OpenSolaris_b135/lib/libnsl/netselect/netselect.c
/*
* 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.
*/
/* Copyright (c) 1983, 1984, 1985, 1986, 1987, 1988, 1989 AT&T */
/* All Rights Reserved */
/*
* Portions of this source code were derived from Berkeley 4.3 BSD
* under license from the Regents of the University of California.
*/
#pragma ident "%Z%%M% %I% %E% SMI"
#include "mt.h"
#include "../rpc/rpc_mt.h" /* for MT declarations only */
#include <rpc/types.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <ctype.h>
#include <netconfig.h>
#include <malloc.h>
#include <libintl.h>
#include <syslog.h>
#include "netcspace.h"
#define FAILURE (unsigned)(-1)
/*
* Local routines used by the library procedures
*/
static int blank(char *);
static int comment(char *);
static struct netconfig *fgetnetconfig(FILE *, char *);
static void netconfig_free(struct netconfig *);
static unsigned int getflag(char *);
static char **getlookups(char *);
static struct netconfig **getnetlist(void);
static unsigned int getnlookups(char *);
static char *gettoken(char *, int);
static unsigned int getvalue(char *, struct nc_data nc_data[]);
static void shift1left(char *);
static void netlist_free(struct netconfig ***);
static void free_entry(void *);
static struct netconfig *netconfig_dup(struct netconfig *);
extern const char __nsl_dom[];
/*
* Static global variables used by the library procedures:
*
* netpp - points to the beginning of the list of netconfig
* entries used by setnetconfig() and setnetpath().
* Once netpp is initialized, that memory is *never*
* released. This was necessary to improve performance.
*
* linenum - the current line number of the /etc/netconfig
* file (used for debugging and for nc_perror()).
*
* fieldnum - the current field number of the current line
* of /etc/netconfig (used for debugging and for
* nc_perror()).
*
* nc_error - the error condition encountered.
*/
static struct netconfig **netpp = NULL;
mutex_t netpp_mutex = DEFAULTMUTEX;
/*
* The following two variables are used by the /etc/netconfig parsing
* routines, which will always be executed once, and within the netpp_mutex.
* They are global to allow the nc_sperror routine to provide better
* information to the user about /etc/netconfig file problems.
*/
static int linenum = 0; /* "owned" by getnetlist() */
static int fieldnum = 0; /* "owned" by fgetnetconfig() */
static int *
__nc_error(void)
{
static pthread_key_t nc_error_key = PTHREAD_ONCE_KEY_NP;
static int nc_error = NC_NOERROR;
int *ret;
if (thr_main())
return (&nc_error);
ret = thr_get_storage(&nc_error_key, sizeof (int), free);
/* if thr_get_storage fails we return the address of nc_error */
return (ret ? ret : &nc_error);
}
#define nc_error (*(__nc_error()))
/*
* setnetconfig() has the effect of "initializing" the
* network configuration database. It reads in the
* netcf entries (if not already read in).
*/
void *
setnetconfig(void)
{
NCONF_HANDLE *retp;
(void) mutex_lock(&netpp_mutex);
if ((netpp == NULL) && ((netpp = getnetlist()) == NULL)) {
(void) mutex_unlock(&netpp_mutex);
return (NULL);
}
(void) mutex_unlock(&netpp_mutex);
if ((retp = malloc(sizeof (NCONF_HANDLE))) == NULL) {
nc_error = NC_NOMEM;
return (NULL);
}
nc_error = NC_NOERROR;
retp->nc_head = retp->nc_curr = netpp;
return ((void *)retp);
}
/*
* endnetconfig() frees up all data allocated by setnetconfig()
*/
int
endnetconfig(void *vdata)
{
NCONF_HANDLE *nconf_handlep = (NCONF_HANDLE *)vdata;
(void) mutex_lock(&netpp_mutex);
if (netpp == NULL || nconf_handlep == NULL) {
nc_error = NC_NOSET;
(void) mutex_unlock(&netpp_mutex);
return (-1);
}
(void) mutex_unlock(&netpp_mutex);
nc_error = NC_NOERROR;
free(nconf_handlep);
return (0);
}
/*
* getnetconfig() returns the current entry in the list
* of netconfig structures. It uses the nconf_handlep argument
* to determine the current entry. If setnetconfig() was not
* called previously to set up the list, return failure.
* It also check if ipv6 interface is present(ipv6_present) and
* skips udp6 & tcp6 entries if ipv6 is not supported.
