.13 93/11/12 SMI@(#)auth_des.h 1.12 93/05/30 SMI@(#)auth_kerb.h 1.8 93/05/26 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)svc.h 1.30 94/01/18 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)svc_auth.h 1.10 93/11/12 SMI@(#)rpcb_clnt.h 1.11 93/07/16 SMI@(#)rpcb_prot.x 1.3 92/07/14 SMI@(#)stdlib.h 1.24 94/03/28 SMI@(#)signal.h 1.24 94/07/12 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)procset.h 1.15 93/05/05 SMI@(#)stropts.h 1.7 94/01/12 SMI@(#)stropts.h 1.15 94/12/20 SMI@(#)conf.h 1.36 94/05/10 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)resource.h 1.10 93/12/21 SMI@(#)syslog.h 1.8 93/11/01 SMI@(#)syslog.h 1.10 92/07/14 SMI@(#)stdarg.h 1.11 94/01/05 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1ld: (SGU) SunOS/ELF (LK-2.0 (S/I) - versioning).interp.hash.dynsym.dynstr.rela.ex_shared.rela.bss.rela.plt.text.init.fini.exception_ranges.rodata.rodata1.got.dynamic.plt.ex_shared.data.data1.bss.symtab.strtab.stab.index.comment.shstrtab.stab.indexstrvalues-Xt.cXt ; V=3.0 ; R=3.0/export/set/seva/bootstrap/3.0.1/lang/csu/sparc; /export/set/seva/bootstrap/3.0.1/boot3/bin/sparc/SC3.0.1/../bin/../SC3.0.1/bin/cc -c -O -DELF -o values-xt.o ../src/values-Xt.c -W0,-xpmsg_proc.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/msg; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -c msg_proc.c -W0,-xpmsg_svc.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/msg; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -c msg_svc.c -W0,-xpmain d LL@Q  /  9   C 8I8O008Uhhgll oxxPx}dd TT tt||p.$&x 'l7"8A@A؀  #Cbh@@A <@A@AJ @@`@AE'  !F!@A= @@ @@ ' ܐ@@@'䀤  @@ '䀤@@A '䀤@!F! @@A rpc/demo/msg/rprintmsg.o010060000060310000145000000071700614440653700165230ustar00delgadooraweb00000000000001ELF 4( .shstrtab.text.rodata1.stab.index.stab.indexstr.comment.strtab.symtab.rela.text㿈'H'DD #`%H @@ @H  'H  ' c '@@' @ @ @@@' @ @@ @ #`%H @@ @! @@usage: %s host message tcp%s: sorry, %s couldn't print your message Message delivered to %s!  < 4*rprintmsg.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/msg; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -c rprintmsg.c -W0,-xpmain@(#)stdio.h 1.34 94/06/07 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)rpc.h 1.11 93/02/04 SMI@(#)types.h 1.18 94/03/08 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)auth.h 1.25 94/02/07 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.33 93/11/19 SMI@(#)rpc_com.h 1.15 94/01/18 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)rpc_msg.h 1.12 94/06/01 SMI@(#)auth_sys.h 1.13 93/11/12 SMI@(#)auth_des.h 1.12 93/05/30 SMI@(#)auth_kerb.h 1.8 93/05/26 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)svc.h 1.30 94/01/18 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)svc_auth.h 1.10 93/11/12 SMI@(#)rpcb_clnt.h 1.11 93/07/16 SMI@(#)rpcb_prot.x 1.3 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1rprintmsg.cprintfclnt_perrorprintmessage_1clnt_pcreateerrorclnt_createexitfprintfmain__iob  /AMRZ_, 0 4 8 P `  4D` d h l   H H4Y Xb0 &5> eF N  rpc/demo/msg/msg_clnt.o010060000060310000145000000062240614440654200162770ustar00delgadooraweb00000000000001ELF 4( .shstrtab.text.bss.data.stab.index.stab.indexstr.comment.strtab.symtab.rela.text㿐'H'D!   @@H   H %D+`-/@@$ $ #\  '! ' <4msg_clnt.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/msg; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -c msg_clnt.c -W0,-xp@(#)rpc.h 1.11 93/02/04 SMI@(#)types.h 1.18 94/03/08 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.25 94/02/07 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.33 93/11/19 SMI@(#)rpc_com.h 1.15 94/01/18 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)rpc_msg.h 1.12 94/06/01 SMI@(#)auth_sys.h 1.13 93/11/12 SMI@(#)auth_des.h 1.12 93/05/30 SMI@(#)auth_kerb.h 1.8 93/05/26 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)svc.h 1.30 94/01/18 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)svc_auth.h 1.10 93/11/12 SMI@(#)rpcb_clnt.h 1.11 93/07/16 SMI@(#)rpcb_prot.x 1.3 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1msg_clnt.cTIMEOUTxdr_intxdr_wrapstringmemsetprintmessage_1 +2  8X \ d h l p t x   4[ $ (7f@ mAH P @  rpc/demo/msg/rprintmsg010070000060310000145000000251140614440654200162610ustar00delgadooraweb00000000000001ELFp4&<4 (44   |  /usr/lib/ld.so.15:9%1"$6.5/'84+)237 -(0#*,!&Lp         (    ( ptX@! ( > J XQ dV e 8 k s   @ p !        (     $ ', ; 8 A |_start_environ_end_iob_ex_register_GLOBAL_OFFSET_TABLE_clnt_createatexitexitxdr_wrapstring_initxdr_intclnt_perror_DYNAMICprintf__iob_exit_ex_deregisterenvironclnt_pcreateerror__cg89_used__cg92_used__fnonstd_used_edata_PROCEDURE_LINKAGE_TABLE_memset_etext_lib_versionmainprintmessage_1_finifprintflibrpcsvc.so.1libnsl.so.1libc.so.1 + ) X! d" p* |9  - & ( 3 # % @D, @'$# @A.B@A+#@@ @A$@A%㿈'H'DD #b8%C(H @@A @AH  'H  ' c 'C@@@@' @ @@ @@@@6' @ @@@ @@ #b8%CDH @@@ @@!C p@@@㿐'H'D!"  @@@H   H %D+a-/@@$ $ #\  '!"'㿠@<?㿠@?usage: %s host message tcp%s: sorry, %s couldn't print your message Message delivered to %s!  IXd   L n  ( 00<0H0T0`0l0x0000000Lp         (    (  p  ' 3:FR]el v   ptX@!    X d  8      @! p' 6!> P  \  h  w~ (    $   8  |rprintmsgcrti.s_ex_text0_ex_range0_ex_shared0crt1.svalues-Xt.crprintmsg.cmsg_clnt.cTIMEOUTcrtn.s_ex_text1_ex_range1_ex_shared1_start_environ_end_iob_ex_register_GLOBAL_OFFSET_TABLE_clnt_createatexitexitxdr_wrapstring_initxdr_intclnt_perror_DYNAMICprintf__iob_exit_ex_deregisterenvironclnt_pcreateerror__cg89_used__cg92_used__fnonstd_used_edata_PROCEDURE_LINKAGE_TABLE_memset_etext_lib_versionmainprintmessage_1_finifprintf < 4 < 4* <4@(#)stdio.h 1.34 94/06/07 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)rpc.h 1.11 93/02/04 SMI@(#)types.h 1.18 94/03/08 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)auth.h 1.25 94/02/07 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.33 93/11/19 SMI@(#)rpc_com.h 1.15 94/01/18 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)rpc_msg.h 1.12 94/06/01 SMI@(#)auth_sys.h 1.13 93/11/12 SMI@(#)auth_des.h 1.12 93/05/30 SMI@(#)auth_kerb.h 1.8 93/05/26 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)svc.h 1.30 94/01/18 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)svc_auth.h 1.10 93/11/12 SMI@(#)rpcb_clnt.h 1.11 93/07/16 SMI@(#)rpcb_prot.x 1.3 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)rpc.h 1.11 93/02/04 SMI@(#)types.h 1.18 94/03/08 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.25 94/02/07 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.33 93/11/19 SMI@(#)rpc_com.h 1.15 94/01/18 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)rpc_msg.h 1.12 94/06/01 SMI@(#)auth_sys.h 1.13 93/11/12 SMI@(#)auth_des.h 1.12 93/05/30 SMI@(#)auth_kerb.h 1.8 93/05/26 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)svc.h 1.30 94/01/18 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)svc_auth.h 1.10 93/11/12 SMI@(#)rpcb_clnt.h 1.11 93/07/16 SMI@(#)rpcb_prot.x 1.3 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1ld: (SGU) SunOS/ELF (LK-2.0 (S/I) - versioning).interp.hash.dynsym.dynstr.rela.ex_shared.rela.bss.rela.plt.text.init.fini.exception_ranges.rodata.rodata1.got.dynamic.plt.ex_shared.data.bss.symtab.strtab.stab.index.comment.shstrtab.stab.indexstrvalues-Xt.cXt ; V=3.0 ; R=3.0/export/set/seva/bootstrap/3.0.1/lang/csu/sparc; /export/set/seva/bootstrap/3.0.1/boot3/bin/sparc/SC3.0.1/../bin/../SC3.0.1/bin/cc -c -O -DELF -o values-xt.o ../src/values-Xt.c -W0,-xprprintmsg.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/msg; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -c rprintmsg.c -W0,-xpmainmsg_clnt.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/msg; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -c msg_clnt.c -W0,-xp  LLn / 9 Cpp8I 8O 8U  g   o ( (bx }  ( (  P(`x >##EptX@! ( > J XQ dV e 8 k s   @ p !        (    rpc/demo/sort/004070000000000000000000000000000614442060600135505ustar00rootroot00000000000001rpc/demo/sort/sort_proc.c010060000000000000000000000012160614441656700157400ustar00rootroot00000000000001/* @(#)sort_proc.c 2.1 88/08/11 4.0 RPCSRC */ #include #include "sort.h" static int comparestrings(sp1, sp2) char **sp1, **sp2; { return (strcmp(*sp1, *sp2)); } struct sortstrings * sort_1(ssp) struct sortstrings *ssp; { static struct sortstrings ss_res; if (ss_res.ss.ss_val != (str *)NULL) free(ss_res.ss.ss_val); qsort(ssp->ss.ss_val, ssp->ss.ss_len, sizeof (char *), comparestrings); ss_res.ss.ss_len = ssp->ss.ss_len; ss_res.ss.ss_val = (str *)malloc(ssp->ss.ss_len * sizeof(str *)); memcpy(ssp->ss.ss_val, ss_res.ss.ss_val, ssp->ss.ss_len * sizeof(str *)); return(&ss_res); } rpc/demo/sort/Makefile010060000000000000000000000011730614441646300152170ustar00rootroot00000000000001# # @(#)Makefile 2.1 88/08/11 4.0 RPCSRC # BIN = rsort sort_svc GEN = sort_clnt.c sort_svc.c sort_xdr.c sort.h LIB = -lnsl -lrpcsvc RPCCOM = rpcgen CC = cc all: $(BIN) rsort: rsort.o sort_clnt.o sort_xdr.o $(CC) $(LDFLAGS) -o $@ rsort.o sort_clnt.o sort_xdr.o $(LIB) rsort.o: rsort.c sort.h sort_clnt.c: $(RPCCOM) -l sort.x >$@ sort_svc: sort_proc.o sort_svc.o sort_xdr.o $(CC) $(LDFLAGS) -o $@ sort_proc.o sort_svc.o sort_xdr.o $(LIB) sort_proc.o: sort_proc.c sort.h sort_svc.c: $(RPCCOM) -s udp sort.x >$@ sort_xdr.c: $(RPCCOM) -c sort.x >$@ sort.h: $(RPCCOM) -h sort.x >$@ clean cleanup: rm -f $(GEN) *.o $(BIN) rpc/demo/sort/sort.x010060000000000000000000000007070443763512200147370ustar00rootroot00000000000001/* @(#)sort.x 2.1 88/08/11 4.0 RPCSRC */ /* * The sort procedure receives an array of strings and returns an array * of strings. This toy service handles a maximum of 64 strings. */ const MAXSORTSIZE = 64; const MAXSTRINGLEN = 64; typedef string str; /* the string itself */ struct sortstrings { str ss; }; program SORTPROG { version SORTVERS { sortstrings SORT(sortstrings) = 1; } = 1; } = 22855; rpc/demo/sort/rsort.c010060000000000000000000000016010443763512200150660ustar00rootroot00000000000001/* @(#)rsort.c 2.1 88/08/11 4.0 RPCSRC */ /* * rsort.c * Client side application which sorts argc, argv. */ #include #include #include "sort.h" main(argc, argv) int argc; char **argv; { char *machinename; struct sortstrings args, res; int i; if (argc < 3) { fprintf(stderr, "usage: %s machinename [s1 ...]\n", argv[0]); exit(1); } machinename = argv[1]; args.ss.ss_len = argc - 2; /* substract off progname, machinename */ args.ss.ss_val = &argv[2]; res.ss.ss_val = (char **)NULL; if ((i = callrpc(machinename, SORTPROG, SORTVERS, SORT, xdr_sortstrings, &args, xdr_sortstrings, &res))) { fprintf(stderr, "%s: call to sort service failed. ", argv[0]); clnt_perrno(i); fprintf(stderr, "\n"); exit(1); } for (i = 0; i < res.ss.ss_len; i++) { printf("%s\n", res.ss.ss_val[i]); } /* should free res here */ exit(0); } rpc/demo/sort/Makefile.orig010060000000000000000000000011550534641007000161450ustar00rootroot00000000000001# # @(#)Makefile 2.1 88/08/11 4.0 RPCSRC # BIN = rsort sort_svc GEN = sort_clnt.c sort_svc.c sort_xdr.c sort.h LIB = -lrpclib RPCCOM = rpcgen all: $(BIN) rsort: rsort.o sort_clnt.o sort_xdr.o $(CC) $(LDFLAGS) -o $@ rsort.o sort_clnt.o sort_xdr.o $(LIB) rsort.o: rsort.c sort.h sort_clnt.c: $(RPCCOM) -l sort.x >$@ sort_svc: sort_proc.o sort_svc.o sort_xdr.o $(CC) $(LDFLAGS) -o $@ sort_proc.o sort_svc.o sort_xdr.o $(LIB) sort_proc.o: sort_proc.c sort.h sort_svc.c: $(RPCCOM) -s udp sort.x >$@ sort_xdr.c: $(RPCCOM) -c sort.x >$@ sort.h: $(RPCCOM) -h sort.x >$@ clean cleanup: rm -f $(GEN) *.o $(BIN) rpc/demo/sort/sort.h010060000060310000145000000011530614441646500156530ustar00delgadooraweb00000000000001/* * Please do not edit this file. * It was generated using rpcgen. */ #ifndef _SORT_H_RPCGEN #define _SORT_H_RPCGEN #include #define MAXSORTSIZE 64 #define MAXSTRINGLEN 64 typedef char *str; struct sortstrings { struct { u_int ss_len; str *ss_val; } ss; }; typedef struct sortstrings sortstrings; #define SORTPROG ((unsigned long)(22855)) #define SORTVERS ((unsigned long)(1)) #define SORT ((unsigned long)(1)) extern sortstrings * sort_1(); extern int sortprog_1_freeresult(); /* the xdr functions */ extern bool_t xdr_str(); extern bool_t xdr_sortstrings(); #endif /* !_SORT_H_RPCGEN */ SORT_H_RPCGEN #include #define MAXSORTSIZE 64 #define MAXSTRINGLEN 64 typedef char *str; struct sortstrings { struct { u_int ss_len; str *ss_val; } ss; }; typedef struct sortstrings sortstrings; #define SORTPROG ((unsigned long)(22855)) #define SORTVERS ((unsigned long)(1)) #define SORT ((unsigned long)(1)) extern sortstrings * sort_1(); extern int sortprog_1_freeresult(); /* thrpc/demo/sort/rsort.o010060000060310000145000000072000614441647700160460ustar00delgadooraweb00000000000001ELF 4( .shstrtab.text.rodata1.stab.index.stab.indexstr.comment.strtab.symtab.rela.textx'H'DD #`%H @@ @H  'D$ 'H ' '#aG  +`/@@#\#`@'䀤#`%H @@@! #`@@ @ '',  @ '耤@  @usage: %s machinename [s1 ...] %s: call to sort service failed. %s  <4*rsort.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/sort; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -c rsort.c -W0,-xpmain@(#)stdio.h 1.34 94/06/07 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)rpc.h 1.11 93/02/04 SMI@(#)types.h 1.18 94/03/08 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)auth.h 1.25 94/02/07 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.33 93/11/19 SMI@(#)rpc_com.h 1.15 94/01/18 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)rpc_msg.h 1.12 94/06/01 SMI@(#)auth_sys.h 1.13 93/11/12 SMI@(#)auth_des.h 1.12 93/05/30 SMI@(#)auth_kerb.h 1.8 93/05/26 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)svc.h 1.30 94/01/18 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)svc_auth.h 1.10 93/11/12 SMI@(#)rpcb_clnt.h 1.11 93/07/16 SMI@(#)rpcb_prot.x 1.3 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1rsort.cprintfclnt_perrnoxdr_sortstringscallrpcexitfprintfmain__iob ,49AF, 0 4 8 P`         (8@ D H DL DXh H H4Y xL0 &5> LF N D rpc/demo/sort/sort_clnt.c010060000060310000145000000010410614441650000166500ustar00delgadooraweb00000000000001/* * Please do not edit this file. * It was generated using rpcgen. */ #include "sort.h" /* Default timeout can be changed using clnt_control() */ static struct timeval TIMEOUT = { 25, 0 }; sortstrings * sort_1(argp, clnt) sortstrings *argp; CLIENT *clnt; { static sortstrings clnt_res; memset((char *)&clnt_res, 0, sizeof (clnt_res)); if (clnt_call(clnt, SORT, (xdrproc_t) xdr_sortstrings, (caddr_t) argp, (xdrproc_t) xdr_sortstrings, (caddr_t) &clnt_res, TIMEOUT) != RPC_SUCCESS) { return (NULL); } return (&clnt_res); } rpc/demo/sort/sort_clnt.o010060000060310000145000000061700614441650200166760ustar00delgadooraweb00000000000001ELF 4( .shstrtab.text.bss.data.stab.index.stab.indexstr.comment.strtab.symtab.rela.text㿐'H'D!   @@H   H %D+`-/@@$ $ #\  '! ' < 4sort_clnt.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/sort; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -c sort_clnt.c -W0,-xp@(#)rpc.h 1.11 93/02/04 SMI@(#)types.h 1.18 94/03/08 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.25 94/02/07 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.33 93/11/19 SMI@(#)rpc_com.h 1.15 94/01/18 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)rpc_msg.h 1.12 94/06/01 SMI@(#)auth_sys.h 1.13 93/11/12 SMI@(#)auth_des.h 1.12 93/05/30 SMI@(#)auth_kerb.h 1.8 93/05/26 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)svc.h 1.30 94/01/18 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)svc_auth.h 1.10 93/11/12 SMI@(#)rpcb_clnt.h 1.11 93/07/16 SMI@(#)rpcb_prot.x 1.3 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1sort_clnt.cTIMEOUTxdr_sortstringsmemsetsort_1 %,  8X \ d h l p t x   4[ $ (7i@ p3H P $  tab.symtab.rela.text㿐'H'D!   @@H   H %D+`-/@@$ $ #\  '! ' < 4sort_clnt.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-barpc/demo/sort/sort_xdr.c010060000060310000145000000010150614441650300165110ustar00delgadooraweb00000000000001/* * Please do not edit this file. * It was generated using rpcgen. */ #include "sort.h" bool_t xdr_str(xdrs, objp) register XDR *xdrs; str *objp; { register long *buf; if (!xdr_string(xdrs, objp, MAXSTRINGLEN)) return (FALSE); return (TRUE); } bool_t xdr_sortstrings(xdrs, objp) register XDR *xdrs; sortstrings *objp; { register long *buf; if (!xdr_array(xdrs, (char **)&objp->ss.ss_val, (u_int *) &objp->ss.ss_len, MAXSORTSIZE, sizeof (str), (xdrproc_t) xdr_str)) return (FALSE); return (TRUE); } rpc/demo/sort/sort_xdr.o010060000060310000145000000056500614441650600165410ustar00delgadooraweb00000000000001ELF @4( .shstrtab.text.stab.index.stab.indexstr.comment.strtab.symtab.rela.text㿘'H'DH @@@ ' '㿘'H'DH H @ ) @@ ' ' <4sort_xdr.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/sort; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -c sort_xdr.c -W0,-xp@(#)rpc.h 1.11 93/02/04 SMI@(#)types.h 1.18 94/03/08 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.25 94/02/07 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.33 93/11/19 SMI@(#)rpc_com.h 1.15 94/01/18 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)rpc_msg.h 1.12 94/06/01 SMI@(#)auth_sys.h 1.13 93/11/12 SMI@(#)auth_des.h 1.12 93/05/30 SMI@(#)auth_kerb.h 1.8 93/05/26 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)svc.h 1.30 94/01/18 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)svc_auth.h 1.10 93/11/12 SMI@(#)rpcb_clnt.h 1.11 93/07/16 SMI@(#)rpcb_prot.x 1.3 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1sort_xdr.cxdr_arrayxdr_sortstringsxdr_stringxdr_str &1h0  4P $ ,o5 v9= `E 0 rpc/demo/sort/rsort010070000060310000145000000315200614441651000156000ustar00delgadooraweb00000000000001ELFp4/@4 (44   p  /usr/lib/ld.so.15;:1$%7-6.&945+)23!"(8'* ,/#0`p     H  L  X   @  pt h  h%(@!* 7 MUp\|a 8 g p|(@  ! L  L  P @ P   T #(3 8 9sort_1_startxdr_str_environ_end_iob_ex_register_GLOBAL_OFFSET_TABLE_callrpcatexitexit_init_DYNAMICclnt_perrnoprintf__iob_exit_ex_deregisterenviron__cg89_used__cg92_usedxdr_array__fnonstd_used_edata_PROCEDURE_LINKAGE_TABLE_memsetxdr_sortstrings_etext_lib_versionmainxdr_string_finifprintflibnsl.so.1librpcsvc.so.1libc.so.1+  ()p#|$*:"'(38/ @D, @'$ # @AtC@Aq!@ @ @Aj@Akx'H'DD #cH%CXH @@AW @AMH  'D$ 'H ' '#aG  +C`P/CP@@#\#`@A5'䀤#cH%CxH @@A!@A#!#H#Ca@@A @A  ''C,  @A  '耤@  @@㿐'H'D!#  @@@H   H %CPD+C`P-/ @@$ $ #\  '!#'㿘'H'DH @@@@ ' '㿘'H'DH H @ )B#ؐ@@@ ' '㿠@?㿠@?usage: %s machinename [s1 ...] %s: call to sort service failed. %s  AM\   ` f @x 00<0H0T0`0l0x0000|TT`p     H  L  X   @ p H #/6BJV ^ip z H  pt h h(@!  p| 8   (@ . !6 L B L NX P gn@ P   T  8 rsortcrti.s_ex_text0_ex_range0_ex_shared0crt1.svalues-Xt.crsort.csort_clnt.cTIMEOUTsort_xdr.ccrtn.s_ex_text1_ex_range1_ex_shared1sort_1_startxdr_str_environ_end_iob_ex_register_GLOBAL_OFFSET_TABLE_callrpcatexitexit_init_DYNAMICclnt_perrnoprintf__iob_exit_ex_deregisterenviron__cg89_used__cg92_usedxdr_array__fnonstd_used_edata_PROCEDURE_LINKAGE_TABLE_memsetxdr_sortstrings_etext_lib_versionmainxdr_string_finifprintf < 4 <4* < 4 <4@(#)stdio.h 1.34 94/06/07 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)rpc.h 1.11 93/02/04 SMI@(#)types.h 1.18 94/03/08 SMI@(#)types.h 1.30 93/11/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)auth.h 1.25 94/02/07 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.33 93/11/19 SMI@(#)rpc_com.h 1.15 94/01/18 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)rpc_msg.h 1.12 94/06/01 SMI@(#)auth_sys.h 1.13 93/11/12 SMI@(#)auth_des.h 1.12 93/05/30 SMI@(#)auth_kerb.h 1.8 93/05/26 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)svc.h 1.30 94/01/18 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)svc_auth.h 1.10 93/11/12 SMI@(#)rpcb_clnt.h 1.11 93/07/16 SMI@(#)rpcb_prot.x 1.3 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)rpc.h 1.11 93/02/04 SMI@(#)types.h 1.18 94/03/08 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.25 94/02/07 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.33 93/11/19 SMI@(#)rpc_com.h 1.15 94/01/18 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)rpc_msg.h 1.12 94/06/01 SMI@(#)auth_sys.h 1.13 93/11/12 SMI@(#)auth_des.h 1.12 93/05/30 SMI@(#)auth_kerb.h 1.8 93/05/26 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)svc.h 1.30 94/01/18 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)svc_auth.h 1.10 93/11/12 SMI@(#)rpcb_clnt.h 1.11 93/07/16 SMI@(#)rpcb_prot.x 1.3 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)rpc.h 1.11 93/02/04 SMI@(#)types.h 1.18 94/03/08 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.25 94/02/07 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.33 93/11/19 SMI@(#)rpc_com.h 1.15 94/01/18 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)rpc_msg.h 1.12 94/06/01 SMI@(#)auth_sys.h 1.13 93/11/12 SMI@(#)auth_des.h 1.12 93/05/30 SMI@(#)auth_kerb.h 1.8 93/05/26 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)svc.h 1.30 94/01/18 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)svc_auth.h 1.10 93/11/12 SMI@(#)rpcb_clnt.h 1.11 93/07/16 SMI@(#)rpcb_prot.x 1.3 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1ld: (SGU) SunOS/ELF (LK-2.0 (S/I) - versioning).interp.hash.dynsym.dynstr.rela.ex_shared.rela.bss.rela.plt.text.init.fini.exception_ranges.rodata.rodata1.got.dynamic.plt.ex_shared.data.bss.symtab.strtab.stab.index.comment.shstrtab.stab.indexstrvalues-Xt.cXt ; V=3.0 ; R=3.0/export/set/seva/bootstrap/3.0.1/lang/csu/sparc; /export/set/seva/bootstrap/3.0.1/boot3/bin/sparc/SC3.0.1/../bin/../SC3.0.1/bin/cc -c -O -DELF -o values-xt.o ../src/values-Xt.c -W0,-xprsort.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/sort; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -c rsort.c -W0,-xpmainsort_clnt.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/sort; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -c sort_clnt.c -W0,-xpsort_xdr.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/sort; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -c sort_xdr.c -W0,-xp  ``f / 9x CpphI 8O  8U H Hg L L o X XLx } @@    P) (E+m,Lrpc/demo/sort/sort_proc.o010060000060310000145000000065400614441657300167120ustar00delgadooraweb00000000000001ELF 4( .shstrtab.text.bss.stab.index.stab.indexstr.comment.strtab.symtab.rela.text㿘'H'DD H @@'㿘'D!   @!  @D  D  '@@D ! $ D  ,@! $ D  !  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' < 4sort_proc.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/sort; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -c sort_proc.c -W0,-xp@(#)rpc.h 1.11 93/02/04 SMI@(#)types.h 1.18 94/03/08 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.25 94/02/07 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.33 93/11/19 SMI@(#)rpc_com.h 1.15 94/01/18 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)rpc_msg.h 1.12 94/06/01 SMI@(#)auth_sys.h 1.13 93/11/12 SMI@(#)auth_des.h 1.12 93/05/30 SMI@(#)auth_kerb.h 1.8 93/05/26 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)svc.h 1.30 94/01/18 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)svc_auth.h 1.10 93/11/12 SMI@(#)rpcb_clnt.h 1.11 93/07/16 SMI@(#)rpcb_prot.x 1.3 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1sort_proc.ccomparestringsmemcpymallocqsortfreesort_1strcmp L#*05p<4 x |          0 4 X` d 4U $ "<1: CB <J  rpc/demo/sort/sort_svc.c010060000060310000145000000105240614441651300165150ustar00delgadooraweb00000000000001/* * Please do not edit this file. * It was generated using rpcgen. */ #include "sort.h" #include #include /* getenv, exit */ #include #include #include #include #include #include /* rlimit */ #include #ifdef DEBUG #define RPC_SVC_FG #endif #define _RPCSVC_CLOSEDOWN 120 static int _rpcpmstart; /* Started by a port monitor ? */ /* States a server can be in wrt request */ #define _IDLE 0 #define _SERVED 1 static int _rpcsvcstate = _IDLE; /* Set when a request is serviced */ static int _rpcsvccount = 0; /* Number of requests being serviced */ static void _msgout(msg) char *msg; { #ifdef RPC_SVC_FG if (_rpcpmstart) syslog(LOG_ERR, msg); else (void) fprintf(stderr, "%s\n", msg); #else syslog(LOG_ERR, msg); #endif } static void closedown(sig) int sig; { if (_rpcsvcstate == _IDLE && _rpcsvccount == 0) { extern fd_set svc_fdset; static int size; int i, openfd; struct t_info tinfo; if (!t_getinfo(0, &tinfo) && (tinfo.servtype == T_CLTS)) exit(0); if (size == 0) { struct rlimit rl; rl.rlim_max = 0; getrlimit(RLIMIT_NOFILE, &rl); if ((size = rl.rlim_max) == 0) { return; } } for (i = 0, openfd = 0; i < size && openfd < 2; i++) if (FD_ISSET(i, &svc_fdset)) openfd++; if (openfd <= 1) exit(0); } else _rpcsvcstate = _IDLE; (void) signal(SIGALRM, (void(*)()) closedown); (void) alarm(_RPCSVC_CLOSEDOWN/2); } static void sortprog_1(rqstp, transp) struct svc_req *rqstp; register SVCXPRT *transp; { union { sortstrings sort_1_arg; } argument; char *result; bool_t (*xdr_argument)(), (*xdr_result)(); char *(*local)(); _rpcsvccount++; switch (rqstp->rq_proc) { case NULLPROC: (void) svc_sendreply(transp, xdr_void, (char *)NULL); _rpcsvccount--; _rpcsvcstate = _SERVED; return; case SORT: xdr_argument = xdr_sortstrings; xdr_result = xdr_sortstrings; local = (char *(*)()) sort_1; break; default: svcerr_noproc(transp); _rpcsvccount--; _rpcsvcstate = _SERVED; return; } (void) memset((char *)&argument, 0, sizeof (argument)); if (!svc_getargs(transp, xdr_argument, &argument)) { svcerr_decode(transp); _rpcsvccount--; _rpcsvcstate = _SERVED; return; } result = (*local)(&argument, rqstp); if (result != NULL && !svc_sendreply(transp, xdr_result, result)) { svcerr_systemerr(transp); } if (!svc_freeargs(transp, xdr_argument, &argument)) { _msgout("unable to free arguments"); exit(1); } _rpcsvccount--; _rpcsvcstate = _SERVED; return; } main() { pid_t pid; int i; char mname[FMNAMESZ + 1]; (void) sigset(SIGPIPE, SIG_IGN); if (!ioctl(0, I_LOOK, mname) && (!strcmp(mname, "sockmod") || !strcmp(mname, "timod"))) { char *netid; struct netconfig *nconf = NULL; SVCXPRT *transp; int pmclose; _rpcpmstart = 1; openlog("sort", LOG_PID, LOG_DAEMON); if ((netid = getenv("NLSPROVIDER")) == NULL) { /* started from inetd */ pmclose = 1; } else { if ((nconf = getnetconfigent(netid)) == NULL) _msgout("cannot get transport info"); pmclose = (t_getstate(0) != T_DATAXFER); } if (strcmp(mname, "sockmod") == 0) { if (ioctl(0, I_POP, 0) || ioctl(0, I_PUSH, "timod")) { _msgout("could not get the right module"); exit(1); } } if ((transp = svc_tli_create(0, nconf, NULL, 0, 0)) == NULL) { _msgout("cannot create server handle"); exit(1); } if (nconf) freenetconfigent(nconf); if (!svc_reg(transp, SORTPROG, SORTVERS, sortprog_1, 0)) { _msgout("unable to register (SORTPROG, SORTVERS)."); exit(1); } if (pmclose) { (void) signal(SIGALRM, (void(*)()) closedown); (void) alarm(_RPCSVC_CLOSEDOWN/2); } svc_run(); exit(1); /* NOTREACHED */ } else { #ifndef RPC_SVC_FG int size; struct rlimit rl; pid = fork(); if (pid < 0) { perror("cannot fork"); exit(1); } if (pid) exit(0); rl.rlim_max = 0; getrlimit(RLIMIT_NOFILE, &rl); if ((size = rl.rlim_max) == 0) exit(1); for (i = 0; i < size; i++) (void) close(i); i = open("/dev/console", 2); (void) dup2(i, 1); (void) dup2(i, 2); setsid(); openlog("sort", LOG_PID, LOG_DAEMON); #endif } if (!svc_create(sortprog_1, SORTPROG, SORTVERS, "udp")) { _msgout("unable to create (SORTPROG, SORTVERS) for udp."); exit(1); } svc_run(); _msgout("svc_run returned"); exit(1); /* NOTREACHED */ } rpc/demo/sort/sort_svc.o010060000060310000145000000215740614441652000165360ustar00delgadooraweb00000000000001ELF!t4( .shstrtab.text.data.bss.data1.rodata1.stab.index.stab.indexstr.comment.strtab.symtab.rela.text㿠'D D@@p'D!  g!  a ܐ@@   @!   'ؠ Ԑ@@'! $ Ѐ D ' ' 4 ,#`    ,  ' '!  @   @ ! $  #`@@ <@㿈'H'D!   ! $ 2!  @@@!  $ ! $  ! $ ! '! '! '@@!  $ ! $  ! $ uD     @@`   @@Ā@@!  $ ! $  ! $ CD@Ā' @@@@@@`   @@Ā !  @!  $ ! $  ! $ x  @@ #c@@#`@@ #`@@ ' ! $ !   @@! @' @ '@' @! c @  2 'ؠ#`@@ & #c @@ #c%@@ ! - @    @@'ܠ @ !  @@#aG ' @@ !  @؀  #`@@ <@@ @`@'  ! @ @ @ ' ܐ@@'䀤  @ '䀤@@ '䀤@!  @@' @@ @@@!   @@! #aG '@@ ! _ @@! T @unable to free argumentssockmodtimodcannot get transport infosockmodtimodcould not get the right modulecannot create server handleunable to register (SORTPROG, SORTVERS).unable to create (SORTPROG, SORTVERS) for udp.svc_run returnedsortNLSPROVIDERcannot fork/dev/consolesortudp <4*sort_svc.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/sort; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -c sort_svc.c -W0,-xpmain@(#)rpc.h 1.11 93/02/04 SMI@(#)types.h 1.18 94/03/08 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.25 94/02/07 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.33 93/11/19 SMI@(#)rpc_com.h 1.15 94/01/18 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)rpc_msg.h 1.12 94/06/01 SMI@(#)auth_sys.h 1.13 93/11/12 SMI@(#)auth_des.h 1.12 93/05/30 SMI@(#)auth_kerb.h 1.8 93/05/26 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)svc.h 1.30 94/01/18 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)svc_auth.h 1.10 93/11/12 SMI@(#)rpcb_clnt.h 1.11 93/07/16 SMI@(#)rpcb_prot.x 1.3 92/07/14 SMI@(#)stdlib.h 1.24 94/03/28 SMI@(#)signal.h 1.24 94/07/12 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)procset.h 1.15 93/05/05 SMI@(#)stropts.h 1.7 94/01/12 SMI@(#)stropts.h 1.15 94/12/20 SMI@(#)conf.h 1.36 94/05/10 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)resource.h 1.10 93/12/21 SMI@(#)syslog.h 1.8 93/11/01 SMI@(#)syslog.h 1.10 92/07/14 SMI@(#)stdarg.h 1.11 94/01/05 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1sort_svc.c_rpcsvcstate_rpcsvccount_msgoutclosedownsortprog_1_rpcpmstartsvc_createsetsiddup2opencloseperrorforksvc_runsvc_regfreenetconfigentsvc_tli_createt_getstategetnetconfigentgetenvopenlogstrcmpioctlsigsetmainsvcerr_systemerrsvcerr_decodememsetsvcerr_noprocsort_1xdr_sortstringsxdr_voidsvc_sendreplyalarmsignalgetrlimitexitt_getinfosvc_fdsetsyslog &(.H8PCOZafkqx}($+;DRX_inx(.P T h l ,+  *   \- `-   +   H H )0(\ ` l p & & '      % % % % $ $ #      , 0 "!      T'p   +      <`|   $ $       Tx ,| , H H$ P( P8P XT Xl+ x x+ P P4L P h+ H H)(+   + (+ H* p+         0 $ 0 < D P H P X 8 \ 8 p    +    +4k     # <, 0 8 G P/X `  rpc/demo/sort/1010060000060310000145000000012160614441655500145760ustar00delgadooraweb00000000000001/* @(#)sort_proc.c 2.1 88/08/11 4.0 RPCSRC */ #include #include "sort.h" static int comparestrings(sp1, sp2) char **sp1, **sp2; { return (strcmp(*sp1, *sp2)); } struct sortstrings * sort_1(ssp) struct sortstrings *ssp; { static struct sortstrings ss_res; if (ss_res.ss.ss_val != (str *)NULL) free(ss_res.ss.ss_val); qsort(ssp->ss.ss_val, ssp->ss.ss_len, sizeof (char *), comparestrings); ss_res.ss.ss_len = ssp->ss.ss_len; ss_res.ss.ss_val = (str *)malloc(ssp->ss.ss_len * sizeof(str *)); memcpy(ssp->ss.ss_val, ss_res.ss.ss_val, ssp->ss.ss_len * sizeof(str *)); return(&ss_res); } rpc/demo/sort/sort_svc010070000060310000145000000443340614441657400163120ustar00delgadooraweb00000000000001ELF 4D4 (44\/usr/lib/ld.so.1CW><D/'K:&HB;MJF97C1L8GN@I?A,TPU)V-O4R".$!32*#0=+ 5%6E(SQX , D P  @ x |  `\| t,#h+4 9CH Ukrh 8 \84 D#t*0(7=L [!cj| v| L `P   @&@18@8 sort_1_startxdr_voidt_getstatexdr_str_environ_endsvc_fdsetfork_ex_register_GLOBAL_OFFSET_TABLE_signalsvcerr_systemerratexitexitalarmopenloggetnetconfigentmalloc_initsvcerr_decodesvc_sendreplyfreenetconfigentqsortgetenvdup2svc_create_DYNAMICsvc_regsvcerr_noprocsigsetioctlsetsid_exitsvc_tli_create_ex_deregisterenvironperror__cg89_used__cg92_usedxdr_array__fnonstd_usedfreecloseopenstrcmpgetrlimitsvc_run_edata_PROCEDURE_LINKAGE_TABLE_memsetxdr_sortstringst_getinfo_etext_lib_versionmainsyslogxdr_stringmemcpy_finilibnsl.so.1librpcsvc.so.1libc.so.1`>\$ ()<HE2-USOI& *,80D8PM\/h't9:+3,=17J#@FG4(;45@TLC @D, @'$㘜# @CF@Cϐ#@@k@@C@C㿘'H'DD H @@C'㿘'D!