/* * Copyright (c) 1980 Regents of the University of California. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the University of * California, Berkeley and its contributors. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #ifndef lint char copyright[] = "@(#) Copyright (c) 1980 Regents of the University of California.\n\ All rights reserved.\n"; #endif /* not lint */ #ifndef lint /*static char sccsid[] = "from: @(#)sccs.c 5.11 (Berkeley) 3/4/91";*/ static char rcsid[] = "$Id: sccs.c,v 1.3 1993/12/08 00:33:06 jtc Exp $"; #endif /* not lint */ #include #include #include #include #include #include #include #include #include #include "pathnames.h" /* ** SCCS.C -- human-oriented front end to the SCCS system. ** ** Without trying to add any functionality to speak of, this ** program tries to make SCCS a little more accessible to human ** types. The main thing it does is automatically put the ** string "SCCS/s." on the front of names. Also, it has a ** couple of things that are designed to shorten frequent ** combinations, e.g., "delget" which expands to a "delta" ** and a "get". ** ** This program can also function as a setuid front end. ** To do this, you should copy the source, renaming it to ** whatever you want, e.g., "syssccs". Change any defaults ** in the program (e.g., syssccs might default -d to ** "/usr/src/sys"). Then recompile and put the result ** as setuid to whomever you want. In this mode, sccs ** knows to not run setuid for certain programs in order ** to preserve security, and so forth. ** ** Usage: ** sccs [flags] command [args] ** ** Flags: ** -d represents a directory to search ** out of. It should be a full pathname ** for general usage. E.g., if is ** "/usr/src/sys", then a reference to the ** file "dev/bio.c" becomes a reference to ** "/usr/src/sys/dev/bio.c". ** -p prepends to the final component ** of the pathname. By default, this is ** "SCCS". For example, in the -d example ** above, the path then gets modified to ** "/usr/src/sys/dev/SCCS/s.bio.c". In ** more common usage (without the -d flag), ** "prog.c" would get modified to ** "SCCS/s.prog.c". In both cases, the ** "s." gets automatically prepended. ** -r run as the real user. ** ** Commands: ** admin, ** get, ** delta, ** rmdel, ** cdc, ** etc. Straight out of SCCS; only difference ** is that pathnames get modified as ** described above. ** enter Front end doing "sccs admin -i " ** create Macro for "enter" followed by "get". ** edit Macro for "get -e". ** unedit Removes a file being edited, knowing ** about p-files, etc. ** delget Macro for "delta" followed by "get". ** deledit Macro for "delta" followed by "get -e". ** branch Macro for "get -b -e", followed by "delta ** -s -n", followd by "get -e -t -g". ** diffs "diff" the specified version of files ** and the checked-out version. ** print Macro for "prs -e" followed by "get -p -m". ** tell List what files are being edited. ** info Print information about files being edited. ** clean Remove all files that can be ** regenerated from SCCS files. ** check Like info, but return exit status, for ** use in makefiles. ** fix Remove a top delta & reedit, but save ** the previous changes in that delta. ** ** Compilation Flags: ** UIDUSER -- determine who the user is by looking at the ** uid rather than the login name -- for machines ** where SCCS gets the user in this way. ** SCCSDIR -- if defined, forces the -d flag to take on ** this value. This is so that the setuid ** aspects of this program cannot be abused. ** This flag also disables the -p flag. ** SCCSPATH -- the default for the -p flag. ** MYNAME -- the title this program should print when it ** gives error messages. ** ** Compilation Instructions: ** cc -O -n -s sccs.c ** The flags listed above can be -D defined to simplify ** recompilation for variant versions. ** ** Author: ** Eric Allman, UCB/INGRES ** Copyright 1980 Regents of the University of California */ /******************* Configuration Information ********************/ # ifndef SCCSPATH # define SCCSPATH "SCCS" /* pathname in which to find s-files */ # endif NOT SCCSPATH # ifndef MYNAME # define MYNAME "sccs" /* name used for printing errors */ # endif NOT MYNAME /**************** End of Configuration Information ****************/ typedef char bool; # define TRUE 1 # define FALSE 0 # define bitset(bit, word) ((bool) ((bit) & (word))) struct sccsprog { char *sccsname; /* name of SCCS routine */ short sccsoper; /* opcode, see below */ short sccsflags; /* flags, see below */ char *sccspath; /* pathname of binary implementing */ }; /* values for sccsoper */ # define PROG 0 /* call a program */ # define CMACRO 1 /* command substitution macro */ # define FIX 2 /* fix a delta */ # define CLEAN 3 /* clean out recreatable files */ # define UNEDIT 4 /* unedit a file */ # define SHELL 5 /* call a shell file (like PROG) */ # define DIFFS 6 /* diff between sccs & file out */ # define DODIFF 7 /* internal call to diff program */ # define ENTER 8 /* enter new files */ /* bits for sccsflags */ # define NO_SDOT 0001 /* no s. on front of args */ # define REALUSER 0002 /* protected (e.g., admin) */ /* modes for the "clean", "info", "check" ops */ # define CLEANC 0 /* clean command */ # define INFOC 1 /* info command */ # define CHECKC 2 /* check command */ # define TELLC 3 /* give list of files being edited */ /* ** Description of commands known to this program. ** First argument puts the command into a class. Second arg is ** info regarding treatment of this command. Third arg is a ** list of flags this command accepts from macros, etc. Fourth ** arg is the pathname of the implementing program, or the ** macro definition, or the arg to a sub-algorithm. */ struct sccsprog SccsProg[] = { "admin", PROG, REALUSER, _PATH_SCCSADMIN, "cdc", PROG, 0, _PATH_SCCSRMDEL, "comb", PROG, 0, _PATH_SCCSCOMB, "delta", PROG, 0, _PATH_SCCSDELTA, "get", PROG, 0, _PATH_SCCSGET, "help", PROG, NO_SDOT, _PATH_SCCSHELP, "prs", PROG, 0, _PATH_SCCSPRS, "prt", PROG, 0, _PATH_SCCSPRT, "rmdel", PROG, REALUSER, _PATH_SCCSRMDEL, "val", PROG, 0, _PATH_SCCSVAL, "what", PROG, NO_SDOT, _PATH_SCCSWHAT, "sccsdiff", SHELL, REALUSER, _PATH_SCCSDIFF, "edit", CMACRO, NO_SDOT, "get -e", "delget", CMACRO, NO_SDOT, "delta:mysrp/get:ixbeskcl -t", "deledit", CMACRO, NO_SDOT, "delta:mysrp -n/get:ixbskcl -e -t -g", "fix", FIX, NO_SDOT, NULL, "clean", CLEAN, REALUSER|NO_SDOT, (char *) CLEANC, "info", CLEAN, REALUSER|NO_SDOT, (char *) INFOC, "check", CLEAN, REALUSER|NO_SDOT, (char *) CHECKC, "tell", CLEAN, REALUSER|NO_SDOT, (char *) TELLC, "unedit", UNEDIT, NO_SDOT, NULL, "diffs", DIFFS, NO_SDOT|REALUSER, NULL, "-diff", DODIFF, NO_SDOT|REALUSER, _PATH_SCCSBDIFF, "print", CMACRO, 0, "prs -e/get -p -m -s", "branch", CMACRO, NO_SDOT, "get:ixrc -e -b/delta: -s -n -ybranch-place-holder/get:pl -e -t -g", "enter", ENTER, NO_SDOT, NULL, "create", CMACRO, NO_SDOT, "enter/get:ixbeskcl -t", NULL, -1, 0, NULL }; /* one line from a p-file */ struct pfile { char *p_osid; /* old SID */ char *p_nsid; /* new SID */ char *p_user; /* user who did edit */ char *p_date; /* date of get */ char *p_time; /* time of get */ char *p_aux; /* extra info at end */ }; char *SccsPath = SCCSPATH; /* pathname of SCCS files */ # ifdef SCCSDIR char *SccsDir = SCCSDIR; /* directory to begin search from */ # else char *SccsDir = ""; # endif char MyName[] = MYNAME; /* name used in messages */ int OutFile = -1; /* override output file for commands */ bool RealUser; /* if set, running as real user */ # ifdef DEBUG bool Debug; /* turn on tracing */ # endif # ifndef V6 extern char *getenv(); # endif V6 extern char *sys_siglist[]; char *gstrcat(), *strcat(); char *gstrncat(), *strncat(); char *gstrcpy(), *strcpy(); #define FBUFSIZ BUFSIZ #define PFILELG 120 main(argc, argv) int argc; char **argv; { register char *p; extern struct sccsprog *lookup(); register int i; # ifndef V6 # ifndef SCCSDIR register struct passwd *pw; extern struct passwd *getpwnam(); char buf[FBUFSIZ]; /* pull "SccsDir" out of the environment (possibly) */ p = getenv("PROJECTDIR"); if (p != NULL && p[0] != '\0') { if (p[0] == '/') SccsDir = p; else { pw = getpwnam(p); if (pw == NULL) { usrerr("user %s does not exist", p); exit(EX_USAGE); } gstrcpy(buf, pw->pw_dir, sizeof(buf)); gstrcat(buf, "/src", sizeof(buf)); if (access(buf, 0) < 0) { gstrcpy(buf, pw->pw_dir, sizeof(buf)); gstrcat(buf, "/source", sizeof(buf)); if (access(buf, 0) < 0) { usrerr("project %s has no source!", p); exit(EX_USAGE); } } SccsDir = buf; } } # endif SCCSDIR # endif V6 /* ** Detect and decode flags intended for this program. */ if (argc < 2) { fprintf(stderr, "Usage: %s [flags] command [flags]\n", MyName); exit(EX_USAGE); } argv[argc] = NULL; if (lookup(argv[0]) == NULL) { while ((p = *++argv) != NULL) { if (*p != '-') break; switch (*++p) { case 'r': /* run as real user */ setuid(getuid()); RealUser++; break; # ifndef SCCSDIR case 'p': /* path of sccs files */ SccsPath = ++p; if (SccsPath[0] == '\0' && argv[1] != NULL) SccsPath = *++argv; break; case 'd': /* directory to search from */ SccsDir = ++p; if (SccsDir[0] == '\0' && argv[1] != NULL) SccsDir = *++argv; break; # endif # ifdef DEBUG case 'T': /* trace */ Debug++; break; # endif default: usrerr("unknown option -%s", p); break; } } if (SccsPath[0] == '\0') SccsPath = "."; } i = command(argv, FALSE, ""); exit(i); } /* ** COMMAND -- look up and perform a command ** ** This routine is the guts of this program. Given an ** argument vector, it looks up the "command" (argv[0]) ** in the configuration table and does the necessary stuff. ** ** Parameters: ** argv -- an argument vector to process. ** forkflag -- if set, fork before executing the command. ** editflag -- if set, only include flags listed in the ** sccsklets field of the command descriptor. ** arg0 -- a space-seperated list of arguments to insert ** before argv. ** ** Returns: ** zero -- command executed ok. ** else -- error status. ** ** Side Effects: ** none. */ command(argv, forkflag, arg0) char **argv; bool forkflag; char *arg0; { register struct sccsprog *cmd; register char *p; char buf[FBUFSIZ]; extern struct sccsprog *lookup(); char *nav[1000]; char **np; register char **ap; register int i; register char *q; extern bool unedit(); int rval = 0; extern char *index(); extern char *makefile(); char *editchs; extern char *tail(); # ifdef DEBUG if (Debug) { printf("command:\n\t\"%s\"\n", arg0); for (np = argv; *np != NULL; np++) printf("\t\"%s\"\n", *np); } # endif /* ** Copy arguments. ** Copy from arg0 & if necessary at most one arg ** from argv[0]. */ np = ap = &nav[1]; editchs = NULL; for (p = arg0, q = buf; *p != '\0' && *p != '/'; ) { *np++ = q; while (*p == ' ') p++; while (*p != ' ' && *p != '\0' && *p != '/' && *p != ':') *q++ = *p++; *q++ = '\0'; if (*p == ':') { editchs = q; while (*++p != '\0' && *p != '/' && *p != ' ') *q++ = *p; *q++ = '\0'; } } *np = NULL; if (*ap == NULL) *np++ = *argv++; /* ** Look up command. ** At this point, *ap is the command name. */ cmd = lookup(*ap); if (cmd == NULL) { usrerr("Unknown command \"%s\"", *ap); return (EX_USAGE); } /* ** Copy remaining arguments doing editing as appropriate. */ for (; *argv != NULL; argv++) { p = *argv; if (*p == '-') { if (p[1] == '\0' || editchs == NULL || index(editchs, p[1]) != NULL) *np++ = p; } else { if (!bitset(NO_SDOT, cmd->sccsflags)) p = makefile(p); if (p != NULL) *np++ = p; } } *np = NULL; /* ** Interpret operation associated with this command. */ switch (cmd->sccsoper) { case SHELL: /* call a shell file */ *ap = cmd->sccspath; *--ap = "sh"; rval = callprog(_PATH_BSHELL, cmd->sccsflags, ap, forkflag); break; case PROG: /* call an sccs prog */ rval = callprog(cmd->sccspath, cmd->sccsflags, ap, forkflag); break; case CMACRO: /* command macro */ /* step through & execute each part of the macro */ for (p = cmd->sccspath; *p != '\0'; p++) { q = p; while (*p != '\0' && *p != '/') p++; rval = command(&ap[1], *p != '\0', q); if (rval != 0) break; } break; case FIX: /* fix a delta */ if (ap[1]==0 || strncmp(ap[1], "-r", 2)!