*/
struct netconfig *
getnetconfig(void *vdata)
{
NCONF_HANDLE *nconf_handlep = (NCONF_HANDLE *)vdata;
struct netconfig *retp; /* holds the return value */
int ipv6_present = -1;
(void) mutex_lock(&netpp_mutex);
if ((netpp == NULL) || (nconf_handlep == NULL)) {
nc_error = NC_NOSET;
(void) mutex_unlock(&netpp_mutex);
return (NULL);
}
(void) mutex_unlock(&netpp_mutex);
for (;;) {
retp = *(nconf_handlep->nc_curr);
if (retp && (strcmp(retp->nc_netid, "udp6") == 0 ||
strcmp(retp->nc_netid, "tcp6") == 0)) {
if (ipv6_present == -1)
ipv6_present = __can_use_af(AF_INET6);
if (!ipv6_present) {
++(nconf_handlep->nc_curr);
continue;
}
}
break;
}
if (retp != NULL) {
++(nconf_handlep->nc_curr);
nc_error = NC_NOERROR;
} else {
nc_error = NC_NOMOREENTRIES;
}
return (retp);
}
/*
* getnetconfig() searches the netconfig database for a
* given network id. Returns a pointer to the netconfig
* structure or a NULL if not found.
* It also check if ipv6 interface is present(ipv6_present) and
* skips udp6 & tcp6 entries if ipv6 is not supported.
*/
struct netconfig *
getnetconfigent(const char *netid)
{
struct netconfig **tpp;
int ipv6_present;
(void) mutex_lock(&netpp_mutex);
if ((netpp == NULL) && ((netpp = getnetlist()) == NULL)) {
(void) mutex_unlock(&netpp_mutex);
return (NULL);
}
(void) mutex_unlock(&netpp_mutex);
for (tpp = netpp; *tpp; tpp++) {
if (strcmp((*tpp)->nc_netid, netid) == 0) {
if (*tpp && (strcmp((*tpp)->nc_netid, "udp6") == 0 ||
strcmp((*tpp)->nc_netid, "tcp6") == 0)) {
ipv6_present = __can_use_af(AF_INET6);
if (!ipv6_present) {
nc_error = NC_NOTFOUND;
return (NULL);
}
}
return (netconfig_dup(*tpp));
}
}
nc_error = NC_NOTFOUND;
return (NULL);
}
/*
* freenetconfigent frees the data allocated by getnetconfigent()
*/
void
freenetconfigent(struct netconfig *netp)
{
netconfig_free(netp);
}
/*
* getnetlist() reads the netconfig file and creates a
* NULL-terminated list of entries.
* Returns the pointer to the head of the list or a NULL
* on failure.
*/
static struct netconfig **
getnetlist(void)
{
char line[BUFSIZ]; /* holds each line of NETCONFIG */
FILE *fp; /* file stream for NETCONFIG */
struct netconfig **listpp; /* the beginning of the netconfig list */
struct netconfig **tpp; /* used to traverse the netconfig list */
int count; /* the number of entries in file */
if ((fp = fopen(NETCONFIG, "rF")) == NULL) {
nc_error = NC_OPENFAIL;
return (NULL);
}
count = 0;
while (fgets(line, BUFSIZ, fp)) {
if (!(blank(line) || comment(line))) {
++count;
}
}
rewind(fp);
if (count == 0) {
nc_error = NC_NOTFOUND;
(void) fclose(fp);
return (NULL);
}
if ((listpp = malloc((count + 1) *
sizeof (struct netconfig *))) == NULL) {
nc_error = NC_NOMEM;
(void) fclose(fp);
return (NULL);
}
/*
* The following loop fills in the list (loops until
* fgetnetconfig() returns a NULL) and counts the
* number of entries placed in the list. Note that
* when the loop is completed, the last entry in the
* list will contain a NULL (signifying the end of
* the list).
*/
linenum = 0;
for (tpp = listpp; *tpp = fgetnetconfig(fp, NULL); tpp++)
;
(void) fclose(fp);
if (nc_error != NC_NOMOREENTRIES) /* Something is screwed up */
netlist_free(&listpp);
return (listpp);
}
/*
* fgetnetconfig() parses a line of the netconfig file into
* a netconfig structure. It returns a pointer to the
* structure of success and a NULL on failure or EOF.
