/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2007 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T */ /* All Rights Reserved */ /* Parts of this product may be derived from */ /* Mortice Kern Systems Inc. and Berkeley 4.3 BSD systems. */ /* licensed from Mortice Kern Systems Inc. and */ /* the University of California. */ /* * Copyright 1985, 1990 by Mortice Kern Systems Inc. All rights reserved. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define A_DAY (long)(60*60*24) /* a day full of seconds */ #define A_MIN (long)(60) #define BLKSIZ 512 #define round(x, s) (((x)+(s)-1)&~((s)-1)) #ifndef FTW_SLN #define FTW_SLN 7 #endif #define LINEBUF_SIZE LINE_MAX /* input or output lines */ #define REMOTE_FS "/etc/dfs/fstypes" #define N_FSTYPES 20 #define SHELL_MAXARGS 253 /* see doexec() for description */ /* * This is the list of operations * F_USER and F_GROUP are named to avoid conflict with USER and GROUP defined * in sys/acl.h */ enum Command { PRINT, DEPTH, LOCAL, MOUNT, ATIME, MTIME, CTIME, NEWER, NAME, F_USER, F_GROUP, INUM, SIZE, LINKS, PERM, EXEC, OK, CPIO, NCPIO, TYPE, AND, OR, NOT, LPAREN, RPAREN, CSIZE, VARARGS, FOLLOW, PRUNE, NOUSER, NOGRP, FSTYPE, LS, XATTR, ACL, MMIN, AMIN, CMIN }; enum Type { Unary, Id, Num, Str, Exec, Cpio, Op }; struct Args { char name[10]; enum Command action; enum Type type; }; /* * Except for pathnames, these are the only legal arguments */ static struct Args commands[] = { "!", NOT, Op, "(", LPAREN, Unary, ")", RPAREN, Unary, "-a", AND, Op, "-amin", AMIN, Num, "-atime", ATIME, Num, "-cpio", CPIO, Cpio, "-cmin", CMIN, Num, "-ctime", CTIME, Num, "-depth", DEPTH, Unary, "-exec", EXEC, Exec, "-follow", FOLLOW, Unary, "-group", F_GROUP, Num, "-inum", INUM, Num, "-links", LINKS, Num, "-local", LOCAL, Unary, "-mount", MOUNT, Unary, "-mmin", MMIN, Num, "-mtime", MTIME, Num, "-name", NAME, Str, "-ncpio", NCPIO, Cpio, "-newer", NEWER, Str, "-o", OR, Op, "-ok", OK, Exec, "-perm", PERM, Num, "-print", PRINT, Unary, "-size", SIZE, Num, "-type", TYPE, Num, "-xdev", MOUNT, Unary, "-user", F_USER, Num, "-prune", PRUNE, Unary, "-nouser", NOUSER, Unary, "-nogroup", NOGRP, Unary, "-fstype", FSTYPE, Str, "-ls", LS, Unary, "-xattr", XATTR, Unary, "-acl", ACL, Unary, NULL, 0, 0 }; union Item { struct Node *np; struct Arglist *vp; time_t t; char *cp; char **ap; long l; int i; long long ll; }; struct Node { struct Node *next; enum Command action; enum Type type; union Item first; union Item second; }; /* if no -print, -exec or -ok replace "expression" with "(expression) -print" */ static struct Node PRINT_NODE = { 0, PRINT, 0, 0}; static struct Node LPAREN_NODE = { 0, LPAREN, 0, 0}; /* * Prototype variable size arglist buffer */ struct Arglist { struct Arglist *next; char *end; char *nextstr; char **firstvar; char **nextvar; char *arglist[1]; }; static int compile(); static int execute(); static int doexec(char *, char **, int *); static struct Args *lookup(); static int ok(); static void usage(void) __NORETURN; static struct Arglist *varargs(); static int list(); static char *getgroup(); static FILE *cmdopen(); static int cmdclose(); static char *getshell(); static void init_remote_fs(); static char *getname(); static int readmode(); static mode_t getmode(); static char *gettail(); static int walkflags = FTW_CHDIR|FTW_PHYS|FTW_ANYERR|FTW_NOLOOP; static struct Node *topnode; static struct Node *freenode; /* next free node we may use later */ static char *cpio[] = { "cpio", "-o", 0 }; static char *ncpio[] = { "cpio", "-oc", 0 }; static char *cpiol[] = { "cpio", "-oL", 0 }; static char *ncpiol[] = { "cpio", "-ocL", 0 }; static time_t now; static FILE *output; static char *dummyarg = (char *)-1; static int lastval; static int varsize; static struct Arglist *lastlist; static char *cmdname; static char *remote_fstypes[N_FSTYPES+1]; static int fstype_index = 0; static int action_expression = 0; /* -print, -exec, or -ok */ static int error = 0; static int paren_cnt = 0; /* keeps track of parentheses */ static int hflag = 0; static int lflag = 0; /* set when doexec()-invoked utility returns non-zero */ static int exec_exitcode = 0; extern char **environ; int main(int argc, char **argv) { char *cp; int c; int paths; char *cwdpath; (void) setlocale(LC_ALL, ""); #if !defined(TEXT_DOMAIN) /* Should be defined by cc -D */ #define TEXT_DOMAIN "SYS_TEST" /* Use this only if it weren't */ #endif (void) textdomain(TEXT_DOMAIN); cmdname = argv[0]; if (time(&now) == (time_t)(-1)) { (void) fprintf(stderr, gettext("%s: time() %s\n"), cmdname, strerror(errno)); exit(1); } while ((c = getopt(argc, argv, "HL")) != -1) { switch (c) { case 'H': hflag = 1; lflag = 0; break; case 'L': hflag = 0; lflag = 1; break; case '?': usage(); break; } } argc -= optind; argv += optind; if (argc < 1) { (void) fprintf(stderr, gettext("%s: insufficient number of arguments\n"), cmdname); usage(); } for (paths = 0; (cp = argv[paths]) != 0; ++paths) { if (*cp == '-') break; else if ((*cp == '!' || *cp == '(') && *(cp+1) == 0) break; } if (paths == 0) /* no path-list */ usage(); output = stdout; /* lflag is the same as -follow */ if (lflag) walkflags &= ~FTW_PHYS; /* allocate enough space for the compiler */ topnode = malloc((argc + 1) * sizeof (struct Node)); (void) memset(topnode, 0, (argc + 1) * sizeof (struct Node)); if (compile(argv + paths, topnode, &action_expression) == 0) { /* no expression, default to -print */ (void) memcpy(topnode, &PRINT_NODE, sizeof (struct Node)); } else if (!action_expression) { /* * if no action expression, insert an LPAREN node above topnode, * with a PRINT node as its next node */ struct Node *savenode; if (freenode == NULL) { (void) fprintf(stderr, gettext("%s: can't append -print" " implicitly; try explicit -print option\n"), cmdname); exit(1); } savenode = topnode; topnode = freenode++; (void) memcpy(topnode, &LPAREN_NODE, sizeof (struct Node)); topnode->next = freenode; topnode->first.np = savenode; (void) memcpy(topnode->next, &PRINT_NODE, sizeof (struct Node)); } while (paths--) { char *curpath; struct stat sb; curpath = *(argv++); /* * If -H is specified, it means we walk the first * level (pathname on command line) logically, following * symlinks, but lower levels are walked physically. * We use our own secret interface to nftw() to change * the from stat to lstat after the top level is walked. */ if (hflag) { if (stat(curpath, &sb) < 0 && errno == ENOENT) walkflags &= ~FTW_HOPTION; else walkflags |= FTW_HOPTION; } /* * We need this check as nftw needs a CWD and we have no * way of returning back from that code with a meaningful * error related to this */ if ((cwdpath = getcwd(NULL, PATH_MAX)) == NULL) { (void) fprintf(stderr, gettext("%s : cannot get the current working " "directory\n"), cmdname); exit(1); } else free(cwdpath); if (nftw(curpath, execute, 1000, walkflags)) { (void) fprintf(stderr, gettext("%s: cannot open %s: %s\n"), cmdname, curpath, strerror(errno)); error = 1; } } /* execute any remaining variable length lists */ while (lastlist) { if (lastlist->end != lastlist->nextstr) { *lastlist->nextvar = 0; (void) doexec((char *)0, lastlist->arglist, &exec_exitcode); } lastlist = lastlist->next; } if (output != stdout) return (cmdclose(output)); return ((exec_exitcode != 0) ? exec_exitcode : error); } /* * compile the arguments */ static int compile(argv, np, actionp) char **argv; struct Node *np; int *actionp; { char *b; char **av; struct Node *oldnp = topnode; struct Args *argp; char **com; int i; enum Command wasop = PRINT; for (av = argv; *av && (argp = lookup(*av)); av++) { np->next = 0; np->action = argp->action; np->type = argp->type; np->second.i = 0; if (argp->type == Op) { if (wasop == NOT || (wasop && np->action != NOT)) { (void) fprintf(stderr, gettext("%s: operand follows operand\n"), cmdname); exit(1); } if (np->action != NOT && oldnp == 0) goto err; wasop = argp->action; } else { wasop = PRINT; if (argp->type != Unary) { if (!(b = *++av)) { (void) fprintf(stderr, gettext("%s: incomplete statement\n"), cmdname); exit(1); } if (argp->type == Num) { if ((argp->action != PERM) || (*b != '+')) { if (*b == '+' || *b == '-') { np->second.i = *b; b++; } } } } } switch (argp->action) { case AND: break; case NOT: break; case OR: np->first.np = topnode; topnode = np; oldnp->next = 0; break; case LPAREN: { struct Node *save = topnode; topnode = np+1; paren_cnt++; i = compile(++av, topnode, actionp); np->first.np = topnode; topnode = save; av += i; oldnp = np; np += i + 1; oldnp->next = np; continue; } case RPAREN: if (paren_cnt <= 0) { (void) fprintf(stderr, gettext("%s: unmatched ')'\n"), cmdname); exit(1); } paren_cnt--; if (oldnp == 0) goto err; if (oldnp->type == Op) { (void) fprintf(stderr, gettext("%s: cannot immediately" " follow an operand with ')'\n"), cmdname); exit(1); } oldnp->next = 0; return (av-argv); case FOLLOW: walkflags &= ~FTW_PHYS; break; case MOUNT: walkflags |= FTW_MOUNT; break; case DEPTH: walkflags |= FTW_DEPTH; break; case LOCAL: np->first.l = 0L; np->first.ll = 0LL; np->second.i = '+'; /* * Make it compatible to df -l for * future enhancement. So, anything * that is not remote, then it is * local. */ init_remote_fs(); break; case SIZE: if (b[strlen(b)-1] == 'c') np->action = CSIZE; /*FALLTHROUGH*/ case INUM: np->first.ll = atoll(b); break; case CMIN: case CTIME: case MMIN: case MTIME: case AMIN: case ATIME: case LINKS: np->first.l = atol(b); break; case F_USER: case F_GROUP: { struct passwd *pw; struct group *gr; i = -1; if (argp->action == F_USER) { if ((pw = getpwnam(b)) != 0) i = (int)pw->pw_uid; } else { if ((gr = getgrnam(b)) != 0) i = (int)gr->gr_gid; } if (i == -1) { if (fnmatch("[0-9][0-9][0-9]*", b, 0) && fnmatch("[0-9][0-9]", b, 0) && fnmatch("[0-9]", b, 0)) { (void) fprintf(stderr, gettext( "%s: cannot find %s name\n"), cmdname, *av); exit(1); } i = atoi(b); } np->first.l = i; break; } case EXEC: case OK: walkflags &= ~FTW_CHDIR; np->first.ap = av; (*actionp)++; for (;;) { if ((b = *av) == 0) { (void) fprintf(stderr, gettext("%s: incomplete statement\n"), cmdname); exit(1); } if (strcmp(b, ";") == 0) { *av = 0; break; } else if (strcmp(b, "{}") == 0) *av = dummyarg; else if (strcmp(b, "+") == 0 && av[-1] == dummyarg && np->action == EXEC) { av[-1] = 0; np->first.vp = varargs(np->first.ap); np->action = VARARGS; break; } av++; } break; case NAME: np->first.cp = b; break; case PERM: if (*b == '-') ++b; if (readmode(b) != NULL) { (void) fprintf(stderr, gettext( "find: -perm: Bad permission string\n")); usage(); } np->first.l = (long)getmode((mode_t)0); break; case TYPE: i = *b; np->first.l = i == 'd' ? S_IFDIR : i == 'b' ? S_IFBLK : i == 'c' ? S_IFCHR : #ifdef S_IFIFO i == 'p' ? S_IFIFO : #endif i == 'f' ? S_IFREG : #ifdef S_IFLNK i == 'l' ? S_IFLNK : #endif #ifdef S_IFSOCK i == 's' ? S_IFSOCK : #endif #ifdef S_IFDOOR i == 'D' ? S_IFDOOR : #endif 0; break; case CPIO: if (walkflags & FTW_PHYS) com = cpio; else com = cpiol; goto common; case NCPIO: { FILE *fd; if (walkflags & FTW_PHYS) com = ncpio; else com = ncpiol; common: /* set up cpio */ if ((fd = fopen(b, "w")) == NULL) { (void) fprintf(stderr, gettext("%s: cannot create %s\n"), cmdname, b); exit(1); } np->first.l = (long)cmdopen("cpio", com, "w", fd); (void) fclose(fd); walkflags |= FTW_DEPTH; np->action = CPIO; } /*FALLTHROUGH*/ case PRINT: (*actionp)++; break; case NEWER: { struct stat statb; if (stat(b, &statb) < 0) { (void) fprintf(stderr, gettext("%s: cannot access %s\n"), cmdname, b); exit(1); } np->first.l = statb.st_mtime; np->second.i = '+'; break; } case PRUNE: case NOUSER: case NOGRP: break; case FSTYPE: np->first.cp = b; break; case LS: (*actionp)++; break; case XATTR: break; case ACL: break; } oldnp = np++; oldnp->next = np; } if ((*av) || (wasop)) goto err; if (paren_cnt != 0) { (void) fprintf(stderr, gettext("%s: unmatched '('\n"), cmdname); exit(1); } /* just before returning, save next free node from the list */ freenode = oldnp->next; oldnp->next = 0; return (av-argv); err: if (*av) (void) fprintf(stderr, gettext("%s: bad option %s\n"), cmdname, *av); else (void) fprintf(stderr, gettext("%s: bad option\n"), cmdname); usage(); /*NOTREACHED*/ } /* * print out a usage message */ static void usage(void) { (void) fprintf(stderr, gettext("%s: [-H | -L] path-list predicate-list\n"), cmdname); exit(1); } /* * This is the function that gets executed at each node */ static int execute(name, statb, type, state) char *name; struct stat *statb; int type; struct FTW *state; { struct Node *np = topnode; int val; time_t t; long l; long long ll; int not = 1; char *filename; if (type == FTW_NS) { (void) fprintf(stderr, gettext("%s: stat() error %s: %s\n"), cmdname, name, strerror(errno)); error = 1; return (0); } else if (type == FTW_DNR) { (void) fprintf(stderr, gettext("%s: cannot read dir %s: %s\n"), cmdname, name, strerror(errno)); error = 1; return (0); } else if (type == FTW_SLN && lflag == 0) { (void) fprintf(stderr, gettext("%s: cannot follow symbolic link %s: %s\n"), cmdname, name, strerror(errno)); error = 1; return (0); } else if (type == FTW_DL) { (void) fprintf(stderr, gettext("%s: cycle detected for %s\n"), cmdname, name); error = 1; return (0); } while (np) { switch (np->action) { case NOT: not = !not; np = np->next; continue; case AND: np = np->next; continue; case OR: if (np->first.np == np) { /* * handle naked OR (no term on left hand side) */ (void) fprintf(stderr, gettext("%s: invalid -o construction\n"), cmdname); exit(2); } /* FALLTHROUGH */ case LPAREN: { struct Node *save = topnode; topnode = np->first.np; (void) execute(name, statb, type, state); val = lastval; topnode = save; if (np->action == OR) { if (val) return (0); val = 1; } break; } case LOCAL: { int nremfs; val = 1; /* * If file system type matches the remote * file system type, then it is not local. */ for (nremfs = 0; nremfs < fstype_index; nremfs++) { if (strcmp(remote_fstypes[nremfs], statb->st_fstype) == 0) { val = 0; break; } } break; } case TYPE: l = (long)statb->st_mode&S_IFMT; goto num; case PERM: l = (long)statb->st_mode&07777; if (np->second.i == '-') val = ((l&np->first.l) == np->first.l); else val = (l == np->first.l); break; case INUM: ll = (long long)statb->st_ino; goto llnum; case NEWER: l = statb->st_mtime; goto num; case ATIME: t = statb->st_atime; goto days; case CTIME: t = statb->st_ctime; goto days; case MTIME: t = statb->st_mtime; days: l = (now-t)/A_DAY; goto num; case MMIN: t = statb->st_mtime; goto mins; case AMIN: t = statb->st_atime; goto mins; case CMIN: t = statb->st_ctime; goto mins; mins: l = (now-t)/A_MIN; goto num; case CSIZE: ll = (long long)statb->st_size; goto llnum; case SIZE: ll = (long long)round(statb->st_size, BLKSIZ)/BLKSIZ; goto llnum; case F_USER: l = (long)statb->st_uid; goto num; case F_GROUP: l = (long)statb->st_gid; goto num; case LINKS: l = (long)statb->st_nlink; goto num; llnum: if (np->second.i == '+') val = (ll > np->first.ll); else if (np->second.i == '-') val = (ll < np->first.ll); else val = (ll == np->first.ll); break; num: if (np->second.i == '+') val = (l > np->first.l); else if (np->second.i == '-') val = (l < np->first.l); else val = (l == np->first.l); break; case OK: val = ok(name, np->first.ap); break; case EXEC: val = doexec(name, np->first.ap, NULL); break; case VARARGS: { struct Arglist *ap = np->first.vp; char *cp; cp = ap->nextstr - (strlen(name)+1); if (cp >= (char *)(ap->nextvar+3)) { /* there is room just copy the name */ val = 1; (void) strcpy(cp, name); *ap->nextvar++ = cp; ap->nextstr = cp; } else { /* no more room, exec command */ *ap->nextvar++ = name; *ap->nextvar = 0; val = 1; (void) doexec((char *)0, ap->arglist, &exec_exitcode); ap->nextstr = ap->end; ap->nextvar = ap->firstvar; } break; } case DEPTH: case MOUNT: case FOLLOW: val = 1; break; case NAME: { /* * XPG4 find should not treat a leading '.' in a * filename specially for pattern matching. * /usr/bin/find will not pattern match a leading * '.' in a filename, unless '.' is explicitly * specified. */ #ifdef XPG4 val = !fnmatch(np->first.cp, name+state->base, 0); #else val = !fnmatch(np->first.cp, name+state->base, FNM_PERIOD); #endif break; } case PRUNE: if (type == FTW_D) state->quit = FTW_PRUNE; val = 1; break; case NOUSER: val = ((getpwuid(statb->st_uid)) == 0); break; case NOGRP: val = ((getgrgid(statb->st_gid)) == 0); break; case FSTYPE: val = (strcmp(np->first.cp, statb->st_fstype) == 0); break; case CPIO: output = (FILE *)np->first.l; (void) fprintf(output, "%s\n", name); val = 1; break; case PRINT: (void) fprintf(stdout, "%s\n", name); val = 1; break; case LS: (void) list(name, statb); val = 1; break; case XATTR: filename = gettail(name); val = (pathconf(filename, _PC_XATTR_EXISTS) == 1); break; case ACL: /* * Need to get the tail of the file name, since we have * already chdir()ed into the directory (performed in * nftw()) of the file */ filename = gettail(name); val = acl_trivial(name); break; } /* * evaluate 'val' and 'not' (exclusive-or) * if no inversion (not == 1), return only when val == 0 * (primary not true). Otherwise, invert the primary * and return when the primary is true. * 'Lastval' saves the last result (fail or pass) when * returning back to the calling routine. */ if (val^not) { lastval = 0; return (0); } lastval = 1; not = 1; np = np->next; } return (0); } /* * code for the -ok option */ static int ok(name, argv) char *name; char *argv[]; { int c, yes = 0; (void) fflush(stdout); /* to flush possible `-print' */ if ((*argv != dummyarg) && (strcmp(*argv, name))) (void) fprintf(stderr, "< %s ... %s >? ", *argv, name); else (void) fprintf(stderr, "< {} ... %s >? ", name); (void) fflush(stderr); if ((c = tolower(getchar())) == *nl_langinfo(YESSTR)) yes = 1; while (c != '\n') if (c == EOF) exit(2); else c = getchar(); return (yes? doexec(name, argv, NULL): 0); } /* * execute argv with {} replaced by name * * Per XPG6, find must exit non-zero if an invocation through * -exec, punctuated by a plus sign, exits non-zero, so set * exitcode if we see a non-zero exit. * exitcode should be NULL when -exec or -ok is not punctuated * by a plus sign. */ static int doexec(char *name, char *argv[], int *exitcode) { char *cp; char **av = argv; char *newargs[1 + SHELL_MAXARGS + 1]; int dummyseen = 0; int i, j, status, rc, r = 0; int exit_status = 0; pid_t pid, pid1; (void) fflush(stdout); /* to flush possible `-print' */ if (name) { while (cp = *av++) { if (cp == dummyarg) { dummyseen = 1; av[-1] = name; } } } if (argv[0] == NULL) /* null command line */ return (r); if ((pid = fork()) == -1) { /* fork failed */ if (exitcode != NULL) *exitcode = 1; return (0); } if (pid != 0) { /* parent */ do { /* wait for child to exit */ if ((rc = wait(&r)) == -1 && errno != EINTR) { (void) fprintf(stderr, gettext("wait failed %s"), strerror(errno)); if (exitcode != NULL) *exitcode = 1; return (0); } } while (rc != pid); } else { /* child */ (void) execvp(argv[0], argv); if (errno != E2BIG) exit(1); /* * We are in a situation where argv[0] points to a * script without the interpreter line, e.g. #!