/*- * Copyright (c) 1992, 1993 * The Regents of the University of California. All rights reserved. * * This code is derived from software contributed to Berkeley by * Casey Leedom of Lawrence Livermore National Laboratory. * * 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. */ #if defined(LIBC_SCCS) && !defined(lint) static char rcsid[] = "$OpenBSD: getcap.c,v 1.4 1997/02/01 04:35:33 deraadt Exp $"; #endif /* LIBC_SCCS and not lint */ #include #include #include #include #include #include #include #include #include #include #define BFRAG 1024 #define BSIZE 1024 #define ESC ('[' & 037) /* ASCII ESC */ #define MAX_RECURSION 32 /* maximum getent recursion */ #define SFRAG 100 /* cgetstr mallocs in SFRAG chunks */ #define RECOK (char)0 #define TCERR (char)1 #define SHADOW (char)2 static size_t topreclen; /* toprec length */ static char *toprec; /* Additional record specified by cgetset() */ static int gottoprec; /* Flag indicating retrieval of toprecord */ static int cdbget __P((DB *, char **, char *)); static int getent __P((char **, u_int *, char **, int, char *, int, char *)); static int nfcmp __P((char *, char *)); /* * Cgetset() allows the addition of a user specified buffer to be added * to the database array, in effect "pushing" the buffer on top of the * virtual database. 0 is returned on success, -1 on failure. */ int cgetset(ent) char *ent; { if (ent == NULL) { if (toprec) free(toprec); toprec = NULL; topreclen = 0; return (0); } topreclen = strlen(ent); if ((toprec = malloc (topreclen + 1)) == NULL) { errno = ENOMEM; return (-1); } gottoprec = 0; (void)strcpy(toprec, ent); return (0); } /* * Cgetcap searches the capability record buf for the capability cap with * type `type'. A pointer to the value of cap is returned on success, NULL * if the requested capability couldn't be found. * * Specifying a type of ':' means that nothing should follow cap (:cap:). * In this case a pointer to the terminating ':' or NUL will be returned if * cap is found. * * If (cap, '@') or (cap, terminator, '@') is found before (cap, terminator) * return NULL. */ char * cgetcap(buf, cap, type) char *buf, *cap; int type; { register char *bp, *cp; bp = buf; for (;;) { /* * Skip past the current capability field - it's either the * name field if this is the first time through the loop, or * the remainder of a field whose name failed to match cap. */ for (;;) if (*bp == '\0') return (NULL); else if (*bp++ == ':') break; /* * Try to match (cap, type) in buf. */ for (cp = cap; *cp == *bp && *bp != '\0'; cp++, bp++) continue; if (*cp != '\0') continue; if (*bp == '@') return (NULL); if (type == ':') { if (*bp != '\0' && *bp != ':') continue; return(bp); } if (*bp != type) continue; bp++; return (*bp == '@' ? NULL : bp); } /* NOTREACHED */ } /* * Cgetent extracts the capability record name from the NULL terminated file * array db_array and returns a pointer to a malloc'd copy of it in buf. * Buf must be retained through all subsequent calls to cgetcap, cgetnum, * cgetflag, and cgetstr, but may then be free'd. 0 is returned on success, * -1 if the requested record couldn't be found, -2 if a system error was * encountered (couldn't open/read a file, etc.), and -3 if a potential * reference loop is detected. */ int cgetent(buf, db_array, name) char **buf, **db_array, *name; { u_int dummy; return (getent(buf, &dummy, db_array, -1, name, 0, NULL)); } /* * Getent implements the functions of cgetent. If fd is non-negative, * *db_array has already been opened and fd is the open file descriptor. We * do this to save time and avoid using up file descriptors for tc= * recursions. * * Getent returns the same success/failure codes as cgetent. On success, a * pointer to a malloc'ed capability record with all tc= capabilities fully * expanded and its length (not including