/* * Copyright (c) 1992, 1993 * The Regents of the University of California. All rights reserved. * * This code is derived from software contributed to Berkeley by * Rick Macklem at The University of Guelph. * * 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 sccsid[] = "@(#)getnetgrent.c 8.2 (Berkeley) 4/27/95"; #endif /* LIBC_SCCS and not lint */ #include __FBSDID("$FreeBSD$"); #include #include #include #include #include #ifdef YP /* * Notes: * We want to be able to use NIS netgroups properly while retaining * the ability to use a local /etc/netgroup file. Unfortunately, you * can't really do both at the same time - at least, not efficiently. * NetBSD deals with this problem by creating a netgroup database * using Berkeley DB (just like the password database) that allows * for lookups using netgroup, netgroup.byuser or netgroup.byhost * searches. This is a neat idea, but I don't have time to implement * something like that now. (I think ultimately it would be nice * if we DB-fied the group and netgroup stuff all in one shot, but * for now I'm satisfied just to have something that works well * without requiring massive code changes.) * * Therefore, to still permit the use of the local file and maintain * optimum NIS performance, we allow for the following conditions: * * - If /etc/netgroup does not exist and NIS is turned on, we use * NIS netgroups only. * * - If /etc/netgroup exists but is empty, we use NIS netgroups * only. * * - If /etc/netgroup exists and contains _only_ a '+', we use * NIS netgroups only. * * - If /etc/netgroup exists, contains locally defined netgroups * and a '+', we use a mixture of NIS and the local entries. * This method should return the same NIS data as just using * NIS alone, but it will be slower if the NIS netgroup database * is large (innetgr() in particular will suffer since extra * processing has to be done in order to determine memberships * using just the raw netgroup data). * * - If /etc/netgroup exists and contains only locally defined * netgroup entries, we use just those local entries and ignore * NIS (this is the original, pre-NIS behavior). */ #include #include #include #include #include #include #include static char *_netgr_yp_domain; int _use_only_yp; static int _netgr_yp_enabled; static int _yp_innetgr; #endif #ifndef _PATH_NETGROUP #define _PATH_NETGROUP "/etc/netgroup" #endif /* * Static Variables and functions used by setnetgrent(), getnetgrent() and * endnetgrent(). * There are two linked lists: * - linelist is just used by setnetgrent() to parse the net group file via. * parse_netgrp() * - netgrp is the list of entries for the current netgroup */ struct linelist { struct linelist *l_next; /* Chain ptr. */ int l_parsed; /* Flag for cycles */ char *l_groupname; /* Name of netgroup */ char *l_line; /* Netgroup entrie(s) to be parsed */ }; struct netgrp { struct netgrp *ng_next; /* Chain ptr */ char *ng_str[3]; /* Field pointers, see below */ }; #define NG_HOST 0 /* Host name */ #define NG_USER 1 /* User name */ #define NG_DOM 2 /* and Domain name */ static struct linelist *linehead = (struct linelist *)0; static struct netgrp *nextgrp = (struct netgrp *)0; static struct { struct netgrp *gr; char *grname; } grouphead = { (struct netgrp *)0, (char *)0, }; static FILE *netf = (FILE *)0; static int parse_netgrp(const char *); static struct linelist *read_for_group(const char *); void setnetgrent(const char *); void endnetgrent(void); int getnetgrent(char **, char **, char **); int innetgr(const char *, const char *, const char *, const char *); #define LINSIZ 1024 /* Length of netgroup file line */ /* * setnetgrent() * Parse the netgroup file looking for the netgroup and build the list * of netgrp structures. Let parse_netgrp() and read_for_group() do * most of the work. */ void setnetgrent(const char *group) { #ifdef YP struct stat _yp_statp; char _yp_plus; #endif /* Sanity check */ if (group == NULL || !strlen(group)) return; if (grouphead.gr == (struct netgrp *)0 || strcmp(group, grouphead.grname)) { endnetgrent(); #ifdef YP /* Presumed guilty until proven innocent. */ _use_only_yp = 0; /* * If /etc/netgroup doesn't exist or is empty, * use NIS exclusively. */ if (((stat(_PATH_NETGROUP, &_yp_statp) < 0) && errno == ENOENT) || _yp_statp.st_size == 0) _use_only_yp = _netgr_yp_enabled = 1; if ((netf = fopen(_PATH_NETGROUP,"r")) != NULL ||_use_only_yp){ /* * Icky: grab the first character of the netgroup file * and turn on NIS if it's a '+'. rewind the stream * afterwards so we don't goof up read_for_group() later. */ if (netf) { fscanf(netf, "%c", &_yp_plus); rewind(netf); if (_yp_plus == '+') _use_only_yp = _netgr_yp_enabled = 1; } /* * If we were called specifically for an innetgr() * lookup and we're in NIS-only mode, short-circuit * parse_netgroup() and cut directly to the chase. */ if (_use_only_yp && _yp_innetgr) { /* dohw! */ if (netf != NULL) fclose(netf); return; } #else if (netf = fopen(_PATH_NETGROUP, "r")) { #endif if (parse_netgrp(group)) endnetgrent(); else { grouphead.grname = (char *) malloc(strlen(group) + 1); strcpy(grouphead.grname, group); } if (netf) fclose(netf); } } nextgrp = grouphead.gr; } /* * Get the next netgroup off the list. */ int getnetgrent(char **hostp, char **userp, char **domp) { #ifdef YP _yp_innetgr = 0; #endif if (nextgrp) { *hostp = nextgrp->ng_str[NG_HOST]; *userp = nextgrp->ng_str[NG_USER]; *domp = nextgrp->ng_str[NG_DOM]; nextgrp = nextgrp->ng_next; return (1); } return (0); } /* * endnetgrent() - cleanup */ void endnetgrent(void) { struct linelist *lp, *olp; struct netgrp *gp, *ogp; lp = linehead; while (lp) { olp = lp; lp = lp->l_next; free(olp->l_groupname); free(olp->l_line); free((char *)olp); } linehead = (struct linelist *)0; if (grouphead.grname) { free(grouphead.grname); grouphead.grname = (char *)0; } gp = grouphead.gr; while (gp) { ogp = gp; gp = gp->ng_next; if (ogp->ng_str[NG_HOST]) free(ogp->ng_str[NG_HOST]); if (ogp->ng_str[NG_USER]) free(ogp->ng_str[NG_USER]); if (ogp->ng_str[NG_DOM]) free(ogp->ng_str[NG_DOM]); free((char *)ogp); } grouphead.gr = (struct netgrp *)0; #ifdef YP _netgr_yp_enabled = 0; #endif } #ifdef YP static int _listmatch(const char *list, const char *group, int len) { const char *ptr = list; const char *cptr; int glen = strlen(group); /* skip possible leading whitespace */ while(isspace((unsigned char)*ptr)) ptr++; while (ptr < list + len) { cptr = ptr; while(*ptr != ',' && *ptr != '\0' && !isspace((unsigned char)*ptr)) ptr++; if (strncmp(cptr, group, glen) == 0 && glen == (ptr - cptr)) return(1); while(*ptr == ',' || isspace((unsigned char)*ptr)) ptr++; } return(0); } static int _buildkey(char *key, const char *str, const char *dom, int *rotation) { (*rotation)++; if (*rotation > 4) return(0); switch(*rotation) { case(1): sprintf((char *)key, "%s.%s", str, dom ? dom : "*"); break; case(2): sprintf((char *)key, "%s.*", str); break; case(3): sprintf((char *)key, "*.%s", dom ? dom : "*"); break; case(4): sprintf((char *)key, "*.*"); break; } return(1); } #endif /* * Search for a match in a netgroup. */ int innetgr(const char *group, const char *host, const char *user, const char *dom) { char *hst, *usr, *dm; #ifdef YP char *result; int resultlen; int rv; #endif /* Sanity check */ if (group == NULL || !strlen(group)) return (0); #ifdef YP _yp_innetgr = 1; #endif setnetgrent(group); #ifdef YP _yp_innetgr = 0; /* * If we're in NIS-only mode, do the search using * NIS 'reverse netgroup' lookups. */ if (_use_only_yp) { char _key[MAXHOSTNAMELEN]; int rot = 0, y = 0; if(yp_get_default_domain(&_netgr_yp_domain)) return(0); while(_buildkey(_key, user ? user : host, dom, &rot)) { y = yp_match(_netgr_yp_domain, user? "netgroup.byuser": "netgroup.byhost", _key, strlen(_key), &result, &resultlen); if (y) { /* * If we get an error other than 'no * such key in map' then something is * wrong and we should stop the search. */ if (y != YPERR_KEY) break; } else { rv = _listmatch(result, group, resultlen); free(result); if (rv) return(1); else return(0); } } /* * Couldn't match using NIS-exclusive mode. If the error * was YPERR_MAP, then the failure happened because there * was no netgroup.byhost or netgroup.byuser map. The odds * are we are talking to a Sun NIS+ server in YP emulation * mode; if this is the case, then we have to do the check * the 'old-fashioned' way by grovelling through the netgroup * map and resolving memberships on the fly. */ if (y != YPERR_MAP) return(0); } setnetgrent(group); #endif /* YP */ while (getnetgrent(&hst, &usr, &dm)) if ((host == NULL || hst == NULL || !strcmp(host, hst)) && (user == NULL || usr == NULL || !strcmp(user, usr)) && ( dom == NULL || dm == NULL || !strcmp(dom, dm))) { endnetgrent(); return (1); } endnetgrent(); return (0); } /* * Parse the netgroup file setting up the linked lists. */ static int parse_netgrp(const char *group) { char *spos, *epos; int len, strpos; #ifdef DEBUG int fields; #endif char *pos, *gpos; struct netgrp *grp; struct linelist *lp = linehead; /* * First, see if the line has already been read in. */ while (lp) { if (!strcmp(group, lp->l_groupname)) break; lp = lp->l_next; } if (lp == (struct linelist *)0 && (lp = read_for_group(group)) == (struct linelist *)0) return (1); if (lp->l_parsed) { #ifdef DEBUG /* * This error message is largely superflous since the * code handles the error condition sucessfully, and * spewing it out from inside libc can actually hose * certain programs. */ fprintf(stderr, "Cycle in netgroup %s\n", lp->l_groupname); #endif return (1); } else lp->l_parsed = 1; pos = lp->l_line; /* Watch for null pointer dereferences, dammit! */ while (pos != NULL && *pos != '\0') { if (*pos == '(') { grp = (struct netgrp *)malloc(sizeof (struct netgrp)); bzero((char *)grp, sizeof (struct netgrp)); grp->ng_next = grouphead.gr; grouphead.gr = grp; pos++; gpos = strsep(&pos, ")"); #ifdef DEBUG fields = 0; #endif for (strpos = 0; strpos < 3; strpos++) { if ((spos = strsep(&gpos, ","))) { #ifdef DEBUG fields++; #endif while (*spos == ' ' || *spos == '\t') spos++; if ((epos = strpbrk(spos, " \t"))) { *epos = '\0'; len = epos - spos; } else len = strlen(spos); if (len > 0) { grp->ng_str[strpos] = (char *) malloc(len + 1); bcopy(spos, grp->ng_str[strpos], len + 1); } } else { /* * All other systems I've tested * return NULL for empty netgroup * fields. It's up to user programs * to handle the NULLs appropriately. */ grp->ng_str[strpos] = NULL; } } #ifdef DEBUG /* * Note: on other platforms, malformed netgroup * entries are not normally flagged. While we * can catch bad entries and report them, we should * stay silent by default for compatibility's sake. */ if (fields < 3) fprintf(stderr, "Bad entry (%s%s%s%s%s) in netgroup \"%s\"\n", grp->ng_str[NG_HOST] == NULL ? "" : grp->ng_str[NG_HOST], grp->ng_str[NG_USER] == NULL ? "" : ",", grp->ng_str[NG_USER] == NULL ? "" : grp->ng_str[NG_USER], grp->ng_str[NG_DOM] == NULL ? "" : ",", grp->ng_str[NG_DOM] == NULL ? "" : grp->ng_str[NG_DOM], lp->l_groupname); #endif } else { spos = strsep(&pos, ", \t"); if (parse_netgrp(spos)) continue; } if (pos == NULL) break; while (*pos == ' ' || *pos == ',' || *pos == '\t') pos++; } return (0); } /* * Read the netgroup file and save lines until the line for the netgroup * is found. Return 1 if eof is encountered. */ static struct linelist * read_for_group(const char *group) { char *pos, *spos, *linep, *olinep; int len, olen; int cont; struct linelist *lp; char line[LINSIZ + 2]; #ifdef YP char *result; int resultlen; while (_netgr_yp_enabled || fgets(line, LINSIZ, netf) != NULL) { if (_netgr_yp_enabled) { if(!_netgr_yp_domain) if(yp_get_default_domain(&_netgr_yp_domain)) continue; if (yp_match(_netgr_yp_domain, "netgroup", group, strlen(group), &result, &resultlen)) { free(result); if (_use_only_yp) return ((struct linelist *)0); else { _netgr_yp_enabled = 0; continue; } } snprintf(line, LINSIZ, "%s %s", group, result); free(result); } #else while (fgets(line, LINSIZ, netf) != NULL) { #endif pos = (char *)&line; #ifdef YP if (*pos == '+') { _netgr_yp_enabled = 1; continue; } #endif if (*pos == '#') continue; while (*pos == ' ' || *pos == '\t') pos++; spos = pos; while (*pos != ' ' && *pos != '\t' && *pos != '\n' && *pos != '\0') pos++; len = pos - spos; while (*pos == ' ' || *pos == '\t') pos++; if (*pos != '\n' && *pos != '\0') { lp = (struct linelist *)malloc(sizeof (*lp)); lp->l_parsed = 0; lp->l_groupname = (char *)malloc(len + 1); bcopy(spos, lp->l_groupname, len); *(lp->l_groupname + len) = '\0'; len = strlen(pos); olen = 0; /* * Loop around handling line continuations. */ do { if (*(pos + len - 1) == '\n') len--; if (*(pos + len - 1) == '\\') { len--; cont = 1; } else cont = 0; if (len > 0) { linep = (char *)malloc(olen + len + 1); if (olen > 0) { bcopy(olinep, linep, olen); free(olinep); } bcopy(pos, linep + olen, len); olen += len; *(linep + olen) = '\0'; olinep = linep; } if (cont) { if (fgets(line, LINSIZ, netf)) { pos = line; len = strlen(pos); } else cont = 0; } } while (cont); lp->l_line = linep; lp->l_next = linehead; linehead = lp; /* * If this is the one we wanted, we are done. */ if (!strcmp(lp->l_groupname, group)) return (lp); } } #ifdef YP /* * Yucky. The recursive nature of this whole mess might require * us to make more than one pass through the netgroup file. * This might be best left outside the #ifdef YP, but YP is * defined by default anyway, so I'll leave it like this * until I know better. */ rewind(netf); #endif return ((struct linelist *)0); }