#  @!# @CD  D  'C᠐@@CD !#$ D  ,@C!#$ D  !# D  ,@C!#'㿠'D D@@Clp'D!"| g!" a ܐ@@CU   @C1!#  'ؠ Ԑ@@C>'!#$ Ѐ D ' ' 4 ,#c    ,  ' '!# @   @B !"|$  #Cc`@@B <@B㿈'H'D!"  !"$ 2!!, @@@B!" $ !"$  !"|$ !F"'!F"'!C"'@@B!" $ !"$  !"|$ uD     @@B`   @@Ā@@B!" $ !"$  !"|$ CD@Ā' @@@@Bs@@Bx`   @@Ā !" @B-!" $ !"$  !"|$ x  @@BH #c@@BB#b@@B #b@@A ' !#$ !F#  @@B!F#@B' @ '@B' @!"c @B  2 'ؠ#b̐@@A & #c @@A #c%Ԑ@@A !"ܐ- @A    @@A'ܠ @ !" @Aj@A#aG 'Dh @@A !# @AG؀  #Cc`@@AZ <@AY@A @A2`@A'  !F#@Az @A @A ' ܐ@@A*'䀤  @A '䀤@@AT '䀤@!F# @@AH' @@AC @@A=@A>!F#  @@A!D!h#aG 'F@@A+ !#D_ @@@A!#tT @@㿘'H'DH @@@A ' '㿘'H'DH H @ )F"@@@ ' '㿠@X?㿠@ ?sortNLSPROVIDERcannot fork/dev/consolesortudp>JY  @ cX ` P , 00<0H0T0`0l0x00000000000000 0,080D0P0\0h0t00000000000unable to free argumentssockmodtimodcannot get transport infosockmodtimodcould not get the right modulecannot create server handleunable to register (SORTPROG, SORTVERS).unable to create (SORTPROG, SORTVERS) for udp.svc_run returnedX , D P  @ x |  `\|  x &d29EQ L`k|x((`hx t t,h  #( 5KRhcjo u}8 \84Dt (, ;!CJ| V| bLl {`P  @@@8 sort_svccrti.s_ex_text0_ex_range0_ex_shared0crt1.svalues-Xt.csort_proc.ccomparestringssort_svc.c_rpcsvcstate_rpcsvccount_msgoutclosedownsortprog_1_rpcpmstartsort_xdr.ccrtn.s_ex_text1_ex_range1_ex_shared1sort_1_startxdr_voidt_getstatexdr_str_environ_endsvc_fdsetfork_ex_register_GLOBAL_OFFSET_TABLE_signalsvcerr_systemerratexitexitalarmopenloggetnetconfigentmalloc_initsvcerr_decodesvc_sendreplyfreenetconfigentqsortgetenvdup2svc_create_DYNAMICsvc_regsvcerr_noprocsigsetioctlsetsid_exitsvc_tli_create_ex_deregisterenvironperror__cg89_used__cg92_usedxdr_array__fnonstd_usedfreecloseopenstrcmpgetrlimitsvc_run_edata_PROCEDURE_LINKAGE_TABLE_memsetxdr_sortstringst_getinfo_etext_lib_versionmainsyslogxdr_stringmemcpy_fini < 4 < 4 <4* <4@(#)rpc.h 1.11 93/02/04 SMI@(#)types.h 1.18 94/03/08 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.25 94/02/07 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.33 93/11/19 SMI@(#)rpc_com.h 1.15 94/01/18 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)rpc_msg.h 1.12 94/06/01 SMI@(#)auth_sys.h 1.13 93/11/12 SMI@(#)auth_des.h 1.12 93/05/30 SMI@(#)auth_kerb.h 1.8 93/05/26 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)svc.h 1.30 94/01/18 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)svc_auth.h 1.10 93/11/12 SMI@(#)rpcb_clnt.h 1.11 93/07/16 SMI@(#)rpcb_prot.x 1.3 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)rpc.h 1.11 93/02/04 SMI@(#)types.h 1.18 94/03/08 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.25 94/02/07 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.33 93/11/19 SMI@(#)rpc_com.h 1.15 94/01/18 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)rpc_msg.h 1.12 94/06/01 SMI@(#)auth_sys.h 1.13 93/11/12 SMI@(#)auth_des.h 1.12 93/05/30 SMI@(#)auth_kerb.h 1.8 93/05/26 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)svc.h 1.30 94/01/18 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)svc_auth.h 1.10 93/11/12 SMI@(#)rpcb_clnt.h 1.11 93/07/16 SMI@(#)rpcb_prot.x 1.3 92/07/14 SMI@(#)stdlib.h 1.24 94/03/28 SMI@(#)signal.h 1.24 94/07/12 SMI@(#)signal.h 1.38 94/02/05 SMI@(#)procset.h 1.15 93/05/05 SMI@(#)stropts.h 1.7 94/01/12 SMI@(#)stropts.h 1.15 94/12/20 SMI@(#)conf.h 1.36 94/05/10 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)resource.h 1.10 93/12/21 SMI@(#)syslog.h 1.8 93/11/01 SMI@(#)syslog.h 1.10 92/07/14 SMI@(#)stdarg.h 1.11 94/01/05 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1@(#)rpc.h 1.11 93/02/04 SMI@(#)types.h 1.18 94/03/08 SMI@(#)types.h 1.30 93/11/09 SMI@(#)feature_tests.h 1.6 93/07/09 SMI@(#)machtypes.h 1.8 93/07/09 SMI@(#)isa_defs.h 1.1 93/07/01 SMI@(#)select.h 1.10 92/07/14 SMI@(#)time.h 2.40 94/05/24 SMI@(#)time.h 1.21 94/06/08 SMI@(#)siginfo.h 1.34 93/08/03 SMI@(#)machsig.h 1.9 92/07/14 SMI@(#)tiuser.h 1.11 93/08/30 SMI@(#)tiuser.h 1.12 94/01/27 SMI@(#)fcntl.h 1.9 93/10/12 SMI@(#)fcntl.h 1.26 94/07/12 SMI@(#)memory.h 1.8 92/07/14 SMI@(#)xdr.h 1.23 93/11/12 SMI@(#)byteorder.h 1.9 94/01/04 SMI@(#)stdio.h 1.34 94/06/07 SMI@(#)auth.h 1.25 94/02/07 SMI@(#)cred.h 1.17 94/03/17 SMI@(#)clnt.h 1.33 93/11/19 SMI@(#)rpc_com.h 1.15 94/01/18 SMI@(#)netconfig.h 1.12 93/02/04 SMI@(#)rpc_msg.h 1.12 94/06/01 SMI@(#)auth_sys.h 1.13 93/11/12 SMI@(#)auth_des.h 1.12 93/05/30 SMI@(#)auth_kerb.h 1.8 93/05/26 SMI@(#)krb.h 1.8 94/02/16 SMI@(#)mit-copyright.h 1.4 93/02/04 SMI@(#)des.h 1.5 93/05/27 SMI@(#)socket.h 1.14 94/06/08 SMI@(#)in.h 1.4 93/07/06 SMI@(#)stream.h 1.54 94/06/28 SMI@(#)vnode.h 1.49 94/01/13 SMI@(#)t_lock.h 1.39 93/10/29 SMI@(#)machlock.h 1.12 93/06/11 SMI@(#)dki_lkinfo.h 1.8 93/05/03 SMI@(#)dl.h 1.13 93/08/18 SMI@(#)sleepq.h 1.16 93/11/27 SMI@(#)turnstile.h 1.22 93/12/20 SMI@(#)param.h 1.29 94/06/09 SMI@(#)unistd.h 1.20 94/02/16 SMI@(#)pirec.h 1.11 93/12/20 SMI@(#)mutex.h 1.11 93/11/16 SMI@(#)rwlock.h 1.1 93/10/13 SMI@(#)semaphore.h 1.2 93/11/12 SMI@(#)condvar.h 1.4 94/03/15 SMI@(#)uio.h 1.21 94/04/22 SMI@(#)seg_enum.h 1.1 93/04/03 SMI@(#)poll.h 1.18 94/06/07 SMI@(#)strmdep.h 1.8 92/07/14 SMI@(#)svc.h 1.30 94/01/18 SMI@(#)tihdr.h 1.8 92/07/14 SMI@(#)svc_auth.h 1.10 93/11/12 SMI@(#)rpcb_clnt.h 1.11 93/07/16 SMI@(#)rpcb_prot.x 1.3 92/07/14 SMIacomp: SC3.0.1 13 Jul 1994 Sun C 3.0.1ld: (SGU) SunOS/ELF (LK-2.0 (S/I) - versioning).interp.hash.dynsym.dynstr.rela.ex_shared.rela.bss.rela.plt.text.init.fini.exception_ranges.rodata.rodata1.got.dynamic.plt.ex_shared.data.data1.bss.symtab.strtab.stab.index.comment.shstrtab.stab.indexstrvalues-Xt.cXt ; V=3.0 ; R=3.0/export/set/seva/bootstrap/3.0.1/lang/csu/sparc; /export/set/seva/bootstrap/3.0.1/boot3/bin/sparc/SC3.0.1/../bin/../SC3.0.1/bin/cc -c -O -DELF -o values-xt.o ../src/values-Xt.c -W0,-xpsort_proc.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/sort; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -c sort_proc.c -W0,-xpsort_svc.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/sort; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -c sort_svc.c -W0,-xpmainsort_xdr.cXt ; V=3.0 ; R=3.0/afs/athena.mit.edu/astaff/project/athena-backup/tools/rpc/demo/sort; /mit/sunsoft/sun4bin/../sunwspro/bin/../SC3.0.1/bin/cc -c sort_xdr.c -W0,-xp p XXpc , , / D D  9 P P C   I8O@@8Uxxg|| o<x}`` \\ ||0&H)h *@A  x &d29EQ L`k|x(rpc/demo/sort/core010060000060310000145000000010000614442060500153440ustar00delgadooraweb00000000000001ELF44   PP^ g_`pwa`b c dk``l@@nprpc/demo/Makefile010060000000000000000000000005410534640662000142230ustar00rootroot00000000000001# # @(#)Makefile 2.1 88/08/02 4.0 RPCSRC # # # Build all demo services # MAKE = make LIB= SUBDIR= dir msg sort all: ${SUBDIR} clean cleanup: cd dir; $(MAKE) ${MFLAGS} cleanup cd msg; $(MAKE) ${MFLAGS} cleanup cd sort; $(MAKE) ${MFLAGS} cleanup install: @echo "No installations done." ${SUBDIR}: FRC cd $@; $(MAKE) ${MFLAGS} LIB=$(LIB) FRC: rpc/demo/Makefile.orig010060000000000000000000000005510534640657200151710ustar00rootroot00000000000001# # @(#)Makefile 2.1 88/08/02 4.0 RPCSRC # # # Build all demo services # MAKE = make LIB=-lrpclib SUBDIR= dir msg sort all: ${SUBDIR} clean cleanup: cd dir; $(MAKE) ${MFLAGS} cleanup cd msg; $(MAKE) ${MFLAGS} cleanup cd sort; $(MAKE) ${MFLAGS} cleanup install: @echo "No installations done." ${SUBDIR}: FRC cd $@; $(MAKE) ${MFLAGS} LIB=$(LIB) FRC: rpc/doc/004070000000000000000000000000000534637436200124145ustar00rootroot00000000000001rpc/doc/rpc.prog.ms.1010060000000000000000000001045270443763512300146510ustar00rootroot00000000000001.\" .\" Must use -- tbl and pic -- with this one .\" .\" @(#)rpc.prog.ms 2.3 88/08/11 4.0 RPCSRC .de BT .if \\n%=1 .tl ''- % -'' .. .IX "Network Programming" "" "" "" PAGE MAJOR .nr OF 0 .ND .\" prevent excess underlining in nroff .if n .fp 2 R .OH 'Remote Procedure Call Programming Guide''Page %' .EH 'Page %''Remote Procedure Call Programming Guide' .SH \&Remote Procedure Call Programming Guide .nr OF 1 .IX "RPC Programming Guide" .LP This document assumes a working knowledge of network theory. It is intended for programmers who wish to write network applications using remote procedure calls (explained below), and who want to understand the RPC mechanisms usually hidden by the .I rpcgen(1) protocol compiler. .I rpcgen is described in detail in the previous chapter, the .I "\fBrpcgen\fP \fIProgramming Guide\fP". .SH Note: .I .IX rpcgen "" \fIrpcgen\fP Before attempting to write a network application, or to convert an existing non-network application to run over the network, you may want to understand the material in this chapter. However, for most applications, you can circumvent the need to cope with the details presented here by using .I rpcgen . The .I "Generating XDR Routines" section of that chapter contains the complete source for a working RPC service\(ema remote directory listing service which uses .I rpcgen to generate XDR routines as well as client and server stubs. .LP .LP What are remote procedure calls? Simply put, they are the high-level communications paradigm used in the operating system. RPC presumes the existence of low-level networking mechanisms (such as TCP/IP and UDP/IP), and upon them it implements a logical client to server communications system designed specifically for the support of network applications. With RPC, the client makes a procedure call to send a data packet to the server. When the packet arrives, the server calls a dispatch routine, performs whatever service is requested, sends back the reply, and the procedure call returns to the client. .NH 0 \&Layers of RPC .IX "layers of RPC" .IX "RPC" "layers" .LP The RPC interface can be seen as being divided into three layers.\** .FS For a complete specification of the routines in the remote procedure call Library, see the .I rpc(3N) manual page. .FE .LP .I "The Highest Layer:" .IX RPC "The Highest Layer" The highest layer is totally transparent to the operating system, machine and network upon which is is run. It's probably best to think of this level as a way of .I using RPC, rather than as a \fIpart of\fP RPC proper. Programmers who write RPC routines should (almost) always make this layer available to others by way of a simple C front end that entirely hides the networking. .LP To illustrate, at this level a program can simply make a call to .I rnusers (), a C routine which returns the number of users on a remote machine. The user is not explicitly aware of using RPC \(em they simply call a procedure, just as they would call .I malloc() . .LP .I "The Middle Layer:" .IX RPC "The Middle Layer" The middle layer is really \*QRPC proper.\*U Here, the user doesn't need to consider details about sockets, the UNIX system, or other low-level implementation mechanisms. They simply make remote procedure calls to routines on other machines. The selling point here is simplicity. It's this layer that allows RPC to pass the \*Qhello world\*U test \(em simple things should be simple. The middle-layer routines are used for most applications. .LP RPC calls are made with the system routines .I registerrpc() .I callrpc() and .I svc_run (). The first two of these are the most fundamental: .I registerrpc() obtains a unique system-wide procedure-identification number, and .I callrpc() actually executes a remote procedure call. At the middle level, a call to .I rnusers() is implemented by way of these two routines. .LP The middle layer is unfortunately rarely used in serious programming due to its inflexibility (simplicity). It does not allow timeout specifications or the choice of transport. It allows no UNIX process control or flexibility in case of errors. It doesn't support multiple kinds of call authentication. The programmer rarely needs all these kinds of control, but one or two of them is often necessary. .LP .I "The Lowest Layer:" .IX RPC "The Lowest Layer" The lowest layer does allow these details to be controlled by the programmer, and for that reason it is often necessary. Programs written at this level are also most efficient, but this is rarely a real issue \(em since RPC clients and servers rarely generate heavy network loads. .LP Although this document only discusses the interface to C, remote procedure calls can be made from any language. Even though this document discusses RPC when it is used to communicate between processes on different machines, it works just as well for communication between different processes on the same machine. .br .KS .NH 2 \&The RPC Paradigm .IX RPC paradigm .LP Here is a diagram of the RPC paradigm: .LP \fBFigure 1-1\fI Network Communication with the Remote Reocedure Call\fR .LP .PS L1: arrow down 1i "client " rjust "program " rjust L2: line right 1.5i "\fIcallrpc\fP" "function" move up 1.5i; line dotted down 6i; move up 4.5i arrow right 1i L3: arrow down 1i "invoke " rjust "service " rjust L4: arrow right 1.5i "call" "service" L5: arrow down 1i " service" ljust " executes" ljust L6: arrow left 1.5i "\fIreturn\fP" "answer" L7: arrow down 1i "request " rjust "completed " rjust L8: line left 1i arrow left 1.5i "\fIreturn\fP" "reply" L9: arrow down 1i "program " rjust "continues " rjust line dashed down from L2 to L9 line dashed down from L4 to L7 line dashed up 1i from L3 "service " rjust "daemon " rjust arrow dashed down 1i from L8 move right 1i from L3 box invis "Machine B" move left 1.2i from L2; move down box invis "Machine A" .PE .KE .KS .NH 1 \&Higher Layers of RPC .NH 2 \&Highest Layer .IX "highest layer of RPC" .IX RPC "highest layer" .LP Imagine you're writing a program that needs to know how many users are logged into a remote machine. You can do this by calling the RPC library routine .I rnusers() as illustrated below: .ie t .DS .el .DS L .ft CW #include main(argc, argv) int argc; char **argv; { int num; if (argc != 2) { fprintf(stderr, "usage: rnusers hostname\en"); exit(1); } if ((num = rnusers(argv[1])) < 0) { fprintf(stderr, "error: rnusers\en"); exit(-1); } printf("%d users on %s\en", num, argv[1]); exit(0); } .DE .KE RPC library routines such as .I rnusers() are in the RPC services library .I librpcsvc.a Thus, the program above should be compiled with .DS .ft CW % cc \fIprogram.c -lrpcsvc\fP .DE .I rnusers (), like the other RPC library routines, is documented in section 3R of the .I "System Interface Manual for the Sun Workstation" , the same section which documents the standard Sun RPC services. .IX "RPC Services" See the .I intro(3R) manual page for an explanation of the documentation strategy for these services and their RPC protocols. .LP Here are some of the RPC service library routines available to the C programmer: .LP \fBTable 3-3\fI RPC Service Library Routines\RP .TS box tab (&) ; cfI cfI lfL l . Routine&Description _ .sp.5 rnusers&Return number of users on remote machine rusers&Return information about users on remote machine havedisk&Determine if remote machine has disk rstats&Get performance data from remote kernel rwall&Write to specified remote machines yppasswd&Update user password in Yellow Pages .TE .LP Other RPC services \(em for example .I ether() .I mount .I rquota() and .I spray \(em are not available to the C programmer as library routines. They do, however, have RPC program numbers so they can be invoked with .I callrpc() which will be discussed in the next section. Most of them also have compilable .I rpcgen(1) protocol description files. (The .I rpcgen protocol compiler radically simplifies the process of developing network applications. See the \fBrpcgen\fI Programming Guide\fR for detailed information about .I rpcgen and .I rpcgen protocol description files). .KS .NH 2 \&Intermediate Layer .IX "intermediate layer of RPC" .IX "RPC" "intermediate layer" .LP The simplest interface, which explicitly makes RPC calls, uses the functions .I callrpc() and .I registerrpc() Using this method, the number of remote users can be gotten as follows: .ie t .DS .el .DS L #include #include #include #include main(argc, argv) int argc; char **argv; { unsigned long nusers; int stat; if (argc != 2) { fprintf(stderr, "usage: nusers hostname\en"); exit(-1); } if (stat = callrpc(argv[1], RUSERSPROG, RUSERSVERS, RUSERSPROC_NUM, xdr_void, 0, xdr_u_long, &nusers) != 0) { clnt_perrno(stat); exit(1); } printf("%d users on %s\en", nusers, argv[1]); exit(0); } .DE .KE Each RPC procedure is uniquely defined by a program number, version number, and procedure number. The program number specifies a group of related remote procedures, each of which has a different procedure number. Each program also has a version number, so when a minor change is made to a remote service (adding a new procedure, for example), a new program number doesn't have to be assigned. When you want to call a procedure to find the number of remote users, you look up the appropriate program, version and procedure numbers in a manual, just as you look up the name of a memory allocator when you want to allocate memory. .LP The simplest way of making remote procedure calls is with the the RPC library routine .I callrpc() It has eight parameters. The first is the name of the remote server machine. The next three parameters are the program, version, and procedure numbers\(emtogether they identify the procedure to be called. The fifth and sixth parameters are an XDR filter and an argument to be encoded and passed to the remote procedure. The final two parameters are a filter for decoding the results returned by the remote procedure and a pointer to the place where the procedure's results are to be stored. Multiple arguments and results are handled by embedding them in structures. If .I callrpc() completes successfully, it returns zero; else it returns a nonzero value. The return codes (of type .IX "enum clnt_stat (in RPC programming)" "" "\fIenum clnt_stat\fP (in RPC programming)" cast into an integer) are found in .I . .LP Since data types may be represented differently on different machines, .I callrpc() needs both the type of the RPC argument, as well as a pointer to the argument itself (and similarly for the result). For .I RUSERSPROC_NUM , the return value is an .I "unsigned long" so .I callrpc() has .I xdr_u_long() as its first return parameter, which says that the result is of type .I "unsigned long" and .I &nusers as its second return parameter, which is a pointer to where the long result will be placed. Since .I RUSERSPROC_NUM takes no argument, the argument parameter of .I callrpc() is .I xdr_void (). .LP After trying several times to deliver a message, if .I callrpc() gets no answer, it returns with an error code. The delivery mechanism is UDP, which stands for User Datagram Protocol. Methods for adjusting the number of retries or for using a different protocol require you to use the lower layer of the RPC library, discussed later in this document. The remote server procedure corresponding to the above might look like this: .ie t .DS .el .DS L .ft CW .ft CW char * nuser(indata) char *indata; { unsigned long nusers; .ft I /* * Code here to compute the number of users * and place result in variable \fInusers\fP. */ .ft CW return((char *)&nusers); } .DE .LP It takes one argument, which is a pointer to the input of the remote procedure call (ignored in our example), and it returns a pointer to the result. In the current version of C, character pointers are the generic pointers, so both the input argument and the return value are cast to .I "char *" . .LP Normally, a server registers all of the RPC calls it plans to handle, and then goes into an infinite loop waiting to service requests. In this example, there is only a single procedure to register, so the main body of the server would look like this: .ie t .DS .el .DS L .ft CW #include #include #include #include char *nuser(); main() { registerrpc(RUSERSPROG, RUSERSVERS, RUSERSPROC_NUM, nuser, xdr_void, xdr_u_long); svc_run(); /* \fINever returns\fP */ fprintf(stderr, "Error: svc_run returned!\en"); exit(1); } .DE .LP The .I registerrpc() routine registers a C procedure as corresponding to a given RPC procedure number. The first three parameters, .I RUSERPROG , .I RUSERSVERS , and .I RUSERSPROC_NUM are the program, version, and procedure numbers of the remote procedure to be registered; .I nuser() is the name of the local procedure that implements the remote procedure; and .I xdr_void() and .I xdr_u_long() are the XDR filters for the remote procedure's arguments and results, respectively. (Multiple arguments or multiple results are passed as structures). .LP Only the UDP transport mechanism can use .I registerrpc() thus, it is always safe in conjunction with calls generated by .I callrpc() . .SH .IX "UDP 8K warning" Warning: the UDP transport mechanism can only deal with arguments and results less than 8K bytes in length. .LP .LP After registering the local procedure, the server program's main procedure calls .I svc_run (), the RPC library's remote procedure dispatcher. It is this function that calls the remote procedures in response to RPC call messages. Note that the dispatcher takes care of decoding remote procedure arguments and encoding results, using the XDR filters specified when the remote procedure was registered. .NH 2 \&Assigning Program Numbers .IX "program number assignment" .IX "assigning program numbers" .LP Program numbers are assigned in groups of .I 0x20000000 according to the following chart: .DS .ft CW 0x0 - 0x1fffffff \fRDefined by Sun\fP 0x20000000 - 0x3fffffff \fRDefined by user\fP 0x40000000 - 0x5fffffff \fRTransient\fP 0x60000000 - 0x7fffffff \fRReserved\fP 0x80000000 - 0x9fffffff \fRReserved\fP 0xa0000000 - 0xbfffffff \fRReserved\fP 0xc0000000 - 0xdfffffff \fRReserved\fP 0xe0000000 - 0xffffffff \fRReserved\fP .ft R .DE Sun Microsystems administers the first group of numbers, which should be identical for all Sun customers. If a customer develops an application that might be of general interest, that application should be given an assigned number in the first range. The second group of numbers is reserved for specific customer applications. This range is intended primarily for debugging new programs. The third group is reserved for applications that generate program numbers dynamically. The final groups are reserved for future use, and should not be used. .LP To register a protocol specification, send a request by network mail to .I rpc@sun or write to: .DS RPC Administrator Sun Microsystems 2550 Garcia Ave. Mountain View, CA 94043 .DE Please include a compilable .I rpcgen \*Q.x\*U file describing your protocol. You will be given a unique program number in return. .IX RPC administration .IX administration "of RPC" .LP The RPC program numbers and protocol specifications of standard Sun RPC services can be found in the include files in .I "/usr/include/rpcsvc" . These services, however, constitute only a small subset of those which have been registered. The complete list of registered programs, as of the time when this manual was printed, is: .LP \fBTable 3-2\fI RPC Registered Programs\fR .TS H box tab (&) ; lfBI lfBI lfBI lfL lfL lfI . RPC Number&Program&Description _ .TH .sp.5 100000&PMAPPROG&portmapper 100001&RSTATPROG&remote stats 100002&RUSERSPROG&remote users 100003&NFSPROG&nfs 100004&YPPROG&Yellow Pages 100005&MOUNTPROG&mount demon 100006&DBXPROG&remote dbx 100007&YPBINDPROG&yp binder 100008&WALLPROG&shutdown msg 100009&YPPASSWDPROG&yppasswd server 100010ÐERSTATPROGðer stats 100011&RQUOTAPROG&disk quotas 100012&SPRAYPROG&spray packets 100013&IBM3270PROG&3270 mapper 100014&IBMRJEPROG&RJE mapper 100015&SELNSVCPROG&selection service 100016&RDATABASEPROG&remote database access 100017&REXECPROG&remote execution 100018&ALICEPROG&Alice Office Automation 100019&SCHEDPROG&scheduling service 100020&LOCKPROG&local lock manager 100021&NETLOCKPROG&network lock manager 100022&X25PROG&x.25 inr protocol 100023&STATMON1PROG&status monitor 1 100024&STATMON2PROG&status monitor 2 100025&SELNLIBPROG&selection library 100026&BOOTPARAMPROG&boot parameters service 100027&MAZEPROG&mazewars game 100028&YPUPDATEPROG&yp update 100029&KEYSERVEPROG&key server 100030&SECURECMDPROG&secure login 100031&NETFWDIPROG&nfs net forwarder init 100032&NETFWDTPROG&nfs net forwarder trans 100033&SUNLINKMAP_PROG&sunlink MAP 100034&NETMONPROG&network monitor 100035&DBASEPROG&lightweight database 100036&PWDAUTHPROG&password authorization 100037&TFSPROG&translucent file svc 100038&NSEPROG&nse server 100039&NSE_ACTIVATE_PROG&nse activate daemon .sp .2i 150001&PCNFSDPROG&pc passwd authorization .sp .2i 200000&PYRAMIDLOCKINGPROG&Pyramid-locking 200001&PYRAMIDSYS5&Pyramid-sys5 200002&CADDS_IMAGE&CV cadds_image .sp .2i 300001&ADT_RFLOCKPROG&ADT file locking .TE .NH 2 \&Passing Arbitrary Data Types .IX "arbitrary data types" .LP In the previous example, the RPC call passes a single .I "unsigned long" RPC can handle arbitrary data structures, regardless of different machines' byte orders or structure layout conventions, by always converting them to a network standard called .I "External Data Representation" (XDR) before sending them over the wire. The process of converting from a particular machine representation to XDR format is called .I serializing , and the reverse process is called .I deserializing . The type field parameters of .I callrpc() and .I registerrpc() can be a built-in procedure like .I xdr_u_long() in the previous example, or a user supplied one. XDR has these built-in type routines: .IX RPC "built-in routines" .DS .ft CW xdr_int() xdr_u_int() xdr_enum() xdr_long() xdr_u_long() xdr_bool() xdr_short() xdr_u_short() xdr_wrapstring() xdr_char() xdr_u_char() .DE Note that the routine .I xdr_string() exists, but cannot be used with .I callrpc() and .I registerrpc (), which only pass two parameters to their XDR routines. .I xdr_wrapstring() has only two parameters, and is thus OK. It calls .I xdr_string (). .LP As an example of a user-defined type routine, if you wanted to send the structure .DS .ft CW struct simple { int a; short b; } simple; .DE then you would call .I callrpc() as .DS .ft CW callrpc(hostname, PROGNUM, VERSNUM, PROCNUM, xdr_simple, &simple ...); .DE where .I xdr_simple() is written as: .ie t .DS .el .DS L .ft CW #include xdr_simple(xdrsp, simplep) XDR *xdrsp; struct simple *simplep; { if (!xdr_int(xdrsp, &simplep->a)) return (0); if (!xdr_short(xdrsp, &simplep->b)) return (0); return (1); } .DE .LP An XDR routine returns nonzero (true in the sense of C) if it completes successfully, and zero otherwise. A complete description of XDR is in the .I "XDR Protocol Specification" section of this manual, only few implementation examples are given here. .LP In addition to the built-in primitives, there are also the prefabricated building blocks: .DS .ft CW xdr_array() xdr_bytes() xdr_reference() xdr_vector() xdr_union() xdr_pointer() xdr_string() xdr_opaque() .DE To send a variable array of integers, you might package them up as a structure like this .DS .ft CW struct varintarr { int *data; int arrlnth; } arr; .DE and make an RPC call such as .DS .ft CW callrpc(hostname, PROGNUM, VERSNUM, PROCNUM, xdr_varintarr, &arr...); .DE with .I xdr_varintarr() defined as: .ie t .DS .el .DS L .ft CW xdr_varintarr(xdrsp, arrp) XDR *xdrsp; struct varintarr *arrp; { return (xdr_array(xdrsp, &arrp->data, &arrp->arrlnth, MAXLEN, sizeof(int), xdr_int)); } .DE This routine takes as parameters the XDR handle, a pointer to the array, a pointer to the size of the array, the maximum allowable array size, the size of each array element, and an XDR routine for handling each array element. .KS .LP If the size of the array is known in advance, one can use .I xdr_vector (), which serializes fixed-length arrays. .ie t .DS .el .DS L .ft CW int intarr[SIZE]; xdr_intarr(xdrsp, intarr) XDR *xdrsp; int intarr[]; { int i; return (xdr_vector(xdrsp, intarr, SIZE, sizeof(int), xdr_int)); } .DE .KE .LP XDR always converts quantities to 4-byte multiples when serializing. Thus, if either of the examples above involved characters instead of integers, each character would occupy 32 bits. That is the reason for the XDR routine .I xdr_bytes() which is like .I xdr_array() except that it packs characters; .I xdr_bytes() has four parameters, similar to the first four parameters of .I xdr_array (). For null-terminated strings, there is also the .I xdr_string() routine, which is the same as .I xdr_bytes() without the length parameter. On serializing it gets the string length from .I strlen (), and on deserializing it creates a null-terminated string. .LP Here is a final example that calls the previously written .I xdr_simple() as well as the built-in functions .I xdr_string() and .I xdr_reference (), which chases pointers: .ie t .DS .el .DS L .ft CW struct finalexample { char *string; struct simple *simplep; } finalexample; xdr_finalexample(xdrsp, finalp) XDR *xdrsp; struct finalexample *finalp; { if (!xdr_string(xdrsp, &finalp->string, MAXSTRLEN)) return (0); if (!xdr_reference(xdrsp, &finalp->simplep, sizeof(struct simple), xdr_simple); return (0); return (1); } .DE Note that we could as easily call .I xdr_simple() here instead of .I xdr_reference (). .NH 1 \&Lowest Layer of RPC .IX "lowest layer of RPC" .IX "RPC" "lowest layer" .LP In the examples given so far, RPC takes care of many details automatically for you. In this section, we'll show you how you can change the defaults by using lower layers of the RPC library. It is assumed that you are familiar with sockets and the system calls for dealing with them. .LP There are several occasions when you may need to use lower layers of RPC. First, you may need to use TCP, since the higher layer uses UDP, which restricts RPC calls to 8K bytes of data. Using TCP permits calls to send long streams of data. For an example, see the .I TCP section below. Second, you may want to allocate and free memory while serializing or deserializing with XDR routines. There is no call at the higher level to let you free memory explicitly. For more explanation, see the .I "Memory Allocation with XDR" section below. Third, you may need to perform authentication on either the client or server side, by supplying credentials or verifying them. See the explanation in the .I Authentication section below. .NH 2 \&More on the Server Side .IX RPC "server side" .LP The server for the .I nusers() program shown below does the same thing as the one using .I registerrpc() above, but is written using a lower layer of the RPC package: .ie t .DS .el .DS L .ft CW #include #include #include #include main() { SVCXPRT *transp; int nuser(); transp = svcudp_create(RPC_ANYSOCK); if (transp == NULL){ fprintf(stderr, "can't create an RPC server\en"); exit(1); } pmap_unset(RUSERSPROG, RUSERSVERS); if (!svc_register(transp, RUSERSPROG, RUSERSVERS, nuser, IPPROTO_UDP)) { fprintf(stderr, "can't register RUSER service\en"); exit(1); } svc_run(); /* \fINever returns\fP */ fprintf(stderr, "should never reach this point\en"); } nuser(rqstp, transp) struct svc_req *rqstp; SVCXPRT *transp; { unsigned long nusers; switch (rqstp->rq_proc) { case NULLPROC: if (!svc_sendreply(transp, xdr_void, 0)) fprintf(stderr, "can't reply to RPC call\en"); return; case RUSERSPROC_NUM: .ft I /* * Code here to compute the number of users * and assign it to the variable \fInusers\fP */ .ft CW if (!svc_sendreply(transp, xdr_u_long, &nusers)) fprintf(stderr, "can't reply to RPC call\en"); return; default: svcerr_noproc(transp); return; } } .DE .LP First, the server gets a transport