/bin/sh. * execvp() will execute either /usr/bin/sh or * /usr/xpg4/bin/sh against the script, and you will be * limited to SHELL_MAXARGS arguments. If you try to * pass more than SHELL_MAXARGS arguments, execvp() * fails with E2BIG. * See usr/src/lib/libc/port/gen/execvp.c. * * In this situation, process the argument list by * packets of SHELL_MAXARGS arguments with respect of * the following rules: * 1. the invocations have to complete before find exits * 2. only one invocation can be running at a time */ i = 1; newargs[0] = argv[0]; while (argv[i]) { j = 1; while (j <= SHELL_MAXARGS && argv[i]) { newargs[j++] = argv[i++]; } newargs[j] = NULL; if ((pid1 = fork()) == -1) { /* fork failed */ exit(1); } if (pid1 == 0) { /* child */ (void) execvp(newargs[0], newargs); exit(1); } status = 0; do { /* wait for the child to exit */ if ((rc = wait(&status)) == -1 && errno != EINTR) { (void) fprintf(stderr, gettext("wait failed %s"), strerror(errno)); exit(1); } } while (rc != pid1); if (status) exit_status = 1; } /* all the invocations have completed */ exit(exit_status); } if (name && dummyseen) { for (av = argv; cp = *av++; ) { if (cp == name) av[-1] = dummyarg; } } if (r && exitcode != NULL) *exitcode = 3; /* use to indicate error in cmd invocation */ return (!r); } /* * Table lookup routine */ static struct Args * lookup(word) char *word; { struct Args *argp = commands; int second; if (word == 0 || *word == 0) return (0); second = word[1]; while (*argp->name) { if (second == argp->name[1] && strcmp(word, argp->name) == 0) return (argp); argp++; } return (0); } /* * Get space for variable length argument list */ static struct Arglist * varargs(com) char **com; { struct Arglist *ap; int n; char **ep; if (varsize == 0) { n = 2*sizeof (char **); for (ep = environ; *ep; ep++) n += (strlen(*ep)+sizeof (ep) + 1); varsize = sizeof (struct Arglist)+ARG_MAX-PATH_MAX-n-1; } ap = (struct Arglist *)malloc(varsize+1); ap->end = (char *)ap + varsize; ap->nextstr = ap->end; ap->nextvar = ap->arglist; while (*ap->nextvar++ = *com++); ap->nextvar--; ap->firstvar = ap->nextvar; ap->next = lastlist; lastlist = ap; return (ap); } /* * filter command support * fork and exec cmd(argv) according to mode: * * "r" with fp as stdin of cmd (default stdin), cmd stdout returned * "w" with fp as stdout of cmd (default stdout), cmd stdin returned */ #define CMDERR ((1<<8)-1) /* command error exit code */ #define MAXCMDS 8 /* max # simultaneous cmdopen()'s */ static struct /* info for each cmdopen() */ { FILE *fp; /* returned by cmdopen() */ pid_t pid; /* pid used by cmdopen() */ } cmdproc[MAXCMDS]; static FILE * cmdopen(cmd, argv, mode, fp) char *cmd; char **argv; char *mode; FILE *fp; { int proc; int cmdfd; int usrfd; int pio[2]; switch (*mode) { case 'r': cmdfd = 1; usrfd = 0; break; case 'w': cmdfd = 0; usrfd = 1; break; default: return (0); } for (proc = 0; proc < MAXCMDS; proc++) if (!cmdproc[proc].fp) break; if (proc >= MAXCMDS) return (0); if (pipe(pio)) return (0); switch (cmdproc[proc].pid = fork()) { case -1: return (0); case 0: if (fp && fileno(fp) != usrfd) { (void) close(usrfd); if (dup2(fileno(fp), usrfd) != usrfd) _exit(CMDERR); (void) close(fileno(fp)); } (void) close(cmdfd); if (dup2(pio[cmdfd], cmdfd) != cmdfd) _exit(CMDERR); (void) close(pio[cmdfd]); (void) close(pio[usrfd]); (void) execvp(cmd, argv); if (errno == ENOEXEC) { char **p; char **v; /* * assume cmd is a shell script */ p = argv; while (*p++); if (v = (char **)malloc((p - argv + 1) * sizeof (char **))) { p = v; *p++ = cmd; if (*argv) argv++; while (*p++ = *argv++); (void) execv(getshell(), v); } } _exit(CMDERR); /*NOTREACHED*/ default: (void) close(pio[cmdfd]); return (cmdproc[proc].fp = fdopen(pio[usrfd], mode)); } } /* * close a stream opened by cmdopen() * -1 returned if cmdopen() had a problem * otherwise exit() status of command is returned */ static int cmdclose(fp) FILE *fp; { int i; pid_t p, pid; int status; for (i = 0; i < MAXCMDS; i++) if (fp == cmdproc[i].fp) break; if (i >= MAXCMDS) return (-1); (void) fclose(fp); cmdproc[i].fp = 0; pid = cmdproc[i].pid; while ((p = wait(&status)) != pid && p != (pid_t)-1); if (p == pid) { status = (status >> 8) & CMDERR; if (status == CMDERR) status = -1; } else status = -1; return (status); } /* * return pointer to the full path name of the shell * * SHELL is read from the environment and must start with / * * if set-uid or set-gid then the executable and its containing * directory must not be writable by the real user * * /usr/bin/sh is returned by default */ char * getshell() { char *s; char *sh; uid_t u; int j; if (((sh = getenv("SHELL")) != 0) && *sh == '/') { if (u = getuid()) { if ((u != geteuid() || getgid() != getegid()) && !access(sh, 2)) goto defshell; s = strrchr(sh, '/'); *s = 0; j = access(sh, 2); *s = '/'; if (!j) goto defshell; } return (sh); } defshell: return ("/usr/bin/sh"); } /* * the following functions implement the added "-ls" option */ #include #include struct utmpx utmpx; #define NMAX (sizeof (utmpx.ut_name)) #define SCPYN(a, b) (void) strncpy(a, b, NMAX) #define NUID 64 #define NGID 64 static struct ncache { int id; char name[NMAX+1]; } nc[NUID], gc[NGID]; /* * This function assumes that the password file is hashed * (or some such) to allow fast access based on a name key. */ static char * getname(uid_t uid) { struct passwd *pw; int cp; #if (((NUID) & ((NUID) - 1)) != 0) cp = uid % (NUID); #else cp = uid & ((NUID) - 1); #endif if (nc[cp].id == uid && nc[cp].name[0]) return (nc[cp].name); pw = getpwuid(uid); if (!pw) return (0); nc[cp].id = uid; SCPYN(nc[cp].name, pw->pw_name); return (nc[cp].name); } /* * This function assumes that the group file is hashed * (or some such) to allow fast access based on a name key. */ static char * getgroup(gid_t gid) { struct group *gr; int cp; #if (((NGID) & ((NGID) - 1)) != 0) cp = gid % (NGID); #else cp = gid & ((NGID) - 1); #endif if (gc[cp].id == gid && gc[cp].name[0]) return (gc[cp].name); gr = getgrgid(gid); if (!gr) return (0); gc[cp].id = gid; SCPYN(gc[cp].name, gr->gr_name); return (gc[cp].name); } #define permoffset(who) ((who) * 3) #define permission(who, type) ((type) >> permoffset(who)) #define kbytes(bytes) (((bytes) + 1023) / 1024) static int list(file, stp) char *file; struct stat *stp; { char pmode[32], uname[32], gname[32], fsize[32], ftime[32]; int trivial; /* * Each line below contains the relevant permission (column 1) and character * shown when the corresponding execute bit is either clear (column 2) * or set (column 3) * These permissions are as shown by ls(1b) */ static long special[] = { S_ISUID, 'S', 's', S_ISGID, 'S', 's', S_ISVTX, 'T', 't' }; static time_t sixmonthsago = -1; #ifdef S_IFLNK char flink[MAXPATHLEN + 1]; #endif int who; char *cp; char *tailname; time_t now; long long ksize; if (file == NULL || stp == NULL) return (-1); (void) time(&now); if (sixmonthsago == -1) sixmonthsago = now - 6L*30L*24L*60L*60L; switch (stp->st_mode & S_IFMT) { #ifdef S_IFDIR case S_IFDIR: /* directory */ pmode[0] = 'd'; break; #endif #ifdef S_IFCHR case S_IFCHR: /* character special */ pmode[0] = 'c'; break; #endif #ifdef S_IFBLK case S_IFBLK: /* block special */ pmode[0] = 'b'; break; #endif #ifdef S_IFIFO case S_IFIFO: /* fifo special */ pmode[0] = 'p'; break; #endif #ifdef S_IFLNK case S_IFLNK: /* symbolic link */ pmode[0] = 'l'; break; #endif #ifdef S_IFSOCK case S_IFSOCK: /* socket */ pmode[0] = 's'; break; #endif #ifdef S_IFDOOR case S_IFDOOR: /* door */ pmode[0] = 'D'; break; #endif #ifdef S_IFREG case S_IFREG: /* regular */ pmode[0] = '-'; break; #endif default: pmode[0] = '?'; break; } for (who = 0; who < 3; who++) { int is_exec = stp->st_mode & permission(who, S_IEXEC)? 1 : 0; if (stp->st_mode & permission(who, S_IREAD)) pmode[permoffset(who) + 1] = 'r'; else pmode[permoffset(who) + 1] = '-'; if (stp->st_mode & permission(who, S_IWRITE)) pmode[permoffset(who) + 2] = 'w'; else pmode[permoffset(who) + 2] = '-'; if (stp->st_mode & special[who * 3]) pmode[permoffset(who) + 3] = special[who * 3 + 1 + is_exec]; else if (is_exec) pmode[permoffset(who) + 3] = 'x'; else pmode[permoffset(who) + 3] = '-'; } /* * Need to get the tail of the file name, since we have * already chdir()ed into the directory of the file */ tailname = gettail(file); trivial = acl_trivial(tailname); if (trivial == -1) trivial = 0; if (trivial == 1) pmode[permoffset(who) + 1] = '+'; else pmode[permoffset(who) + 1] = ' '; pmode[permoffset(who) + 2] = '\0'; /* * Prepare uname and gname. Always add a space afterwards * to keep columns from running together. */ cp = getname(stp->st_uid); if (cp != NULL) (void) sprintf(uname, "%-8s ", cp); else (void) sprintf(uname, "%-8u ", stp->st_uid); cp = getgroup(stp->st_gid); if (cp != NULL) (void) sprintf(gname, "%-8s ", cp); else (void) sprintf(gname, "%-8u ", stp->st_gid); if (pmode[0] == 'b' || pmode[0] == 'c') (void) sprintf(fsize, "%3ld,%4ld", major(stp->st_rdev), minor(stp->st_rdev)); else { (void) sprintf(fsize, (stp->st_size < 100000000) ? "%8lld" : "%lld", stp->st_size); #ifdef S_IFLNK if (pmode[0] == 'l') { who = readlink(tailname, flink, sizeof (flink) - 1); if (who >= 0) flink[who] = '\0'; else flink[0] = '\0'; } #endif } cp = ctime(&stp->st_mtime); if (stp->st_mtime < sixmonthsago || stp->st_mtime > now) (void) sprintf(ftime, "%-7.7s %-4.4s", cp + 4, cp + 20); else (void) sprintf(ftime, "%-12.12s", cp + 4); (void) printf((stp->st_ino < 100000) ? "%5llu " : "%llu ", stp->st_ino); /* inode # */ #ifdef S_IFSOCK ksize = (long long) kbytes(ldbtob(stp->st_blocks)); /* kbytes */ #else ksize = (long long) kbytes(stp->st_size); /* kbytes */ #endif (void) printf((ksize < 10000) ? "%4lld " : "%lld ", ksize); (void) printf("%s %2ld %s%s%s %s %s%s%s\n", pmode, /* protection */ stp->st_nlink, /* # of links */ uname, /* owner */ gname, /* group */ fsize, /* # of bytes */ ftime, /* modify time */ file, /* name */ #ifdef S_IFLNK (pmode[0] == 'l') ? " -> " : "", (pmode[0] == 'l') ? flink : "" /* symlink */ #else "", "" #endif ); return (0); } static char * new_string(char *s) { char *p = strdup(s); if (p) return (p); (void) fprintf(stderr, gettext("%s: out of memory\n"), cmdname); exit(1); /*NOTREACHED*/ } /* * Read remote file system types from REMOTE_FS into the * remote_fstypes array. */ static void init_remote_fs() { FILE *fp; char line_buf[LINEBUF_SIZE]; if ((fp = fopen(REMOTE_FS, "r")) == NULL) { (void) fprintf(stderr, gettext("%s: Warning: can't open %s, ignored\n"), REMOTE_FS, cmdname); /* Use default string name for NFS */ remote_fstypes[fstype_index++] = "nfs"; return; } while (fgets(line_buf, sizeof (line_buf), fp) != NULL) { char buf[LINEBUF_SIZE]; /* LINTED - unbounded string specifier */ (void) sscanf(line_buf, "%s", buf); remote_fstypes[fstype_index++] = new_string(buf); if (fstype_index == N_FSTYPES) break; } (void) fclose(fp); } #define NPERM 30 /* Largest machine */ /* * The PERM struct is the machine that builds permissions. The p_special * field contains what permissions need to be checked at run-time in * getmode(). This is one of 'X', 'u', 'g', or 'o'. It contains '\0' to * indicate normal processing. */ typedef struct PERMST { ushort_t p_who; /* Range of permission (e.g. ugo) */ ushort_t p_perm; /* Bits to turn on, off, assign */ uchar_t p_op; /* Operation: + - = */ uchar_t p_special; /* Special handling? */ } PERMST; #ifndef S_ISVTX #define S_ISVTX 0 /* Not .1 */ #endif /* Mask values */ #define P_A (S_ISUID|S_ISGID|S_ISVTX|S_IRWXU|S_IRWXG|S_IRWXO) /* allbits */ #define P_U (S_ISUID|S_ISVTX|S_IRWXU) /* user */ #define P_G (S_ISGID|S_ISVTX|S_IRWXG) /* group */ #define P_O (S_ISVTX|S_IRWXO) /* other */ static int iswho(int c); static int isop(int c); static int isperm(PERMST *pp, int c); static PERMST machine[NPERM]; /* Permission construction machine */ static PERMST *endp; /* Last used PERM structure */ static uint_t nowho; /* No who for this mode (DOS kludge) */ /* * Read an ASCII string containing the symbolic/octal mode and * compile an automaton that recognizes it. The return value * is NULL if everything is OK, otherwise it is -1. */ static int readmode(ascmode) const char *ascmode; { const char *amode = ascmode; PERMST *pp; int seen_X; nowho = 0; seen_X = 0; pp = &machine[0]; if (*amode >= '0' && *amode <= '7') { int mode; mode = 0; while (*amode >= '0' && *amode <= '7') mode = (mode<<3) + *amode++ - '0'; if (*amode != '\0') return (-1); #if S_ISUID != 04000 || S_ISGID != 02000 || \ S_IRUSR != 0400 || S_IWUSR != 0200 || S_IXUSR != 0100 || \ S_IRGRP != 0040 || S_IWGRP != 0020 || S_IXGRP != 0010 || \ S_IROTH != 0004 || S_IWOTH != 0002 || S_IXOTH != 0001 /* * There is no requirement of the octal mode bits being * the same as the S_ macros. */ { mode_t mapping[] = { S_IXOTH, S_IWOTH, S_IROTH, S_IXGRP, S_IWGRP, S_IRGRP, S_IXUSR, S_IWUSR, S_IRUSR, S_ISGID, S_ISUID, 0 }; int i, newmode = 0; for (i = 0; mapping[i] != 0; i++) if (mode & (1<p_who = P_A; pp->p_perm = mode; pp->p_op = '='; } else for (;;) { int t; int who = 0; while ((t = iswho(*amode)) != 0) { ++amode; who |= t; } if (who == 0) { mode_t currmask; (void) umask(currmask = umask((mode_t)0)); /* * If no who specified, must use contents of * umask to determine which bits to flip. This * is POSIX/V7/BSD behaviour, but not SVID. */ who = (~currmask)&P_A; ++nowho; } else