/* $NetBSD: getnetconfig.c,v 1.3 2000/07/06 03:10:34 christos Exp $ */ /*- * SPDX-License-Identifier: BSD-3-Clause * * Copyright (c) 2009, Sun Microsystems, Inc. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * - Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * - 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. * - Neither the name of Sun Microsystems, Inc. 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 COPYRIGHT HOLDERS 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 COPYRIGHT HOLDER 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[] = "@(#)getnetconfig.c 1.12 91/12/19 SMI"; #endif #include /* * Copyright (c) 1989 by Sun Microsystems, Inc. */ #include "namespace.h" #include "reentrant.h" #include #include #include #include #include #include #include #include #include "un-namespace.h" #include "rpc_com.h" /* * The five library routines in this file provide application access to the * system network configuration database, /etc/netconfig. In addition to the * netconfig database and the routines for accessing it, the environment * variable NETPATH and its corresponding routines in getnetpath.c may also be * used to specify the network transport to be used. */ /* * netconfig errors */ #define NC_NONETCONFIG ENOENT #define NC_NOMEM ENOMEM #define NC_NOTINIT EINVAL /* setnetconfig was not called first */ #define NC_BADFILE EBADF /* format for netconfig file is bad */ #define NC_NOTFOUND ENOPROTOOPT /* specified netid was not found */ /* * semantics as strings (should be in netconfig.h) */ #define NC_TPI_CLTS_S "tpi_clts" #define NC_TPI_COTS_S "tpi_cots" #define NC_TPI_COTS_ORD_S "tpi_cots_ord" #define NC_TPI_RAW_S "tpi_raw" /* * flags as characters (also should be in netconfig.h) */ #define NC_NOFLAG_C '-' #define NC_VISIBLE_C 'v' #define NC_BROADCAST_C 'b' /* * Character used to indicate there is no name-to-address lookup library */ #define NC_NOLOOKUP "-" static const char * const _nc_errors[] = { "Netconfig database not found", "Not enough memory", "Not initialized", "Netconfig database has invalid format", "Netid not found in netconfig database" }; struct netconfig_info { int eof; /* all entries has been read */ int ref; /* # of times setnetconfig() has been called */ struct netconfig_list *head; /* head of the list */ struct netconfig_list *tail; /* last of the list */ }; struct netconfig_list { char *linep; /* hold line read from netconfig */ struct netconfig *ncp; struct netconfig_list *next; }; struct netconfig_vars { int valid; /* token that indicates a valid netconfig_vars */ int flag; /* first time flag */ struct netconfig_list *nc_configs; /* pointer to the current netconfig entry */ }; #define NC_VALID 0xfeed #define NC_STORAGE 0xf00d #define NC_INVALID 0 static int *__nc_error(void); static int parse_ncp(char *, struct netconfig *); static struct netconfig *dup_ncp(struct netconfig *); static FILE *nc_file; /* for netconfig db */ static mutex_t nc_file_lock = MUTEX_INITIALIZER; static struct netconfig_info ni = { 0, 0, NULL, NULL}; static mutex_t ni_lock = MUTEX_INITIALIZER; static thread_key_t nc_key; static once_t nc_once = ONCE_INITIALIZER; static int nc_key_error; static void nc_key_init(void) { nc_key_error = thr_keycreate(&nc_key, free); } #define MAXNETCONFIGLINE 1000 static int * __nc_error(void) { static int nc_error = 0; int *nc_addr; /* * Use the static `nc_error' if we are the main thread * (including