handle, which is used for receiving and replying to RPC messages. .I registerrpc() uses .I svcudp_create() to get a UDP handle. If you require a more reliable protocol, call .I svctcp_create() instead. If the argument to .I svcudp_create() is .I RPC_ANYSOCK the RPC library creates a socket on which to receive and reply to RPC calls. Otherwise, .I svcudp_create() expects its argument to be a valid socket number. If you specify your own socket, it can be bound or unbound. If it is bound to a port by the user, the port numbers of .I svcudp_create() and .I clnttcp_create() (the low-level client routine) must match. .LP If the user specifies the .I RPC_ANYSOCK argument, the RPC library routines will open sockets. Otherwise they will expect the user to do so. The routines .I svcudp_create() and .I clntudp_create() will cause the RPC library routines to .I bind() their socket if it is not bound already. .LP A service may choose to register its port number with the local portmapper service. This is done is done by specifying a non-zero protocol number in .I svc_register (). Incidently, a client can discover the server's port number by consulting the portmapper on their server's machine. This can be done automatically by specifying a zero port number in .I clntudp_create() or .I clnttcp_create (). .LP After creating an .I SVCXPRT , the next step is to call .I pmap_unset() so that if the .I nusers() server crashed earlier, any previous trace of it is erased before restarting. More precisely, .I pmap_unset() erases the entry for .I RUSERSPROG from the port mapper's tables. .LP Finally, we associate the program number for .I nusers() with the procedure .I nuser (). The final argument to .I svc_register() is normally the protocol being used, which, in this case, is .I IPPROTO_UDP Notice that unlike .I registerrpc (), there are no XDR routines involved in the registration process. Also, registration is done on the program, rather than procedure, level. .LP The user routine .I nuser() must call and dispatch the appropriate XDR routines based on the procedure number. Note that two things are handled by .I nuser() that .I registerrpc() handles automatically. The first is that procedure .I NULLPROC (currently zero) returns with no results. This can be used as a simple test for detecting if a remote program is running. Second, there is a check for invalid procedure numbers. If one is detected, .I svcerr_noproc() is called to handle the error. .KS .LP The user service routine serializes the results and returns them to the RPC caller via .I svc_sendreply() Its first parameter is the .I SVCXPRT handle, the second is the XDR routine, and the third is a pointer to the data to be returned. Not illustrated above is how a server handles an RPC program that receives data. As an example, we can add a procedure .I RUSERSPROC_BOOL which has an argument .I nusers (), and returns .I TRUE or .I FALSE depending on whether there are nusers logged on. It would look like this: .ie t .DS .el .DS L .ft CW case RUSERSPROC_BOOL: { int bool; unsigned nuserquery; if (!svc_getargs(transp, xdr_u_int, &nuserquery) { svcerr_decode(transp); return; } .ft I /* * Code to set \fInusers\fP = number of users */ .ft CW if (nuserquery == nusers) bool = TRUE; else bool = FALSE; if (!svc_sendreply(transp, xdr_bool, &bool)) { fprintf(stderr, "can't reply to RPC call\en"); return (1); } return; } .DE .KE .LP The relevant routine is .I svc_getargs() which takes an .I SVCXPRT handle, the XDR routine, and a pointer to where the input is to be placed as arguments. .NH 2 \&Memory Allocation with XDR .IX "memory allocation with XDR" .IX XDR "memory allocation" .LP XDR routines not only do input and output, they also do memory allocation. This is why the second parameter of .I xdr_array() is a pointer to an array, rather than the array itself. If it is .I NULL , then .I xdr_array() allocates space for the array and returns a pointer to it, putting the size of the array in the third argument. As an example, consider the following XDR routine .I xdr_chararr1() which deals with a fixed array of bytes with length .I SIZE . .ie t .DS .el .DS L .ft CW xdr_chararr1(xdrsp, chararr) XDR *xdrsp; char chararr[]; { char *p; int len; p = chararr; len = SIZE; return (xdr_bytes(xdrsp, &p, &len, SIZE)); } .DE If space has already been allocated in .I chararr , it can be called from a server like this: .ie t .DS .el .DS L .ft CW char chararr[SIZE]; svc_getargs(transp, xdr_chararr1, chararr); .DE If you want XDR to do the allocation, you would have to rewrite this routine in the following way: .ie t .DS .el .DS L .ft CW xdr_chararr2(xdrsp, chararrp) XDR *xdrsp; char **chararrp; { int len; len = SIZE; return (xdr_bytes(xdrsp, charrarrp, &len, SIZE)); } .DE Then the RPC call might look like this: .ie t .DS .el .DS L .ft CW char *arrptr; arrptr = NULL; svc_getargs(transp, xdr_chararr2, &arrptr); .ft I /* * Use the result here */ .ft CW svc_freeargs(transp, xdr_chararr2, &arrptr); .DE Note that, after being used, the character array can be freed with .I svc_freeargs() .I svc_freeargs() will not attempt to free any memory if the variable indicating it is NULL. For example, in the the routine .I xdr_finalexample (), given earlier, if .I finalp->string was NULL, then it would not be freed. The same is true for .I finalp->simplep . .LP To summarize, each XDR routine is responsible for serializing, deserializing, and freeing memory. When an XDR routine is called from .I callrpc() the serializing part is used. When called from .I svc_getargs() the deserializer is used. And when called from .I svc_freeargs() the memory deallocator is used. When building simple examples like those in this section, a user doesn't have to worry about the three modes. See the .I "External Data Representation: Sun Technical Notes" for examples of more sophisticated XDR routines that determine which of the three modes they are in and adjust their behavior accordingly. .KS .NH 2 \&The Calling Side .IX RPC "calling side" .LP When you use .I callrpc() you have no control over the RPC delivery mechanism or the socket used to transport the data. To illustrate the layer of RPC that lets you adjust these parameters, consider the following code to call the .I nusers service: .ie t .DS .el .DS L .ft CW .vs 11 #include #include #include #include #include #include #include main(argc, argv) int argc; char **argv; { struct hostent *hp; struct timeval pertry_timeout, total_timeout; struct sockaddr_in server_addr; int sock = RPC_ANYSOCK; register CLIENT *client; enum clnt_stat clnt_stat; unsigned long nusers; if (argc != 2) { fprintf(stderr, "usage: nusers hostname\en"); exit(-1); } if ((hp = gethostbyname(argv[1])) == NULL) { fprintf(stderr, "can't get addr for %s\en",argv[1]); exit(-1); } pertry_timeout.tv_sec = 3; pertry_timeout.tv_usec = 0; bcopy(hp->h_addr, (caddr_t)&server_addr.sin_addr, hp->h_length); server_addr.sin_family = AF_INET; server_addr.sin_port = 0; if ((client = clntudp_create(&server_addr, RUSERSPROG, RUSERSVERS, pertry_timeout, &sock)) == NULL) { clnt_pcreateerror("clntudp_create"); exit(-1); } total_timeout.tv_sec = 20; total_timeout.tv_usec = 0; clnt_stat = clnt_call(client, RUSERSPROC_NUM, xdr_void, 0, xdr_u_long, &nusers, total_timeout); if (clnt_stat != RPC_SUCCESS) { clnt_perror(client, "rpc"); exit(-1); } clnt_destroy(client); close(sock); exit(0); } .vs .DE .KE The low-level version of .I callrpc() is .I clnt_call() which takes a .I CLIENT pointer rather than a host name. The parameters to .I clnt_call() are a .I CLIENT pointer, the procedure number, the XDR routine for serializing the argument, a pointer to the argument, the XDR routine for deserializing the return value, a pointer to where the return value will be placed, and the time in seconds to wait for a reply. .LP The .I CLIENT pointer is encoded with the transport mechanism. .I callrpc() uses UDP, thus it calls .I clntudp_create() to get a .I CLIENT pointer. To get TCP (Transmission Control Protocol), you would use .I clnttcp_create() . .LP The parameters to .I clntudp_create() are the server address, the program number, the version number, a timeout value (between tries), and a pointer to a socket. The final argument to .I clnt_call() is the total time to wait for a response. Thus, the number of tries is the .I clnt_call() timeout divided by the .I clntudp_create() timeout. .LP Note that the .I clnt_destroy() call always deallocates the space associated with the .I CLIENT handle. It closes the socket associated with the .I CLIENT handle, however, only if the RPC library opened it. It the socket was opened by the user, it stays open. This makes it possible, in cases where there are multiple client handles using the same socket, to destroy one handle without closing the socket that other handles are using. .LP To make a stream connection, the call to .I clntudp_create() is replaced with a call to .I clnttcp_create() . .DS .ft CW clnttcp_create(&server_addr, prognum, versnum, &sock, inputsize, outputsize); .DE There is no timeout argument; instead, the receive and send buffer sizes must be specified. When the .I clnttcp_create() call is made, a TCP connection is established. All RPC calls using that .I CLIENT handle would use this connection. The server side of an RPC call using TCP has .I svcudp_create() replaced by .I svctcp_create() . .DS .ft CW transp = svctcp_create(RPC_ANYSOCK, 0, 0); .DE The last two arguments to .I svctcp_create() are send and receive sizes respectively. If `0' is specified for either of these, the system chooses a reasonable default. .KS .NH 1 \&Other RPC Features .IX "RPC" "miscellaneous features" .IX "miscellaneous RPC features" .LP This section discusses some other aspects of RPC that are occasionally useful. .NH 2 \&Select on the Server Side .IX RPC select() RPC \fIselect()\fP .IX select() "" \fIselect()\fP "on the server side" .LP Suppose a process is processing RPC requests while performing some other activity. If the other activity involves periodically updating a data structure, uses .I svcudp_create() to get a UDP handle. If you require a more reliable protocol, call .I svctcp_create() instead. If the argument to .I svcudp_create() is .I RPC_rpc/doc/nfs.rfc.ms010060000000000000000000001217700443763512300143160ustar00rootroot00000000000001.\" .\" Must use -- tbl -- with this one .\" .\" @(#)nfs.rfc.ms 2.2 88/08/05 4.0 RPCSRC .de BT .if \\n%=1 .tl ''- % -'' .. .ND .\" prevent excess underlining in nroff .if n .fp 2 R .OH 'Network File System: Version 2 Protocol Specification''Page %' .EH 'Page %''Network File System: Version 2 Protocol Specification' .if \\n%=1 .bp .SH \&Network File System: Version 2 Protocol Specification .IX NFS "" "" "" PAGE MAJOR .IX "Network File System" "" "" "" PAGE MAJOR .IX NFS "version-2 protocol specification" .IX "Network File System" "version-2 protocol specification" .LP .NH 0 \&Status of this Standard .LP Note: This document specifies a protocol that Sun Microsystems, Inc., and others are using. It specifies it in standard ARPA RFC form. .NH 1 \&Introduction .IX NFS introduction .LP The Sun Network Filesystem (NFS) protocol provides transparent remote access to shared filesystems over local area networks. The NFS protocol is designed to be machine, operating system, network architecture, and transport protocol independent. This independence is achieved through the use of Remote Procedure Call (RPC) primitives built on top of an External Data Representation (XDR). Implementations exist for a variety of machines, from personal computers to supercomputers. .LP The supporting mount protocol allows the server to hand out remote access privileges to a restricted set of clients. It performs the operating system-specific functions that allow, for example, to attach remote directory trees to some local file system. .NH 2 \&Remote Procedure Call .IX "Remote Procedure Call" .LP Sun's remote procedure call specification provides a procedure- oriented interface to remote services. Each server supplies a program that is a set of procedures. NFS is one such "program". The combination of host address, program number, and procedure number specifies one remote service procedure. RPC does not depend on services provided by specific protocols, so it can be used with any underlying transport protocol. See the .I "Remote Procedure Calls: Protocol Specification" chapter of this manual. .NH 2 \&External Data Representation .IX "External Data Representation" .LP The External Data Representation (XDR) standard provides a common way of representing a set of data types over a network. The NFS Protocol Specification is written using the RPC data description language. For more information, see the .I " External Data Representation Standard: Protocol Specification." Sun provides implementations of XDR and RPC, but NFS does not require their use. Any software that provides equivalent functionality can be used, and if the encoding is exactly the same it can interoperate with other implementations of NFS. .NH 2 \&Stateless Servers .IX "stateless servers" .IX servers stateless .LP The NFS protocol is stateless. That is, a server does not need to maintain any extra state information about any of its clients in order to function correctly. Stateless servers have a distinct advantage over stateful servers in the event of a failure. With stateless servers, a client need only retry a request until the server responds; it does not even need to know that the server has crashed, or the network temporarily went down. The client of a stateful server, on the other hand, needs to either detect a server crash and rebuild the server's state when it comes back up, or cause client operations to fail. .LP This may not sound like an important issue, but it affects the protocol in some unexpected ways. We feel that it is worth a bit of extra complexity in the protocol to be able to write very simple servers that do not require fancy crash recovery. .LP On the other hand, NFS deals with objects such as files and directories that inherently have state -- what good would a file be if it did not keep its contents intact? The goal is to not introduce any extra state in the protocol itself. Another way to simplify recovery is by making operations "idempotent" whenever possible (so that they can potentially be repeated). .NH 1 \&NFS Protocol Definition .IX NFS "protocol definition" .IX NFS protocol .LP Servers have been known to change over time, and so can the protocol that they use. So RPC provides a version number with each RPC request. This RFC describes version two of the NFS protocol. Even in the second version, there are various obsolete procedures and parameters, which will be removed in later versions. An RFC for version three of the NFS protocol is currently under preparation. .NH 2 \&File System Model .IX filesystem model .LP NFS assumes a file system that is hierarchical, with directories as all but the bottom-level files. Each entry in a directory (file, directory, device, etc.) has a string name. Different operating systems may have restrictions on the depth of the tree or the names used, as well as using different syntax to represent the "pathname", which is the concatenation of all the "components" (directory and file names) in the name. A "file system" is a tree on a single server (usually a single disk or physical partition) with a specified "root". Some operating systems provide a "mount" operation to make all file systems appear as a single tree, while others maintain a "forest" of file systems. Files are unstructured streams of uninterpreted bytes. Version 3 of NFS uses a slightly more general file system model. .LP NFS looks up one component of a pathname at a time. It may not be obvious why it does not just take the whole pathname, traipse down the directories, and return a file handle when it is done. There are several good reasons not to do this. First, pathnames need separators between the directory components, and different operating systems use different separators. We could define a Network Standard Pathname Representation, but then every pathname would have to be parsed and converted at each end. Other issues are discussed in \fINFS Implementation Issues\fP below. .LP Although files and directories are similar objects in many ways, different procedures are used to read directories and files. This provides a network standard format for representing directories. The same argument as above could have been used to justify a procedure that returns only one directory entry per call. The problem is efficiency. Directories can contain many entries, and a remote call to return each would be just too slow. .NH 2 \&RPC Information .IX NFS "RPC information" .IP \fIAuthentication\fP The NFS service uses .I AUTH_UNIX , .I AUTH_DES , or .I AUTH_SHORT style authentication, except in the NULL procedure where .I AUTH_NONE is also allowed. .IP "\fITransport Protocols\fP" NFS currently is supported on UDP/IP only. .IP "\fIPort Number\fP" The NFS protocol currently uses the UDP port number 2049. This is not an officially assigned port, so later versions of the protocol use the \*QPortmapping\*U facility of RPC. .NH 2 \&Sizes of XDR Structures .IX "XDR structure sizes" .LP These are the sizes, given in decimal bytes, of various XDR structures used in the protocol: .DS /* \fIThe maximum number of bytes of data in a READ or WRITE request\fP */ const MAXDATA = 8192; /* \fIThe maximum number of bytes in a pathname argument\fP */ const MAXPATHLEN = 1024; /* \fIThe maximum number of bytes in a file name argument\fP */ const MAXNAMLEN = 255; /* \fIThe size in bytes of the opaque "cookie" passed by READDIR\fP */ const COOKIESIZE = 4; /* \fIThe size in bytes of the opaque file handle\fP */ const FHSIZE = 32; .DE .NH 2 \&Basic Data Types .IX "NFS data types" .IX NFS "basic data types" .LP The following XDR definitions are basic structures and types used in other structures described further on. .KS .NH 3 \&stat .IX "NFS data types" stat "" \fIstat\fP .DS enum stat { NFS_OK = 0, NFSERR_PERM=1, NFSERR_NOENT=2, NFSERR_IO=5, NFSERR_NXIO=6, NFSERR_ACCES=13, NFSERR_EXIST=17, NFSERR_NODEV=19, NFSERR_NOTDIR=20, NFSERR_ISDIR=21, NFSERR_FBIG=27, NFSERR_NOSPC=28, NFSERR_ROFS=30, NFSERR_NAMETOOLONG=63, NFSERR_NOTEMPTY=66, NFSERR_DQUOT=69, NFSERR_STALE=70, NFSERR_WFLUSH=99 }; .DE .KE .LP The .I stat type is returned with every procedure's results. A value of .I NFS_OK indicates that the call completed successfully and the results are valid. The other values indicate some kind of error occurred on the server side during the servicing of the procedure. The error values are derived from UNIX error numbers. .IP \fBNFSERR_PERM\fP: Not owner. The caller does not have correct ownership to perform the requested operation. .IP \fBNFSERR_NOENT\fP: No such file or directory. The file or directory specified does not exist. .IP \fBNFSERR_IO\fP: Some sort of hard error occurred when the operation was in progress. This could be a disk error, for example. .IP \fBNFSERR_NXIO\fP: No such device or address. .IP \fBNFSERR_ACCES\fP: Permission denied. The caller does not have the correct permission to perform the requested operation. .IP \fBNFSERR_EXIST\fP: File exists. The file specified already exists. .IP \fBNFSERR_NODEV\fP: No such device. .IP \fBNFSERR_NOTDIR\fP: Not a directory. The caller specified a non-directory in a directory operation. .IP \fBNFSERR_ISDIR\fP: Is a directory. The caller specified a directory in a non- directory operation. .IP \fBNFSERR_FBIG\fP: File too large. The operation caused a file to grow beyond the server's limit. .IP \fBNFSERR_NOSPC\fP: No space left on device. The operation caused the server's filesystem to reach its limit. .IP \fBNFSERR_ROFS\fP: Read-only filesystem. Write attempted on a read-only filesystem. .IP \fBNFSERR_NAMETOOLONG\fP: File name too long. The file name in an operation was too long. .IP \fBNFSERR_NOTEMPTY\fP: Directory not empty. Attempted to remove a directory that was not empty. .IP \fBNFSERR_DQUOT\fP: Disk quota exceeded. The client's disk quota on the server has been exceeded. .IP \fBNFSERR_STALE\fP: The "fhandle" given in the arguments was invalid. That is, the file referred to by that file handle no longer exists, or access to it has been revoked. .IP \fBNFSERR_WFLUSH\fP: The server's write cache used in the .I WRITECACHE call got flushed to disk. .LP .KS .NH 3 \&ftype .IX "NFS data types" ftype "" \fIftype\fP .DS enum ftype { NFNON = 0, NFREG = 1, NFDIR = 2, NFBLK = 3, NFCHR = 4, NFLNK = 5 }; .DE .KE The enumeration .I ftype gives the type of a file. The type .I NFNON indicates a non-file, .I NFREG is a regular file, .I NFDIR is a directory, .I NFBLK is a block-special device, .I NFCHR is a character-special device, and .I NFLNK is a symbolic link. .KS .NH 3 \&fhandle .IX "NFS data types" fhandle "" \fIfhandle\fP .DS typedef opaque fhandle[FHSIZE]; .DE .KE The .I fhandle is the file handle passed between the server and the client. All file operations are done using file handles to refer to a file or directory. The file handle can contain whatever information the server needs to distinguish an individual file. .KS .NH 3 \&timeval .IX "NFS data types" timeval "" \fItimeval\fP .DS struct timeval { unsigned int seconds; unsigned int useconds; }; .DE .KE The .I timeval structure is the number of seconds and microseconds since midnight January 1, 1970, Greenwich Mean Time. It is used to pass time and date information. .KS .NH 3 \&fattr .IX "NFS data types" fattr "" \fIfattr\fP .DS struct fattr { ftype type; unsigned int mode; unsigned int nlink; unsigned int uid; unsigned int gid; unsigned int size; unsigned int blocksize; unsigned int rdev; unsigned int blocks; unsigned int fsid; unsigned int fileid; timeval atime; timeval mtime; timeval ctime; }; .DE .KE The .I fattr structure contains the attributes of a file; "type" is the type of the file; "nlink" is the number of hard links to the file (the number of different names for the same file); "uid" is the user identification number of the owner of the file; "gid" is the group identification number of the group of the file; "size" is the size in bytes of the file; "blocksize" is the size in bytes of a block of the file; "rdev" is the device number of the file if it is type .I NFCHR or .I NFBLK ; "blocks" is the number of blocks the file takes up on disk; "fsid" is the file system identifier for the filesystem containing the file; "fileid" is a number that uniquely identifies the file within its filesystem; "atime" is the time when the file was last accessed for either read or write; "mtime" is the time when the file data was last modified (written); and "ctime" is the time when the status of the file was last changed. Writing to the file also changes "ctime" if the size of the file changes. .LP "mode" is the access mode encoded as a set of bits. Notice that the file type is specified both in the mode bits and in the file type. This is really a bug in the protocol and will be fixed in future versions. The descriptions given below specify the bit positions using octal numbers. .TS box tab (&) ; cfI cfI lfL l . Bit&Description _ 0040000&This is a directory; "type" field should be NFDIR. 0020000&This is a character special file; "type" field should be NFCHR. 0060000&This is a block special file; "type" field should be NFBLK. 0100000&This is a regular file; "type" field should be NFREG. 0120000&This is a symbolic link file; "type" field should be NFLNK. 0140000&This is a named socket; "type" field should be NFNON. 0004000&Set user id on execution. 0002000&Set group id on execution. 0001000&Save swapped text even after use. 0000400&Read permission for owner. 0000200&Write permission for owner. 0000100&Execute and search permission for owner. 0000040&Read permission for group. 0000020&Write permission for group. 0000010&Execute and search permission for group. 0000004&Read permission for others. 0000002&Write permission for others. 0000001&Execute and search permission for others. .TE .KS Notes: .IP The bits are the same as the mode bits returned by the .I stat(2) system call in the UNIX system. The file type is specified both in the mode bits and in the file type. This is fixed in future versions. .IP The "rdev" field in the attributes structure is an operating system specific device specifier. It will be removed and generalized in the next revision of the protocol. .KE .LP .KS .NH 3 \&sattr .IX "NFS data types" sattr "" \fIsattr\fP .DS struct sattr { unsigned int mode; unsigned int uid; unsigned int gid; unsigned int size; timeval atime; timeval mtime; }; .DE .KE The .I sattr structure contains the file attributes which can be set from the client. The fields are the same as for .I fattr above. A "size" of zero means the file should be truncated. A value of -1 indicates a field that should be ignored. .LP .KS .NH 3 \&filename .IX "NFS data types" filename "" \fIfilename\fP .DS typedef string filename; .DE .KE The type .I filename is used for passing file names or pathname components. .LP .KS .NH 3 \&path .IX "NFS data types" path "" \fIpath\fP .DS typedef string path; .DE .KE The type .I path is a pathname. The server considers it as a string with no internal structure, but to the client it is the name of a node in a filesystem tree. .LP .KS .NH 3 \&attrstat .IX "NFS data types" attrstat "" \fIattrstat\fP .DS union attrstat switch (stat status) { case NFS_OK: fattr attributes; default: void; }; .DE .KE The .I attrstat structure is a common procedure result. It contains a "status" and, if the call succeeded, it also contains the attributes of the file on which the operation was done. .LP .KS .NH 3 \&diropargs .IX "NFS data types" diropargs "" \fIdiropargs\fP .DS struct diropargs { fhandle dir; filename name; }; .DE .KE The .I diropargs structure is used in directory operations. The "fhandle" "dir" is the directory in which to find the file "name". A directory operation is one in which the directory is affected. .LP .KS .NH 3 \&diropres .IX "NFS data types" diropres "" \fIdiropres\fP .DS union diropres switch (stat status) { case NFS_OK: struct { fhandle file; fattr attributes; } diropok; default: void; }; .DE .KE The results of a directory operation are returned in a .I diropres structure. If the call succeeded, a new file handle "file" and the "attributes" associated with that file are returned along with the "status". .NH 2 \&Server Procedures .IX "NFS server procedures" "" "" "" PAGE MAJOR .LP The protocol definition is given as a set of procedures with arguments and results defined using the RPC language. A brief description of the function of each procedure should provide enough information to allow implementation. .LP All of the procedures in the NFS protocol are assumed to be synchronous. When a procedure returns to the client, the client can assume that the operation has completed and any data associated with the request is now on stable storage. For example, a client .I WRITE request may cause the server to update data blocks, filesystem information blocks (such as indirect blocks), and file attribute information (size and modify times). When the .I WRITE returns to the client, it can assume that the write is safe, even in case of a server crash, and it can discard the data written. This is a very important part of the statelessness of the server. If the server waited to flush data from remote requests, the client would have to save those requests so that it could resend them in case of a server crash. .ie t .DS .el .DS L .ft I /* * Remote file service routines */ .ft CW program NFS_PROGRAM { version NFS_VERSION { void NFSPROC_NULL(void) = 0; attrstat NFSPROC_GETATTR(fhandle) = 1; attrstat NFSPROC_SETATTR(sattrargs) = 2; void NFSPROC_ROOT(void) = 3; diropres NFSPROC_LOOKUP(diropargs) = 4; readlinkres NFSPROC_READLINK(fhandle) = 5; readres NFSPROC_READ(readargs) = 6; void NFSPROC_WRITECACHE(void) = 7; attrstat NFSPROC_WRITE(writeargs) = 8; diropres NFSPROC_CREATE(createargs) = 9; stat NFSPROC_REMOVE(diropargs) = 10; stat NFSPROC_RENAME(renameargs) = 11; stat NFSPROC_LINK(linkargs) = 12; stat NFSPROC_SYMLINK(symlinkargs) = 13; diropres NFSPROC_MKDIR(createargs) = 14; stat NFSPROC_RMDIR(diropargs) = 15; readdirres NFSPROC_READDIR(readdirargs) = 16; statfsres NFSPROC_STATFS(fhandle) = 17; } = 2; } = 100003; .DE .KS .NH 3 \&Do Nothing .IX "NFS server procedures" NFSPROC_NULL() "" \fINFSPROC_NULL()\fP .DS void NFSPROC_NULL(void) = 0; .DE .KE This procedure does no work. It is made available in all RPC services to allow server response testing and timing. .KS .NH 3 \&Get File Attributes .IX "NFS server procedures" NFSPROC_GETATTR() "" \fINFSPROC_GETATTR()\fP .DS attrstat NFSPROC_GETATTR (fhandle) = 1; .DE .KE If the reply status is .I NFS_OK , then the reply attributes contains the attributes for the file given by the input fhandle. .KS .NH 3 \&Set File Attributes .IX "NFS server procedures" NFSPROC_SETATTR() "" \fINFSPROC_SETATTR()\fP .DS struct sattrargs { fhandle file; sattr attributes; }; attrstat NFSPROC_SETATTR (sattrargs) = 2; .DE .KE The "attributes" argument contains fields which are either -1 or are the new value for the attributes of "file". If the reply status is .I NFS_OK , then the reply attributes have the attributes of the file after the "SETATTR" operation has completed. .LP Note: The use of -1 to indicate an unused field in "attributes" is changed in the next version of the protocol. .KS .NH 3 \&Get Filesystem Root .IX "NFS server procedures" NFSPROC_ROOT "" \fINFSPROC_ROOT\fP .DS void NFSPROC_ROOT(void) = 3; .DE .KE Obsolete. This procedure is no longer used because finding the root file handle of a filesystem requires moving pathnames between client and server. To do this right we would have to define a network standard representation of pathnames. Instead, the function of looking up the root file handle is done by the .I MNTPROC_MNT() procedure. (See the .I "Mount Protocol Definition" later in this chapter for details). .KS .NH 3 \&Look Up File Name .IX "NFS server procedures" NFSPROC_LOOKUP() "" \fINFSPROC_LOOKUP()\fP .DS diropres NFSPROC_LOOKUP(diropargs) = 4; .DE .KE If the reply "status" is .I NFS_OK , then the reply "file" and reply "attributes" are the file handle and attributes for the file "name" in the directory given by "dir" in the argument. .KS .NH 3 \&Read From Symbolic Link .IX "NFS server procedures" NFSPROC_READLINK() "" \fINFSPROC_READLINK()\fP .DS union readlinkres switch (stat status) { case NFS_OK: path data; default: void; }; readlinkres NFSPROC_READLINK(fhandle) = 5; .DE .KE If "status" has the value .I NFS_OK , then the reply "data" is the data in the symbolic link given by the file referred to by the fhandle argument. .LP Note: since NFS always parses pathnames on the client, the pathname in a symbolic link may mean something different (or be meaningless) on a different client or on the server if a different pathname syntax is used. .KS .NH 3 \&Read From File .IX "NFS server procedures" NFSPROC_READ "" \fINFSPROC_READ\fP .DS struct readargs { fhandle file; unsigned offset; unsigned count; unsigned totalcount; }; union readres switch (stat status) { case NFS_OK: fattr attributes; opaque data; default: void; }; readres NFSPROC_READ(readargs) = 6; .DE .KE Returns up to "count" bytes of "data" from the file given by "file", starting at "offset" bytes from the beginning of the file. The first byte of the file is at offset zero. The file attributes after the read takes place are returned in "attributes". .LP Note: The argument "totalcount" is unused, and is removed in the next protocol revision. .KS .NH 3 \&Write to Cache .IX "NFS server procedures" NFSPROC_WRITECACHE() "" \fINFSPROC_WRITECACHE()\fP .DS void NFSPROC_WRITECACHE(void) = 7; .DE .KE To be used in the next protocol revision. .KS .NH 3 \&Write to File .IX "NFS server procedures" NFSPROC_WRITE() "" \fINFSPROC_WRITE()\fP .DS struct writeargs { fhandle file; unsigned beginoffset; unsigned offset; unsigned totalcount; opaque data; }; attrstat NFSPROC_WRITE(writeargs) = 8; .DE .KE Writes "data" beginning "offset" bytes from the beginning of "file". The first byte of the file is at offset zero. If the reply "status" is NFS_OK, then the reply "attributes" contains the attributes of the file after the write has completed. The write operation is atomic. Data from this call to .I WRITE will not be mixed with data from another client's calls. .LP Note: The arguments "beginoffset" and "totalcount" are ignored and are removed in the next protocol revision. .KS .NH 3 \&Create File .IX "NFS server procedures" NFSPROC_CREATE() "" \fINFSPROC_CREATE()\fP .DS struct createargs { diropargs where; sattr attributes; }; diropres NFSPROC_CREATE(createargs) = 9; .DE .KE The file "name" is created in the directory given by "dir". The initial attributes of the new file are given by "attributes". A reply "status" of NFS_OK indicates that the file was created, and reply "file" and reply "attributes" are its file handle and attributes. Any other reply "status" means that the operation failed and no file was created. .LP Note: This routine should pass an exclusive create flag, meaning "create the file only if it is not already there". .KS .NH 3 \&Remove File .IX "NFS server procedures" NFSPROC_REMOVE() "" \fINFSPROC_REMOVE()\fP .DS stat NFSPROC_REMOVE(diropargs) = 10; .DE .KE The file "name" is removed from the directory given by "dir". A reply of NFS_OK means the directory entry was removed. .LP Note: possibly non-idempotent operation. .KS .NH 3 \&Rename File .IX "NFS server procedures" NFSPROC_RENAME() "" \fINFSPROC_RENAME()\fP .DS struct renameargs { diropargs from; diropargs to; }; stat NFSPROC_RENAME(renameargs) = 11; .DE .KE The existing file "from.name" in the directory given by "from.dir" is renamed to "to.name" in the directory given by "to.dir". If the reply is .I NFS_OK , the file was renamed. The RENAME operation is atomic on the server; it cannot be interrupted in the middle. .LP Note: possibly non-idempotent operation. .KS .NH 3 \&Create Link to File .IX "NFS server procedures" NFSPROC_LINK() "" \fINFSPROC_LINK()\fP .DS struct linkargs { fhandle from; diropargs to; }; stat NFSPROC_LINK(linkargs) = 12; .DE .KE Creates the file "to.name" in the directory given by "to.dir", which is a hard link to the existing file given by "from". If the return value is .I NFS_OK , a link was created. Any other return value indicates an error, and the link was not created. .LP A hard link should have the property that changes to either of the linked files are reflected in both files. When a hard link is made to a file, the attributes for the file should have a value for "nlink" that is one greater than the value before the link. .LP Note: possibly non-idempotent operation. .KS .NH 3 \&Create Symbolic Link .IX "NFS server procedures" NFSPROC_SYMLINK() "" \fINFSPROC_SYMLINK()\fP .DS struct symlinkargs { diropargs from; path to; sattr attributes; }; stat NFSPROC_SYMLINK(symlinkargs) = 13; .DE .KE Creates the file "from.name" with ftype .I NFLNK in the directory given by "from.dir". The new file contains the pathname "to" and has initial attributes given by "attributes". If the return value is .I NFS_OK , a link was created. Any other return value indicates an error, and the link was not created. .LP A symbolic link is a pointer to another file. The name given in "to" is not interpreted by the server, only stored in the newly created file. When the client references a file that is a symbolic link, the contents of the symbolic link are normally transparently reinterpreted as a pathname to substitute. A .I READLINK operation returns the data to the client for interpretation. .LP Note: On UNIX servers the attributes are never used, since symbolic links always have mode 0777. .KS .NH 3 \&Create Directory .IX "NFS server procedures" NFSPROC_MKDIR() "" \fINFSPROC_MKDIR()\fP .DS diropres NFSPROC_MKDIR (createargs) = 14; .DE .KE The new directory "where.name" is created in the directory given by "where.dir". The initial attributes of the new directory are given by "attributes". A reply "status" of NFS_OK indicates that the new directory was created, and reply "file" and reply "attributes" are its file handle and attributes. Any other reply "status" means that the operation failed and no directory was created. .LP Note: possibly non-idempotent operation. .KS .NH 3 \&Remove Directory .IX "NFS server procedures" NFSPROC_RMDIR() "" \fINFSPROC_RMDIR()\fP .DS stat NFSPROC_RMDIR(diropargs) = 15; .DE .KE The existing empty directory "name" in the directory given by "dir" is removed. If the reply is .I NFS_OK , the directory was removed. .LP Note: possibly non-idempotent operation. .KS .NH 3 \&Read From Directory .IX "NFS server procedures" NFSPROC_READDIR() "" \fINFSPROC_READDIR()\fP .DS struct readdirargs { fhandle dir; nfscookie cookie; unsigned count; }; struct entry { unsigned fileid; filename name; nfscookie cookie; entry *nextentry; }; union readdirres switch (stat status) { case NFS_OK: struct { entry *entries; bool eof; } readdirok; default: void; }; readdirres NFSPROC_READDIR (readdirargs) = 16; .DE .KE Returns a variable number of directory entries, with a total size of up to "count" bytes, from the directory given by "dir". If the returned value of "status" is .I NFS_OK , then it is followed by a variable number of "entry"s. Each "entry" contains a "fileid" which consists of a unique number to identify the file within a filesystem, the "name" of the file, and a "cookie" which is an opaque pointer to the next entry in the directory. The cookie is used in the next .I READDIR call to get more entries starting at a given point in the directory. The special cookie zero (all bits zero) can be used to get the entries starting at the beginning of the directory. The "fileid" field should be the same number as the "fileid" in the the attributes of the file. (See the .I "Basic Data Types" section.) The "eof" flag has a value of .I TRUE if there are no more entries in the directory. .KS .NH 3 \&Get Filesystem Attributes .IX "NFS server procedures" NFSPROC_STATFS() "" \fINFSPROC_STATFS()\fP .DS union statfsres (stat status) { case NFS_OK: struct { unsigned tsize; unsigned bsize; unsigned blocks; unsigned bfree; unsigned bavail; } info; default: void; }; statfsres NFSPROC_STATFS(fhandle) = 17; .DE .KE If the reply "status" is .I NFS_OK , then the reply "info" gives the attributes for the filesystem that contains file referred to by the input fhandle. The attribute fields contain the following values: .IP tsize: The optimum transfer size of the server in bytes. This is the number of bytes the server would like to have in the data part of READ and WRITE requests. .IP bsize: The block size in bytes of the filesystem. .IP blocks: The total number of "bsize" blocks on the filesystem. .IP bfree: The number of free "bsize" blocks on the filesystem. .IP bavail: The number of "bsize" blocks available to non-privileged users. .LP Note: This call does not work well if a filesystem has variable size blocks. .NH 1 \&NFS Implementation Issues .IX NFS implementation .LP The NFS protocol is designed to be operating system independent, but since this version was designed in a UNIX environment, many operations have semantics similar to the operations of the UNIX file system. This section discusses some of the implementation-specific semantic issues. .NH 2 \&Server/Client Relationship .IX NFS "server/client relationship" .LP The NFS protocol is designed to allow servers to be as simple and general as possible. Sometimes the simplicity of the server can be a problem, if the client wants to implement complicated filesystem semantics. .LP For example, some operating systems allow removal of open files. A process can open a file and, while it is open, remove it from the directory. The file can be read and written as long as the process keeps it open, even though the file has no name in the filesystem. It is impossible for a stateless server to implement these semantics. The client can do some tricks such as renaming the file on remove, and only removing it on close. We believe that the server provides enough functionality to implement most file system semantics on the client. .LP Every NFS client can also potentially be a server, and remote and local mounted filesystems can be freely intermixed. This leads to some interesting problems when a client travels down the directory tree of a remote filesystem and reaches the mount point on the server for another remote filesystem. Allowing the server to follow the second remote mount would require loop detection, server lookup, and user revalidation. Instead, we decided not to let clients cross a server's mount point. When a client does a LOOKUP on a directory on which the server has mounted a filesystem, the client sees the underlying directory instead of the mounted directory. A client can do remote mounts that match the server's mount points to maintain the server's view. .LP .NH 2 \&Pathname Interpretation .IX NFS "pathname interpretation" .LP There are a few complications to the rule that pathnames are always parsed on the client. For example, symbolic links could have different interpretations on different clients. Another common problem for non-UNIX implementations is the special interpretation of the pathname ".." to mean the parent of a given directory. The next revision of the protocol uses an explicit flag to indicate the parent instead. .NH 2 \&Permission Issues .IX NFS "permission issues" .LP The NFS protocol, strictly speaking, does not define the permission checking used by servers. However, it is expected that a server will do normal operating system permission checking using .I AUTH_UNIX style authentication as the basis of its protection mechanism. The server gets the client's effective "uid", effective "gid", and groups on each call and uses them to check permission. There are various problems with this method that can been resolved in interesting ways. .LP Using "uid" and "gid" implies that the client and server share the same "uid" list. Every server and client pair must have the same mapping from user to "uid" and from group to "gid". Since every client can also be a server, this tends to imply that the whole network shares the same "uid/gid" space. .I AUTH_DES (and the next revision of the NFS protocol) uses string names instead of numbers, but there are still complex problems to be solved. .LP Another problem arises due to the usually stateful open operation. Most operating systems check permission at open time, and then check that the file is open on each read and write request. With stateless servers, the server has no idea that the file is open and must do permission checking on each read and write call. On a local filesystem, a user can open a file and then change the permissions so that no one is allowed to touch it, but will still be able to write to the file because it is open. On a remote filesystem, by contrast, the write would fail. To get around this problem, the server's permission checking algorithm should allow the owner of a file to access it regardless of the permission setting. .LP A similar problem has to do with paging in from a file over the network. The operating system usually checks for execute permission before opening a file for demand paging, and then reads blocks from the open file. The file may not have read permission, but after it is opened it doesn't matter. An NFS server can not tell the difference between a normal file read and a demand page-in read. To make this work, the server allows reading of files if the "uid" given in the call has execute or read permission on the file. .LP In most operating systems, a particular user (on the user ID zero) has access to all files no matter what permission and ownership they have. This "super-user" permission may not be allowed on the server, since anyone who can become super-user on their workstation could gain access to all remote files. The UNIX server by default maps user id 0 to -2 before doing its access checking. This works except for NFS root filesystems, where super-user access cannot be avoided. .NH 2 \&Setting RPC Parameters .IX NFS "setting RPC parameters" .LP Various file system parameters and options should be set at mount time. The mount protocol is described in the appendix below. For example, "Soft" mounts as well as "Hard" mounts are usually both provided. Soft mounted file systems return errors when RPC operations fail (after a given number of optional retransmissions), while hard mounted file systems continue to retransmit forever. Clients and servers may need to keep caches of recent operations to help avoid problems with non-idempotent operations. .NH 1 \&Mount Protocol Definition .IX "mount protocol" "" "" "" PAGE MAJOR .sp 1 .NH 2 \&Introduction .IX "mount protocol" introduction .LP The mount protocol is separate from, but related to, the NFS protocol. It provides operating system specific services to get the NFS off the ground -- looking up server path names, validating user identity, and checking access permissions. Clients use the mount protocol to get the first file handle, which allows them entry into a remote filesystem. .LP The mount protocol is kept separate from the NFS protocol to make it easy to plug in new access checking and validation methods without changing the NFS server protocol. .LP Notice that the protocol definition implies stateful servers because the server maintains a list of client's mount requests. The mount list information is not critical for the correct functioning of either the client or the server. It is intended for advisory use only, for example, to warn possible clients when a server is going down. .LP Version one of the mount protocol is used with version two of the NFS protocol. The only connecting point is the .I fhandle structure, which is the same for both protocols. .NH 2 \&RPC Information .IX "mount protocol" "RPC information" .IP \fIAuthentication\fP The mount service uses .I AUTH_UNIX and .I AUTH_DES style authentication only. .IP "\fITransport Protocols\fP" The mount service is currently supported on UDP/IP only. .IP "\fIPort Number\fP" Consult the server's portmapper, described in the chapter .I "Remote Procedure Calls: Protocol Specification", to find the port number on which the mount service is registered. .NH 2 \&Sizes of XDR Structures .IX "mount protocol" "XDR structure sizes" .LP These are the sizes, given in decimal bytes, of various XDR structures used in the protocol: .DS /* \fIThe maximum number of bytes in a pathname argument\fP */ const MNTPATHLEN = 1024; /* \fIThe maximum number of bytes in a name argument\fP */ const MNTNAMLEN = 255; /* \fIThe size in bytes of the opaque file handle\fP */ const FHSIZE = 32; .DE .NH 2 \&Basic Data Types .IX "mount protocol" "basic data types" .IX "mount data types" .LP This section presents the data types used by the mount protocol. In many cases they are similar to the types used in NFS. .KS .NH 3 \&fhandle .IX "mount data types" fhandle "" \fIfhandle\fP .DS typedef opaque fhandle[FHSIZE]; .DE .KE The type .I fhandle is the file handle that the server passes to the client. All file operations are done using file handles to refer to a file or directory. The file handle can contain whatever information the server needs to distinguish an individual file. .LP This is the same as the "fhandle" XDR definition in version 2 of the NFS protocol; see .I "Basic Data Types" in the definition of the NFS protocol, above. .KS .NH 3 \&fhstatus .IX "mount data types" fhstatus "" \fIfhstatus\fP .DS union fhstatus switch (unsigned status) { case 0: fhandle directory; default: void; }; .DE .KE The type .I fhstatus is a union. If a "status" of zero is returned, the call completed successfully, and a file handle for the "directory" follows. A non-zero status indicates some sort of error. In this case the status is a UNIX error number. .KS .NH 3 \&dirpath .IX "mount data types" dirpath "" \fIdirpath\fP .DS typedef string dirpath; .DE .KE The type .I dirpath is a server pathname of a directory. .KS .NH 3 \&name .IX "mount data types" name "" \fIname\fP .DS typedef string name; .DE .KE The type .I name is an arbitrary string used for various names. .NH 2 \&Server Procedures .IX "mount server procedures" .LP The following sections define the RPC procedures supplied by a mount server. .ie t .DS .el .DS L .ft I /* * Protocol description for the mount program */ .ft CW program MOUNTPROG { .ft I /* * Version 1 of the mount protocol used with * version 2 of the NFS protocol. */ .ft CW version MOUNTVERS { void MOUNTPROC_NULL(void) = 0; fhstatus MOUNTPROC_MNT(dirpath) = 1; mountlist MOUNTPROC_DUMP(void) = 2; void MOUNTPROC_UMNT(dirpath) = 3; void MOUNTPROC_UMNTALL(void) = 4; exportlist MOUNTPROC_EXPORT(void) = 5; } = 1; } = 100005; .DE .KS .NH 3 \&Do Nothing .IX "mount server procedures" MNTPROC_NULL() "" \fIMNTPROC_NULL()\fP .DS void MNTPROC_NULL(void) = 0; .DE .KE This procedure does no work. It is made available in all RPC services to allow server response testing and timing. .KS .NH 3 \&Add Mount Entry .IX "mount server procedures" MNTPROC_MNT() "" \fIMNTPROC_MNT()\fP .DS fhstatus MNTPROC_MNT(dirpath) = 1; .DE .KE If the reply "status" is 0, then the reply "directory" contains the file handle for the directory "dirname". This file handle may be used in the NFS protocol. This procedure also adds a new entry to the mount list for this client mounting "dirname". .KS .NH 3 \&Return Mount Entries .IX "mount server procedures" MNTPROC_DUMP() "" \fIMNTPROC_DUMP()\fP .DS struct *mountlist { name hostname; dirpath directory; mountlist nextentry; }; mountlist MNTPROC_DUMP(void) = 2; .DE .KE Returns the list of remote mounted filesystems. The "mountlist" contains one entry for each "hostname" and "directory" pair. .KS .NH 3 \&Remove Mount Entry .IX "mount server procedures" MNTPROC_UMNT() "" \fIMNTPROC_UMNT()\fP .DS void MNTPROC_UMNT(dirpath) = 3; .DE .KE Removes the mount list entry for the input "dirpath". .KS .NH 3 \&Remove All Mount Entries .IX "mount server procedures" MNTPROC_UMNTALL() "" \fIMNTPROC_UMNTALL()\fP .DS void MNTPROC_UMNTALL(void) = 4; .DE .KE Removes all of the mount list entries for this client. .KS .NH 3 \&Return Export List .IX "mount server procedures" MNTPROC_EXPORT() "" \fIMNTPROC_EXPORT()\fP .DS struct *groups { name grname; groups grnext; }; struct *exportlist { dirpath filesys; groups groups; exportlist next; }; exportlist MNTPROC_EXPORT(void) = 5; .DE .KE Returns a variable number of export list entries. Each entry contains a filesystem name and a list of groups that are allowed to import it. The filesystem name is in "filesys", and the group name is in the list "groups". .LP Note: The exportlist should contain more information about the status of the filesystem, such as a read-only flag. he mountrpc/doc/rpc.rfc.ms010060000000000000000000001257130443763512300143150ustar00rootroot00000000000001.\" .\" Must use -- tbl -- with this one .\" .\" @(#)rpc.rfc.ms 2.2 88/08/05 4.0 RPCSRC .de BT .if \\n%=1 .tl ''- % -'' .. .ND .\" prevent excess underlining in nroff .if n .fp 2 R .OH 'Remote Procedure Calls: Protocol Specification''Page %' .EH 'Page %''Remote Procedure Calls: Protocol Specification' .if \\n%=1 .bp .SH \&Remote Procedure Calls: Protocol Specification .LP .NH 0 \&Status of this Memo .LP Note: This chapter specifies a protocol that Sun Microsystems, Inc., and others are using. It has been designated RFC1050 by the ARPA Network Information Center. .LP .NH 1 \&Introduction .LP This chapter specifies a message protocol used in implementing Sun's Remote Procedure Call (RPC) package. (The message protocol is specified with the External Data Representation (XDR) language. See the .I "External Data Representation Standard: Protocol Specification" for the details. Here, we assume that the reader is familiar with XDR and do not attempt to justify it or its uses). The paper by Birrell and Nelson [1] is recommended as an excellent background to and justification of RPC. .NH 2 \&Terminology .LP This chapter discusses servers, services, programs, procedures, clients, and versions. A server is a piece of software where network services are implemented. A network service is a collection of one or more remote programs. A remote program implements one or more remote procedures; the procedures, their parameters, and results are documented in the specific program's protocol specification (see the \fIPort Mapper Program Protocol\fP\, below, for an example). Network clients are pieces of software that initiate remote procedure calls to services. A server may support more than one version of a remote program in order to be forward compatible with changing protocols. .LP For example, a network file service may be composed of two programs. One program may deal with high-level applications such as file system access control and locking. The other may deal with low-level file IO and have procedures like "read" and "write". A client machine of the network file service would call the procedures associated with the two programs of the service on behalf of some user on the client machine. .NH 2 \&The RPC Model .LP The remote procedure call model is similar to the local procedure call model. In the local case, the caller places arguments to a procedure in some well-specified location (such as a result register). It then transfers control to the procedure, and eventually gains back control. At that point, the results of the procedure are extracted from the well-specified location, and the caller continues execution. .LP The remote procedure call is similar, in that one thread of control logically winds through two processes\(emone is the caller's process, the other is a server's process. That is, the caller process sends a call message to the server process and waits (blocks) for a reply message. The call message contains the procedure's parameters, among other things. The reply message contains the procedure's results, among other things. Once the reply message is received, the results of the procedure are extracted, and caller's execution is resumed. .LP On the server side, a process is dormant awaiting the arrival of a call message. When one arrives, the server process extracts the procedure's parameters, computes the results, sends a reply message, and then awaits the next call message. .LP Note that in this model, only one of the two processes is active at any given time. However, this model is only given as an example. The RPC protocol makes no restrictions on the concurrency model implemented, and others are possible. For example, an implementation may choose to have RPC calls be asynchronous, so that the client may do useful work while waiting for the reply from the server. Another possibility is to have the server create a task to process an incoming request, so that the server can be free to receive other requests. .NH 2 \&Transports and Semantics .LP The RPC protocol is independent of transport protocols. That is, RPC does not care how a message is passed from one process to another. The protocol deals only with specification and interpretation of messages. .LP It is important to point out that RPC does not try to implement any kind of reliability and that the application must be aware of the type of transport protocol underneath RPC. If it knows it is running on top of a reliable transport such as TCP/IP[6], then most of the work is already done for it. On the other hand, if it is running on top of an unreliable transport such as UDP/IP[7], it must implement is own retransmission and time-out policy as the RPC layer does not provide this service. .LP Because of transport independence, the RPC protocol does not attach specific semantics to the remote procedures or their execution. Semantics can be inferred from (but should be explicitly specified by) the underlying transport protocol. For example, consider RPC running on top of an unreliable transport such as UDP/IP. If an application retransmits RPC messages after short time-outs, the only thing it can infer if it receives no reply is that the procedure was executed zero or more times. If it does receive a reply, then it can infer that the procedure was executed at least once. .LP A server may wish to remember previously granted requests from a client and not regrant them in order to insure some degree of execute-at-most-once semantics. A server can do this by taking advantage of the transaction ID that is packaged with every RPC request. The main use of this transaction is by the client RPC layer in matching replies to requests. However, a client application may choose to reuse its previous transaction ID when retransmitting a request. The server application, knowing this fact, may choose to remember this ID after granting a request and not regrant requests with the same ID in order to achieve some degree of execute-at-most-once semantics. The server is not allowed to examine this ID in any other way except as a test for equality. .LP On the other hand, if using a reliable transport such as TCP/IP, the application can infer from a reply message that the procedure was executed exactly once, but if it receives no reply message, it cannot assume the remote procedure was not executed. Note that even if a connection-oriented protocol like TCP is used, an application still needs time-outs and reconnection to handle server crashes. .LP There are other possibilities for transports besides datagram- or connection-oriented protocols. For example, a request-reply protocol such as VMTP[2] is perhaps the most natural transport for RPC. .SH .I NOTE: At Sun, RPC is currently implemented on top of both TCP/IP and UDP/IP transports. .LP .NH 2 \&Binding and Rendezvous Independence .LP The act of binding a client to a service is NOT part of the remote procedure call specification. This important and necessary function is left up to some higher-level software. (The software may use RPC itself\(emsee the \fIPort Mapper Program Protocol\fP\, below). .LP Implementors should think of the RPC protocol as the jump-subroutine instruction ("JSR") of a network; the loader (binder) makes JSR useful, and the loader itself uses JSR to accomplish its task. Likewise, the network makes RPC useful, using RPC to accomplish this task. .NH 2 \&Authentication .LP The RPC protocol provides the fields necessary for a client to identify itself to a service and vice-versa. Security and access control mechanisms can be built on top of the message authentication. Several different authentication protocols can be supported. A field in the RPC header indicates which protocol is being used. More information on specific authentication protocols can be found in the \fIAuthentication Protocols\fP\, below. .KS .NH 1 \&RPC Protocol Requirements .LP The RPC protocol must provide for the following: .IP 1. Unique specification of a procedure to be called. .IP 2. Provisions for matching response messages to request messages. .KE .IP 3. Provisions for authenticating the caller to service and vice-versa. .LP Besides these requirements, features that detect the following are worth supporting because of protocol roll-over errors, implementation bugs, user error, and network administration: .IP 1. RPC protocol mismatches. .IP 2. Remote program protocol version mismatches. .IP 3. Protocol errors (such as misspecification of a procedure's parameters). .IP 4. Reasons why remote authentication failed. .IP 5. Any other reasons why the desired procedure was not called. .NH 2 \&Programs and Procedures .LP The RPC call message has three unsigned fields: remote program number, remote program version number, and remote procedure number. The three fields uniquely identify the procedure to be called. Program numbers are administered by some central authority (like Sun). Once an implementor has a program number, he can implement his remote program; the first implementation would most likely have the version number of 1. Because most new protocols evolve into better, stable, and mature protocols, a version field of the call message identifies which version of the protocol the caller is using. Version numbers make speaking old and new protocols through the same server process possible. .LP The procedure number identifies the procedure to be called. These numbers are documented in the specific program's protocol specification. For example, a file service's protocol specification may state that its procedure number 5 is "read" and procedure number 12 is "write". .LP Just as remote program protocols may change over several versions, the actual RPC message protocol could also change. Therefore, the call message also has in it the RPC version number, which is always equal to two for the version of RPC described here. .LP The reply message to a request message has enough information to distinguish the following error conditions: .IP 1. The remote implementation of RPC does speak protocol version 2. The lowest and highest supported RPC version numbers are returned. .IP 2. The remote program is not available on the remote system. .IP 3. The remote program does not support the requested version number. The lowest and highest supported remote program version numbers are returned. .IP 4. The requested procedure number does not exist. (This is usually a caller side protocol or programming error.) .IP 5. The parameters to the remote procedure appear to be garbage from the server's point of view. (Again, this is usually caused by a disagreement about the protocol between client and service.) .NH 2 \&Authentication .LP Provisions for authentication of caller to service and vice-versa are provided as a part of the RPC protocol. The call message has two authentication fields, the credentials and verifier. The reply message has one authentication field, the response verifier. The RPC protocol specification defines all three fields to be the following opaque type: .DS .ft CW .vs 11 enum auth_flavor { AUTH_NULL = 0, AUTH_UNIX = 1, AUTH_SHORT = 2, AUTH_DES = 3 /* \fIand more to be defined\fP */ }; struct opaque_auth { auth_flavor flavor; opaque body<400>; }; .DE .LP In simple English, any .I opaque_auth structure is an .I auth_flavor enumeration followed by bytes which are opaque to the RPC protocol implementation. .LP The interpretation and semantics of the data contained within the authentication fields is specified by individual, independent authentication protocol specifications. (See \fIAuthentication Protocols\fP\, below, for definitions of the various authentication protocols.) .LP If authentication parameters were rejected, the