=0) { usrerr("-r flag needed for fix command"); rval = EX_USAGE; break; } /* get the version with all changes */ rval = command(&ap[1], TRUE, "get -k"); /* now remove that version from the s-file */ if (rval == 0) rval = command(&ap[1], TRUE, "rmdel:r"); /* and edit the old version (but don't clobber new vers) */ if (rval == 0) rval = command(&ap[2], FALSE, "get -e -g"); break; case CLEAN: rval = clean((int) cmd->sccspath, ap); break; case UNEDIT: for (argv = np = &ap[1]; *argv != NULL; argv++) { if (unedit(*argv)) *np++ = *argv; } *np = NULL; /* get all the files that we unedited successfully */ if (np > &ap[1]) rval = command(&ap[1], FALSE, "get"); break; case DIFFS: /* diff between s-file & edit file */ /* find the end of the flag arguments */ for (np = &ap[1]; *np != NULL && **np == '-'; np++) continue; argv = np; /* for each file, do the diff */ p = argv[1]; while (*np != NULL) { /* messy, but we need a null terminated argv */ *argv = *np++; argv[1] = NULL; i = dodiff(ap, tail(*argv)); if (rval == 0) rval = i; argv[1] = p; } break; case DODIFF: /* internal diff call */ setuid(getuid()); for (np = ap; *np != NULL; np++) { if ((*np)[0] == '-' && (*np)[1] == 'C') (*np)[1] = 'c'; } /* insert "-" argument */ np[1] = NULL; np[0] = np[-1]; np[-1] = "-"; /* execute the diff program of choice */ # ifndef V6 execvp("diff", ap); # endif execv(cmd->sccspath, argv); syserr("cannot exec %s", cmd->sccspath); exit(EX_OSERR); case ENTER: /* enter new sccs files */ /* skip over flag arguments */ for (np = &ap[1]; *np != NULL && **np == '-'; np++) continue; argv = np; /* do an admin for each file */ p = argv[1]; while (*np != NULL) { printf("\n%s:\n", *np); strcpy(buf, "-i"); gstrcat(buf, *np, sizeof(buf)); ap[0] = buf; argv[0] = tail(*np); argv[1] = NULL; rval = command(ap, TRUE, "admin"); argv[1] = p; if (rval == 0) { strcpy(buf, ","); gstrcat(buf, tail(*np), sizeof(buf)); if (link(*np, buf) >= 0) unlink(*np); } np++; } break; default: syserr("oper %d", cmd->sccsoper); exit(EX_SOFTWARE); } # ifdef DEBUG if (Debug) printf("command: rval=%d\n", rval); # endif return (rval); } /* ** LOOKUP -- look up an SCCS command name. ** ** Parameters: ** name -- the name of the command to look up. ** ** Returns: ** ptr to command descriptor for this command. ** NULL if no such entry. ** ** Side Effects: ** none. */ struct sccsprog * lookup(name) char *name; { register struct sccsprog *cmd; for (cmd = SccsProg; cmd->sccsname != NULL; cmd++) { if (strcmp(cmd->sccsname, name) == 0) return (cmd); } return (NULL); } /* ** CALLPROG -- call a program ** ** Used to call the SCCS programs. ** ** Parameters: ** progpath -- pathname of the program to call. ** flags -- status flags from the command descriptors. ** argv -- an argument vector to pass to the program. ** forkflag -- if true, fork before calling, else just ** exec. ** ** Returns: ** The exit status of the program. ** Nothing if forkflag == FALSE. ** ** Side Effects: ** Can exit if forkflag == FALSE. */ callprog(progpath, flags, argv, forkflag) char *progpath; short flags; char **argv; bool forkflag; { register int i; register int wpid; auto int st; register int sigcode; register int coredumped; register char *sigmsg; auto char sigmsgbuf[10+1]; /* "Signal 127" + terminating '\0' */ # ifdef DEBUG if (Debug) { printf("callprog:\n"); for (i = 0; argv[i] != NULL; i++) printf("\t\"%s\"\n", argv[i]); } # endif if (*argv == NULL) return (-1); /* ** Fork if appropriate. */ if (forkflag) { # ifdef DEBUG if (Debug) printf("Forking\n"); # endif i = fork(); if (i < 0) { syserr("cannot fork"); exit(EX_OSERR); } else if (i > 0) { while ((wpid = wait(&st)) != -1 && wpid != i) ; if ((sigcode = st & 0377) == 0) st = (st >> 8) & 0377; else { coredumped = sigcode & 0200; sigcode &= 0177; if (sigcode != SIGINT && sigcode != SIGPIPE) { if (sigcode < NSIG) sigmsg = sys_siglist[sigcode]; else { sprintf(sigmsgbuf, "Signal %d", sigcode); sigmsg = sigmsgbuf; } fprintf(stderr, "sccs: %s: %s%s", argv[0], sigmsg, coredumped ? " - core dumped": ""); } st = EX_SOFTWARE; } if (OutFile >= 0) { close(OutFile); OutFile = -1; } return (st); } } else if (OutFile >= 0) { syserr("callprog: setting stdout w/o forking"); exit(EX_SOFTWARE); } /* set protection as appropriate */ if (bitset(REALUSER, flags)) setuid(getuid()); /* change standard input & output if needed */ if (OutFile >= 0) { close(1); dup(OutFile); close(OutFile); } /* call real SCCS program */ execv(progpath, argv); syserr("cannot execute %s", progpath); exit(EX_UNAVAILABLE); /*NOTREACHED*/ } /* ** MAKEFILE -- make filename of SCCS file ** ** If the name passed is already the name of an SCCS file, ** just return it. Otherwise, munge the name into the name ** of the actual SCCS file. ** ** There are cases when it is not clear what you want to ** do. For example, if SccsPath is an absolute pathname ** and the name given is also an absolute pathname, we go ** for SccsPath (& only use the last component of the name ** passed) -- this is important for security reasons (if ** sccs is being used as a setuid front end), but not ** particularly intuitive. ** ** Parameters: ** name -- the file name to be munged. ** ** Returns: ** The pathname of the sccs file. ** NULL on error. ** ** Side Effects: ** none. */ char * makefile(name) char *name; { register char *p; char buf[3*FBUFSIZ]; extern char *malloc(); extern char *rindex(); extern bool safepath(); extern bool isdir(); register char *q; p = rindex(name, '/'); if (p == NULL) p = name; else p++; /* ** Check to see that the path is "safe", i.e., that we ** are not letting some nasty person use the setuid part ** of this program to look at or munge some presumably ** hidden files. */ if (SccsDir[0] == '/' && !safepath(name)) return (NULL); /* ** Create the base pathname. */ /* first the directory part */ if (SccsDir[0] != '\0' && name[0] != '/' && strncmp(name, "./", 2) != 0) { gstrcpy(buf, SccsDir, sizeof(buf)); gstrcat(buf, "/", sizeof(buf)); } else gstrcpy(buf, "", sizeof(buf)); /* then the head of the pathname */ gstrncat(buf, name, p - name, sizeof(buf)); q = &buf[strlen(buf)]; /* now copy the final part of the name, in case useful */ gstrcpy(q, p, sizeof(buf)); /* so is it useful? */ if (strncmp(p, "s.", 2) != 0 && !isdir(buf)) { /* sorry, no; copy the SCCS pathname & the "s." */ gstrcpy(q, SccsPath, sizeof(buf)); gstrcat(buf, "/s.", sizeof(buf)); /* and now the end of the name */ gstrcat(buf, p, sizeof(buf)); } /* if i haven't changed it, why did I do all this? */ if (strcmp(buf, name) == 0) p = name; else { /* but if I have, squirrel it away */ p = malloc(strlen(buf) + 1); if (p == NULL) { perror("Sccs: no mem"); exit(EX_OSERR); } strcpy(p, buf); } return (p); } /* ** ISDIR -- return true if the argument is a directory. ** ** Parameters: ** name -- the pathname of the file to check. ** ** Returns: ** TRUE if 'name' is a directory, FALSE otherwise. ** ** Side Effects: ** none. */ bool isdir(name) char *name; { struct stat stbuf; return (stat(name, &stbuf) >= 0 && (stbuf.st_mode & S_IFMT) == S_IFDIR); } /* ** SAFEPATH -- determine whether a pathname is "safe" ** ** "Safe" pathnames only allow you to get deeper into the ** directory structure, i.e., full pathnames and ".." are ** not allowed. ** ** Parameters: ** p -- the name to check. ** ** Returns: ** TRUE -- if the path is safe. ** FALSE -- if the path is not safe. ** ** Side Effects: ** Prints a message if the path is not safe. */ bool safepath(p) register char *p; { extern char *index(); if (*p != '/') { while (strncmp(p, "../", 3) != 0 && strcmp(p, "..") != 0) { p = index(p, '/'); if (p == NULL) return (TRUE); p++; } } printf("You may not use full pathnames or \"..