non-threaded programs), or if an allocation * fails. */ if (thr_main()) return (&nc_error); if (thr_once(&nc_once, nc_key_init) != 0 || nc_key_error != 0) return (&nc_error); if ((nc_addr = (int *)thr_getspecific(nc_key)) == NULL) { nc_addr = (int *)malloc(sizeof (int)); if (thr_setspecific(nc_key, (void *) nc_addr) != 0) { free(nc_addr); return (&nc_error); } *nc_addr = 0; } return (nc_addr); } #define nc_error (*(__nc_error())) /* * A call to setnetconfig() establishes a /etc/netconfig "session". A session * "handle" is returned on a successful call. At the start of a session (after * a call to setnetconfig()) searches through the /etc/netconfig database will * proceed from the start of the file. The session handle must be passed to * getnetconfig() to parse the file. Each call to getnetconfig() using the * current handle will process one subsequent entry in /etc/netconfig. * setnetconfig() must be called before the first call to getnetconfig(). * (Handles are used to allow for nested calls to setnetpath()). * * A new session is established with each call to setnetconfig(), with a new * handle being returned on each call. Previously established sessions remain * active until endnetconfig() is called with that session's handle as an * argument. * * setnetconfig() need *not* be called before a call to getnetconfigent(). * setnetconfig() returns a NULL pointer on failure (for example, if * the netconfig database is not present). */ void * setnetconfig(void) { struct netconfig_vars *nc_vars; if ((nc_vars = (struct netconfig_vars *)malloc(sizeof (struct netconfig_vars))) == NULL) { return(NULL); } /* * For multiple calls, i.e. nc_file is not NULL, we just return the * handle without reopening the netconfig db. */ mutex_lock(&ni_lock); ni.ref++; mutex_unlock(&ni_lock); mutex_lock(&nc_file_lock); if ((nc_file != NULL) || (nc_file = fopen(NETCONFIG, "r")) != NULL) { nc_vars->valid = NC_VALID; nc_vars->flag = 0; nc_vars->nc_configs = ni.head; mutex_unlock(&nc_file_lock); return ((void *)nc_vars); } mutex_unlock(&nc_file_lock); mutex_lock(&ni_lock); ni.ref--; mutex_unlock(&ni_lock); nc_error = NC_NONETCONFIG; free(nc_vars); return (NULL); } /* * When first called, getnetconfig() returns a pointer to the first entry in * the netconfig database, formatted as a struct netconfig. On each subsequent * call, getnetconfig() returns a pointer to the next entry in the database. * getnetconfig() can thus be used to search the entire netconfig file. * getnetconfig() returns NULL at end of file. */ struct netconfig * getnetconfig(void *handlep) { struct netconfig_vars *ncp = (struct netconfig_vars *)handlep; char *stringp; /* tmp string pointer */ struct netconfig_list *list; struct netconfig *np; struct netconfig *result; /* * Verify that handle is valid */ mutex_lock(&nc_file_lock); if (ncp == NULL || nc_file == NULL) { nc_error = NC_NOTINIT; mutex_unlock(&nc_file_lock); return (NULL); } mutex_unlock(&nc_file_lock); switch (ncp->valid) { case NC_VALID: /* * If entry has already been read into the list, * we return the entry in the linked list. * If this is the first time call, check if there are any entries in * linked list. If no entries, we need to read the netconfig db. * If we have been here and the next entry is there, we just return * it. */ if (ncp->flag == 0) { /* first time */ ncp->flag = 1; mutex_lock(&ni_lock); ncp->nc_configs = ni.head; mutex_unlock(&ni_lock); if (ncp->nc_configs != NULL) /* entry already exist */ return(ncp->nc_configs->ncp); } else if (ncp->nc_configs != NULL && ncp->nc_configs->next != NULL) { ncp->nc_configs = ncp->nc_configs->next; return(ncp->nc_configs->ncp); } /* * If we cannot find the entry in the list and is end of file, * we give up. */ mutex_lock(&ni_lock); if (ni.eof == 1) { mutex_unlock(&ni_lock); return(NULL); } mutex_unlock(&ni_lock); break; default: nc_error = NC_NOTINIT; return (NULL); } stringp = (char *) malloc(MAXNETCONFIGLINE); if (stringp == NULL) return (NULL); #ifdef MEM_CHK if (malloc_verify() == 0) { fprintf(stderr, "memory heap corrupted in getnetconfig\n"); exit(1); } #endif /* * Read a line from netconfig file. */ mutex_lock(&nc_file_lock); do { if (fgets(stringp, MAXNETCONFIGLINE, nc_file) == NULL) { free(stringp); mutex_lock(&ni_lock); ni.eof = 1; mutex_unlock(&ni_lock); mutex_unlock(&nc_file_lock); return (NULL); } } while (*stringp == '#'); mutex_unlock(&nc_file_lock); list = (struct netconfig_list *) malloc(sizeof (struct netconfig_list)); if (list == NULL) { free(stringp); return(NULL); } np = (struct netconfig *) malloc(sizeof (struct netconfig)); if (np == NULL) { free(stringp); free(list); return(NULL); } list->ncp = np; list->next = NULL; list->ncp->nc_lookups = NULL; list->linep = stringp; if (parse_ncp(stringp, list->ncp) == -1) { free(stringp); free(np); free(list); return (NULL); } else { /* * If this is the first entry that's been read, it is the head of * the list. If not, put the entry at the end of the list. * Reposition the current pointer of the handle to the last entry * in the list. */ mutex_lock(&ni_lock); if (ni.head == NULL) { /* first entry */ ni.head = ni.tail = list; } else { ni.tail->next = list; ni.tail = ni.tail->next; } ncp->nc_configs = ni.tail; result = ni.tail->ncp; mutex_unlock(&ni_lock); return(result); } } /* * endnetconfig() may be called to "unbind" or "close" the netconfig database * when processing is complete, releasing resources for reuse. endnetconfig() * may not be called before setnetconfig(). endnetconfig() returns 0 on * success and -1 on failure (for example, if setnetconfig() was not called * previously). */ int endnetconfig(void *handlep) { struct netconfig_vars *nc_handlep = (struct netconfig_vars *)handlep; struct netconfig_list *q, *p; /* * Verify that handle is valid */ if (nc_handlep == NULL || (nc_handlep->valid != NC_VALID && nc_handlep->valid != NC_STORAGE)) { nc_error = NC_NOTINIT; return (-1); } /* * Return 0 if anyone still needs it. */ nc_handlep->valid = NC_INVALID; nc_handlep->flag = 0; nc_handlep->nc_configs = NULL; mutex_lock(&ni_lock); if (--ni.ref > 0) { mutex_unlock(&ni_lock); free(nc_handlep); return(0); } /* * No one needs these entries anymore, then frees them. * Make sure all info in netconfig_info structure has been reinitialized. */ q = ni.head; ni.eof = ni.ref = 0; ni.head = NULL; ni.tail = NULL; mutex_unlock(&ni_lock); while (q != NULL) { p = q->next; free(q->ncp->nc_lookups); free(q->ncp); free(q->linep); free(q); q = p; } free(nc_handlep); mutex_lock(&nc_file_lock); fclose(nc_file); nc_file = NULL; mutex_unlock(&nc_file_lock); return (0); } /* * getnetconfigent(netid) returns a pointer to the struct netconfig structure * corresponding to netid. It returns NULL if netid is invalid (that is, does * not name an entry in the netconfig database). It returns NULL and sets * errno in case