response message contains information stating why they were rejected. .NH 2 \&Program Number Assignment .LP Program numbers are given out in groups of .I 0x20000000 (decimal 536870912) according to the following chart: .TS box tab (&) ; lfI lfI rfL cfI . Program Numbers&Description _ .sp .5 0 - 1fffffff&Defined by Sun 20000000 - 3fffffff&Defined by user 40000000 - 5fffffff&Transient 60000000 - 7fffffff&Reserved 80000000 - 9fffffff&Reserved a0000000 - bfffffff&Reserved c0000000 - dfffffff&Reserved e0000000 - ffffffff&Reserved .TE .LP The first group is a range of numbers administered by Sun Microsystems and should be identical for all sites. The second range is for applications peculiar to a particular site. This range is intended primarily for debugging new programs. When a site develops an application that might be of general interest, that application should be given an assigned number in the first range. The third group is for applications that generate program numbers dynamically. The final groups are reserved for future use, and should not be used. .NH 2 \&Other Uses of the RPC Protocol .LP The intended use of this protocol is for calling remote procedures. That is, each call message is matched with a response message. However, the protocol itself is a message-passing protocol with which other (non-RPC) protocols can be implemented. Sun currently uses, or perhaps abuses, the RPC message protocol for the following two (non-RPC) protocols: batching (or pipelining) and broadcast RPC. These two protocols are discussed but not defined below. .NH 3 \&Batching .LP Batching allows a client to send an arbitrarily large sequence of call messages to a server; batching typically uses reliable byte stream protocols (like TCP/IP) for its transport. In the case of batching, the client never waits for a reply from the server, and the server does not send replies to batch requests. A sequence of batch calls is usually terminated by a legitimate RPC in order to flush the pipeline (with positive acknowledgement). .NH 3 \&Broadcast RPC .LP In broadcast RPC-based protocols, the client sends a broadcast packet to the network and waits for numerous replies. Broadcast RPC uses unreliable, packet-based protocols (like UDP/IP) as its transports. Servers that support broadcast protocols only respond when the request is successfully processed, and are silent in the face of errors. Broadcast RPC uses the Port Mapper RPC service to achieve its semantics. See the \fIPort Mapper Program Protocol\fP\, below, for more information. .KS .NH 1 \&The RPC Message Protocol .LP This section defines the RPC message protocol in the XDR data description language. The message is defined in a top-down style. .ie t .DS .el .DS L .ft CW enum msg_type { CALL = 0, REPLY = 1 }; .ft I /* * A reply to a call message can take on two forms: * The message was either accepted or rejected. */ .ft CW enum reply_stat { MSG_ACCEPTED = 0, MSG_DENIED = 1 }; .ft I /* * Given that a call message was accepted, the following is the * status of an attempt to call a remote procedure. */ .ft CW enum accept_stat { SUCCESS = 0, /* \fIRPC executed successfully \fP*/ PROG_UNAVAIL = 1, /* \fIremote hasn't exported program \fP*/ PROG_MISMATCH = 2, /* \fIremote can't support version # \fP*/ PROC_UNAVAIL = 3, /* \fIprogram can't support procedure \fP*/ GARBAGE_ARGS = 4 /* \fIprocedure can't decode params \fP*/ }; .DE .ie t .DS .el .DS L .ft I /* * Reasons why a call message was rejected: */ .ft CW enum reject_stat { RPC_MISMATCH = 0, /* \fIRPC version number != 2 \fP*/ AUTH_ERROR = 1 /* \fIremote can't authenticate caller \fP*/ }; .ft I /* * Why authentication failed: */ .ft CW enum auth_stat { AUTH_BADCRED = 1, /* \fIbad credentials \fP*/ AUTH_REJECTEDCRED = 2, /* \fIclient must begin new session \fP*/ AUTH_BADVERF = 3, /* \fIbad verifier \fP*/ AUTH_REJECTEDVERF = 4, /* \fIverifier expired or replayed \fP*/ AUTH_TOOWEAK = 5 /* \fIrejected for security reasons \fP*/ }; .DE .KE .ie t .DS .el .DS L .ft I /* * The RPC message: * All messages start with a transaction identifier, xid, * followed by a two-armed discriminated union. The union's * discriminant is a msg_type which switches to one of the two * types of the message. The xid of a \fIREPLY\fP message always * matches that of the initiating \fICALL\fP message. NB: The xid * field is only used for clients matching reply messages with * call messages or for servers detecting retransmissions; the * service side cannot treat this id as any type of sequence * number. */ .ft CW struct rpc_msg { unsigned int xid; union switch (msg_type mtype) { case CALL: call_body cbody; case REPLY: reply_body rbody; } body; }; .DE .ie t .DS .el .DS L .ft I /* * Body of an RPC request call: * In version 2 of the RPC protocol specification, rpcvers must * be equal to 2. The fields prog, vers, and proc specify the * remote program, its version number, and the procedure within * the remote program to be called. After these fields are two * authentication parameters: cred (authentication credentials) * and verf (authentication verifier). The two authentication * parameters are followed by the parameters to the remote * procedure, which are specified by the specific program * protocol. */ .ft CW struct call_body { unsigned int rpcvers; /* \fImust be equal to two (2) \fP*/ unsigned int prog; unsigned int vers; unsigned int proc; opaque_auth cred; opaque_auth verf; /* \fIprocedure specific parameters start here \fP*/ }; .DE .ie t .DS .el .DS L .ft I /* * Body of a reply to an RPC request: * The call message was either accepted or rejected. */ .ft CW union reply_body switch (reply_stat stat) { case MSG_ACCEPTED: accepted_reply areply; case MSG_DENIED: rejected_reply rreply; } reply; .DE .ie t .DS .el .DS L .ft I /* * Reply to an RPC request that was accepted by the server: * there could be an error even though the request was accepted. * The first field is an authentication verifier that the server * generates in order to validate itself to the caller. It is * followed by a union whose discriminant is an enum * accept_stat. The \fISUCCESS\fP arm of the union is protocol * specific. The \fIPROG_UNAVAIL\fP, \fIPROC_UNAVAIL\fP, and \fIGARBAGE_ARGP\fP * arms of the union are void. The \fIPROG_MISMATCH\fP arm specifies * the lowest and highest version numbers of the remote program * supported by the server. */ .ft CW struct accepted_reply { opaque_auth verf; union switch (accept_stat stat) { case SUCCESS: opaque results[0]; /* \fIprocedure-specific results start here\fP */ case PROG_MISMATCH: struct { unsigned int low; unsigned int high; } mismatch_info; default: .ft I /* * Void. Cases include \fIPROG_UNAVAIL, PROC_UNAVAIL\fP, * and \fIGARBAGE_ARGS\fP. */ .ft CW void; } reply_data; }; .DE .ie t .DS .el .DS L .ft I /* * Reply to an RPC request that was rejected by the server: * The request can be rejected for two reasons: either the * server is not running a compatible version of the RPC * protocol (\fIRPC_MISMATCH\fP), or the server refuses to * authenticate the caller (\fIAUTH_ERROR\fP). In case of an RPC * version mismatch, the server returns the lowest and highest * supported RPC version numbers. In case of refused * authentication, failure status is returned. */ .ft CW union rejected_reply switch (reject_stat stat) { case RPC_MISMATCH: struct { unsigned int low; unsigned int high; } mismatch_info; case AUTH_ERROR: auth_stat stat; }; .DE .NH 1 \&Authentication Protocols .LP As previously stated, authentication parameters are opaque, but open-ended to the rest of the RPC protocol. This section defines some "flavors" of authentication implemented at (and supported by) Sun. Other sites are free to invent new authentication types, with the same rules of flavor number assignment as there is for program number assignment. .NH 2 \&Null Authentication .LP Often calls must be made where the caller does not know who he is or the server does not care who the caller is. In this case, the flavor value (the discriminant of the \fIopaque_auth\fP's union) of the RPC message's credentials, verifier, and response verifier is .I AUTH_NULL . The bytes of the opaque_auth's body are undefined. It is recommended that the opaque length be zero. .NH 2 \&UNIX Authentication .LP The caller of a remote procedure may wish to identify himself as he is identified on a UNIX system. The value of the credential's discriminant of an RPC call message is .I AUTH_UNIX . The bytes of the credential's opaque body encode the following structure: .DS .ft CW struct auth_unix { unsigned int stamp; string machinename<255>; unsigned int uid; unsigned int gid; unsigned int gids<10>; }; .DE The .I stamp is an arbitrary ID which the caller machine may generate. The .I machinename is the name of the caller's machine (like "krypton"). The .I uid is the caller's effective user ID. The .I gid is the caller's effective group ID. The .I gids is a counted array of groups which contain the caller as a member. The verifier accompanying the credentials should be of .I AUTH_NULL (defined above). .LP The value of the discriminant of the response verifier received in the reply message from the server may be .I AUTH_NULL or .I AUTH_SHORT . In the case of .I AUTH_SHORT , the bytes of the response verifier's string encode an opaque structure. This new opaque structure may now be passed to the server instead of the original .I AUTH_UNIX flavor credentials. The server keeps a cache which maps shorthand opaque structures (passed back by way of an .I AUTH_SHORT style response verifier) to the original credentials of the caller. The caller can save network bandwidth and server cpu cycles by using the new credentials. .LP The server may flush the shorthand opaque structure at any time. If this happens, the remote procedure call message will be rejected due to an authentication error. The reason for the failure will be .I AUTH_REJECTEDCRED . At this point, the caller may wish to try the original .I AUTH_UNIX style of credentials. .KS .NH 2 \&DES Authentication .LP UNIX authentication suffers from two major problems: .IP 1. The naming is too UNIX-system oriented. .IP 2. There is no verifier, so credentials can easily be faked. .LP DES authentication attempts to fix these two problems. .KE .NH 3 \&Naming .LP The first problem is handled by addressing the caller by a simple string of characters instead of by an operating system specific integer. This string of characters is known as the "netname" or network name of the caller. The server is not allowed to interpret the contents of the caller's name in any other way except to identify the caller. Thus, netnames should be unique for every caller in the internet. .LP It is up to each operating system's implementation of DES authentication to generate netnames for its users that insure this uniqueness when they call upon remote servers. Operating systems already know how to distinguish users local to their systems. It is usually a simple matter to extend this mechanism to the network. For example, a UNIX user at Sun with a user ID of 515 might be assigned the following netname: "unix.515@sun.com". This netname contains three items that serve to insure it is unique. Going backwards, there is only one naming domain called "sun.com" in the internet. Within this domain, there is only one UNIX user with user ID 515. However, there may be another user on another operating system, for example VMS, within the same naming domain that, by coincidence, happens to have the same user ID. To insure that these two users can be distinguished we add the operating system name. So one user is "unix.515@sun.com" and the other is "vms.515@sun.com". .LP The first field is actually a naming method rather than an operating system name. It just happens that today there is almost a one-to-one correspondence between naming methods and operating systems. If the world could agree on a naming standard, the first field could be the name of that standard, instead of an operating system name. .LP .NH 3 \&DES Authentication Verifiers .LP Unlike UNIX authentication, DES authentication does have a verifier so the server can validate the client's credential (and vice-versa). The contents of this verifier is primarily an encrypted timestamp. The server can decrypt this timestamp, and if it is close to what the real time is, then the client must have encrypted it correctly. The only way the client could encrypt it correctly is to know the "conversation key" of the RPC session. And if the client knows the conversation key, then it must be the real client. .LP The conversation key is a DES [5] key which the client generates and notifies the server of in its first RPC call. The conversation key is encrypted using a public key scheme in this first transaction. The particular public key scheme used in DES authentication is Diffie-Hellman [3] with 192-bit keys. The details of this encryption method are described later. .LP The client and the server need the same notion of the current time in order for all of this to work. If network time synchronization cannot be guaranteed, then client can synchronize with the server before beginning the conversation, perhaps by consulting the Internet Time Server (TIME[4]). .LP The way a server determines if a client timestamp is valid is somewhat complicated. For any other transaction but the first, the server just checks for two things: .IP 1. the timestamp is greater than the one previously seen from the same client. .IP 2. the timestamp has not expired. .LP A timestamp is expired if the server's time is later than the sum of the client's timestamp plus what is known as the client's "window". The "window" is a number the client passes (encrypted) to the server in its first transaction. You can think of it as a lifetime for the credential. .LP This explains everything but the first transaction. In the first transaction, the server checks only that the timestamp has not expired. If this was all that was done though, then it would be quite easy for the client to send random data in place of the timestamp with a fairly good chance of succeeding. As an added check, the client sends an encrypted item in the first transaction known as the "window verifier" which must be equal to the window minus 1, or the server will reject the credential. .LP The client too must check the verifier returned from the server to be sure it is legitimate. The server sends back to the client the encrypted timestamp it received from the client, minus one second. If the client gets anything different than this, it will reject it. .LP .NH 3 \&Nicknames and Clock Synchronization .LP After the first transaction, the server's DES authentication subsystem returns in its verifier to the client an integer "nickname" which the client may use in its further transactions instead of passing its netname, encrypted DES key and window every time. The nickname is most likely an index into a table on the server which stores for each client its netname, decrypted DES key and window. .LP Though they originally were synchronized, the client's and server's clocks can get out of sync again. When this happens the client RPC subsystem most likely will get back .I RPC_AUTHERROR at which point it should resynchronize. .LP A client may still get the .I RPC_AUTHERROR error even though it is synchronized with the server. The reason is that the server's nickname table is a limited size, and it may flush entries whenever it wants. A client should resend its original credential in this case and the server will give it a new nickname. If a server crashes, the entire nickname table gets flushed, and all clients will have to resend their original credentials. .KS .NH 3 \&DES Authentication Protocol (in XDR language) .ie t .DS .el .DS L .ft I /* * There are two kinds of credentials: one in which the client uses * its full network name, and one in which it uses its "nickname" * (just an unsigned integer) given to it by the server. The * client must use its fullname in its first transaction with the * server, in which the server will return to the client its * nickname. The client may use its nickname in all further * transactions with the server. There is no requirement to use the * nickname, but it is wise to use it for performance reasons. */ .ft CW enum authdes_namekind { ADN_FULLNAME = 0, ADN_NICKNAME = 1 }; .ft I /* * A 64-bit block of encrypted DES data */ .ft CW typedef opaque des_block[8]; .ft I /* * Maximum length of a network user's name */ .ft CW const MAXNETNAMELEN = 255; .ft I /* * A fullname contains the network name of the client, an encrypted * conversation key and the window. The window is actually a * lifetime for the credential. If the time indicated in the * verifier timestamp plus the window has past, then the server * should expire the request and not grant it. To insure that * requests are not replayed, the server should insist that * timestamps are greater than the previous one seen, unless it is * the first transaction. In the first transaction, the server * checks instead that the window verifier is one less than the * window. */ .ft CW struct authdes_fullname { string name; /* \fIname of client \f(CW*/ des_block key; /* \fIPK encrypted conversation key \f(CW*/ unsigned int window; /* \fIencrypted window \f(CW*/ }; .ft I /* * A credential is either a fullname or a nickname */ .ft CW union authdes_cred switch (authdes_namekind adc_namekind) { case ADN_FULLNAME: authdes_fullname adc_fullname; case ADN_NICKNAME: unsigned int adc_nickname; }; .ft I /* * A timestamp encodes the time since midnight, January 1, 1970. */ .ft CW struct timestamp { unsigned int seconds; /* \fIseconds \fP*/ unsigned int useconds; /* \fIand microseconds \fP*/ }; .ft I /* * Verifier: client variety * The window verifier is only used in the first transaction. In * conjunction with a fullname credential, these items are packed * into the following structure before being encrypted: * * \f(CWstruct {\fP * \f(CWadv_timestamp; \fP-- one DES block * \f(CWadc_fullname.window; \fP-- one half DES block * \f(CWadv_winverf; \fP-- one half DES block * \f(CW}\fP * This structure is encrypted using CBC mode encryption with an * input vector of zero. All other encryptions of timestamps use * ECB mode encryption. */ .ft CW struct authdes_verf_clnt { timestamp adv_timestamp; /* \fIencrypted timestamp \fP*/ unsigned int adv_winverf; /* \fIencrypted window verifier \fP*/ }; .ft I /* * Verifier: server variety * The server returns (encrypted) the same timestamp the client * gave it minus one second. It also tells the client its nickname * to be used in future transactions (unencrypted). */ .ft CW struct authdes_verf_svr { timestamp adv_timeverf; /* \fIencrypted verifier \fP*/ unsigned int adv_nickname; /* \fInew nickname for client \fP*/ }; .DE .KE .NH 3 \&Diffie-Hellman Encryption .LP In this scheme, there are two constants, .I BASE and .I MODULUS . The particular values Sun has chosen for these for the DES authentication protocol are: .ie t .DS .el .DS L .ft CW const BASE = 3; const MODULUS = "d4a0ba0250b6fd2ec626e7efd637df76c716e22d0944b88b"; /* \fIhex \fP*/ .DE .ft R The way this scheme works is best explained by an example. Suppose there are two people "A" and "B" who want to send encrypted messages to each other. So, A and B both generate "secret" keys at random which they do not reveal to anyone. Let these keys be represented as SK(A) and SK(B). They also publish in a public directory their "public" keys. These keys are computed as follows: .ie t .DS .el .DS L .ft CW PK(A) = ( BASE ** SK(A) ) mod MODULUS PK(B) = ( BASE ** SK(B) ) mod MODULUS .DE .ft R The "**" notation is used here to represent exponentiation. Now, both A and B can arrive at the "common" key between them, represented here as CK(A, B), without revealing their secret keys. .LP A computes: .ie t .DS .el .DS L .ft CW CK(A, B) = ( PK(B) ** SK(A)) mod MODULUS .DE .ft R while B computes: .ie t .DS .el .DS L .ft CW CK(A, B) = ( PK(A) ** SK(B)) mod MODULUS .DE .ft R These two can be shown to be equivalent: .ie t .DS .el .DS L .ft CW (PK(B) ** SK(A)) mod MODULUS = (PK(A) ** SK(B)) mod MODULUS .DE .ft R We drop the "mod MODULUS" parts and assume modulo arithmetic to simplify things: .ie t .DS .el .DS L .ft CW PK(B) ** SK(A) = PK(A) ** SK(B) .DE .ft R Then, replace PK(B) by what B computed earlier and likewise for PK(A). .ie t .DS .el .DS L .ft CW ((BASE ** SK(B)) ** SK(A) = (BASE ** SK(A)) ** SK(B) .DE .ft R which leads to: .ie t .DS .el .DS L .ft CW BASE ** (SK(A) * SK(B)) = BASE ** (SK(A) * SK(B)) .DE .ft R This common key CK(A, B) is not used to encrypt the timestamps used in the protocol. Rather, it is used only to encrypt a conversation key which is then used to encrypt the timestamps. The reason for doing this is to use the common key as little as possible, for fear that it could be broken. Breaking the conversation key is a far less serious offense, since conversations are relatively short-lived. .LP The conversation key is encrypted using 56-bit DES keys, yet the common key is 192 bits. To reduce the number of bits, 56 bits are selected from the common key as follows. The middle-most 8-bytes are selected from the common key, and then parity is added to the lower order bit of each byte, producing a 56-bit key with 8 bits of parity. .KS .NH 1 \&Record Marking Standard .LP When RPC messages are passed on top of a byte stream protocol (like TCP/IP), it is necessary, or at least desirable, to delimit one message from another in order to detect and possibly recover from user protocol errors. This is called record marking (RM). Sun uses this RM/TCP/IP transport for passing RPC messages on TCP streams. One RPC message fits into one RM record. .LP A record is composed of one or more record fragments. A record fragment is a four-byte header followed by 0 to (2**31) - 1 bytes of fragment data. The bytes encode an unsigned binary number; as with XDR integers, the byte order is from highest to lowest. The number encodes two values\(ema boolean which indicates whether the fragment is the last fragment of the record (bit value 1 implies the fragment is the last fragment) and a 31-bit unsigned binary value which is the length in bytes of the fragment's data. The boolean value is the highest-order bit of the header; the length is the 31 low-order bits. (Note that this record specification is NOT in XDR standard form!) .KE .KS .NH 1 \&The RPC Language .LP Just as there was a need to describe the XDR data-types in a formal language, there is also need to describe the procedures that operate on these XDR data-types in a formal language as well. We use the RPC Language for this purpose. It is an extension to the XDR language. The following example is used to describe the essence of the language. .NH 2 \&An Example Service Described in the RPC Language .LP Here is an example of the specification of a simple ping program. .ie t .DS .el .DS L .vs 11 .ft I /* * Simple ping program */ .ft CW program PING_PROG { /* \fILatest and greatest version\fP */ version PING_VERS_PINGBACK { void PINGPROC_NULL(void) = 0; .ft I /* * Ping the caller, return the round-trip time * (in microseconds). Returns -1 if the operation * timed out. */ .ft CW int PINGPROC_PINGBACK(void) = 1; } = 2; .ft I /* * Original version */ .ft CW version PING_VERS_ORIG { void PINGPROC_NULL(void) = 0; } = 1; } = 1; const PING_VERS = 2; /* \fIlatest version \fP*/ .vs .DE .KE .LP The first version described is .I PING_VERS_PINGBACK with two procedures, .I PINGPROC_NULL and .I PINGPROC_PINGBACK . .I PINGPROC_NULL takes no arguments and returns no results, but it is useful for computing round-trip times from the client to the server and back again. By convention, procedure 0 of any RPC protocol should have the same semantics, and never require any kind of authentication. The second procedure is used for the client to have the server do a reverse ping operation back to the client, and it returns the amount of time (in microseconds) that the operation used. The next version, .I PING_VERS_ORIG , is the original version of the protocol and it does not contain .I PINGPROC_PINGBACK procedure. It is useful for compatibility with old client programs, and as this program matures it may be dropped from the protocol entirely. .KS .NH 2 \&The RPC Language Specification .LP The RPC language is identical to the XDR language, except for the added definition of a .I program-def described below. .DS .ft CW program-def: "program" identifier "{" version-def version-def * "}" "=" constant ";" version-def: "version" identifier "{" procedure-def procedure-def * "}" "=" constant ";" procedure-def: type-specifier identifier "(" type-specifier ")" "=" constant ";" .DE .KE .NH 2 \&Syntax Notes .IP 1. The following keywords are added and cannot be used as identifiers: "program" and "version"; .IP 2. A version name cannot occur more than once within the scope of a program definition. Nor can a version number occur more than once within the scope of a program definition. .IP 3. A procedure name cannot occur more than once within the scope of a version definition. Nor can a procedure number occur more than once within the scope of version definition. .IP 4. Program identifiers are in the same name space as constant and type identifiers. .IP 5. Only unsigned constants can be assigned to programs, versions and procedures. .NH 1 \&Port Mapper Program Protocol .LP The port mapper program maps RPC program and version numbers to transport-specific port numbers. This program makes dynamic binding of remote programs possible. .LP This is desirable because the range of reserved port numbers is very small and the number of potential remote programs is very large. By running only the port mapper on a reserved port, the port numbers of other remote programs can be ascertained by querying the port mapper. .LP The port mapper also aids in broadcast RPC. A given RPC program will usually have different port number bindings on different machines, so there is no way to directly broadcast to all of these programs. The port mapper, however, does have a fixed port number. So, to broadcast to a given program, the client actually sends its message to the port mapper located at the broadcast address. Each port mapper that picks up the broadcast then calls the local service specified by the client. When the port mapper gets the reply from the local service, it sends the reply on back to the client. .KS .NH 2 \&Port Mapper Protocol Specification (in RPC Language) .ie t .DS .el .DS L .ft CW .vs 11 const PMAP_PORT = 111; /* \fIportmapper port number \fP*/ .ft I /* * A mapping of (program, version, protocol) to port number */ .ft CW struct mapping { unsigned int prog; unsigned int vers; unsigned int prot; unsigned int port; }; .ft I /* * Supported values for the "prot" field */ .ft CW const IPPROTO_TCP = 6; /* \fIprotocol number for TCP/IP \fP*/ const IPPROTO_UDP = 17; /* \fIprotocol number for UDP/IP \fP*/ .ft I /* * A list of mappings */ .ft CW struct *pmaplist { mapping map; pmaplist next; }; .vs .DE .ie t .DS .el .DS L .vs 11 .ft I /* * Arguments to callit */ .ft CW struct call_args { unsigned int prog; unsigned int vers; unsigned int proc; opaque args<>; }; .ft I /* * Results of callit */ .ft CW struct call_result { unsigned int port; opaque res<>; }; .vs .DE .KE .ie t .DS .el .DS L .vs 11 .ft I /* * Port mapper procedures */ .ft CW program PMAP_PROG { version PMAP_VERS { void PMAPPROC_NULL(void) = 0; bool PMAPPROC_SET(mapping) = 1; bool PMAPPROC_UNSET(mapping) = 2; unsigned int PMAPPROC_GETPORT(mapping) = 3; pmaplist PMAPPROC_DUMP(void) = 4; call_result PMAPPROC_CALLIT(call_args) = 5; } = 2; } = 100000; .vs .DE .NH 2 \&Port Mapper Operation .LP The portmapper program currently supports two protocols (UDP/IP and TCP/IP). The portmapper is contacted by talking to it on assigned port number 111 (SUNRPC [8]) on either of these protocols. The following is a description of each of the portmapper procedures: .IP \fBPMAPPROC_NULL:\fP This procedure does no work. By convention, procedure zero of any protocol takes no parameters and returns no results. .IP \fBPMAPPROC_SET:\fP When a program first becomes available on a machine, it registers itself with the port mapper program on the same machine. The program passes its program number "prog", version number "vers", transport protocol number "prot", and the port "port" on which it awaits service request. The procedure returns a boolean response whose value is .I TRUE if the procedure successfully established the mapping and .I FALSE otherwise. The procedure refuses to establish a mapping if one already exists for the tuple "(prog, vers, prot)". .IP \fBPMAPPROC_UNSET:\fP When a program becomes unavailable, it should unregister itself with the port mapper program on the same machine. The parameters and results have meanings identical to those of .I PMAPPROC_SET . The protocol and port number fields of the argument are ignored. .IP \fBPMAPPROC_GETPORT:\fP Given a program number "prog", version number "vers", and transport protocol number "prot", this procedure returns the port number on which the program is awaiting call requests. A port value of zeros means the program has not been registered. The "port" field of the argument is ignored. .IP \fBPMAPPROC_DUMP:\fP This procedure enumerates all entries in the port mapper's database. The procedure takes no parameters and returns a list of program, version, protocol, and port values. .IP \fBPMAPPROC_CALLIT:\fP This procedure allows a caller to call another remote procedure on the same machine without knowing the remote procedure's port number. It is intended for supporting broadcasts to arbitrary remote programs via the well-known port mapper's port. The parameters "prog", "vers", "proc", and the bytes of "args" are the program number, version number, procedure number, and parameters of the remote procedure. .LP .B Note: .RS .IP 1. This procedure only sends a response if the procedure was successfully executed and is silent (no response) otherwise. .IP 2. The port mapper communicates with the remote program using UDP/IP only. .RE .LP The procedure returns the remote program's port number, and the bytes of results are the results of the remote procedure. .bp .NH 1 \&References .LP [1] Birrell, Andrew D. & Nelson, Bruce Jay; "Implementing Remote Procedure Calls"; XEROX CSL-83-7, October 1983. .LP [2] Cheriton, D.; "VMTP: Versatile Message Transaction Protocol", Preliminary Version 0.3; Stanford University, January 1987. .LP [3] Diffie & Hellman; "New Directions in Cryptography"; IEEE Transactions on Information Theory IT-22, November 1976. .LP [4] Harrenstien, K.; "Time Server", RFC 738; Information Sciences Institute, October 1977. .LP [5] National Bureau of Standards; "Data Encryption Standard"; Federal Information Processing Standards Publication 46, January 1977. .LP [6] Postel, J.; "Transmission Control Protocol - DARPA Internet Program Protocol Specification", RFC 793; Information Sciences Institute, September 1981. .LP [7] Postel, J.; "User Datagram Protocol", RFC 768; Information Sciences Institute, August 1980. .LP [8] Reynolds, J. & Postel, J.; "Assigned Numbers", RFC 923; Information Sciences Institute, October 1984. r bit of each byte, producing a 56-bit key with 8 bitrpc/doc/xdr.nts.ms010060000000000000000000001422170443763512300143560ustar00rootroot00000000000001.