trailing ASCII NUL) are left in * *cap and *len. * * Basic algorithm: * + Allocate memory incrementally as needed in chunks of size BFRAG * for capability buffer. * + Recurse for each tc=name and interpolate result. Stop when all * names interpolated, a name can't be found, or depth exceeds * MAX_RECURSION. */ static int getent(cap, len, db_array, fd, name, depth, nfield) char **cap, **db_array, *name, *nfield; u_int *len; int fd, depth; { DB *capdbp; register char *r_end, *rp, **db_p; int myfd, eof, foundit, retval, clen; char *record, *cbuf; int tc_not_resolved; char pbuf[_POSIX_PATH_MAX]; /* * Return with ``loop detected'' error if we've recursed more than * MAX_RECURSION times. */ if (depth > MAX_RECURSION) return (-3); /* * Check if we have a top record from cgetset(). */ if (depth == 0 && toprec != NULL && cgetmatch(toprec, name) == 0) { if ((record = malloc (topreclen + BFRAG)) == NULL) { errno = ENOMEM; return (-2); } (void)strcpy(record, toprec); myfd = 0; db_p = db_array; rp = record + topreclen + 1; r_end = rp + BFRAG; goto tc_exp; } /* * Allocate first chunk of memory. */ if ((record = malloc(BFRAG)) == NULL) { errno = ENOMEM; return (-2); } r_end = record + BFRAG; foundit = 0; /* * Loop through database array until finding the record. */ for (db_p = db_array; *db_p != NULL; db_p++) { eof = 0; /* * Open database if not already open. */ if (fd >= 0) { (void)lseek(fd, (off_t)0, SEEK_SET); myfd = 0; } else { (void)snprintf(pbuf, sizeof(pbuf), "%s.db", *db_p); if ((capdbp = dbopen(pbuf, O_RDONLY, 0, DB_HASH, 0)) != NULL) { free(record); retval = cdbget(capdbp, &record, name); if (retval < 0) { /* no record available */ (void)capdbp->close(capdbp); return (retval); } /* save the data; close frees it */ clen = strlen(record); cbuf = malloc(clen + 1); memcpy(cbuf, record, clen + 1); if (capdbp->close(capdbp) < 0) { free(cbuf); return (-2); } *len = clen; *cap = cbuf; return (retval); } else { fd = open(*db_p, O_RDONLY, 0); if (fd < 0) { /* No error on unfound file. */ continue; } myfd = 1; } } /* * Find the requested capability record ... */ { char buf[BUFSIZ]; register char *b_end, *bp; register int c; /* * Loop invariants: * There is always room for one more character in record. * R_end always points just past end of record. * Rp always points just past last character in record. * B_end always points just past last character in buf. * Bp always points at next character in buf. */ b_end = buf; bp = buf; for (;;) { /* * Read in a line implementing (\, newline) * line continuation. */ rp = record; for (;;) { if (bp >= b_end) { int n; n = read(fd, buf, sizeof(buf)); if (n <= 0) { if (myfd) (void)close(fd); if (n < 0) { free(record); return (-2); } else { fd = -1; eof = 1; break; } } b_end = buf+n; bp = buf; } c = *bp++; if (c == '\n') { if (rp > record && *(rp-1) == '\\') { rp--; continue; } else break; } *rp++ = c; /* * Enforce loop invariant: if no room * left in record buffer, try to get * some more. */ if (rp >= r_end) { u_int pos; size_t newsize; pos = rp - record; newsize = r_end - record + BFRAG; record = realloc(record, newsize); if (record == NULL) { errno = ENOMEM; if (myfd) (void)close(fd); return (-2); } r_end = record + newsize; rp = record + pos; } } /* loop invariant let's us do this */ *rp++ = '\0'; /* * If encountered eof check next file. */ if (eof) break; /* * Toss blank lines and comments. */ if (*record == '\0' || *record == '#') continue; /* * See if this is the record we want ... */ if (cgetmatch(record, name) == 0) { if (nfield == NULL || !nfcmp(nfield, record)) { foundit = 1; break; /* found it! */ } } } } if (foundit) break; } if (!foundit) { free(record); return (-1); } /* * Got the capability record, but now we have to expand all tc=name * references in it ... */ tc_exp: { register char *newicap, *s; register