of failure (for example, if the netconfig database cannot be * opened). */ struct netconfig * getnetconfigent(const char *netid) { FILE *file; /* NETCONFIG db's file pointer */ char *linep; /* holds current netconfig line */ char *stringp; /* temporary string pointer */ struct netconfig *ncp = NULL; /* returned value */ struct netconfig_list *list; /* pointer to cache list */ nc_error = NC_NOTFOUND; /* default error. */ if (netid == NULL || strlen(netid) == 0) { return (NULL); } /* * Look up table if the entries have already been read and parsed in * getnetconfig(), then copy this entry into a buffer and return it. * If we cannot find the entry in the current list and there are more * entries in the netconfig db that has not been read, we then read the * db and try find the match netid. * If all the netconfig db has been read and placed into the list and * there is no match for the netid, return NULL. */ mutex_lock(&ni_lock); if (ni.head != NULL) { for (list = ni.head; list; list = list->next) { if (strcmp(list->ncp->nc_netid, netid) == 0) { mutex_unlock(&ni_lock); return(dup_ncp(list->ncp)); } } if (ni.eof == 1) { /* that's all the entries */ mutex_unlock(&ni_lock); return(NULL); } } mutex_unlock(&ni_lock); if ((file = fopen(NETCONFIG, "r")) == NULL) { nc_error = NC_NONETCONFIG; return (NULL); } if ((linep = malloc(MAXNETCONFIGLINE)) == NULL) { fclose(file); nc_error = NC_NOMEM; return (NULL); } do { ptrdiff_t len; char *tmpp; /* tmp string pointer */ do { if ((stringp = fgets(linep, MAXNETCONFIGLINE, file)) == NULL) { break; } } while (*stringp == '#'); if (stringp == NULL) { /* eof */ break; } if ((tmpp = strpbrk(stringp, "\t ")) == NULL) { /* can't parse file */ nc_error = NC_BADFILE; break; } if (strlen(netid) == (size_t) (len = tmpp - stringp) && /* a match */ strncmp(stringp, netid, (size_t)len) == 0) { if ((ncp = (struct netconfig *) malloc(sizeof (struct netconfig))) == NULL) { break; } ncp->nc_lookups = NULL; if (parse_ncp(linep, ncp) == -1) { free(ncp); ncp = NULL; } break; } } while (stringp != NULL); if (ncp == NULL) { free(linep); } fclose(file); return(ncp); } /* * freenetconfigent(netconfigp) frees the netconfig structure pointed to by * netconfigp (previously returned by getnetconfigent()). */ void freenetconfigent(struct netconfig *netconfigp) { if (netconfigp != NULL) { free(netconfigp->nc_netid); /* holds all netconfigp's strings */ free(netconfigp->nc_lookups); free(netconfigp); } return; } /* * Parse line and stuff it in a struct netconfig * Typical line might look like: * udp tpi_cots vb inet udp /dev/udp /usr/lib/ip.so,/usr/local/ip.so * * We return -1 if any of the tokens don't parse, or malloc fails. * * Note that we modify stringp (putting NULLs after tokens) and * we set the ncp's string field pointers to point to these tokens within * stringp. * * stringp - string to parse * ncp - where to put results */ static int parse_ncp(char *stringp, struct netconfig *ncp) { char *tokenp; /* for processing tokens */ char *lasts; char **nc_lookups; nc_error = NC_BADFILE; /* nearly anything that breaks is for this reason */ stringp[strlen(stringp)-1] = '\0'; /* get rid of newline */ /* netid */ if ((ncp->nc_netid = strtok_r(stringp, "\t ", &lasts)) == NULL) { return (-1); } /* semantics */ if ((tokenp = strtok_r(NULL, "\t ", &lasts)) == NULL) { return (-1); } if (strcmp(tokenp, NC_TPI_COTS_ORD_S) == 0) ncp->nc_semantics = NC_TPI_COTS_ORD; else