/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (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 2005 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T */ /* All Rights Reserved */ /* * Copyright (c) 2016 by Delphix. All rights reserved. */ #ifndef UUCHECK #include "uucp.h" #endif /* field array indexes for PERMISSIONS parameters */ #define U_LOGNAME 0 #define U_MACHINE 1 #define U_CALLBACK 2 #define U_REQUEST 3 #define U_SENDFILES 4 #define U_READPATH 5 #define U_WRITEPATH 6 #define U_NOREADPATH 7 #define U_NOWRITEPATH 8 #define U_MYNAME 9 #define U_COMMANDS 10 #define U_VALIDATE 11 #define U_PUBDIR 12 #define U_DIRECT 13 #define U_ALIAS 14 #define U_PATH 15 /* NUMFLDS should be one more than the highest U_ value */ #define NUMFLDS 16 /* fields found in PERMISSIONS for requested system/login */ static char *_Flds[NUMFLDS]; /* keyword/value structure */ struct keywords { char* kword; int kvalue; }; static struct keywords _Kwords[] = { {"LOGNAME", U_LOGNAME}, {"MACHINE", U_MACHINE}, {"CALLBACK", U_CALLBACK}, {"REQUEST", U_REQUEST}, {"SENDFILES", U_SENDFILES}, {"READ", U_READPATH}, {"WRITE", U_WRITEPATH}, {"NOREAD", U_NOREADPATH}, {"NOWRITE", U_NOWRITEPATH}, {"MYNAME", U_MYNAME}, {"COMMANDS", U_COMMANDS}, {"VALIDATE", U_VALIDATE}, {"PUBDIR", U_PUBDIR}, {"DIRECT", U_DIRECT}, {"ALIAS", U_ALIAS}, {"PATH", U_PATH}, }; #define MAXCMDS 30 #define MAXPATHS 20 /* for all options on paths - read, write, noread, nowrite */ /* NB: all pointers assumed to point to static data */ static char *_RPaths[MAXPATHS+1]; static char *_WPaths[MAXPATHS+1]; static char *_NoRPaths[MAXPATHS+1]; static char *_NoWPaths[MAXPATHS+1]; static char *_Commands[MAXCMDS+1]; static char _Cmd_defaults[BUFSIZ]; /* option variables */ static int _Request; /* TRUE can request, FALSE can not request files */ static int _Switch; /* FALSE requires a call back to send any files */ static int _CallBack; /* TRUE for call back for any transaction */ static int _NoSpool; /* TRUE if delivering directly to destination file */ static char _MyName[MAXBASENAME+1]; /* Myname from PERMISSIONS file */ /* NB: _Pubdir and _Path assumed to point to dynamic data */ static char *_Pubdir = NULL; /* PUBDIR from PERMISSIONS file */ static char *_Path = NULL; /* PATH from PERMISSIONS file */ struct name_value { char *name; char *value; }; /* file pointer for PERMISSIONS */ static FILE *Fp = NULL; /* functions */ extern char *next_token(), *nextarg(); extern int parse_tokens(), canPath(), mkdirs(); static void fillFlds(); static void fillList(); static int cmdMatch(), listMatch(), nameMatch(), userFind(), validateFind(); int noSpool() { return(_NoSpool); } /* * fill in fields for login name * name - the login id * rmtname - remote system name * * return: * 0 -> found login name * FAIL -> did not find login */ int logFind(name, rmtname) char *name, *rmtname; { int ret; DEBUG(5, "logFind called (name: %s, ", name); DEBUG(5, "rmtname: %s)\n", rmtname); ret = validateFind (rmtname); if (ret == SUCCESS) { /* found VALIDATE entry */ ret = userFind (name, rmtname, U_VALIDATE); if (ret) { DEBUG(5, "machine/login match failed%s", ""); return(FAIL); } } else ret = userFind (name, "", U_LOGNAME); DEBUG(7, "_Request (%s), ", requestOK() ? "TRUE" : "FALSE"); DEBUG(7, "_Switch (%s), ", switchRole() ? "TRUE" : "FALSE"); DEBUG(7, "_CallBack (%s), ", callBack() ? "TRUE" : "FALSE"); DEBUG(7, "_MyName (%s), ", _MyName); DEBUG(7, "_NoSpool (%s), ", noSpool() ? "TRUE" : "FALSE"); return(ret); } /* * fill in fields for machine name * return: * 0 -> found machine name * FAIL -> did not find machine */ int mchFind(name) char *name; { int i, ret; DEBUG(5, "mchFind called (%s)\n", name); if ( (ret = userFind (name, "", U_MACHINE)) == FAIL) /* see if there is a default line */ (void) userFind ("OTHER", "", U_MACHINE); /* mchFind is from MASTER mode - switch role is always ok */ _Switch = TRUE; DEBUG(7, "_Request (%s), ", requestOK() ? "TRUE" : "FALSE"); DEBUG(7, "_Switch (%s), ", switchRole() ? "TRUE" : "FALSE"); DEBUG(7, "_CallBack (%s), ", callBack() ? "TRUE" : "FALSE"); DEBUG(7, "_MyName (%s), ", _MyName); DEBUG(7, "_NoSpool (%s), ", noSpool() ? "TRUE" : "FALSE"); for (i=0; _Commands[i] != NULL; i++) DEBUG(7, "_Commands %s\n", _Commands[i]); return(ret); } /* * this function will find a login name in the LOGNAME * field. * input: * name -> who the remote says they are * return: * SUCCESS -> found * FAIL -> not found */ static int nameMatch(name, fld) char *name, *fld; { char *arg; if (fld == NULL) return(FAIL); while (*fld) { fld = nextarg(fld, &arg); if (EQUALS(arg, name)) return(SUCCESS); } return (FAIL); } /* * interpret the _Flds options and set the option variables */ static void fillFlds() { if (_Flds[U_REQUEST] != NULL) { if (EQUALS(_Flds[U_REQUEST], "yes")) _Request = TRUE; else _Request = FALSE; } if (_Flds[U_SENDFILES] != NULL) { if (EQUALS(_Flds[U_SENDFILES], "yes")) _Switch = TRUE; else _Switch = FALSE; } if (_Flds[U_CALLBACK] != NULL) { if (EQUALS(_Flds[U_CALLBACK], "yes")) _CallBack = TRUE; else _CallBack = FALSE; } if (_Flds[U_DIRECT] != NULL) { if (EQUALS(_Flds[U_DIRECT], "yes")) _NoSpool = TRUE; else _NoSpool = FALSE; } if (_Flds[U_MYNAME] != NULL) { strncpy(_MyName, _Flds[U_MYNAME], MAXBASENAME); _MyName[MAXBASENAME] = NULLCHAR; } if (_Flds[U_PUBDIR] != NULL) { if (_Pubdir != NULL) free(_Pubdir); /* get rid of previous one */ _Pubdir = strdup(_Flds[U_PUBDIR]); #ifndef UUCHECK ASSERT(_Pubdir != NULL, Ct_ALLOCATE, _Flds[U_PUBDIR], 0); #else /* UUCHECK */ if (_Pubdir == NULL) { perror(gettext("malloc() error")); exit(1); } #endif /* UUCHECK */ Pubdir = _RPaths[0] = _WPaths[0] = _Pubdir; /* reset default */ } if (_Flds[U_PATH] != NULL) { if (_Path != NULL) free(_Path); /* get rid of previous one */ _Path = strdup(_Flds[U_PATH]); #ifndef UUCHECK ASSERT(_Path != NULL, Ct_ALLOCATE, _Flds[U_PATH], 0); #else /* UUCHECK */ if (_Path == NULL) { perror(gettext("malloc() error")); exit(1); } #endif /* UUCHECK */ } return; } /* * fill in the list vector for the system/login * input: * type - list type (read, write, noread, nowrite, command) * output: * list - filled in with items. * return: * number of items in list */ static void fillList(type, list) int type; char *list[]; { char *p; int num; int maxlist = 0; p = _Flds[type]; /* find list limit */ if (type == U_READPATH || type == U_WRITEPATH || type == U_NOREADPATH || type == U_NOWRITEPATH) maxlist = MAXPATHS; else if (type == U_COMMANDS) maxlist = MAXCMDS; if (p == NULL || !*p) { /* no names specified, default already setup */ return; } num = 0; while (*p && num < maxlist) { list[num] = p; if (*p == ':') { /* null path */ *p++ = NULLCHAR; continue; } while (*p && *p != ':') p++; if (*p == ':') *p++ = NULLCHAR; DEBUG(7, "list (%s) ", list[num]); num++; } DEBUG(7, "num = %d\n", num); list[num] = NULL; return; } /* * Find the line of PERMISSIONS for login. * The search is determined by the type field * (type=U_LOGNAME, U_MACHINE or U_VALIDATE) * For U_LOGNAME: * search for "name" in a LOGNAME= option * For U_MACHINE: * search for "name" in a MACHINE= option * For U_VALIDATE: * search for "rmtname" in a VALIDATE= option and * for the same entry see if "name" is in the LOGNAME= option * input: * name -> search name * logname -> for validate entry * type -> U_MACHINE or U_LOGNAME * output: * The global values of all options will be set * (e.g. _RPaths, _WPaths, _Request, ...) * return: * 0 -> ok * FAIL -> no match found */ static int userFind(name, rmtname, type) char *name, *rmtname; int type; { char *p, *arg, *buf = NULL; static char default_buf[BUFSIZ]; if (name != NULL && strcmp(name, "DEFAULT") != 0) { /* call ourself recursively to set defaults */ (void) userFind("DEFAULT", "", U_MACHINE); } else { /* * Handle case where looking for DEFAULT entry. * First initialize all defaults to their "base" * values. Then the DEFAULT entry, if found, * will override these settings. */ _Request = FALSE; _CallBack = FALSE; _Switch = FALSE; _NoSpool = FALSE; _MyName[0] = NULLCHAR; _RPaths[0] = _WPaths[0] = PUBDIR; /* default is public */ _RPaths[1] = _WPaths[1] = NULLCHAR; _NoRPaths[0] = NULLCHAR; _NoWPaths[0] = NULLCHAR; if (_Pubdir != NULL) free(_Pubdir); Pubdir = _Pubdir = strdup(PUBDIR); if (_Path != NULL) free(_Path); _Path = strdup(PATH); /* set up Commands defaults */ _Flds[U_COMMANDS] = strcpy(_Cmd_defaults, DEFAULTCMDS); fillList(U_COMMANDS, _Commands); /* * put defaults we read in in here so they're not overwritten * by non-DEFAULT entries. */ buf = default_buf; } if (name == NULL) /* use defaults */ return(0); /* I don't think this will ever happen */ if ( (Fp = fopen(PERMISSIONS, "r")) == NULL) { DEBUG(5, "can't open %s\n", PERMISSIONS); return(FAIL); } for (;;) { if (parse_tokens (_Flds, buf) != 0) { (void) fclose(Fp); DEBUG(5, "name (%s) not found; return FAIL\n", name); return(FAIL); } p = _Flds[type]; while (p && *p) { p = nextarg(p, &arg); switch (type) { case U_VALIDATE: if (EQUALS(arg, rmtname) && nameMatch(name, _Flds[U_LOGNAME])==SUCCESS) break; continue; case U_LOGNAME: if (EQUALS(arg, name)) break; continue; case U_MACHINE: if (EQUALSN(arg, name, MAXBASENAME)) break; continue; } (void) fclose(Fp); fillFlds(); /* fill in path lists */ fillList(U_READPATH, _RPaths); fillList(U_WRITEPATH, _WPaths); if (!requestOK()) _Flds[U_NOREADPATH] = "/"; fillList(U_NOREADPATH, _NoRPaths); fillList(U_NOWRITEPATH, _NoWPaths); /* fill in command list */ fillList(U_COMMANDS, _Commands); return(0); } } } /* * see if name is in a VALIDATE option * return: * FAIL -> not found * SUCCESS -> found */ static int validateFind(name) char *name; { if ( (Fp = fopen(PERMISSIONS, "r")) == NULL) { DEBUG(5, "can't open %s\n", PERMISSIONS); return(FAIL); } for (;;) { if (parse_tokens (_Flds, NULL) != 0) { DEBUG(5, "validateFind (%s) FAIL\n", name); (void) fclose(Fp); return(FAIL); } if (_Flds[U_VALIDATE] == NULL) continue; if (nameMatch(name, _Flds[U_VALIDATE])==SUCCESS) { (void) fclose(Fp); return (SUCCESS); } } } /* * see if name is in an ALIAS option * return: * NULL -> not found * otherwise -> machine name */ char * aliasFind(name) char *name; { if ( (Fp = fopen(PERMISSIONS, "r")) == NULL) { DEBUG(5, "can't open %s\n", PERMISSIONS); return(NULL); } for (;;) { if (parse_tokens (_Flds, NULL) != 0) { DEBUG(5, "aliasFind (%s) FAIL\n", name); (void) fclose(Fp); return(NULL); } if (_Flds[U_ALIAS] == NULL) continue; if (nameMatch(name, _Flds[U_ALIAS])==SUCCESS) { (void) fclose(Fp); #ifndef UUCHECK ASSERT(strchr(_Flds[U_MACHINE], ':') == NULL, "PERMISSIONS file: ALIAS is one-to-many:", _Flds[U_MACHINE], 0); #else /* UUCHECK */ if (strchr(_Flds[U_MACHINE], ':') != NULL) { printf(gettext("ALIAS is one-to-many: %s -> %s\n"), name, _Flds[U_MACHINE]); return(NULL); } #endif /* UUCHECK */ return(_Flds[U_MACHINE]); } } } /* * parse a line in PERMISSIONS and return a vector * of fields (flds) * * return: * 0 - OK * EOF - at end of file */ int parse_tokens(flds, buf) char *flds[]; char *buf; { int i; char *p; struct name_value pair; static char _line[BUFSIZ]; char *line = buf; if (buf == NULL) line = _line; /* if no buffer specified, use default */ /* initialize defaults in case parameter is not specified */ for (i=0;i= NUMFLDS) { DEBUG(3, "bad option (%s) in PERMISSIONS\n",pair.name); (void) printf("\n*****************************\n"); (void) printf(gettext("**BAD OPTION in PERMISSIONS file: %s\n"), pair.name); (void) printf("*****************************\n"); Uerrors++; return(0); } #endif /* UUCHECK */ } return(0); } /* * return a name value pair * string -> input pointer * pair -> name value pair * return: * pointer to next character */ char * next_token (string, pair) char *string; struct name_value *pair; { char *prev = _uu_setlocale(LC_ALL, "C"); while ( (*string) && ((*string == '\t') || (*string == ' ')) ) string++; pair->name = string; while ((*string) && (*string != '=')) string++; if (*string) *string++ = NULLCHAR; pair->value = string; while ((*string) && (*string != '\t') && (*string != ' ') && (*string != '\n')) string++; if (*string) *string++ = NULLCHAR; (void) _uu_resetlocale(LC_ALL, prev); return (string); } /* * get a line from the PERMISSIONS * take care of comments (#) in col 1 * and continuations (\) in last col * return: * len of line * 0 -> end of file */ int getuline(fp, line) FILE *fp; char *line; { char *p, *c; char buf[BUFSIZ]; p = line; for (;fgets(buf, BUFSIZ, fp) != NULL;) { /* remove trailing white space */ c = &buf[strlen(buf)-1]; while (c>=buf && (*c == '\n' || *c == '\t' || *c == ' ') ) *c-- = NULLCHAR; if (buf[0] == '#' || buf[0] == '\n' || buf[0] == NULLCHAR) continue; (void) strcpy(p, buf); p += strlen(buf); if ( *(p-1) == '\\') p--; else break; } return(p-line); } #define SMAX 15 /* * get the next colon separated argument from the list * return: * p -> pointer to next arg in string * input: * str -> pointer to input string * output: * name -> pointer to arg string */ char * nextarg(str, name) char *str, **name; { char *p, *b; static char buf[SMAX+1]; for(b=buf,p=str; *p != ':' && *p && b < buf+SMAX;) *b++ = *p++; *b++ = NULLCHAR; if (*p == ':') p++; *name = buf; return(p); } /* * check if requesting files is permitted * return * TRUE -> request permitted * FALSE -> request denied */ int requestOK() { return(_Request); } /* * myName - return my name from PERMISSIONS file * or if not there, from uucpname() * return: none */ void myName(name) char *name; { if (*_MyName) strcpy(name, _MyName); else uucpname(name); return; } /* * check for callback required for any transaction * return: * TRUE -> callback required * FALSE-> callback NOT required */ int callBack() { return(_CallBack); } /* * check for callback to send any files from here * This means that the called (SLAVE) system will not switch roles. * return: * TRUE -> callback requried to send files * FALSE-> callback NOT required to send files */ int switchRole() { return(_Switch); } /* * Check to see if command is valid for a specific machine. * The PERMISSIONS file has an option COMMANDS=name1:name2:... for * any machine that does not have the default list which is * rmail * Note that the PERMISSIONS file is read once for each system * at the time the Rmtname is set in xprocess(). * Return codes: * ok: TRUE * fail: FALSE */ int cmdOK(cmd, fullcmd) char *cmd, *fullcmd; { DEBUG(7, "cmdOK(%s, )\n", cmd); return(cmdMatch(cmd, fullcmd)); } /* * check a name against a list * input: * name -> name * list -> list of names * return: * TRUE -> found path * FALSE -> not found */ static int listMatch(name, list) char *name, *list[]; { int i; char *temp, *tend; struct stat statbuf; dev_t _dev[MAXPATHS+1]; ino_t _ino[MAXPATHS+1]; /* ino set to 0 so stat is only done first time */ for (i=0; list[i] != NULL; i++) _ino[i] = 0; /* try to match inodes */ if ( (temp = strdup(name)) != NULL ) { for ( tend = temp + strlen(temp) ; *temp; ) { if ( stat(temp, &statbuf) == 0 ) { for (i=0; list[i] != NULL; i++) { if ( _ino[i] == 0 ) { struct stat tempbuf; if ( stat(list[i], &tempbuf) == 0 ) { _dev[i] = tempbuf.st_dev; _ino[i] = tempbuf.st_ino; } } if ( _dev[i] == statbuf.st_dev && _ino[i] == statbuf.st_ino ) { free(temp); return(TRUE); } } } *tend = '\0'; if ( (tend = strrchr(temp, '/')) == NULL ) { free(temp); break; } else *(tend+1) = '\0'; } } return(FALSE); } /* * Check "name" against a BASENAME or full name of _Commands list. * If "name" specifies full path, check full, else check BASENAME. * e.g. "name" rmail matches list item /usr/bin/rmail * input: * name -> name * output: * fullname -> copy full command name into fullname if * a full path was specified in _Commands; * if not, put name into fullname. * return: * TRUE -> found path * FALSE -> not found */ static int cmdMatch(name, fullname) char *name; char *fullname; { int i; char *bname; int allok = FALSE; for (i=0; _Commands[i] != NULL; i++) { if (EQUALS(_Commands[i], "ALL")) { /* if ALL specified in the list * set allok and continue in case * a full path name is specified for the command */ allok = TRUE; continue; } if (name[0] != '/') bname = BASENAME(_Commands[i], '/'); else bname = _Commands[i]; DEBUG(7, "bname=%s\n", bname); if (EQUALS(bname, name)) { (void) strcpy(fullname, _Commands[i]); return(TRUE); } } if (allok == TRUE) { /* ALL was specified and the command was not found in list */ (void) strcpy(fullname, name); return(TRUE); } (void) strcpy(fullname, "NuLL"); /* this is a dummy command */ return(FALSE); } /* * check the paths for this login/machine * input: * path pathname * flag CK_READ or CK_WRITE * output: * path may be modified to canonical form * (../, ./, // will be interpreted/removed) * returns: * 0 -> success * FAIL -> failure - not a valid path for access */ int chkpth(path, flag) char *path; { char *s; /* * this is probably redundant, * because expfile did it, but that's ok * Note - the /../ check is not required because of canPath */ if (canPath(path) == FAIL) return(FAIL); if (flag == CK_READ) if (listMatch(path, _RPaths) && !listMatch(path, _NoRPaths)) return(0); if (flag == CK_WRITE) if (listMatch(path, _WPaths) && !listMatch(path, _NoWPaths)) return(0); /* ok if uucp generated D. or X. name for the spool directory */ if (PREFIX(RemSpool, path) ) { s = &path[strlen(RemSpool)]; if ( (*s++ == '/') && (*s == DATAPRE || *s == XQTPRE) && (*(++s) == '.') && (strchr(s, '/') == NULL) ) return(0); } /* path name not valid */ return(FAIL); } /* * check write permission of file. * if mopt != NULL and permissions are ok, * a side effect of this routine is to make * directories up to the last part of the * "to" ( if they do not exit). * Input: * to - a path name of the destination file or directory * from - full path name of source file * opt - create directory option (NULL - don't create) * Output: * to - will be the full path name of the destination file * returns: * 0 ->success * FAIL -> failure */ int chkperm(from, to, opt) char *from, *to, *opt; { char *lxp, *p; struct stat s; char dir[MAXFULLNAME]; if (*(p = LASTCHAR(to)) == '/') { if (strlcpy(p+1, BASENAME(from, '/'), MAXFULLNAME - strlen(to)) >= MAXFULLNAME - strlen(to)) { return(FAIL); } } else if (DIRECTORY(to)) { *++p = '/'; if (strlcpy(p+1, BASENAME(from, '/'), MAXFULLNAME - strlen(to)) >= MAXFULLNAME - strlen(to)) { return(FAIL); } } /* to is now the full path name of the destination file */ if (WRITEANY(to)) return(0); if (stat(to, &s) == 0) return(FAIL); /* file exists, but not writeable */ /* file does not exist--check directory and make when necessary */ (void) strcpy(dir, to); if ( (lxp=strrchr(dir, '/')) == NULL) return(FAIL); /* no directory part of name */ if (lxp == dir) /* at root */ lxp++; *lxp = NULLCHAR; /* should check WRITEANY on parent before mkdirs() */ if (!DIRECTORY(dir)) { if (opt == NULL) return(FAIL); /* no directory and no opt to make them */ else if (mkdirs(dir, PUBMASK) == FAIL) return(FAIL); } /* the directory now exists--check for writability */ if (EQUALS(RemSpool, dir) || WRITEANY(dir)) return(0); return(FAIL); }