\"\n"); return (FALSE); } /* ** CLEAN -- clean out recreatable files ** ** Any file for which an "s." file exists but no "p." file ** exists in the current directory is purged. ** ** Parameters: ** mode -- tells whether this came from a "clean", "info", or ** "check" command. ** argv -- the rest of the argument vector. ** ** Returns: ** none. ** ** Side Effects: ** Removes files in the current directory. ** Prints information regarding files being edited. ** Exits if a "check" command. */ clean(mode, argv) int mode; char **argv; { struct dirent *dir; char buf[FBUFSIZ]; char *bufend; register DIR *dirp; register char *basefile; bool gotedit; bool gotpfent; FILE *pfp; bool nobranch = FALSE; extern struct pfile *getpfent(); register struct pfile *pf; register char **ap; extern char *username(); char *usernm = NULL; char *subdir = NULL; char *cmdname; /* ** Process the argv */ cmdname = *argv; for (ap = argv; *++ap != NULL; ) { if (**ap == '-') { /* we have a flag */ switch ((*ap)[1]) { case 'b': nobranch = TRUE; break; case 'u': if ((*ap)[2] != '\0') usernm = &(*ap)[2]; else if (ap[1] != NULL && ap[1][0] != '-') usernm = *++ap; else usernm = username(); break; } } else { if (subdir != NULL) usrerr("too many args"); else subdir = *ap; } } /* ** Find and open the SCCS directory. */ gstrcpy(buf, SccsDir, sizeof(buf)); if (buf[0] != '\0') gstrcat(buf, "/", sizeof(buf)); if (subdir != NULL) { gstrcat(buf, subdir, sizeof(buf)); gstrcat(buf, "/", sizeof(buf)); } gstrcat(buf, SccsPath, sizeof(buf)); bufend = &buf[strlen(buf)]; dirp = opendir(buf); if (dirp == NULL) { usrerr("cannot open %s", buf); return (EX_NOINPUT); } /* ** Scan the SCCS directory looking for s. files. ** gotedit tells whether we have tried to clean any ** files that are being edited. */ gotedit = FALSE; while (dir = readdir(dirp)) { if (strncmp(dir->d_name, "s.", 2) != 0) continue; /* got an s. file -- see if the p. file exists */ gstrcpy(bufend, "/p.", sizeof(buf)); basefile = bufend + 3; gstrcpy(basefile, &dir->d_name[2], sizeof(buf)); /* ** open and scan the p-file. ** 'gotpfent' tells if we have found a valid p-file ** entry. */ pfp = fopen(buf, "r"); gotpfent = FALSE; if (pfp != NULL) { /* the file exists -- report it's contents */ while ((pf = getpfent(pfp)) != NULL) { if (nobranch && isbranch(pf->p_nsid)) continue; if (usernm != NULL && strcmp(usernm, pf->p_user) != 0 && mode != CLEANC) continue; gotedit = TRUE; gotpfent = TRUE; if (mode == TELLC) { printf("%s\n", basefile); break; } printf("%12s: being edited: ", basefile); putpfent(pf, stdout); } fclose(pfp); } /* the s. file exists and no p. file exists -- unlink the g-file */ if (mode == CLEANC && !gotpfent) { char unlinkbuf[FBUFSIZ]; gstrcpy(unlinkbuf, &dir->d_name[2], sizeof(unlinkbuf)); unlink(unlinkbuf); } } /* cleanup & report results */ closedir(dirp); if (!gotedit && mode == INFOC) { printf("Nothing being edited"); if (nobranch) printf(" (on trunk)"); if (usernm == NULL) printf("\n"); else printf(" by %s\n", usernm); } if (mode == CHECKC) exit(gotedit); return (EX_OK); } /* ** ISBRANCH -- is the SID a branch? ** ** Parameters: ** sid -- the sid to check. ** ** Returns: ** TRUE if the sid represents a branch. ** FALSE otherwise. ** ** Side Effects: ** none. */ isbranch(sid) char *sid; { register char *p; int dots; dots = 0; for (p = sid; *p != '\0'; p++) { if (*p == '.') dots++; if (dots > 1) return (TRUE); } return (FALSE); } /* ** UNEDIT -- unedit a file ** ** Checks to see that the current user is actually editting ** the file and arranges that s/he is not editting it. ** ** Parameters: ** fn -- the name of the file to be unedited. ** ** Returns: ** TRUE -- if the file was successfully unedited. ** FALSE -- if the file was not unedited for some ** reason. ** ** Side Effects: ** fn is removed ** entries are removed from pfile. */ bool unedit(fn) char *fn; { register FILE *pfp; char *cp, *pfn; static char tfn[] = _PATH_TMP; FILE *tfp; register char *q; bool delete = FALSE; bool others = FALSE; char *myname; extern char *username(); struct pfile *pent; extern struct pfile *getpfent(); char buf[PFILELG]; extern char *makefile(), *rindex(), *tail(); /* make "s." filename & find the trailing component */ pfn = makefile(fn); if (pfn == NULL) return (FALSE); q = rindex(pfn, '/'); if (q == NULL) q = &pfn[-1]; if (q[1] != 's' || q[2] != '.') { usrerr("bad file name \"%s\"", fn); return (FALSE); } /* turn "s." into "p." & try to open it */ *++q = 'p'; pfp = fopen(pfn, "r"); if (pfp == NULL) { printf("%12s: not being edited\n", fn); return (FALSE); } /* create temp file for editing p-file */ mktemp(tfn); tfp = fopen(tfn, "w"); if (tfp == NULL) { usrerr("cannot create \"%s\"", tfn); exit(EX_OSERR); } /* figure out who I am */ myname = username(); /* ** Copy p-file to temp file, doing deletions as needed. */ while ((pent = getpfent(pfp)) != NULL) { if (strcmp(pent->p_user, myname) == 0) { /* a match */ delete++; } else { /* output it again */ putpfent(pent, tfp); others++; } } /* * Before changing anything, make sure we can remove * the file in question (assuming it exists). */ if (delete) { extern int errno; cp = tail(fn); errno = 0; if (access(cp, 0) < 0 && errno != ENOENT) goto bad; if (errno == 0) /* * This is wrong, but the rest of the program * has built in assumptions about "." as well, * so why make unedit a special case? */ if (access(".", 2) < 0) { bad: printf("%12s: can't remove\n", cp); fclose(tfp); fclose(pfp); unlink(tfn); return (FALSE); } } /* do final cleanup */ if (others) { /* copy it back (perhaps it should be linked?) */ if (freopen(tfn, "r", tfp) == NULL) { syserr("cannot reopen \"%s\"", tfn); exit(EX_OSERR); } if (freopen(pfn, "w", pfp) == NULL) { usrerr("cannot create \"%s\"", pfn); return (FALSE); } while (fgets(buf, sizeof buf, tfp) != NULL) fputs(buf, pfp); } else { /* it's empty -- remove it */ unlink(pfn); } fclose(tfp); fclose(pfp); unlink(tfn); /* actually remove the g-file */ if (delete) { /* * Since we've checked above, we can * use the return from unlink to * determine if the file existed or not. */ if (unlink(cp) >= 0) printf("%12s: removed\n", cp); return (TRUE); } else { printf("%12s: not being edited by you\n", fn); return (FALSE); } } /* ** DODIFF -- diff an s-file against a g-file ** ** Parameters: ** getv -- argv for the 'get' command. ** gfile -- name of the g-file to diff against. ** ** Returns: ** Result of get. ** ** Side Effects: ** none. */ dodiff(getv, gfile) char **getv; char *gfile; { int pipev[2]; int rval; register int i; register int pid; auto int st; extern int errno; sig_t osig; printf("\n------- %s -------\n", gfile); fflush(stdout); /* create context for diff to run in */ if (pipe(pipev) < 0) { syserr("dodiff: pipe failed"); exit(EX_OSERR); } if ((pid = fork()) < 0) { syserr("dodiff: fork failed"); exit(EX_OSERR); } else if (pid > 0) { /* in parent; run get */ OutFile = pipev[1]; close(pipev[0]); rval = command(&getv[1], TRUE, "get:rcixt -s -k -p"); osig = signal(SIGINT, SIG_IGN); while (((i = wait(&st)) >= 0 && i != pid) || errno == EINTR) errno = 0; signal(SIGINT, osig); /* ignore result of diff */ } else { /* in child, run diff */ if (close(pipev[1]) < 0 || close(0) < 0 || dup(pipev[0]) != 0 || close(pipev[0]) < 0) { syserr("dodiff: magic failed"); exit(EX_OSERR); } command(&getv[1], FALSE, "-diff:elsfhbC"); } return (rval); } /* ** TAIL -- return tail of filename. ** ** Parameters: ** fn -- the filename. ** ** Returns: ** a pointer to the tail of the filename; e.g., given ** "cmd/ls.c", "ls.c" is returned. ** ** Side Effects: ** none. */ char * tail(fn) register char *fn; { register char *p; for (p = fn; *p != 0; p++) if (*p == '/' && p[1] != '\0' && p[1] != '/') fn = &p[1]; return (fn); } /* ** GETPFENT -- get an entry from the p-file ** ** Parameters: ** pfp -- p-file file pointer ** ** Returns: ** pointer to p-file struct for next entry ** NULL on EOF or error ** ** Side Effects: ** Each call wipes out results of previous call. */ struct pfile * getpfent(pfp) FILE *pfp; { static struct pfile ent; static char buf[PFILELG]; register char *p; extern char *nextfield(); if (fgets(buf, sizeof buf, pfp) == NULL) return (NULL); ent.p_osid = p = buf; ent.p_nsid = p = nextfield(p); ent.p_user = p = nextfield(p); ent.p_date = p = nextfield(p); ent.p_time = p = nextfield(p); ent.p_aux = p = nextfield(p); return (&ent); } char * nextfield(p) register char *p; { if (p == NULL || *p == '\0') return (NULL); while (*p != ' ' && *p != '\n' && *p != '\0') p++; if (*p == '\n' || *p == '\0') { *p = '\0'; return (NULL); } *p++ = '\0'; return (p); } /* ** PUTPFENT -- output a p-file entry to a file ** ** Parameters: ** pf -- the p-file entry ** f -- the file to put it on. ** ** Returns: ** none. ** ** Side Effects: ** pf is written onto file f. */ putpfent(pf, f) register struct pfile *pf; register FILE *f; { fprintf(f, "%s %s %s %s %s", pf->p_osid, pf->p_nsid, pf->p_user, pf->p_date, pf->p_time); if (pf->p_aux != NULL) fprintf(f, " %s", pf->p_aux); else fprintf(f, "\n"); } /* ** USRERR -- issue user-level error ** ** Parameters: ** f -- format string. ** p1-p3 -- parameters to a printf. ** ** Returns: ** -1 ** ** Side Effects: ** none. */ /*VARARGS1*/ usrerr(f, p1, p2, p3) char *f; { fprintf(stderr, "\n%s: ", MyName); fprintf(stderr, f, p1, p2, p3); fprintf(stderr, "\n"); return (-1); } /* ** SYSERR -- print system-generated error. ** ** Parameters: ** f -- format string to a printf. ** p1, p2, p3 -- parameters to f. ** ** Returns: ** never. ** ** Side Effects: ** none. */ /*VARARGS1*/ syserr(f, p1, p2, p3) char *f; { extern int errno; fprintf(stderr, "\n%s SYSERR: ", MyName); fprintf(stderr, f, p1, p2, p3); fprintf(stderr, "\n"); if (errno == 0) exit(EX_SOFTWARE); else { perror(NULL); exit(EX_OSERR); } } /* ** USERNAME -- return name of the current user ** ** Parameters: ** none ** ** Returns: ** name of current user ** ** Side Effects: ** none */ char * username() { # ifdef UIDUSER extern struct passwd *getpwuid(); register struct passwd *pw; pw = getpwuid(getuid()); if (pw == NULL) { syserr("who are you? (uid=%d)", getuid()); exit(EX_OSERR); } return (pw->pw_name); # else extern char *getlogin(); register char *p; p = getenv("USER"); if (p == NULL || p[0] == '\0') p = getlogin(); return (p); # endif UIDUSER } /* ** Guarded string manipulation routines; the last argument ** is the length of the buffer into which the strcpy or strcat ** is to be done. */ char *gstrcat(to, from, length) char *to, *from; int length; { if (strlen(from) + strlen(to) >= length) { gstrbotch(to, from); } return(strcat(to, from)); } char *gstrncat(to, from, n, length) char *to, *from; int n; int length; { if (n + strlen(to) >= length) { gstrbotch(to, from); } return(strncat(to, from, n)); } char *gstrcpy(to, from, length) char *to, *from; int length; { if (strlen(from) >= length) { gstrbotch(from, (char *)0); } return(strcpy(to, from)); } gstrbotch(str1, str2) char *str1, *str2; { usrerr("Filename(s) too long: %s %s", str1, str2); }