if (strcmp(tokenp, NC_TPI_COTS_S) == 0) ncp->nc_semantics = NC_TPI_COTS; else if (strcmp(tokenp, NC_TPI_CLTS_S) == 0) ncp->nc_semantics = NC_TPI_CLTS; else if (strcmp(tokenp, NC_TPI_RAW_S) == 0) ncp->nc_semantics = NC_TPI_RAW; else return (-1); /* flags */ if ((tokenp = strtok_r(NULL, "\t ", &lasts)) == NULL) { return (-1); } for (ncp->nc_flag = NC_NOFLAG; *tokenp != '\0'; tokenp++) { switch (*tokenp) { case NC_NOFLAG_C: break; case NC_VISIBLE_C: ncp->nc_flag |= NC_VISIBLE; break; case NC_BROADCAST_C: ncp->nc_flag |= NC_BROADCAST; break; default: return (-1); } } /* protocol family */ if ((ncp->nc_protofmly = strtok_r(NULL, "\t ", &lasts)) == NULL) { return (-1); } /* protocol name */ if ((ncp->nc_proto = strtok_r(NULL, "\t ", &lasts)) == NULL) { return (-1); } /* network device */ if ((ncp->nc_device = strtok_r(NULL, "\t ", &lasts)) == NULL) { return (-1); } if ((tokenp = strtok_r(NULL, "\t ", &lasts)) == NULL) { return (-1); } if (strcmp(tokenp, NC_NOLOOKUP) == 0) { ncp->nc_nlookups = 0; ncp->nc_lookups = NULL; } else { char *cp; /* tmp string */ free(ncp->nc_lookups); /* from last visit */ ncp->nc_lookups = NULL; ncp->nc_nlookups = 0; while ((cp = tokenp) != NULL) { if ((nc_lookups = reallocarray(ncp->nc_lookups, ncp->nc_nlookups + 1, sizeof(*ncp->nc_lookups))) == NULL) { free(ncp->nc_lookups); ncp->nc_lookups = NULL; return (-1); } tokenp = _get_next_token(cp, ','); ncp->nc_lookups = nc_lookups; ncp->nc_lookups[ncp->nc_nlookups++] = cp; } } return (0); } /* * Returns a string describing the reason for failure. */ char * nc_sperror(void) { const char *message; switch(nc_error) { case NC_NONETCONFIG: message = _nc_errors[0]; break; case NC_NOMEM: message = _nc_errors[1]; break; case NC_NOTINIT: message = _nc_errors[2]; break; case NC_BADFILE: message = _nc_errors[3]; break; case NC_NOTFOUND: message = _nc_errors[4]; break; default: message = "Unknown network selection error"; } /* LINTED const castaway */ return ((char *)message); } /* * Prints a message onto standard error describing the reason for failure. */ void nc_perror(const char *s) { fprintf(stderr, "%s: %s\n", s, nc_sperror()); } /* * Duplicates the matched netconfig buffer. */ static struct netconfig * dup_ncp(struct netconfig *ncp) { struct netconfig *p; char *tmp; u_int i; if ((tmp=malloc(MAXNETCONFIGLINE)) == NULL) return(NULL); if ((p=(struct netconfig *)malloc(sizeof(struct netconfig))) == NULL) { free(tmp); return(NULL); } /* * First we dup all the data from matched netconfig buffer. Then we * adjust some of the member pointer to a pre-allocated buffer where * contains part of the data. * To follow the convention used in parse_ncp(), we store all the * necessary information in the pre-allocated buffer and let each * of the netconfig char pointer member point to the right address * in the buffer. */ *p = *ncp; p->nc_netid = (char *)strcpy(tmp,ncp->nc_netid); tmp = strchr(tmp, '\0') + 1; p->nc_protofmly = (char *)strcpy(tmp,ncp->nc_protofmly); tmp = strchr(tmp, '\0') + 1; p->nc_proto = (char *)strcpy(tmp,ncp->nc_proto); tmp = strchr(tmp, '\0') + 1; p->nc_device = (char *)strcpy(tmp,ncp->nc_device); p->nc_lookups = (char **)malloc((size_t)(p->nc_nlookups+1) * sizeof(char *)); if (p->nc_lookups == NULL) { free(p->nc_netid); free(p); return(NULL); } for (i=0; i < p->nc_nlookups; i++) { tmp = strchr(tmp, '\0') + 1; p->nc_lookups[i] = (char *)strcpy(tmp,ncp->nc_lookups[i]); } return(p); }