\" .\" Must use -- eqn -- with this one .\" .\" @(#)xdr.nts.ms 2.2 88/08/05 4.0 RPCSRC .EQ delim $$ .EN .de BT .if \\n%=1 .tl ''- % -'' .. .ND .\" prevent excess underlining in nroff .if n .fp 2 R .OH 'External Data Representation: Sun Technical Notes''Page %' .EH 'Page %''External Data Representation: Sun Technical Notes' .if \\n%=1 .bp .SH \&External Data Representation: Sun Technical Notes .IX XDR "Sun technical notes" .LP This chapter contains technical notes on Sun's implementation of the External Data Representation (XDR) standard, a set of library routines that allow a C programmer to describe arbitrary data structures in a machinex-independent fashion. For a formal specification of the XDR standard, see the .I "External Data Representation Standard: Protocol Specification". XDR is the backbone of Sun's Remote Procedure Call package, in the sense that data for remote procedure calls is transmitted using the standard. XDR library routines should be used to transmit data that is accessed (read or written) by more than one type of machine.\** .FS .IX XDR "system routines" For a compete specification of the system External Data Representation routines, see the .I xdr(3N) manual page. .FE .LP This chapter contains a short tutorial overview of the XDR library routines, a guide to accessing currently available XDR streams, and information on defining new streams and data types. XDR was designed to work across different languages, operating systems, and machine architectures. Most users (particularly RPC users) will only need the information in the .I "Number Filters", .I "Floating Point Filters", and .I "Enumeration Filters" sections. Programmers wishing to implement RPC and XDR on new machines will be interested in the rest of the chapter, as well as the .I "External Data Representaiton Standard: Protocol Specification", which will be their primary reference. .SH Note: .I .I rpcgen can be used to write XDR routines even in cases where no RPC calls are being made. .LP On Sun systems, C programs that want to use XDR routines must include the file .I , which contains all the necessary interfaces to the XDR system. Since the C library .I libc.a contains all the XDR routines, compile as normal. .DS example% \fBcc\0\fIprogram\fP.c\fI .DE .ne 3i .NH 0 \&Justification .IX XDR justification .LP Consider the following two programs, .I writer : .ie t .DS .el .DS L .ft CW #include .sp.5 main() /* \fIwriter.c\fP */ { long i; .sp.5 for (i = 0; i < 8; i++) { if (fwrite((char *)&i, sizeof(i), 1, stdout) != 1) { fprintf(stderr, "failed!\en"); exit(1); } } exit(0); } .DE and .I reader : .ie t .DS .el .DS L .ft CW #include .sp.5 main() /* \fIreader.c\fP */ { long i, j; .sp.5 for (j = 0; j < 8; j++) { if (fread((char *)&i, sizeof (i), 1, stdin) != 1) { fprintf(stderr, "failed!\en"); exit(1); } printf("%ld ", i); } printf("\en"); exit(0); } .DE The two programs appear to be portable, because (a) they pass .I lint checking, and (b) they exhibit the same behavior when executed on two different hardware architectures, a Sun and a VAX. .LP Piping the output of the .I writer program to the .I reader program gives identical results on a Sun or a VAX. .DS .ft CW sun% \fBwriter | reader\fP 0 1 2 3 4 5 6 7 sun% vax% \fBwriter | reader\fP 0 1 2 3 4 5 6 7 vax% .DE With the advent of local area networks and 4.2BSD came the concept of \*Qnetwork pipes\*U \(em a process produces data on one machine, and a second process consumes data on another machine. A network pipe can be constructed with .I writer and .I reader . Here are the results if the first produces data on a Sun, and the second consumes data on a VAX. .DS .ft CW sun% \fBwriter | rsh vax reader\fP 0 16777216 33554432 50331648 67108864 83886080 100663296 117440512 sun% .DE Identical results can be obtained by executing .I writer on the VAX and .I reader on the Sun. These results occur because the byte ordering of long integers differs between the VAX and the Sun, even though word size is the same. Note that $16777216$ is $2 sup 24$ \(em when four bytes are reversed, the 1 winds up in the 24th bit. .LP Whenever data is shared by two or more machine types, there is a need for portable data. Programs can be made data-portable by replacing the .I read() and .I write() calls with calls to an XDR library routine .I xdr_long() , a filter that knows the standard representation of a long integer in its external form. Here are the revised versions of .I writer : .ie t .DS .el .DS L .ft CW #include #include /* \fIxdr is a sub-library of rpc\fP */ .sp.5 main() /* \fIwriter.c\fP */ { XDR xdrs; long i; .sp.5 xdrstdio_create(&xdrs, stdout, XDR_ENCODE); for (i = 0; i < 8; i++) { if (!xdr_long(&xdrs, &i)) { fprintf(stderr, "failed!\en"); exit(1); } } exit(0); } .DE and .I reader : .ie t .DS .el .DS L .ft CW #include #include /* \fIxdr is a sub-library of rpc\fP */ .sp.5 main() /* \fIreader.c\fP */ { XDR xdrs; long i, j; .sp.5 xdrstdio_create(&xdrs, stdin, XDR_DECODE); for (j = 0; j < 8; j++) { if (!xdr_long(&xdrs, &i)) { fprintf(stderr, "failed!\en"); exit(1); } printf("%ld ", i); } printf("\en"); exit(0); } .DE The new programs were executed on a Sun, on a VAX, and from a Sun to a VAX; the results are shown below. .DS .ft CW sun% \fBwriter | reader\fP 0 1 2 3 4 5 6 7 sun% vax% \fBwriter | reader\fP 0 1 2 3 4 5 6 7 vax% sun% \fBwriter | rsh vax reader\fP 0 1 2 3 4 5 6 7 sun% .DE .SH Note: .I .IX XDR "portable data" Integers are just the tip of the portable-data iceberg. Arbitrary data structures present portability problems, particularly with respect to alignment and pointers. Alignment on word boundaries may cause the size of a structure to vary from machine to machine. And pointers, which are very convenient to use, have no meaning outside the machine where they are defined. .LP .NH 1 \&A Canonical Standard .IX XDR "canonical standard" .LP XDR's approach to standardizing data representations is .I canonical . That is, XDR defines a single byte order (Big Endian), a single floating-point representation (IEEE), and so on. Any program running on any machine can use XDR to create portable data by translating its local representation to the XDR standard representations; similarly, any program running on any machine can read portable data by translating the XDR standard representaions to its local equivalents. The single standard completely decouples programs that create or send portable data from those that use or receive portable data. The advent of a new machine or a new language has no effect upon the community of existing portable data creators and users. A new machine joins this community by being \*Qtaught\*U how to convert the standard representations and its local representations; the local representations of other machines are irrelevant. Conversely, to existing programs running on other machines, the local representations of the new machine are also irrelevant; such programs can immediately read portable data produced by the new machine because such data conforms to the canonical standards that they already understand. .LP There are strong precedents for XDR's canonical approach. For example, TCP/IP, UDP/IP, XNS, Ethernet, and, indeed, all protocols below layer five of the ISO model, are canonical protocols. The advantage of any canonical approach is simplicity; in the case of XDR, a single set of conversion routines is written once and is never touched again. The canonical approach has a disadvantage, but it is unimportant in real-world data transfer applications. Suppose two Little-Endian machines are transferring integers according to the XDR standard. The sending machine converts the integers from Little-Endian byte order to XDR (Big-Endian) byte order; the receiving machine performs the reverse conversion. Because both machines observe the same byte order, their conversions are unnecessary. The point, however, is not necessity, but cost as compared to the alternative. .LP The time spent converting to and from a canonical representation is insignificant, especially in networking applications. Most of the time required to prepare a data structure for transfer is not spent in conversion but in traversing the elements of the data structure. To transmit a tree, for example, each leaf must be visited and each element in a leaf record must be copied to a buffer and aligned there; storage for the leaf may have to be deallocated as well. Similarly, to receive a tree, storage must be allocated for each leaf, data must be moved from the buffer to the leaf and properly aligned, and pointers must be constructed to link the leaves together. Every machine pays the cost of traversing and copying data structures whether or not conversion is required. In networking applications, communications overhead\(emthe time required to move the data down through the sender's protocol layers, across the network and up through the receiver's protocol layers\(emdwarfs conversion overhead. .NH 1 \&The XDR Library .IX "XDR" "library" .LP The XDR library not only solves data portability problems, it also allows you to write and read arbitrary C constructs in a consistent, specified, well-documented manner. Thus, it can make sense to use the library even when the data is not shared among machines on a network. .LP The XDR library has filter routines for strings (null-terminated arrays of bytes), structures, unions, and arrays, to name a few. Using more primitive routines, you can write your own specific XDR routines to describe arbitrary data structures, including elements of arrays, arms of unions, or objects pointed at from other structures. The structures themselves may contain arrays of arbitrary elements, or pointers to other structures. .LP Let's examine the two programs more closely. There is a family of XDR stream creation routines in which each member treats the stream of bits differently. In our example, data is manipulated using standard I/O routines, so we use .I xdrstdio_create (). .IX xdrstdio_create() "" "\fIxdrstdio_create()\fP" The parameters to XDR stream creation routines vary according to their function. In our example, .I xdrstdio_create() takes a pointer to an XDR structure that it initializes, a pointer to a .I FILE that the input or output is performed on, and the operation. The operation may be .I XDR_ENCODE for serializing in the .I writer program, or .I XDR_DECODE for deserializing in the .I reader program. .LP Note: RPC users never need to create XDR streams; the RPC system itself creates these streams, which are then passed to the users. .LP The .I xdr_long() .IX xdr_long() "" "\fIxdr_long()\fP" primitive is characteristic of most XDR library primitives and all client XDR routines. First, the routine returns .I FALSE (0) if it fails, and .I TRUE (1) if it succeeds. Second, for each data type, .I xxx , there is an associated XDR routine of the form: .DS .ft CW xdr_xxx(xdrs, xp) XDR *xdrs; xxx *xp; { } .DE In our case, .I xxx is long, and the corresponding XDR routine is a primitive, .I xdr_long() . The client could also define an arbitrary structure .I xxx in which case the client would also supply the routine .I xdr_xxx (), describing each field by calling XDR routines of the appropriate type. In all cases the first parameter, .I xdrs can be treated as an opaque handle, and passed to the primitive routines. .LP XDR routines are direction independent; that is, the same routines are called to serialize or deserialize data. This feature is critical to software engineering of portable data. The idea is to call the same routine for either operation \(em this almost guarantees that serialized data can also be deserialized. One routine is used by both producer and consumer of networked data. This is implemented by always passing the address of an object rather than the object itself \(em only in the case of deserialization is the object modified. This feature is not shown in our trivial example, but its value becomes obvious when nontrivial data structures are passed among machines. If needed, the user can obtain the direction of the XDR operation. See the .I "XDR Operation Directions" section below for details. .LP Let's look at a slightly more complicated example. Assume that a person's gross assets and liabilities are to be exchanged among processes. Also assume that these values are important enough to warrant their own data type: .ie t .DS .el .DS L .ft CW struct gnumbers { long g_assets; long g_liabilities; }; .DE The corresponding XDR routine describing this structure would be: .ie t .DS .el .DS L .ft CW bool_t /* \fITRUE is success, FALSE is failure\fP */ xdr_gnumbers(xdrs, gp) XDR *xdrs; struct gnumbers *gp; { if (xdr_long(xdrs, &gp->g_assets) && xdr_long(xdrs, &gp->g_liabilities)) return(TRUE); return(FALSE); } .DE Note that the parameter .I xdrs is never inspected or modified; it is only passed on to the subcomponent routines. It is imperative to inspect the return value of each XDR routine call, and to give up immediately and return .I FALSE if the subroutine fails. .LP This example also shows that the type .I bool_t is declared as an integer whose only values are .I TRUE (1) and .I FALSE (0). This document uses the following definitions: .ie t .DS .el .DS L .ft CW #define bool_t int #define TRUE 1 #define FALSE 0 .DE .LP Keeping these conventions in mind, .I xdr_gnumbers() can be rewritten as follows: .ie t .DS .el .DS L .ft CW xdr_gnumbers(xdrs, gp) XDR *xdrs; struct gnumbers *gp; { return(xdr_long(xdrs, &gp->g_assets) && xdr_long(xdrs, &gp->g_liabilities)); } .DE This document uses both coding styles. .NH 1 \&XDR Library Primitives .IX "library primitives for XDR" .IX XDR "library primitives" .LP This section gives a synopsis of each XDR primitive. It starts with basic data types and moves on to constructed data types. Finally, XDR utilities are discussed. The interface to these primitives and utilities is defined in the include file .I , automatically included by .I . .NH 2 \&Number Filters .IX "XDR library" "number filters" .LP The XDR library provides primitives to translate between numbers and their corresponding external representations. Primitives cover the set of numbers in: .DS .ft CW [signed, unsigned] * [short, int, long] .DE .ne 2i Specifically, the eight primitives are: .DS .ft CW bool_t xdr_char(xdrs, cp) XDR *xdrs; char *cp; .sp.5 bool_t xdr_u_char(xdrs, ucp) XDR *xdrs; unsigned char *ucp; .sp.5 bool_t xdr_int(xdrs, ip) XDR *xdrs; int *ip; .sp.5 bool_t xdr_u_int(xdrs, up) XDR *xdrs; unsigned *up; .sp.5 bool_t xdr_long(xdrs, lip) XDR *xdrs; long *lip; .sp.5 bool_t xdr_u_long(xdrs, lup) XDR *xdrs; u_long *lup; .sp.5 bool_t xdr_short(xdrs, sip) XDR *xdrs; short *sip; .sp.5 bool_t xdr_u_short(xdrs, sup) XDR *xdrs; u_short *sup; .DE The first parameter, .I xdrs , is an XDR stream handle. The second parameter is the address of the number that provides data to the stream or receives data from it. All routines return .I TRUE if they complete successfully, and .I FALSE otherwise. .NH 2 \&Floating Point Filters .IX "XDR library" "floating point filters" .LP The XDR library also provides primitive routines for C's floating point types: .DS .ft CW bool_t xdr_float(xdrs, fp) XDR *xdrs; float *fp; .sp.5 bool_t xdr_double(xdrs, dp) XDR *xdrs; double *dp; .DE The first parameter, .I xdrs is an XDR stream handle. The second parameter is the address of the floating point number that provides data to the stream or receives data from it. Both routines return .I TRUE if they complete successfully, and .I FALSE otherwise. .LP Note: Since the numbers are represented in IEEE floating point, routines may fail when decoding a valid IEEE representation into a machine-specific representation, or vice-versa. .NH 2 \&Enumeration Filters .IX "XDR library" "enumeration filters" .LP The XDR library provides a primitive for generic enumerations. The primitive assumes that a C .I enum has the same representation inside the machine as a C integer. The boolean type is an important instance of the .I enum . The external representation of a boolean is always .I TRUE (1) or .I FALSE (0). .DS .ft CW #define bool_t int #define FALSE 0 #define TRUE 1 .sp.5 #define enum_t int .sp.5 bool_t xdr_enum(xdrs, ep) XDR *xdrs; enum_t *ep; .sp.5 bool_t xdr_bool(xdrs, bp) XDR *xdrs; bool_t *bp; .DE The second parameters .I ep and .I bp are addresses of the associated type that provides data to, or receives data from, the stream .I xdrs . .NH 2 \&No Data .IX "XDR library" "no data" .LP Occasionally, an XDR routine must be supplied to the RPC system, even when no data is passed or required. The library provides such a routine: .DS .ft CW bool_t xdr_void(); /* \fIalways returns TRUE\fP */ .DE .NH 2 \&Constructed Data Type Filters .IX "XDR library" "constructed data type filters" .LP Constructed or compound data type primitives require more parameters and perform more complicated functions then the primitives discussed above. This section includes primitives for strings, arrays, unions, and pointers to structures. .LP Constructed data type primitives may use memory management. In many cases, memory is allocated when deserializing data with .I XDR_DECODE Therefore, the XDR package must provide means to deallocate memory. This is done by an XDR operation, .I XDR_FREE To review, the three XDR directional operations are .I XDR_ENCODE , .I XDR_DECODE and .I XDR_FREE . .NH 3 \&Strings .IX "XDR library" "strings" .LP In C, a string is defined as a sequence of bytes terminated by a null byte, which is not considered when calculating string length. However, when a string is passed or manipulated, a pointer to it is employed. Therefore, the XDR library defines a string to be a .I "char *" and not a sequence of characters. The external representation of a string is drastically different from its internal representation. Externally, strings are represented as sequences of ASCII characters, while internally, they are represented with character pointers. Conversion between the two representations is accomplished with the routine .I xdr_string (): .IX xdr_string() "" \fIxdr_string()\fP .DS .ft CW bool_t xdr_string(xdrs, sp, maxlength) XDR *xdrs; char **sp; u_int maxlength; .DE The first parameter .I xdrs is the XDR stream handle. The second parameter .I sp is a pointer to a string (type .I "char **" . The third parameter .I maxlength specifies the maximum number of bytes allowed during encoding or decoding. its value is usually specified by a protocol. For example, a protocol specification may say that a file name may be no longer than 255 characters. .LP The routine returns .I FALSE if the number of characters exceeds .I maxlength , and .I TRUE if it doesn't. .SH Keep .I maxlength small. If it is too big you can blow the heap, since .I xdr_string() will call .I malloc() for space. .LP The behavior of .I xdr_string() .IX xdr_string() "" \fIxdr_string()\fP is similar to the behavior of other routines discussed in this section. The direction .I XDR_ENCODE is easiest to understand. The parameter .I sp points to a string of a certain length; if the string does not exceed .I maxlength , the bytes are serialized. .LP The effect of deserializing a string is subtle. First the length of the incoming string is determined; it must not exceed .I maxlength . Next .I sp is dereferenced; if the the value is .I NULL , then a string of the appropriate length is allocated and .I *sp is set to this string. If the original value of .I *sp is non-null, then the XDR package assumes that a target area has been allocated, which can hold strings no longer than .I maxlength . In either case, the string is decoded into the target area. The routine then appends a null character to the string. .LP In the .I XDR_FREE operation, the string is obtained by dereferencing .I sp . If the string is not .I NULL , it is freed and .I *sp is set to .I NULL . In this operation, .I xdr_string() ignores the .I maxlength parameter. .NH 3 \&Byte Arrays .IX "XDR library" "byte arrays" .LP Often variable-length arrays of bytes are preferable to strings. Byte arrays differ from strings in the following three ways: 1) the length of the array (the byte count) is explicitly located in an unsigned integer, 2) the byte sequence is not terminated by a null character, and 3) the external representation of the bytes is the same as their internal representation. The primitive .I xdr_bytes() .IX xdr_bytes() "" \fIxdr_bytes()\fP converts between the internal and external representations of byte arrays: .DS .ft CW bool_t xdr_bytes(xdrs, bpp, lp, maxlength) XDR *xdrs; char **bpp; u_int *lp; u_int maxlength; .DE The usage of the first, second and fourth parameters are identical to the first, second and third parameters of .I xdr_string (), respectively. The length of the byte area is obtained by dereferencing .I lp when serializing; .I *lp is set to the byte length when deserializing. .NH 3 \&Arrays .IX "XDR library" "arrays" .LP The XDR library package provides a primitive for handling arrays of arbitrary elements. The .I xdr_bytes() routine treats a subset of generic arrays, in which the size of array elements is known to be 1, and the external description of each element is built-in. The generic array primitive, .I xdr_array() , .IX xdr_array() "" \fIxdr_array()\fP requires parameters identical to those of .I xdr_bytes() plus two more: the size of array elements, and an XDR routine to handle each of the elements. This routine is called to encode or decode each element of the array. .DS .ft CW bool_t xdr_array(xdrs, ap, lp, maxlength, elementsiz, xdr_element) XDR *xdrs; char **ap; u_int *lp; u_int maxlength; u_int elementsiz; bool_t (*xdr_element)(); .DE The parameter .I ap is the address of the pointer to the array. If .I *ap is .I NULL when the array is being deserialized, XDR allocates an array of the appropriate size and sets .I *ap to that array. The element count of the array is obtained from .I *lp when the array is serialized; .I *lp is set to the array length when the array is deserialized. The parameter .I maxlength is the maximum number of elements that the array is allowed to have; .I elementsiz is the byte size of each element of the array (the C function .I sizeof() can be used to obtain this value). The .I xdr_element() .IX xdr_element() "" \fIxdr_element()\fP routine is called to serialize, deserialize, or free each element of the array. .br .LP Before defining more constructed data types, it is appropriate to present three examples. .LP .I "Example A:" .br A user on a networked machine can be identified by (a) the machine name, such as .I krypton : see the .I gethostname man page; (b) the user's UID: see the .I geteuid man page; and (c) the group numbers to which the user belongs: see the .I getgroups man page. A structure with this information and its associated XDR routine could be coded like this: .ie t .DS .el .DS L .ft CW struct netuser { char *nu_machinename; int nu_uid; u_int nu_glen; int *nu_gids; }; #define NLEN 255 /* \fImachine names < 256 chars\fP */ #define NGRPS 20 /* \fIuser can't be in > 20 groups\fP */ .sp.5 bool_t xdr_netuser(xdrs, nup) XDR *xdrs; struct netuser *nup; { return(xdr_string(xdrs, &nup->nu_machinename, NLEN) && xdr_int(xdrs, &nup->nu_uid) && xdr_array(xdrs, &nup->nu_gids, &nup->nu_glen, NGRPS, sizeof (int), xdr_int)); } .DE .LP .I "Example B:" .br A party of network users could be implemented as an array of .I netuser structure. The declaration and its associated XDR routines are as follows: .ie t .DS .el .DS L .ft CW struct party { u_int p_len; struct netuser *p_nusers; }; #define PLEN 500 /* \fImax number of users in a party\fP */ .sp.5 bool_t xdr_party(xdrs, pp) XDR *xdrs; struct party *pp; { return(xdr_array(xdrs, &pp->p_nusers, &pp->p_len, PLEN, sizeof (struct netuser), xdr_netuser)); } .DE .LP .I "Example C:" .br The well-known parameters to .I main , .I argc and .I argv can be combined into a structure. An array of these structures can make up a history of commands. The declarations and XDR routines might look like: .ie t .DS .el .DS L .ft CW struct cmd { u_int c_argc; char **c_argv; }; #define ALEN 1000 /* \fIargs cannot be > 1000 chars\fP */ #define NARGC 100 /* \fIcommands cannot have > 100 args\fP */ struct history { u_int h_len; struct cmd *h_cmds; }; #define NCMDS 75 /* \fIhistory is no more than 75 commands\fP */ bool_t xdr_wrap_string(xdrs, sp) XDR *xdrs; char **sp; { return(xdr_string(xdrs, sp, ALEN)); } .DE .ie t .DS .el .DS L .ft CW bool_t xdr_cmd(xdrs, cp) XDR *xdrs; struct cmd *cp; { return(xdr_array(xdrs, &cp->c_argv, &cp->c_argc, NARGC, sizeof (char *), xdr_wrap_string)); } .DE .ie t .DS .el .DS L .ft CW bool_t xdr_history(xdrs, hp) XDR *xdrs; struct history *hp; { return(xdr_array(xdrs, &hp->h_cmds, &hp->h_len, NCMDS, sizeof (struct cmd), xdr_cmd)); } .DE The most confusing part of this example is that the routine .I xdr_wrap_string() is needed to package the .I xdr_string() routine, because the implementation of .I xdr_array() only passes two parameters to the array element description routine; .I xdr_wrap_string() supplies the third parameter to .I xdr_string (). .LP By now the recursive nature of the XDR library should be obvious. Let's continue with more constructed data types. .NH 3 \&Opaque Data .IX "XDR library" "opaque data" .LP In some protocols, handles are passed from a server to client. The client passes the handle back to the server at some later time. Handles are never inspected by clients; they are obtained and submitted. That is to say, handles are opaque. The .I xdr_opaque() .IX xdr_opaque() "" \fIxdr_opaque()\fP primitive is used for describing fixed sized, opaque bytes. .DS .ft CW bool_t xdr_opaque(xdrs, p, len) XDR *xdrs; char *p; u_int len; .DE The parameter .I p is the location of the bytes; .I len is the number of bytes in the opaque object. By definition, the actual data contained in the opaque object are not machine portable. .NH 3 \&Fixed Sized Arrays .IX "XDR library" "fixed sized arrays" .LP The XDR library provides a primitive, .I xdr_vector (), for fixed-length arrays. .ie t .DS .el .DS L .ft CW #define NLEN 255 /* \fImachine names must be < 256 chars\fP */ #define NGRPS 20 /* \fIuser belongs to exactly 20 groups\fP */ .sp.5 struct netuser { char *nu_machinename; int nu_uid; int nu_gids[NGRPS]; }; .sp.5 bool_t xdr_netuser(xdrs, nup) XDR *xdrs; struct netuser *nup; { int i; .sp.5 if (!xdr_string(xdrs, &nup->nu_machinename, NLEN)) return(FALSE); if (!xdr_int(xdrs, &nup->nu_uid)) return(FALSE); if (!xdr_vector(xdrs, nup->nu_gids, NGRPS, sizeof(int), xdr_int)) { return(FALSE); } return(TRUE); } .DE .NH 3 \&Discriminated Unions .IX "XDR library" "discriminated unions" .LP The XDR library supports discriminated unions. A discriminated union is a C union and an .I enum_t value that selects an \*Qarm\*U of the union. .DS .ft CW struct xdr_discrim { enum_t value; bool_t (*proc)(); }; .sp.5 bool_t xdr_union(xdrs, dscmp, unp, arms, defaultarm) XDR *xdrs; enum_t *dscmp; char *unp; struct xdr_discrim *arms; bool_t (*defaultarm)(); /* \fImay equal NULL\fP */ .DE First the routine translates the discriminant of the union located at .I *dscmp . The discriminant is always an .I enum_t . Next the union located at .I *unp is translated. The parameter .I arms is a pointer to an array of .I xdr_discrim structures. Each structure contains an ordered pair of .I [value,proc] . If the union's discriminant is equal to the associated .I value , then the .I proc is called to translate the union. The end of the .I xdr_discrim structure array is denoted by a routine of value .I NULL (0). If the discriminant is not found in the .I arms array, then the .I defaultarm procedure is called if it is non-null; otherwise the routine returns .I FALSE . .LP .I "Example D:" Suppose the type of a union may be integer, character pointer (a string), or a .I gnumbers structure. Also, assume the union and its current type are declared in a structure. The declaration is: .ie t .DS .el .DS L .ft CW enum utype { INTEGER=1, STRING=2, GNUMBERS=3 }; .sp.5 struct u_tag { enum utype utype; /* \fIthe union's discriminant\fP */ union { int ival; char *pval; struct gnumbers gn; } uval; }; .DE The following constructs and XDR procedure (de)serialize the discriminated union: .ie t .DS .el .DS L .ft CW struct xdr_discrim u_tag_arms[4] = { { INTEGER, xdr_int }, { GNUMBERS, xdr_gnumbers } { STRING, xdr_wrap_string }, { __dontcare__, NULL } /* \fIalways terminate arms with a NULL xdr_proc\fP */ } .sp.5 bool_t xdr_u_tag(xdrs, utp) XDR *xdrs; struct u_tag *utp; { return(xdr_union(xdrs, &utp->utype, &utp->uval, u_tag_arms, NULL)); } .DE The routine .I xdr_gnumbers() was presented above in .I "The XDR Library" section. .I xdr_wrap_string() was presented in example C. The default .I arm parameter to .I xdr_union() (the last parameter) is .I NULL in this example. Therefore the value of the union's discriminant may legally take on only values listed in the .I u_tag_arms array. This example also demonstrates that the elements of the arm's array do not need to be sorted. .LP It is worth pointing out that the values of the discriminant may be sparse, though in this example they are not. It is always good practice to assign explicitly integer values to each element of the discriminant's type. This practice both documents the external representation of the discriminant and guarantees that different C compilers emit identical discriminant values. .LP Exercise: Implement .I xdr_union() using the other primitives in this section. .NH 3 \&Pointers .IX "XDR library" "pointers" .LP In C it is often convenient to put pointers to another structure within a structure. The .I xdr_reference() .IX xdr_reference() "" \fIxdr_reference()\fP primitive makes it easy to serialize, deserialize, and free these referenced structures. .DS .ft CW bool_t xdr_reference(xdrs, pp, size, proc) XDR *xdrs; char **pp; u_int ssize; bool_t (*proc)(); .DE .LP Parameter .I pp is the address of the pointer to the structure; parameter .I ssize is the size in bytes of the structure (use the C function .I sizeof() to obtain this value); and .I proc is the XDR routine that describes the structure. When decoding data, storage is allocated if .I *pp is .I NULL . .LP There is no need for a primitive .I xdr_struct() to describe structures within structures, because pointers are always sufficient. .LP Exercise: Implement .I xdr_reference() using .I xdr_array (). Warning: .I xdr_reference() and .I xdr_array() are NOT interchangeable external representations of data. .LP .I "Example E:" Suppose there is a structure containing a person's name and a pointer to a .I gnumbers structure containing the person's gross assets and liabilities. The construct is: .DS .ft CW struct pgn { char *name; struct gnumbers *gnp; }; .DE The corresponding XDR routine for this structure is: .DS .ft CW bool_t xdr_pgn(xdrs, pp) XDR *xdrs; struct pgn *pp; { if (xdr_string(xdrs, &pp->name, NLEN) && xdr_reference(xdrs, &pp->gnp, sizeof(struct gnumbers), xdr_gnumbers)) return(TRUE); return(FALSE); } .DE .IX "pointer semantics and XDR" .I "Pointer Semantics and XDR" .LP In many applications, C programmers attach double meaning to the values of a pointer. Typically the value .I NULL (or zero) means data is not needed, yet some application-specific interpretation applies. In essence, the