int newilen; u_int ilen; int diff, iret, tclen; char *icap, *scan, *tc, *tcstart, *tcend; /* * Loop invariants: * There is room for one more character in record. * R_end points just past end of record. * Rp points just past last character in record. * Scan points at remainder of record that needs to be * scanned for tc=name constructs. */ scan = record; tc_not_resolved = 0; for (;;) { if ((tc = cgetcap(scan, "tc", '=')) == NULL) break; /* * Find end of tc=name and stomp on the trailing `:' * (if present) so we can use it to call ourselves. */ s = tc; for (;;) if (*s == '\0') break; else if (*s++ == ':') { *(s - 1) = '\0'; break; } tcstart = tc - 3; tclen = s - tcstart; tcend = s; iret = getent(&icap, &ilen, db_p, fd, tc, depth+1, NULL); newicap = icap; /* Put into a register. */ newilen = ilen; if (iret != 0) { /* an error */ if (iret < -1) { if (myfd) (void)close(fd); free(record); return (iret); } if (iret == 1) tc_not_resolved = 1; /* couldn't resolve tc */ if (iret == -1) { *(s - 1) = ':'; scan = s - 1; tc_not_resolved = 1; continue; } } /* not interested in name field of tc'ed record */ s = newicap; for (;;) if (*s == '\0') break; else if (*s++ == ':') break; newilen -= s - newicap; newicap = s; /* make sure interpolated record is `:'-terminated */ s += newilen; if (*(s-1) != ':') { *s = ':'; /* overwrite NUL with : */ newilen++; } /* * Make sure there's enough room to insert the * new record. */ diff = newilen - tclen; if (diff >= r_end - rp) { u_int pos, tcpos, tcposend; size_t newsize; pos = rp - record; newsize = r_end - record + diff + BFRAG; tcpos = tcstart - record; tcposend = tcend - record; record = realloc(record, newsize); if (record == NULL) { errno = ENOMEM; if (myfd) (void)close(fd); free(icap); return (-2); } r_end = record + newsize; rp = record + pos; tcstart = record + tcpos; tcend = record + tcposend; } /* * Insert tc'ed record into our record. */ s = tcstart + newilen; bcopy(tcend, s, rp - tcend); bcopy(newicap, tcstart, newilen); rp += diff; free(icap); /* * Start scan on `:' so next cgetcap works properly * (cgetcap always skips first field). */ scan = s-1; } } /* * Close file (if we opened it), give back any extra memory, and * return capability, length and success. */ if (myfd) (void)close(fd); *len = rp - record - 1; /* don't count NUL */ if (r_end > rp) if ((record = realloc(record, (size_t)(rp - record))) == NULL) { errno = ENOMEM; return (-2); } *cap = record; if (tc_not_resolved) return (1); return (0); } static int cdbget(capdbp, bp, name) DB *capdbp; char **bp, *name; { DBT key, data; key.data = name; key.size = strlen(name); for (;;) { /* Get the reference. */ switch(capdbp->get(capdbp, &key, &data, 0)) { case -1: return (-2); case 1: return (-1); } /* If not an index to another record, leave. */ if (((char *)data.data)[0] != SHADOW) break; key.data = (char *)data.data + 1; key.size = data.size - 1; } *bp = (char *)data.data + 1; return (((char *)(data.data))[0] == TCERR ? 1 : 0); } /* * Cgetmatch will return 0 if name is one of the names of the capability * record buf, -1 if not. */ int cgetmatch(buf, name) char *buf, *name; { register char *np, *bp; /* * Start search at beginning of record. */ bp = buf; for (;;) { /* * Try to match a record name. */ np = name; for (;;) if (*np == '\0') if (*bp == '|' || *bp == ':' || *bp == '\0') return (0); else break; else if (*bp++ != *np++) break; /* * Match failed, skip to next name in record. */ bp--; /* a '|' or ':' may have stopped the match */ for (;;) if (*bp == '\0' || *bp == ':') return (-1); /* match failed totally */ else if (*bp++ == '|') break; /* found next name */ } } int cgetfirst(buf, db_array) char **buf, **db_array; { (void)cgetclose(); return (cgetnext(buf, db_array)); } static FILE *pfp; static int slash; static char **dbp; int cgetclose() { if (pfp != NULL) { (void)fclose(pfp); pfp = NULL; } dbp = NULL; gottoprec = 0; slash = 0; return(0); } /* * Cgetnext() gets either the first or next entry in the logical database * specified by db_array. It returns 0 upon completion of the database, 1 * upon returning an entry with more remaining, and -1 if an error occurs. */ int cgetnext(bp, db_array) register char **bp; char **db_array; { size_t len; int status, done; char *cp, *line, *rp, *np, buf[BSIZE], nbuf[BSIZE]; u_int dummy; if (dbp == NULL) dbp = db_array; if (pfp == NULL && (pfp = fopen(*dbp, "r")) == NULL) { (void)cgetclose(); return (-1); } for(;;) { if (toprec && !gottoprec) { gottoprec = 1; line = toprec; } else { line = fgetln(pfp, &len); if (line == NULL && pfp) { (void)fclose(pfp); if (ferror(pfp)) { (void)cgetclose(); return (-1); } else { if (*++dbp == NULL) { (void)cgetclose(); return (0); } else if ((pfp = fopen(*dbp, "r")) == NULL) { (void)cgetclose(); return (-1); } else continue; } } else line[len - 1] = '\0'; if (len == 1) { slash = 0; continue; } if (isspace(*line) || *line == ':' || *line == '#' || slash) { if (line[len - 2] == '\\') slash = 1; else slash = 0; continue; } if (line[len - 2] == '\\') slash = 1; else slash = 0; } /* * Line points to a name line. */ done = 0; np = nbuf; for (;;) { for (cp = line; *cp != '\0'; cp++) { if (*cp == ':') { *np++ = ':'; done = 1; break; } if (*cp == '\\') break; *np++ = *cp; } if (done) { *np = '\0'; break; } else { /* name field extends beyond the line */ line = fgetln(pfp, &len); if (line == NULL && pfp) { (void)fclose(pfp); if (ferror(pfp)) { (void)cgetclose(); return (-1); } } else line[len - 1] = '\0'; } } rp = buf; for(cp = nbuf; *cp != NULL; cp++) if (*cp == '|' || *cp == ':') break; else *rp++ = *cp; *rp = '\0'; /* * XXX * Last argument of getent here should be nbuf if we want true * sequential access in the case of duplicates. * With NULL, getent will return the first entry found * rather than the duplicate entry record. This is a * matter of semantics that should be resolved. */ status = getent(bp, &dummy, db_array, -1, buf, 0, NULL); if (status == -2 || status == -3) (void)cgetclose(); return (status + 1); } /* NOTREACHED */ } /* * Cgetstr retrieves the value of the string capability cap from the * capability record pointed to by buf. A pointer to a decoded, NUL * terminated, malloc'd copy of the string is returned in the char * * pointed to by str. The length of the string not including the trailing * NUL is returned on success, -1 if the requested string capability * couldn't be found, -2 if a system error was encountered (storage * allocation failure). */ int cgetstr(buf, cap, str) char *buf, *cap; char **str; { register u_int m_room; register char *bp, *mp; int len; char *mem; /* * Find string capability cap */ bp = cgetcap(buf, cap, '='); if (bp == NULL) return (-1); /* * Conversion / storage allocation loop ... Allocate memory in * chunks SFRAG in size. */ if ((mem = malloc(SFRAG)) == NULL) { errno = ENOMEM; return (-2); /* couldn't even allocate the first fragment */ } m_room = SFRAG; mp = mem; while (*bp != ':' && *bp != '\0') { /* * Loop invariants: * There is always room for one more character in mem. * Mp always points just past last character in mem. * Bp always points at next character in buf. */ if (*bp == '^') { bp++; if (*bp == ':' || *bp == '\0') break; /* drop unfinished escape */ *mp++ = *bp++ & 037; } else if (*bp == '\\') { bp++; if (*bp == ':' || *bp == '\0') break; /* drop unfinished escape */ if ('0' <= *bp && *bp <= '7') { register int n, i; n = 0; i = 3; /* maximum of three octal digits */ do { n = n * 8 + (*bp++ - '0'); } while (--i && '0' <= *bp && *bp <= '7'); *mp++ = n; } else switch (*bp++) { case 'b': case 'B': *mp++ = '\b'; break; case 't': case 'T': *mp++ = '\t'; break; case 