nowho = 0; samewho: if (!isop(pp->p_op = *amode++)) return (-1); pp->p_perm = 0; pp->p_special = 0; while ((t = isperm(pp, *amode)) != 0) { if (pp->p_special == 'X') { seen_X = 1; if (pp->p_perm != 0) { ushort_t op; /* * Remember the 'who' for the previous * transformation. */ pp->p_who = who; pp->p_special = 0; op = pp->p_op; /* Keep 'X' separate */ ++pp; pp->p_special = 'X'; pp->p_op = op; } } else if (seen_X) { ushort_t op; /* Remember the 'who' for the X */ pp->p_who = who; op = pp->p_op; /* Keep 'X' separate */ ++pp; pp->p_perm = 0; pp->p_special = 0; pp->p_op = op; } ++amode; pp->p_perm |= t; } /* * These returned 0, but were actually parsed, so * don't look at them again. */ switch (pp->p_special) { case 'u': case 'g': case 'o': ++amode; break; } pp->p_who = who; switch (*amode) { case '\0': break; case ',': ++amode; ++pp; continue; default: ++pp; goto samewho; } break; } endp = pp; return (NULL); } /* * Given a character from the mode, return the associated * value as who (user designation) mask or 0 if this isn't valid. */ static int iswho(c) int c; { switch (c) { case 'a': return (P_A); case 'u': return (P_U); case 'g': return (P_G); case 'o': return (P_O); default: return (0); } /* NOTREACHED */ } /* * Return non-zero if this is a valid op code * in a symbolic mode. */ static int isop(c) int c; { switch (c) { case '+': case '-': case '=': return (1); default: return (0); } /* NOTREACHED */ } /* * Return the permission bits implied by this character or 0 * if it isn't valid. Also returns 0 when the pseudo-permissions 'u', 'g', or * 'o' are used, and sets pp->p_special to the one used. */ static int isperm(pp, c) PERMST *pp; int c; { switch (c) { case 'u': case 'g': case 'o': pp->p_special = c; return (0); case 'r': return (S_IRUSR|S_IRGRP|S_IROTH); case 'w': return (S_IWUSR|S_IWGRP|S_IWOTH); case 'x': return (S_IXUSR|S_IXGRP|S_IXOTH); #if S_ISVTX != 0 case 't': return (S_ISVTX); #endif case 'X': pp->p_special = 'X'; return (S_IXUSR|S_IXGRP|S_IXOTH); #if S_ISVTX != 0 case 'a': return (S_ISVTX); #endif case 'h': return (S_ISUID); /* * This change makes: * chmod +s file * set the system bit on dos but means that * chmod u+s file * chmod g+s file * chmod a+s file * are all like UNIX. */ case 's': return (nowho ? S_ISGID : S_ISGID|S_ISUID); default: return (0); } /* NOTREACHED */ } /* * Execute the automaton that is created by readmode() * to generate the final mode that will be used. This * code is passed a starting mode that is usually the original * mode of the file being changed (or 0). Note that this mode must contain * the file-type bits as well, so that S_ISDIR will succeed on directories. */ static mode_t getmode(mode_t startmode) { PERMST *pp; mode_t temp; mode_t perm; for (pp = &machine[0]; pp <= endp; ++pp) { perm = (mode_t)0; /* * For the special modes 'u', 'g' and 'o', the named portion * of the mode refers to after the previous clause has been * processed, while the 'X' mode refers to the contents of the * mode before any clauses have been processed. * * References: P1003.2/D11.2, Section 4.7.7, * lines 2568-2570, 2578-2583 */ switch (pp->p_special) { case 'u': temp = startmode & S_IRWXU; if (temp & (S_IRUSR|S_IRGRP|S_IROTH)) perm |= ((S_IRUSR|S_IRGRP|S_IROTH) & pp->p_who); if (temp & (S_IWUSR|S_IWGRP|S_IWOTH)) perm |= ((S_IWUSR|S_IWGRP|S_IWOTH) & pp->p_who); if (temp & (S_IXUSR|S_IXGRP|S_IXOTH)) perm |= ((S_IXUSR|S_IXGRP|S_IXOTH) & pp->p_who); break; case 'g': temp = startmode & S_IRWXG; if (temp & (S_IRUSR|S_IRGRP|S_IROTH)) perm |= ((S_IRUSR|S_IRGRP|S_IROTH) & pp->p_who); if (temp & (S_IWUSR|S_IWGRP|S_IWOTH)) perm |= ((S_IWUSR|S_IWGRP|S_IWOTH) & pp->p_who); if (temp & (S_IXUSR|S_IXGRP|S_IXOTH)) perm |= ((S_IXUSR|S_IXGRP|S_IXOTH) & pp->p_who); break; case 'o': temp = startmode & S_IRWXO; if (temp & (S_IRUSR|S_IRGRP|S_IROTH)) perm |= ((S_IRUSR|S_IRGRP|S_IROTH) & pp->p_who); if (temp & (S_IWUSR|S_IWGRP|S_IWOTH)) perm |= ((S_IWUSR|S_IWGRP|S_IWOTH) & pp->p_who); if (temp & (S_IXUSR|S_IXGRP|S_IXOTH)) perm |= ((S_IXUSR|S_IXGRP|S_IXOTH) & pp->p_who); break; case 'X': perm = pp->p_perm; break; default: perm = pp->p_perm; break; } switch (pp->p_op) { case '-': startmode &= ~(perm & pp->p_who); break; case '=': startmode &= ~pp->p_who; /* FALLTHROUGH */ case '+': startmode |= (perm & pp->p_who); break; } } return (startmode); } /* * Returns the last component of a path name, unless it is * an absolute path, in which case it returns the whole path */ static char *gettail(char *fname) { char *base = fname; if (*fname != '/') { if ((base = strrchr(fname, '/')) != NULL) base++; else base = fname; } return (base); }