C programmer is encoding a discriminated union efficiently by overloading the interpretation of the value of a pointer. For instance, in example E a .I NULL pointer value for .I gnp could indicate that the person's assets and liabilities are unknown. That is, the pointer value encodes two things: whether or not the data is known; and if it is known, where it is located in memory. Linked lists are an extreme example of the use of application-specific pointer interpretation. .LP The primitive .I xdr_reference() .IX xdr_reference() "" \fIxdr_reference()\fP cannot and does not attach any special meaning to a null-value pointer during serialization. That is, passing an address of a pointer whose value is .I NULL to .I xdr_reference() when serialing data will most likely cause a memory fault and, on the UNIX system, a core dump. .LP .I xdr_pointer() correctly handles .I NULL pointers. For more information about its use, see the .I "Linked Lists" topics below. .LP .I Exercise: After reading the section on .I "Linked Lists" , return here and extend example E so that it can correctly deal with .I NULL pointer values. .LP .I Exercise: Using the .I xdr_union (), .I xdr_reference() and .I xdr_void() primitives, implement a generic pointer handling primitive that implicitly deals with .I NULL pointers. That is, implement .I xdr_pointer (). .NH 2 \&Non-filter Primitives .IX "XDR" "non-filter primitives" .LP XDR streams can be manipulated with the primitives discussed in this section. .DS .ft CW u_int xdr_getpos(xdrs) XDR *xdrs; .sp.5 bool_t xdr_setpos(xdrs, pos) XDR *xdrs; u_int pos; .sp.5 xdr_destroy(xdrs) XDR *xdrs; .DE The routine .I xdr_getpos() .IX xdr_getpos() "" \fIxdr_getpos()\fP returns an unsigned integer that describes the current position in the data stream. Warning: In some XDR streams, the returned value of .I xdr_getpos() is meaningless; the routine returns a \-1 in this case (though \-1 should be a legitimate value). .LP The routine .I xdr_setpos() .IX xdr_setpos() "" \fIxdr_setpos()\fP sets a stream position to .I pos . Warning: In some XDR streams, setting a position is impossible; in such cases, .I xdr_setpos() will return .I FALSE . This routine will also fail if the requested position is out-of-bounds. The definition of bounds varies from stream to stream. .LP The .I xdr_destroy() .IX xdr_destroy() "" \fIxdr_destroy()\fP primitive destroys the XDR stream. Usage of the stream after calling this routine is undefined. .NH 2 \&XDR Operation Directions .IX XDR "operation directions" .IX "direction of XDR operations" .LP At times you may wish to optimize XDR routines by taking advantage of the direction of the operation \(em .I XDR_ENCODE .I XDR_DECODE or .I XDR_FREE The value .I xdrs->x_op always contains the direction of the XDR operation. Programmers are not encouraged to take advantage of this information. Therefore, no example is presented here. However, an example in the .I "Linked Lists" topic below, demonstrates the usefulness of the .I xdrs->x_op field. .NH 2 \&XDR Stream Access .IX "XDR" "stream access" .LP An XDR stream is obtained by calling the appropriate creation routine. These creation routines take arguments that are tailored to the specific properties of the stream. .LP Streams currently exist for (de)serialization of data to or from standard I/O .I FILE streams, TCP/IP connections and UNIX files, and memory. .NH 3 \&Standard I/O Streams .IX "XDR" "standard I/O streams" .LP XDR streams can be interfaced to standard I/O using the .I xdrstdio_create() .IX xdrstdio_create() "" \fIxdrstdio_create()\fP routine as follows: .DS .ft CW #include #include /* \fIxdr streams part of rpc\fP */ .sp.5 void xdrstdio_create(xdrs, fp, x_op) XDR *xdrs; FILE *fp; enum xdr_op x_op; .DE The routine .I xdrstdio_create() initializes an XDR stream pointed to by .I xdrs . The XDR stream interfaces to the standard I/O library. Parameter .I fp is an open file, and .I x_op is an XDR direction. .NH 3 \&Memory Streams .IX "XDR" "memory streams" .LP Memory streams allow the streaming of data into or out of a specified area of memory: .DS .ft CW #include .sp.5 void xdrmem_create(xdrs, addr, len, x_op) XDR *xdrs; char *addr; u_int len; enum xdr_op x_op; .DE The routine .I xdrmem_create() .IX xdrmem_create() "" \fIxdrmem_create()\fP initializes an XDR stream in local memory. The memory is pointed to by parameter .I addr ; parameter .I len is the length in bytes of the memory. The parameters .I xdrs and .I x_op are identical to the corresponding parameters of .I xdrstdio_create (). Currently, the UDP/IP implementation of RPC uses .I xdrmem_create (). Complete call or result messages are built in memory before calling the .I sendto() system routine. .NH 3 \&Record (TCP/IP) Streams .IX "XDR" "record (TCP/IP) streams" .LP A record stream is an XDR stream built on top of a record marking standard that is built on top of the UNIX file or 4.2 BSD connection interface. .DS .ft CW #include /* \fIxdr streams part of rpc\fP */ .sp.5 xdrrec_create(xdrs, sendsize, recvsize, iohandle, readproc, writeproc) XDR *xdrs; u_int sendsize, recvsize; char *iohandle; int (*readproc)(), (*writeproc)(); .DE The routine .I xdrrec_create() provides an XDR stream interface that allows for a bidirectional, arbitrarily long sequence of records. The contents of the records are meant to be data in XDR form. The stream's primary use is for interfacing RPC to TCP connections. However, it can be used to stream data into or out of normal UNIX files. .LP The parameter .I xdrs is similar to the corresponding parameter described above. The stream does its own data buffering similar to that of standard I/O. The parameters .I sendsize and .I recvsize determine the size in bytes of the output and input buffers, respectively; if their values are zero (0), then predetermined defaults are used. When a buffer needs to be filled or flushed, the routine .I readproc() or .I writeproc() is called, respectively. The usage and behavior of these routines are similar to the UNIX system calls .I read() and .I write (). However, the first parameter to each of these routines is the opaque parameter .I iohandle . The other two parameters .I buf "" and .I nbytes ) and the results (byte count) are identical to the system routines. If .I xxx is .I readproc() or .I writeproc (), then it has the following form: .DS .ft CW .ft I /* * returns the actual number of bytes transferred. * -1 is an error */ .ft CW int xxx(iohandle, buf, len) char *iohandle; char *buf; int nbytes; .DE The XDR stream provides means for delimiting records in the byte stream. The implementation details of delimiting records in a stream are discussed in the .I "Advanced Topics" topic below. The primitives that are specific to record streams are as follows: .DS .ft CW bool_t xdrrec_endofrecord(xdrs, flushnow) XDR *xdrs; bool_t flushnow; .sp.5 bool_t xdrrec_skiprecord(xdrs) XDR *xdrs; .sp.5 bool_t xdrrec_eof(xdrs) XDR *xdrs; .DE The routine .I xdrrec_endofrecord() .IX xdrrec_endofrecord() "" \fIxdrrec_endofrecord()\fP causes the current outgoing data to be marked as a record. If the parameter .I flushnow is .I TRUE , then the stream's .I writeproc will be called; otherwise, .I writeproc will be called when the output buffer has been filled. .LP The routine .I xdrrec_skiprecord() .IX xdrrec_skiprecord() "" \fIxdrrec_skiprecord()\fP causes an input stream's position to be moved past the current record boundary and onto the beginning of the next record in the stream. .LP If there is no more data in the stream's input buffer, then the routine .I xdrrec_eof() .IX xdrrec_eof() "" \fIxdrrec_eof()\fP returns .I TRUE . That is not to say that there is no more data in the underlying file descriptor. .NH 2 \&XDR Stream Implementation .IX "XDR" "stream implementation" .IX "stream implementation in XDR" .LP This section provides the abstract data types needed to implement new instances of XDR streams. .NH 3 \&The XDR Object .IX "XDR" "object" .LP The following structure defines the interface to an XDR stream: .ie t .DS .el .DS L .ft CW enum xdr_op { XDR_ENCODE=0, XDR_DECODE=1, XDR_FREE=2 }; .sp.5 typedef struct { enum xdr_op x_op; /* \fIoperation; fast added param\fP */ struct xdr_ops { bool_t (*x_getlong)(); /* \fIget long from stream\fP */ bool_t (*x_putlong)(); /* \fIput long to stream\fP */ bool_t (*x_getbytes)(); /* \fIget bytes from stream\fP */ bool_t (*x_putbytes)(); /* \fIput bytes to stream\fP */ u_int (*x_getpostn)(); /* \fIreturn stream offset\fP */ bool_t (*x_setpostn)(); /* \fIreposition offset\fP */ caddr_t (*x_inline)(); /* \fIptr to buffered data\fP */ VOID (*x_destroy)(); /* \fIfree private area\fP */ } *x_ops; caddr_t x_public; /* \fIusers' data\fP */ caddr_t x_private; /* \fIpointer to private data\fP */ caddr_t x_base; /* \fIprivate for position info\fP */ int x_handy; /* \fIextra private word\fP */ } XDR; .DE The .I x_op field is the current operation being performed on the stream. This field is important to the XDR primitives, but should not affect a stream's implementation. That is, a stream's implementation should not depend on this value. The fields .I x_private , .I x_base , and .I x_handy are private to the particular stream's implementation. The field .I x_public is for the XDR client and should never be used by the XDR stream implementations or the XDR primitives. .I x_getpostn() , .I x_setpostn() and .I x_destroy() are macros for accessing operations. The operation .I x_inline() takes two parameters: an XDR *, and an unsigned integer, which is a byte count. The routine returns a pointer to a piece of the stream's internal buffer. The caller can then use the buffer segment for any purpose. From the stream's point of view, the bytes in the buffer segment have been consumed or put. The routine may return .I NULL if it cannot return a buffer segment of the requested size. (The .I x_inline() routine is for cycle squeezers. Use of the resulting buffer is not data-portable. Users are encouraged not to use this feature.) .LP The operations .I x_getbytes() and .I x_putbytes() blindly get and put sequences of bytes from or to the underlying stream; they return .I TRUE if they are successful, and .I FALSE otherwise. The routines have identical parameters (replace .I xxx ): .DS .ft CW bool_t xxxbytes(xdrs, buf, bytecount) XDR *xdrs; char *buf; u_int bytecount; .DE The operations .I x_getlong() and .I x_putlong() receive and put long numbers from and to the data stream. It is the responsibility of these routines to translate the numbers between the machine representation and the (standard) external representation. The UNIX primitives .I htonl() and .I ntohl() can be helpful in accomplishing this. The higher-level XDR implementation assumes that signed and unsigned long integers contain the same number of bits, and that nonnegative integers have the same bit representations as unsigned integers. The routines return .I TRUE if they succeed, and .I FALSE otherwise. They have identical parameters: .DS .ft CW bool_t xxxlong(xdrs, lp) XDR *xdrs; long *lp; .DE Implementors of new XDR streams must make an XDR structure (with new operation routines) available to clients, using some kind of create routine. .NH 1 \&Advanced Topics .IX XDR "advanced topics" .LP This section describes techniques for passing data structures that are not covered in the preceding sections. Such structures include linked lists (of arbitrary lengths). Unlike the simpler examples covered in the earlier sections, the following examples are written using both the XDR C library routines and the XDR data description language. The .I "External Data Representation Standard: Protocol Specification" describes this language in complete detail. .NH 2 \&Linked Lists .IX XDR "linked lists" .LP The last example in the .I Pointers topic earlier in this chapter presented a C data structure and its associated XDR routines for a individual's gross assets and liabilities. The example is duplicated below: .ie t .DS .el .DS L .ft CW struct gnumbers { long g_assets; long g_liabilities; }; .sp.5 bool_t xdr_gnumbers(xdrs, gp) XDR *xdrs; struct gnumbers *gp; { if (xdr_long(xdrs, &(gp->g_assets))) return(xdr_long(xdrs, &(gp->g_liabilities))); return(FALSE); } .DE .LP Now assume that we wish to implement a linked list of such information. A data structure could be constructed as follows: .ie t .DS .el .DS L .ft CW struct gnumbers_node { struct gnumbers gn_numbers; struct gnumbers_node *gn_next; }; .sp .5 typedef struct gnumbers_node *gnumbers_list; .DE .LP The head of the linked list can be thought of as the data object; that is, the head is not merely a convenient shorthand for a structure. Similarly the .I gn_next field is used to indicate whether or not the object has terminated. Unfortunately, if the object continues, the .I gn_next field is also the address of where it continues. The link addresses carry no useful information when the object is serialized. .LP The XDR data description of this linked list is described by the recursive declaration of .I gnumbers_list : .ie t .DS .el .DS L .ft CW struct gnumbers { int g_assets; int g_liabilities; }; .sp .5 struct gnumbers_node { gnumbers gn_numbers; gnumbers_node *gn_next; }; .DE .LP In this description, the boolean indicates whether there is more data following it. If the boolean is .I FALSE , then it is the last data field of the structure. If it is .I TRUE , then it is followed by a gnumbers structure and (recursively) by a .I gnumbers_list . Note that the C declaration has no boolean explicitly declared in it (though the .I gn_next field implicitly carries the information), while the XDR data description has no pointer explicitly declared in it. .LP Hints for writing the XDR routines for a .I gnumbers_list follow easily from the XDR description above. Note how the primitive .I xdr_pointer() is used to implement the XDR union above. .ie t .DS .el .DS L .ft CW bool_t xdr_gnumbers_node(xdrs, gn) XDR *xdrs; gnumbers_node *gn; { return(xdr_gnumbers(xdrs, &gn->gn_numbers) && xdr_gnumbers_list(xdrs, &gp->gn_next)); } .sp .5 bool_t xdr_gnumbers_list(xdrs, gnp) XDR *xdrs; gnumbers_list *gnp; { return(xdr_pointer(xdrs, gnp, sizeof(struct gnumbers_node), xdr_gnumbers_node)); } .DE .LP The unfortunate side effect of XDR'ing a list with these routines is that the C stack grows linearly with respect to the number of node in the list. This is due to the recursion. The following routine collapses the above two mutually recursive into a single, non-recursive one. .ie t .DS .el .DS L .ft CW bool_t xdr_gnumbers_list(xdrs, gnp) XDR *xdrs; gnumbers_list *gnp; { bool_t more_data; gnumbers_list *nextp; .sp .5 for (;;) { more_data = (*gnp != NULL); if (!xdr_bool(xdrs, &more_data)) { return(FALSE); } if (! more_data) { break; } if (xdrs->x_op == XDR_FREE) { nextp = &(*gnp)->gn_next; } if (!xdr_reference(xdrs, gnp, sizeof(struct gnumbers_node), xdr_gnumbers)) { return(FALSE); } gnp = (xdrs->x_op == XDR_FREE) ? nextp : &(*gnp)->gn_next; } *gnp = NULL; return(TRUE); } .DE .LP The first task is to find out whether there is more data or not, so that this boolean information can be serialized. Notice that this statement is unnecessary in the .I XDR_DECODE case, since the value of more_data is not known until we deserialize it in the next statement. .LP The next statement XDR's the more_data field of the XDR union. Then if there is truly no more data, we set this last pointer to .I NULL to indicate the end of the list, and return .I TRUE because we are done. Note that setting the pointer to .I NULL is only important in the .I XDR_DECODE case, since it is already .I NULL in the .I XDR_ENCODE and XDR_FREE cases. .LP Next, if the direction is .I XDR_FREE , the value of .I nextp is set to indicate the location of the next pointer in the list. We do this now because we need to dereference gnp to find the location of the next item in the list, and after the next statement the storage pointed to by .I gnp will be freed up and no be longer valid. We can't do this for all directions though, because in the .I XDR_DECODE direction the value of .I gnp won't be set until the next statement. .LP Next, we XDR the data in the node using the primitive .I xdr_reference (). .I xdr_reference() is like .I xdr_pointer() which we used before, but it does not send over the boolean indicating whether there is more data. We use it instead of .I xdr_pointer() because we have already XDR'd this information ourselves. Notice that the xdr routine passed is not the same type as an element in the list. The routine passed is .I xdr_gnumbers (), for XDR'ing gnumbers, but each element in the list is actually of type .I gnumbers_node . We don't pass .I xdr_gnumbers_node() because it is recursive, and instead use .I xdr_gnumbers() which XDR's all of the non-recursive part. Note that this trick will work only if the .I gn_numbers field is the first item in each element, so that their addresses are identical when passed to .I xdr_reference (). .LP Finally, we update .I gnp to point to the next item in the list. If the direction is .I XDR_FREE , we set it to the previously saved value, otherwise we can dereference .I gnp to get the proper value. Though harder to understand than the recursive version, this non-recursive routine is far less likely to blow the C stack. It will also run more efficiently since a lot of procedure call overhead has been removed. Most lists are small though (in the hundreds of items or less) and the recursive version should be sufficient for them. .EQ delim off .EN y that there is no more data in the underlying file descriptor. .NH 2 \&XDR Stream Implementation .IX "XDR" "stream implementation" .IX "stream implementation in XDR" .LP This section provides the abstract data types needed to implement new instances of XDR streams. .NH 3 \&The XDR Object .IX "XDR" "object" .LP The following structure defines the interface to an XDR rpc/doc/Makefile010060000000000000000000000034360443763512300140540ustar00rootroot00000000000001# # @(#)Makefile 2.1 88/08/04 4.0 RPCSRC # # # The targets all.nroff and all.troff will make monolithic documents # with nroff and troff, respectively. The other *.nroff and *.troff # targets will make individual documents # TROFF= ditroff TOPTS= -t NROFF= nroff NOPTS= PIC= pic TBL= tbl EQN= eqn SRC= rpc.prog.ms rpcgen.ms xdr.nts.ms xdr.rfc.ms rpc.rfc.ms nfs.rfc.ms all default: all.nroff install: all.nroff @echo "Nothing installed." all.nroff: ${SRC} ${TBL} ${SRC} | ${EQN} | ${NROFF} ${NOPTS} -ms >all.nroff all.troff: ${SRC} ${TBL} ${SRC} | ${PIC} | ${EQN} | ${TROFF} ${TOPTS} -ms >all.troff # rpc.prog.nroff: rpc.prog.ms ${TBL} rpc.prog.ms | ${NROFF} ${NOPTS} -ms >rpc.prog.nroff rpc.prog.troff: rpc.prog.ms ${TBL} rpc.prog.ms | ${PIC} | ${TROFF} ${TOPTS} -ms >rpc.prog.troff # rpcgen.troff: rpcgen.ms ${TBL} rpcgen.ms | ${TROFF} ${TOPTS} -ms >rpcgen.troff rpcgen.nroff: rpcgen.ms ${TBL} rpcgen.ms | ${NROFF} ${NOPTS} -ms >rpcgen.nroff # xdr.nts.troff: xdr.nts.ms ${TBL} xdr.nts.ms | ${EQN} | ${TROFF} ${TOPTS} -ms >xdr.nts.troff xdr.nts.nroff: xdr.nts.ms ${TBL} xdr.nts.ms | ${EQN} | ${NROFF} ${NOPTS} -ms >xdr.nts.nroff # xdr.rfc.troff: xdr.rfc.ms ${TBL} xdr.rfc.ms | ${TROFF} ${TOPTS} -ms >xdr.rfc.troff xdr.rfc.nroff: xdr.rfc.ms ${TBL} xdr.rfc.ms | ${NROFF} ${NOPTS} -ms >xdr.rfc.nroff # rpc.rfc.troff: rpc.rfc.ms ${TBL} rpc.rfc.ms | ${TROFF} ${TOPTS} -ms >rpc.rfc.troff rpc.rfc.nroff: rpc.rfc.ms ${TBL} rpc.rfc.ms | ${NROFF} ${NOPTS} -ms >rpc.rfc.nroff # nfs.rfc.troff: nfs.rfc.ms ${TBL} nfs.rfc.ms | ${TROFF} ${TOPTS} -ms >nfs.rfc.troff nfs.rfc.nroff: nfs.rfc.ms ${TBL} nfs.rfc.ms | ${NROFF} ${NOPTS} -ms >nfs.rfc.nroff clean: rm -f *.nroff *.troff spell: ${SRC} @for i in ${SRC}; do \ echo $$i; spell $$i | sort | comm -23 - spell.ok > $$i.spell; \ done rpc/doc/xdr.rfc.ms010060000000000000000000001006640443763512300143240ustar00rootroot00000000000001.\" .\" Must use -- tbl -- with this one .\" .\" @(#)xdr.rfc.ms 2.2 88/08/05 4.0 RPCSRC .de BT .if \\n%=1 .tl ''- % -'' .. .ND .\" prevent excess underlining in nroff .if n .fp 2 R .OH 'External Data Representation Standard''Page %' .EH 'Page %''External Data Representation Standard' .IX "External Data Representation" .if \\n%=1 .bp .SH \&External Data Representation Standard: Protocol Specification .IX XDR RFC .IX XDR "protocol specification" .LP .NH 0 \&Status of this Standard .nr OF 1 .IX XDR "RFC status" .LP Note: This chapter specifies a protocol that Sun Microsystems, Inc., and others are using. It has been designated RFC1014 by the ARPA Network Information Center. .NH 1 Introduction \& .LP XDR is a standard for the description and encoding of data. It is useful for transferring data between different computer architectures, and has been used to communicate data between such diverse machines as the Sun Workstation, VAX, IBM-PC, and Cray. XDR fits into the ISO presentation layer, and is roughly analogous in purpose to X.409, ISO Abstract Syntax Notation. The major difference between these two is that XDR uses implicit typing, while X.409 uses explicit typing. .LP XDR uses a language to describe data formats. The language can only be used only to describe data; it is not a programming language. This language allows one to describe intricate data formats in a concise manner. The alternative of using graphical representations (itself an informal language) quickly becomes incomprehensible when faced with complexity. The XDR language itself is similar to the C language [1], just as Courier [4] is similar to Mesa. Protocols such as Sun RPC (Remote Procedure Call) and the NFS (Network File System) use XDR to describe the format of their data. .LP The XDR standard makes the following assumption: that bytes (or octets) are portable, where a byte is defined to be 8 bits of data. A given hardware device should encode the bytes onto the various media in such a way that other hardware devices may decode the bytes without loss of meaning. For example, the Ethernet standard suggests that bytes be encoded in "little-endian" style [2], or least significant bit first. .NH 2 \&Basic Block Size .IX XDR "basic block size" .IX XDR "block size" .LP The representation of all items requires a multiple of four bytes (or 32 bits) of data. The bytes are numbered 0 through n-1. The bytes are read or written to some byte stream such that byte m always precedes byte m+1. If the n bytes needed to contain the data are not a multiple of four, then the n bytes are followed by enough (0 to 3) residual zero bytes, r, to make the total byte count a multiple of 4. .LP We include the familiar graphic box notation for illustration and comparison. In most illustrations, each box (delimited by a plus sign at the 4 corners and vertical bars and dashes) depicts a byte. Ellipses (...) between boxes show zero or more additional bytes where required. .ie t .DS .el .DS L \fIA Block\fP \f(CW+--------+--------+...+--------+--------+...+--------+ | byte 0 | byte 1 |...|byte n-1| 0 |...| 0 | +--------+--------+...+--------+--------+...+--------+ |<-----------n bytes---------->|<------r bytes------>| |<-----------n+r (where (n+r) mod 4 = 0)>----------->|\fP .DE .NH 1 \&XDR Data Types .IX XDR "data types" .IX "XDR data types" .LP Each of the sections that follow describes a data type defined in the XDR standard, shows how it is declared in the language, and includes a graphic illustration of its encoding. .LP For each data type in the language we show a general paradigm declaration. Note that angle brackets (< and >) denote variable length sequences of data and square brackets ([ and ]) denote fixed-length sequences of data. "n", "m" and "r" denote integers. For the full language specification and more formal definitions of terms such as "identifier" and "declaration", refer to .I "The XDR Language Specification" , below. .LP For some data types, more specific examples are included. A more extensive example of a data description is in .I "An Example of an XDR Data Description" below. .NH 2 \&Integer .IX XDR integer .LP An XDR signed integer is a 32-bit datum that encodes an integer in the range [-2147483648,2147483647]. The integer is represented in two's complement notation. The most and least significant bytes are 0 and 3, respectively. Integers are declared as follows: .ie t .DS .el .DS L \fIInteger\fP \f(CW(MSB) (LSB) +-------+-------+-------+-------+ |byte 0 |byte 1 |byte 2 |byte 3 | +-------+-------+-------+-------+ <------------32 bits------------>\fP .DE .NH 2 \&Unsigned Integer .IX XDR "unsigned integer" .IX XDR "integer, unsigned" .LP An XDR unsigned integer is a 32-bit datum that encodes a nonnegative integer in the range [0,4294967295]. It is represented by an unsigned binary number whose most and least significant bytes are 0 and 3, respectively. An unsigned integer is declared as follows: .ie t .DS .el .DS L \fIUnsigned Integer\fP \f(CW(MSB) (LSB) +-------+-------+-------+-------+ |byte 0 |byte 1 |byte 2 |byte 3 | +-------+-------+-------+-------+ <------------32 bits------------>\fP .DE .NH 2 \&Enumeration .IX XDR enumeration .LP Enumerations have the same representation as signed integers. Enumerations are handy for describing subsets of the integers. Enumerated data is declared as follows: .ft CW .DS enum { name-identifier = constant, ... } identifier; .DE For example, the three colors red, yellow, and blue could be described by an enumerated type: .DS .ft CW enum { RED = 2, YELLOW = 3, BLUE = 5 } colors; .DE It is an error to encode as an enum any other integer than those that have been given assignments in the enum declaration. .NH 2 \&Boolean .IX XDR boolean .LP Booleans are important enough and occur frequently enough to warrant their own explicit type in the standard. Booleans are declared as follows: .DS .ft CW bool identifier; .DE This is equivalent to: .DS .ft CW enum { FALSE = 0, TRUE = 1 } identifier; .DE .NH 2 \&Hyper Integer and Unsigned Hyper Integer .IX XDR "hyper integer" .IX XDR "integer, hyper" .LP The standard also defines 64-bit (8-byte) numbers called hyper integer and unsigned hyper integer. Their representations are the obvious extensions of integer and unsigned integer defined above. They are represented in two's complement notation. The most and least significant bytes are 0 and 7, respectively. Their declarations: .ie t .DS .el .DS L \fIHyper Integer\fP \fIUnsigned Hyper Integer\fP \f(CW(MSB) (LSB) +-------+-------+-------+-------+-------+-------+-------+-------+ |byte 0 |byte 1 |byte 2 |byte 3 |byte 4 |byte 5 |byte 6 |byte 7 | +-------+-------+-------+-------+-------+-------+-------+-------+ <----------------------------64 bits---------------------------->\fP .DE .NH 2 \&Floating-point .IX XDR "integer, floating point" .IX XDR "floating-point integer" .LP The standard defines the floating-point data type "float" (32 bits or 4 bytes). The encoding used is the IEEE standard for normalized single-precision floating-point numbers [3]. The following three fields describe the single-precision floating-point number: .RS .IP \fBS\fP: The sign of the number. Values 0 and 1 represent positive and negative, respectively. One bit. .IP \fBE\fP: The exponent of the number, base 2. 8 bits are devoted to this field. The exponent is biased by 127. .IP \fBF\fP: The fractional part of the number's mantissa, base 2. 23 bits are devoted to this field. .RE .LP Therefore, the floating-point number is described by: .DS (-1)**S * 2**(E-Bias) * 1.F .DE It is declared as follows: .ie t .DS .el .DS L \fISingle-Precision Floating-Point\fP \f(CW+-------+-------+-------+-------+ |byte 0 |byte 1 |byte 2 |byte 3 | S| E | F | +-------+-------+-------+-------+ 1|<- 8 ->|<-------23 bits------>| <------------32 bits------------>\fP .DE Just as the most and least significant bytes of a number are 0 and 3, the most and least significant bits of a single-precision floating- point number are 0 and 31. The beginning bit (and most significant bit) offsets of S, E, and F are 0, 1, and 9, respectively. Note that these numbers refer to the mathematical positions of the bits, and NOT to their actual physical locations (which vary from medium to medium). .LP The IEEE specifications should be consulted concerning the encoding for signed zero, signed infinity (overflow), and denormalized numbers (underflow) [3]. According to IEEE specifications, the "NaN" (not a number) is system dependent and should not be used externally. .NH 2 \&Double-precision Floating-point .IX XDR "integer, double-precision floating point" .IX XDR "double-precision floating-point integer" .LP The standard defines the encoding for the double-precision floating- point data type "double" (64 bits or 8 bytes). The encoding used is the IEEE standard for normalized double-precision floating-point numbers [3]. The standard encodes the following three fields, which describe the double-precision floating-point number: .RS .IP \fBS\fP: The sign of the number. Values 0 and 1 represent positive and negative, respectively. One bit. .IP \fBE\fP: The exponent of the number, base 2. 11 bits are devoted to this field. The exponent is biased by 1023. .IP \fBF\fP: The fractional part of the number's mantissa, base 2. 52 bits are devoted to this field. .RE .LP Therefore, the floating-point number is described by: .DS (-1)**S * 2**(E-Bias) * 1.F .DE It is declared as follows: .ie t .DS .el .DS L \fIDouble-Precision Floating-Point\fP \f(CW+------+------+------+------+------+------+------+------+ |byte 0|byte 1|byte 2|byte 3|byte 4|byte 5|byte 6|byte 7| S| E | F | +------+------+------+------+------+------+------+------+ 1|<--11-->|<-----------------52 bits------------------->| <-----------------------64 bits------------------------->\fP .DE Just as the most and least significant bytes of a number are 0 and 3, the most and least significant bits of a double-precision floating- point number are 0 and 63. The beginning bit (and most significant bit) offsets of S, E , and F are 0, 1, and 12, respectively. Note that these numbers refer to the mathematical positions of the bits, and NOT to their actual physical locations (which vary from medium to medium). .LP The IEEE specifications should be consulted concerning the encoding for signed zero, signed infinity (overflow), and denormalized numbers (underflow) [3]. According to IEEE specifications, the "NaN" (not a number) is system dependent and should not be used externally. .NH 2 \&Fixed-length Opaque Data .IX XDR "fixed-length opaque data" .IX XDR "opaque data, fixed length" .LP At times, fixed-length uninterpreted data needs to be passed among machines. This data is called "opaque" and is declared as follows: .DS .ft CW opaque identifier[n]; .DE where the constant n is the (static) number of bytes necessary to contain the opaque data. If n is not a multiple of four, then the n bytes are followed by enough (0 to 3) residual zero bytes, r, to make the total byte count of the opaque object a multiple of four. .ie t .DS .el .DS L \fIFixed-Length Opaque\fP \f(CW0 1 ... +--------+--------+...+--------+--------+...+--------+ | byte 0 | byte 1 |...|byte n-1| 0 |...| 0 | +--------+--------+...+--------+--------+...