'n': case 'N': *mp++ = '\n'; break; case 'f': case 'F': *mp++ = '\f'; break; case 'r': case 'R': *mp++ = '\r'; break; case 'e': case 'E': *mp++ = ESC; break; case 'c': case 'C': *mp++ = ':'; break; default: /* * Catches '\', '^', and * everything else. */ *mp++ = *(bp-1); break; } } else *mp++ = *bp++; m_room--; /* * Enforce loop invariant: if no room left in current * buffer, try to get some more. */ if (m_room == 0) { size_t size = mp - mem; if ((mem = realloc(mem, size + SFRAG)) == NULL) return (-2); m_room = SFRAG; mp = mem + size; } } *mp++ = '\0'; /* loop invariant let's us do this */ m_room--; len = mp - mem - 1; /* * Give back any extra memory and return value and success. */ if (m_room != 0) if ((mem = realloc(mem, (size_t)(mp - mem))) == NULL) return (-2); *str = mem; return (len); } /* * Cgetustr retrieves the value of the string capability cap from the * capability record pointed to by buf. The difference between cgetustr() * and cgetstr() is that cgetustr does not decode escapes but rather treats * all characters literally. A pointer to a NUL terminated malloc'd * copy of the string is returned in the char pointed to by str. The * length of the string not including the trailing NUL is returned on success, * -1 if the requested string capability couldn't be found, -2 if a system * error was encountered (storage allocation failure). */ int cgetustr(buf, cap, str) char *buf, *cap, **str; { register u_int m_room; register char *bp, *mp; int len; char *mem; /* * Find string capability cap */ if ((bp = cgetcap(buf, cap, '=')) == NULL) return (-1); /* * Conversion / storage allocation loop ... Allocate memory in * chunks SFRAG in size. */ if ((mem = malloc(SFRAG)) == NULL) { errno = ENOMEM; return (-2); /* couldn't even allocate the first fragment */ } m_room = SFRAG; mp = mem; while (*bp != ':' && *bp != '\0') { /* * Loop invariants: * There is always room for one more character in mem. * Mp always points just past last character in mem. * Bp always points at next character in buf. */ *mp++ = *bp++; m_room--; /* * Enforce loop invariant: if no room left in current * buffer, try to get some more. */ if (m_room == 0) { size_t size = mp - mem; if ((mem = realloc(mem, size + SFRAG)) == NULL) return (-2); m_room = SFRAG; mp = mem + size; } } *mp++ = '\0'; /* loop invariant let's us do this */ m_room--; len = mp - mem - 1; /* * Give back any extra memory and return value and success. */ if (m_room != 0) if ((mem = realloc(mem, (size_t)(mp - mem))) == NULL) return (-2); *str = mem; return (len); } /* * Cgetnum retrieves the value of the numeric capability cap from the * capability record pointed to by buf. The numeric value is returned in * the long pointed to by num. 0 is returned on success, -1 if the requested * numeric capability couldn't be found. */ int cgetnum(buf, cap, num) char *buf, *cap; long *num; { register long n; register int base, digit; register char *bp; /* * Find numeric capability cap */ bp = cgetcap(buf, cap, '#'); if (bp == NULL) return (-1); /* * Look at value and determine numeric base: * 0x... or 0X... hexadecimal, * else 0... octal, * else decimal. */ if (*bp == '0') { bp++; if (*bp == 'x' || *bp == 'X') { bp++; base = 16; } else base = 8; } else base = 10; /* * Conversion loop ... */ n = 0; for (;;) { if ('0' <= *bp && *bp <= '9') digit = *bp - '0'; else if ('a' <= *bp && *bp <= 'f') digit = 10 + *bp - 'a'; else if ('A' <= *bp && *bp <= 'F') digit = 10 + *bp - 'A'; else break; if (digit >= base) break; n = n * base + digit; bp++; } /* * Return value and success. */ *num = n; return (0); } /* * Compare name field of record. */ static int nfcmp(nf, rec) char *nf, *rec; { char *cp, tmp; int ret; for (cp = rec; *cp != ':'; cp++) ; tmp = *(cp + 1); *(cp + 1) = '\0'; ret = strcmp(nf, rec); *(cp + 1) = tmp; return (ret); }