+--------+ |<-----------n bytes---------->|<------r bytes------>| |<-----------n+r (where (n+r) mod 4 = 0)------------>|\fP .DE .NH 2 \&Variable-length Opaque Data .IX XDR "variable-length opaque data" .IX XDR "opaque data, variable length" .LP The standard also provides for variable-length (counted) opaque data, defined as a sequence of n (numbered 0 through n-1) arbitrary bytes to be the number n encoded as an unsigned integer (as described below), and followed by the n bytes of the sequence. .LP Byte m of the sequence always precedes byte m+1 of the sequence, and byte 0 of the sequence always follows the sequence's length (count). enough (0 to 3) residual zero bytes, r, to make the total byte count a multiple of four. Variable-length opaque data is declared in the following way: .DS .ft CW opaque identifier; .DE or .DS .ft CW opaque identifier<>; .DE The constant m denotes an upper bound of the number of bytes that the sequence may contain. If m is not specified, as in the second declaration, it is assumed to be (2**32) - 1, the maximum length. The constant m would normally be found in a protocol specification. For example, a filing protocol may state that the maximum data transfer size is 8192 bytes, as follows: .DS .ft CW opaque filedata<8192>; .DE This can be illustrated as follows: .ie t .DS .el .DS L \fIVariable-Length Opaque\fP \f(CW0 1 2 3 4 5 ... +-----+-----+-----+-----+-----+-----+...+-----+-----+...+-----+ | length n |byte0|byte1|...| n-1 | 0 |...| 0 | +-----+-----+-----+-----+-----+-----+...+-----+-----+...+-----+ |<-------4 bytes------->|<------n bytes------>|<---r bytes--->| |<----n+r (where (n+r) mod 4 = 0)---->|\fP .DE .LP It is an error to encode a length greater than the maximum described in the specification. .NH 2 \&String .IX XDR string .LP The standard defines a string of n (numbered 0 through n-1) ASCII bytes to be the number n encoded as an unsigned integer (as described above), and followed by the n bytes of the string. Byte m of the string always precedes byte m+1 of the string, and byte 0 of the string always follows the string's length. If n is not a multiple of four, then the n bytes are followed by enough (0 to 3) residual zero bytes, r, to make the total byte count a multiple of four. Counted byte strings are declared as follows: .DS .ft CW string object; .DE or .DS .ft CW string object<>; .DE The constant m denotes an upper bound of the number of bytes that a string may contain. If m is not specified, as in the second declaration, it is assumed to be (2**32) - 1, the maximum length. The constant m would normally be found in a protocol specification. For example, a filing protocol may state that a file name can be no longer than 255 bytes, as follows: .DS .ft CW string filename<255>; .DE Which can be illustrated as: .ie t .DS .el .DS L \fIA String\fP \f(CW0 1 2 3 4 5 ... +-----+-----+-----+-----+-----+-----+...+-----+-----+...+-----+ | length n |byte0|byte1|...| n-1 | 0 |...| 0 | +-----+-----+-----+-----+-----+-----+...+-----+-----+...+-----+ |<-------4 bytes------->|<------n bytes------>|<---r bytes--->| |<----n+r (where (n+r) mod 4 = 0)---->|\fP .DE .LP It is an error to encode a length greater than the maximum described in the specification. .NH 2 \&Fixed-length Array .IX XDR "fixed-length array" .IX XDR "array, fixed length" .LP Declarations for fixed-length arrays of homogeneous elements are in the following form: .DS .ft CW type-name identifier[n]; .DE Fixed-length arrays of elements numbered 0 through n-1 are encoded by individually encoding the elements of the array in their natural order, 0 through n-1. Each element's size is a multiple of four bytes. Though all elements are of the same type, the elements may have different sizes. For example, in a fixed-length array of strings, all elements are of type "string", yet each element will vary in its length. .ie t .DS .el .DS L \fIFixed-Length Array\fP \f(CW+---+---+---+---+---+---+---+---+...+---+---+---+---+ | element 0 | element 1 |...| element n-1 | +---+---+---+---+---+---+---+---+...+---+---+---+---+ |<--------------------n elements------------------->|\fP .DE .NH 2 \&Variable-length Array .IX XDR "variable-length array" .IX XDR "array, variable length" .LP Counted arrays provide the ability to encode variable-length arrays of homogeneous elements. The array is encoded as the element count n (an unsigned integer) followed by the encoding of each of the array's elements, starting with element 0 and progressing through element n- 1. The declaration for variable-length arrays follows this form: .DS .ft CW type-name identifier; .DE or .DS .ft CW type-name identifier<>; .DE The constant m specifies the maximum acceptable element count of an array; if m is not specified, as in the second declaration, it is assumed to be (2**32) - 1. .ie t .DS .el .DS L \fICounted Array\fP \f(CW0 1 2 3 +--+--+--+--+--+--+--+--+--+--+--+--+...+--+--+--+--+ | n | element 0 | element 1 |...|element n-1| +--+--+--+--+--+--+--+--+--+--+--+--+...+--+--+--+--+ |<-4 bytes->|<--------------n elements------------->|\fP .DE It is an error to encode a value of n that is greater than the maximum described in the specification. .NH 2 \&Structure .IX XDR structure .LP Structures are declared as follows: .DS .ft CW struct { component-declaration-A; component-declaration-B; \&... } identifier; .DE The components of the structure are encoded in the order of their declaration in the structure. Each component's size is a multiple of four bytes, though the components may be different sizes. .ie t .DS .el .DS L \fIStructure\fP \f(CW+-------------+-------------+... | component A | component B |... +-------------+-------------+...\fP .DE .NH 2 \&Discriminated Union .IX XDR "discriminated union" .IX XDR union discriminated .LP A discriminated union is a type composed of a discriminant followed by a type selected from a set of prearranged types according to the value of the discriminant. The type of discriminant is either "int", "unsigned int", or an enumerated type, such as "bool". The component types are called "arms" of the union, and are preceded by the value of the discriminant which implies their encoding. Discriminated unions are declared as follows: .DS .ft CW union switch (discriminant-declaration) { case discriminant-value-A: arm-declaration-A; case discriminant-value-B: arm-declaration-B; \&... default: default-declaration; } identifier; .DE Each "case" keyword is followed by a legal value of the discriminant. The default arm is optional. If it is not specified, then a valid encoding of the union cannot take on unspecified discriminant values. The size of the implied arm is always a multiple of four bytes. .LP The discriminated union is encoded as its discriminant followed by the encoding of the implied arm. .ie t .DS .el .DS L \fIDiscriminated Union\fP \f(CW0 1 2 3 +---+---+---+---+---+---+---+---+ | discriminant | implied arm | +---+---+---+---+---+---+---+---+ |<---4 bytes--->|\fP .DE .NH 2 \&Void .IX XDR void .LP An XDR void is a 0-byte quantity. Voids are useful for describing operations that take no data as input or no data as output. They are also useful in unions, where some arms may contain data and others do not. The declaration is simply as follows: .DS .ft CW void; .DE Voids are illustrated as follows: .ie t .DS .el .DS L \fIVoid\fP \f(CW ++ || ++ --><-- 0 bytes\fP .DE .NH 2 \&Constant .IX XDR constant .LP The data declaration for a constant follows this form: .DS .ft CW const name-identifier = n; .DE "const" is used to define a symbolic name for a constant; it does not declare any data. The symbolic constant may be used anywhere a regular constant may be used. For example, the following defines a symbolic constant DOZEN, equal to 12. .DS .ft CW const DOZEN = 12; .DE .NH 2 \&Typedef .IX XDR typedef .LP "typedef" does not declare any data either, but serves to define new identifiers for declaring data. The syntax is: .DS .ft CW typedef declaration; .DE The new type name is actually the variable name in the declaration part of the typedef. For example, the following defines a new type called "eggbox" using an existing type called "egg": .DS .ft CW typedef egg eggbox[DOZEN]; .DE Variables declared using the new type name have the same type as the new type name would have in the typedef, if it was considered a variable. For example, the following two declarations are equivalent in declaring the variable "fresheggs": .DS .ft CW eggbox fresheggs; egg fresheggs[DOZEN]; .DE When a typedef involves a struct, enum, or union definition, there is another (preferred) syntax that may be used to define the same type. In general, a typedef of the following form: .DS .ft CW typedef <> identifier; .DE may be converted to the alternative form by removing the "typedef" part and placing the identifier after the "struct", "union", or "enum" keyword, instead of at the end. For example, here are the two ways to define the type "bool": .DS .ft CW typedef enum { /* \fIusing typedef\fP */ FALSE = 0, TRUE = 1 } bool; enum bool { /* \fIpreferred alternative\fP */ FALSE = 0, TRUE = 1 }; .DE The reason this syntax is preferred is one does not have to wait until the end of a declaration to figure out the name of the new type. .NH 2 \&Optional-data .IX XDR "optional data" .IX XDR "data, optional" .LP Optional-data is one kind of union that occurs so frequently that we give it a special syntax of its own for declaring it. It is declared as follows: .DS .ft CW type-name *identifier; .DE This is equivalent to the following union: .DS .ft CW union switch (bool opted) { case TRUE: type-name element; case FALSE: void; } identifier; .DE It is also equivalent to the following variable-length array declaration, since the boolean "opted" can be interpreted as the length of the array: .DS .ft CW type-name identifier<1>; .DE Optional-data is not so interesting in itself, but it is very useful for describing recursive data-structures such as linked-lists and trees. For example, the following defines a type "stringlist" that encodes lists of arbitrary length strings: .DS .ft CW struct *stringlist { string item<>; stringlist next; }; .DE It could have been equivalently declared as the following union: .DS .ft CW union stringlist switch (bool opted) { case TRUE: struct { string item<>; stringlist next; } element; case FALSE: void; }; .DE or as a variable-length array: .DS .ft CW struct stringlist<1> { string item<>; stringlist next; }; .DE Both of these declarations obscure the intention of the stringlist type, so the optional-data declaration is preferred over both of them. The optional-data type also has a close correlation to how recursive data structures are represented in high-level languages such as Pascal or C by use of pointers. In fact, the syntax is the same as that of the C language for pointers. .NH 2 \&Areas for Future Enhancement .IX XDR futures .LP The XDR standard lacks representations for bit fields and bitmaps, since the standard is based on bytes. Also missing are packed (or binary-coded) decimals. .LP The intent of the XDR standard was not to describe every kind of data that people have ever sent or will ever want to send from machine to machine. Rather, it only describes the most commonly used data-types of high-level languages such as Pascal or C so that applications written in these languages will be able to communicate easily over some medium. .LP One could imagine extensions to XDR that would let it describe almost any existing protocol, such as TCP. The minimum necessary for this are support for different block sizes and byte-orders. The XDR discussed here could then be considered the 4-byte big-endian member of a larger XDR family. .NH 1 \&Discussion .sp 2 .NH 2 \&Why a Language for Describing Data? .IX XDR language .LP There are many advantages in using a data-description language such as XDR versus using diagrams. Languages are more formal than diagrams and lead to less ambiguous descriptions of data. Languages are also easier to understand and allow one to think of other issues instead of the low-level details of bit-encoding. Also, there is a close analogy between the types of XDR and a high-level language such as C or Pascal. This makes the implementation of XDR encoding and decoding modules an easier task. Finally, the language specification itself is an ASCII string that can be passed from machine to machine to perform on-the-fly data interpretation. .NH 2 \&Why Only one Byte-Order for an XDR Unit? .IX XDR "byte order" .LP Supporting two byte-orderings requires a higher level protocol for determining in which byte-order the data is encoded. Since XDR is not a protocol, this can't be done. The advantage of this, though, is that data in XDR format can be written to a magnetic tape, for example, and any machine will be able to interpret it, since no higher level protocol is necessary for determining the byte-order. .NH 2 \&Why does XDR use Big-Endian Byte-Order? .LP Yes, it is unfair, but having only one byte-order means you have to be unfair to somebody. Many architectures, such as the Motorola 68000 and IBM 370, support the big-endian byte-order. .NH 2 \&Why is the XDR Unit Four Bytes Wide? .LP There is a tradeoff in choosing the XDR unit size. Choosing a small size such as two makes the encoded data small, but causes alignment problems for machines that aren't aligned on these boundaries. A large size such as eight means the data will be aligned on virtually every machine, but causes the encoded data to grow too big. We chose four as a compromise. Four is big enough to support most architectures efficiently, except for rare machines such as the eight-byte aligned Cray. Four is also small enough to keep the encoded data restricted to a reasonable size. .NH 2 \&Why must Variable-Length Data be Padded with Zeros? .IX XDR "variable-length data" .LP It is desirable that the same data encode into the same thing on all machines, so that encoded data can be meaningfully compared or checksummed. Forcing the padded bytes to be zero ensures this. .NH 2 \&Why is there No Explicit Data-Typing? .LP Data-typing has a relatively high cost for what small advantages it may have. One cost is the expansion of data due to the inserted type fields. Another is the added cost of interpreting these type fields and acting accordingly. And most protocols already know what type they expect, so data-typing supplies only redundant information. However, one can still get the benefits of data-typing using XDR. One way is to encode two things: first a string which is the XDR data description of the encoded data, and then the encoded data itself. Another way is to assign a value to all the types in XDR, and then define a universal type which takes this value as its discriminant and for each value, describes the corresponding data type. .NH 1 \&The XDR Language Specification .IX XDR language .sp 1 .NH 2 \&Notational Conventions .IX "XDR language" notation .LP This specification uses an extended Backus-Naur Form notation for describing the XDR language. Here is a brief description of the notation: .IP 1. The characters .I | , .I ( , .I ) , .I [ , .I ] , .I " , and .I * are special. .IP 2. Terminal symbols are strings of any characters surrounded by double quotes. .IP 3. Non-terminal symbols are strings of non-special characters. .IP 4. Alternative items are separated by a vertical bar ("\fI|\fP"). .IP 5. Optional items are enclosed in brackets. .IP 6. Items are grouped together by enclosing them in parentheses. .IP 7. A .I * following an item means 0 or more occurrences of that item. .LP For example, consider the following pattern: .DS L "a " "very" (", " " very")* [" cold " "and"] " rainy " ("day" | "night") .DE .LP An infinite number of strings match this pattern. A few of them are: .DS "a very rainy day" "a very, very rainy day" "a very cold and rainy day" "a very, very, very cold and rainy night" .DE .NH 2 \&Lexical Notes .IP 1. Comments begin with '/*' and terminate with '*/'. .IP 2. White space serves to separate items and is otherwise ignored. .IP 3. An identifier is a letter followed by an optional sequence of letters, digits or underbar ('_'). The case of identifiers is not ignored. .IP 4. A constant is a sequence of one or more decimal digits, optionally preceded by a minus-sign ('-'). .NH 2 \&Syntax Information .IX "XDR language" syntax .DS .ft CW declaration: type-specifier identifier | type-specifier identifier "[" value "]" | type-specifier identifier "<" [ value ] ">" | "opaque" identifier "[" value "]" | "opaque" identifier "<" [ value ] ">" | "string" identifier "<" [ value ] ">" | type-specifier "*" identifier | "void" .DE .DS .ft CW value: constant | identifier type-specifier: [ "unsigned" ] "int" | [ "unsigned" ] "hyper" | "float" | "double" | "bool" | enum-type-spec | struct-type-spec | union-type-spec | identifier .DE .DS .ft CW enum-type-spec: "enum" enum-body enum-body: "{" ( identifier "=" value ) ( "," identifier "=" value )* "}" .DE .DS .ft CW struct-type-spec: "struct" struct-body struct-body: "{" ( declaration ";" ) ( declaration ";" )* "}" .DE .DS .ft CW union-type-spec: "union" union-body union-body: "switch" "(" declaration ")" "{" ( "case" value ":" declaration ";" ) ( "case" value ":" declaration ";" )* [ "default" ":" declaration ";" ] "}" constant-def: "const" identifier "=" constant ";" .DE .DS .ft CW type-def: "typedef" declaration ";" | "enum" identifier enum-body ";" | "struct" identifier struct-body ";" | "union" identifier union-body ";" definition: type-def | constant-def specification: definition * .DE .NH 3 \&Syntax Notes .IX "XDR language" syntax .LP .IP 1. The following are keywords and cannot be used as identifiers: "bool", "case", "const", "default", "double", "enum", "float", "hyper", "opaque", "string", "struct", "switch", "typedef", "union", "unsigned" and "void". .IP 2. Only unsigned constants may be used as size specifications for arrays. If an identifier is used, it must have been declared previously as an unsigned constant in a "const" definition. .IP 3. Constant and type identifiers within the scope of a specification are in the same name space and must be declared uniquely within this scope. .IP 4. Similarly, variable names must be unique within the scope of struct and union declarations. Nested struct and union declarations create new scopes. .IP 5. The discriminant of a union must be of a type that evaluates to an integer. That is, "int", "unsigned int", "bool", an enumerated type or any typedefed type that evaluates to one of these is legal. Also, the case values must be one of the legal values of the discriminant. Finally, a case value may not be specified more than once within the scope of a union declaration. .NH 1 \&An Example of an XDR Data Description .LP Here is a short XDR data description of a thing called a "file", which might be used to transfer files from one machine to another. .ie t .DS .el .DS L .ft CW const MAXUSERNAME = 32; /*\fI max length of a user name \fP*/ const MAXFILELEN = 65535; /*\fI max length of a file \fP*/ const MAXNAMELEN = 255; /*\fI max length of a file name \fP*/ .ft I /* * Types of files: */ .ft CW enum filekind { TEXT = 0, /*\fI ascii data \fP*/ DATA = 1, /*\fI raw data \fP*/ EXEC = 2 /*\fI executable \fP*/ }; .ft I /* * File information, per kind of file: */ .ft CW union filetype switch (filekind kind) { case TEXT: void; /*\fI no extra information \fP*/ case DATA: string creator; /*\fI data creator \fP*/ case EXEC: string interpretor; /*\fI program interpretor \fP*/ }; .ft I /* * A complete file: */ .ft CW struct file { string filename; /*\fI name of file \fP*/ filetype type; /*\fI info about file \fP*/ string owner; /*\fI owner of file \fP*/ opaque data; /*\fI file data \fP*/ }; .DE .LP Suppose now that there is a user named "john" who wants to store his lisp program "sillyprog" that contains just the data "(quit)". His file would be encoded as follows: .TS box tab (&) ; lfI lfI lfI lfI rfL rfL rfL l . Offset&Hex Bytes&ASCII&Description _ 0&00 00 00 09&....&Length of filename = 9 4&73 69 6c 6c&sill&Filename characters 8&79 70 72 6f&ypro& ... and more characters ... 12&67 00 00 00&g...& ... and 3 zero-bytes of fill 16&00 00 00 02&....&Filekind is EXEC = 2 20&00 00 00 04&....&Length of interpretor = 4 24&6c 69 73 70&lisp&Interpretor characters 28&00 00 00 04&....&Length of owner = 4 32&6a 6f 68 6e&john&Owner characters 36&00 00 00 06&....&Length of file data = 6 40&28 71 75 69&(qui&File data bytes ... 44&74 29 00 00&t)..& ... and 2 zero-bytes of fill .TE .NH 1 \&References .LP [1] Brian W. Kernighan & Dennis M. Ritchie, "The C Programming Language", Bell Laboratories, Murray Hill, New Jersey, 1978. .LP [2] Danny Cohen, "On Holy Wars and a Plea for Peace", IEEE Computer, October 1981. .LP [3] "IEEE Standard for Binary Floating-Point Arithmetic", ANSI/IEEE Standard 754-1985, Institute of Electrical and Electronics Engineers, August 1985. .LP [4] "Courier: The Remote Procedure Call Protocol", XEROX Corporation, XSIS 038112, December 1981. achine to machine. Rather, it only describes the most commonly used data-typrpc/doc/rpcgen.ms010060000000000000000000000763540443763512200142430ustar00rootroot00000000000001.\" .\" Must use -- tbl -- for this one .\" .\" @(#)rpcgen.ms 2.2 88/08/04 4.0 RPCSRC .de BT .if \\n%=1 .tl ''- % -'' .. .ND .\" prevent excess underlining in nroff .if n .fp 2 R .OH '\fBrpcgen\fP Programming Guide''Page %' .EH 'Page %''\fBrpcgen\fP Programming Guide' .if \\n%=1 .bp .SH \&\fBrpcgen\fP Programming Guide .NH 0 \&The \fBrpcgen\fP Protocol Compiler .IX rpcgen "" \fIrpcgen\fP "" PAGE MAJOR .LP .IX RPC "" "" \fIrpcgen\fP The details of programming applications to use Remote Procedure Calls can be overwhelming. Perhaps most daunting is the writing of the XDR routines necessary to convert procedure arguments and results into their network format and vice-versa. .LP Fortunately, .I rpcgen(1) exists to help programmers write RPC applications simply and directly. .I rpcgen does most of the dirty work, allowing programmers to debug the main features of their application, instead of requiring them to spend most of their time debugging their network interface code. .LP .I rpcgen is a compiler. It accepts a remote program interface definition written in a language, called RPC Language, which is similar to C. It produces a C language output which includes stub versions of the client routines, a server skeleton, XDR filter routines for both parameters and results, and a header file that contains common definitions. The client stubs interface with the RPC library and effectively hide the network from their callers. The server stub similarly hides the network from the server procedures that are to be invoked by remote clients. .I rpcgen 's output files can be compiled and linked in the usual way. The developer writes server procedures\(emin any language that observes Sun calling conventions\(emand links them with the server skeleton produced by .I rpcgen to get an executable server program. To use a remote program, a programmer writes an ordinary main program that makes local procedure calls to the client stubs produced by .I rpcgen . Linking this program with .I rpcgen 's stubs creates an executable program. (At present the main program must be written in C). .I rpcgen options can be used to suppress stub generation and to specify the transport to be used by the server stub. .LP Like all compilers, .I rpcgen reduces development time that would otherwise be spent coding and debugging low-level routines. All compilers, including .I rpcgen , do this at a small cost in efficiency and flexibility. However, many compilers allow escape hatches for programmers to mix low-level code with high-level code. .I rpcgen is no exception. In speed-critical applications, hand-written routines can be linked with the .I rpcgen output without any difficulty. Also, one may proceed by using .I rpcgen output as a starting point, and then rewriting it as necessary. (If you need a discussion of RPC programming without .I rpcgen , see the .I "Remote Procedure Call Programming Guide)\. .NH 1 \&Converting Local Procedures into Remote Procedures .IX rpcgen "local procedures" \fIrpcgen\fP .IX rpcgen "remote procedures" \fIrpcgen\fP .LP Assume an application that runs on a single machine, one which we want to convert to run over the network. Here we will demonstrate such a conversion by way of a simple example\(ema program that prints a message to the console: .ie t .DS .el .DS L .ft I /* * printmsg.c: print a message on the console */ .ft CW #include main(argc, argv) int argc; char *argv[]; { char *message; if (argc < 2) { fprintf(stderr, "usage: %s \en", argv[0]); exit(1); } message = argv[1]; if (!printmessage(message)) { fprintf(stderr, "%s: couldn't print your message\en", argv[0]); exit(1); } printf("Message Delivered!\en"); exit(0); } .ft I /* * Print a message to the console. * Return a boolean indicating whether the message was actually printed. */ .ft CW printmessage(msg) char *msg; { FILE *f; f = fopen("/dev/console", "w"); if (f == NULL) { return (0); } fprintf(f, "%s\en", msg); fclose(f); return(1); } .DE .LP And then, of course: .ie t .DS .el .DS L .ft CW example% \fBcc printmsg.c -o printmsg\fP example% \fBprintmsg "Hello, there."\fP Message delivered! example% .DE .LP If .I printmessage() was turned into a remote procedure, then it could be called from anywhere in the network. Ideally, one would just like to stick a keyword like .I remote in front of a procedure to turn it into a remote procedure. Unfortunately, we have to live within the constraints of the C language, since it existed long before RPC did. But even without language support, it's not very difficult to make a procedure remote. .LP In general, it's necessary to figure out what the types are for all procedure inputs and outputs. In this case, we have a procedure .I printmessage() which takes a string as input, and returns an integer as output. Knowing this, we can write a protocol specification in RPC language that describes the remote version of .I printmessage (). Here it is: .ie t .DS .el .DS L .ft I /* * msg.x: Remote message printing protocol */ .ft CW program MESSAGEPROG { version MESSAGEVERS { int PRINTMESSAGE(string) = 1; } = 1; } = 99; .DE .LP Remote procedures are part of remote programs, so we actually declared an entire remote program here which contains the single procedure .I PRINTMESSAGE . This procedure was declared to be in version 1 of the remote program. No null procedure (procedure 0) is necessary because .I rpcgen generates it automatically. .LP Notice that everything is declared with all capital letters. This is not required, but is a good convention to follow. .LP Notice also that the argument type is \*Qstring\*U and not \*Qchar *\*U. This is because a \*Qchar *\*U in C is ambiguous. Programmers usually intend it to mean a null-terminated string of characters, but it could also represent a pointer to a single character or a pointer to an array of characters. In RPC language, a null-terminated string is unambiguously called a \*Qstring\*U. .LP There are just two more things to write. First, there is the remote procedure itself. Here's the definition of a remote procedure to implement the .I PRINTMESSAGE procedure we declared above: .ie t .DS .el .DS L .vs 11 .ft I /* * msg_proc.c: implementation of the remote procedure "printmessage" */ .ft CW #include #include /* \fIalways needed\fP */ #include "msg.h" /* \fIneed this too: msg.h will be generated by rpcgen\fP */ .ft I /* * Remote verson of "printmessage" */ .ft CW int * printmessage_1(msg) char **msg; { static int result; /* \fImust be static!\fP */ FILE *f; f = fopen("/dev/console", "w"); if (f == NULL) { result = 0; return (&result); } fprintf(f, "%s\en", *msg); fclose(f); result = 1; return (&result); } .vs .DE .LP Notice here that the declaration of the remote procedure .I printmessage_1() differs from that of the local procedure .I printmessage() in three ways: .IP 1. It takes a pointer to a string instead of a string itself. This is true of all remote procedures: they always take pointers to their arguments rather than the arguments themselves. .IP 2. It returns a pointer to an integer instead of an integer itself. This is also generally true of remote procedures: they always return a pointer to their results. .IP 3. It has an \*Q_1\*U appended to its name. In general, all remote procedures called by .I rpcgen are named by the following rule: the name in the program definition (here .I PRINTMESSAGE ) is converted to all lower-case letters, an underbar (\*Q_\*U) is appended to it, and finally the version number (here 1) is appended. .LP The last thing to do is declare the main client program that will call the remote procedure. Here it is: .ie t .DS .el .DS L .ft I /* * rprintmsg.c: remote version of "printmsg.c" */ .ft CW #include #include /* \fIalways needed\fP */ #include "msg.h" /* \fIneed this too: msg.h will be generated by rpcgen\fP */ main(argc, argv) int argc; char *argv[]; { CLIENT *cl; int *result; char *server; char *message; if (argc < 3) { fprintf(stderr, "usage: %s host message\en", argv[0]); exit(1); } .ft I /* * Save values of command line arguments */ .ft CW server = argv[1]; message = argv[2]; .ft I /* * Create client "handle" used for calling \fIMESSAGEPROG\fP on the * server designated on the command line. We tell the RPC package * to use the "tcp" protocol when contacting the server. */ .ft CW cl = clnt_create(server, MESSAGEPROG, MESSAGEVERS, "tcp"); if (cl == NULL) { .ft I /* * Couldn't establish connection with server. * Print error message and die. */ .ft CW clnt_pcreateerror(server); exit(1); } .ft I /* * Call the remote procedure "printmessage" on the server */ .ft CW result = printmessage_1(&message, cl); if (result == NULL) { .ft I /* * An error occurred while calling the server. * Print error message and die. */ .ft CW clnt_perror(cl, server); exit(1); } .ft I /* * Okay, we successfully called the remote procedure. */ .ft CW if (*result == 0) { .ft I /* * Server was unable to print our message. * Print error message and die. */ .ft CW fprintf(stderr, "%s: %s couldn't print your message\en", argv[0], server); exit(1); } .ft I /* * The message got printed on the server's console */ .ft CW printf("Message delivered to %s!\en", server); } .DE There are two things to note here: .IP 1. .IX "client handle, used by rpcgen" "" "client handle, used by \fIrpcgen\fP" First a client \*Qhandle\*U is created using the RPC library routine .I clnt_create (). This client handle will be passed to the stub routines which call the remote procedure. .IP 2. The remote procedure .I printmessage_1() is called exactly the same way as it is declared in .I msg_proc.c except for the inserted client handle as the first argument. .LP Here's how to put all of the pieces together: .ie t .DS .el .DS L .ft CW example% \fBrpcgen msg.x\fP example% \fBcc rprintmsg.c msg_clnt.c -o rprintmsg\fP example% \fBcc msg_proc.c msg_svc.c -o msg_server\fP .DE Two programs were compiled here: the client program .I rprintmsg and the server program .I msg_server . Before doing this though, .I rpcgen was used to fill in the missing pieces. .LP Here is what .I rpcgen did with the input file .I msg.x : .IP 1. It created a header file called .I msg.h that contained .I #define 's for .I MESSAGEPROG , .I MESSAGEVERS and .I PRINTMESSAGE for use in the other modules. .IP 2. It created client \*Qstub\*U routines in the .I msg_clnt.c file. In this case there is only one, the .I printmessage_1() that was referred to fr