*/
static struct netconfig *
fgetnetconfig(FILE *fp, char *netid)
{
char linep[BUFSIZ]; /* pointer to a line in the file */
struct netconfig *netconfigp; /* holds the new netconfig structure */
char *tok1, *tok2, *tok3; /* holds a token from the line */
char *retvalp; /* the return value of fgets() */
char *entnetid; /* netid for the current entry */
/* skip past blank lines and comments. */
while (retvalp = fgets(linep, BUFSIZ, fp)) {
linenum++;
if (!(blank(linep) || comment(linep))) {
break;
}
retvalp = NULL;
}
if (retvalp == NULL) {
nc_error = NC_NOMOREENTRIES;
return (NULL);
}
fieldnum = 0;
if ((entnetid = gettoken(linep, FALSE)) == NULL) {
nc_error = NC_BADLINE;
return (NULL);
}
if (netid && (strcmp(netid, entnetid) != 0)) {
free(entnetid);
nc_error = NC_NOTFOUND;
return (NULL);
}
if ((netconfigp = calloc(1, sizeof (struct netconfig))) == NULL) {
free(entnetid);
nc_error = NC_NOMEM;
return (NULL);
}
tok1 = tok2 = tok3 = NULL;
netconfigp->nc_netid = entnetid;
if (((tok1 = gettoken(NULL, FALSE)) == NULL) ||
((netconfigp->nc_semantics =
getvalue(tok1, nc_semantics)) == FAILURE) ||
((tok2 = gettoken(NULL, FALSE)) == NULL) ||
((netconfigp->nc_flag = getflag(tok2)) == FAILURE) ||
((netconfigp->nc_protofmly = gettoken(NULL, FALSE)) == NULL) ||
((netconfigp->nc_proto = gettoken(NULL, FALSE)) == NULL) ||
((netconfigp->nc_device = gettoken(NULL, FALSE)) == NULL) ||
((tok3 = gettoken(NULL, TRUE)) == NULL) ||
(((netconfigp->nc_nlookups = getnlookups(tok3)) != 0) &&
((netconfigp->nc_lookups = getlookups(tok3)) == NULL))) {
netconfig_free(netconfigp);
nc_error = NC_BADLINE;
netconfigp = NULL;
}
free(tok1);
free(tok2);
free(tok3);
return (netconfigp);
}
/*
* setnetpath() has the effect of "initializing" the
* NETPATH variable. It reads in the netcf entries (if not
* already read in), creates a list corresponding to the entries
* in the NETPATH variable (or the "visible" entries og netconfig
* if NETPATH is not set).
*/
void *
setnetpath(void)
{
int count; /* the number of entries in NETPATH */
char valid_netpath[BUFSIZ]; /* holds the valid entries if NETPATH */
char templine[BUFSIZ]; /* has value of NETPATH when scanning */
struct netconfig **curr_pp; /* scans the list from NETPATH */
struct netconfig **tpp; /* scans the list from netconfig file */
struct netconfig **rnetpp; /* the list of entries from NETPATH */
char *netpath; /* value of NETPATH from environment */
char *netid; /* holds a component of NETPATH */
char *tp; /* used to scan NETPATH string */
NCONF_HANDLE *retp; /* the return value */
/*
* Read in the netconfig database if not already read in
*/
(void) mutex_lock(&netpp_mutex);
if ((netpp == NULL) && ((netpp = getnetlist()) == NULL)) {
(void) mutex_unlock(&netpp_mutex);
return (NULL);
}
(void) mutex_unlock(&netpp_mutex);
if ((retp = malloc(sizeof (NCONF_HANDLE))) == NULL) {
nc_error = NC_NOMEM;
return (NULL);
}
/*
* Get the valid entries of the NETPATH variable (and
* count the number of entries while doing it).
*
* This is done every time the procedure is called just
* in case NETPATH has changed from call to call.
*
* If NETPATH is too long, we ignore it altogether as
* it can only be a buffer overflow attack.
* Since we add one colon for each entry, but colons only
* need to exist between entries, we have to subtract one.
*/
count = 0;
valid_netpath[0] = '\0';
if ((netpath = getenv(NETPATH)) == NULL ||
strlen(netpath) >= sizeof (templine) - 1) {
/*
* If NETPATH variable is not set or invalid,
* the valid NETPATH consist of all "visible"
* netids from the netconfig database.
*/
for (tpp = netpp; *tpp; tpp++) {
if ((*tpp)->nc_flag & NC_VISIBLE) {
(void) strcat(valid_netpath, (*tpp)->nc_netid);
(void) strcat(valid_netpath, ":");
count++;
}
}
} else {
/*
* Copy the value of NETPATH (since '\0's will be
* put into the string) and create the valid NETPATH
* (by throwing away all netids not in the database).
* If an entry appears more than one, it *will* be
* listed twice in the list of valid netpath entries.
*/
(void) strcpy(templine, netpath);
tp = templine;
while (*tp) {
/* Skip all leading ':'s */
while (*tp && *tp == ':')
tp++;
if (*tp == NULL)
break; /* last one */
netid = tp;
while (*tp && *tp != ':')
tp++;
if (*tp)
*tp++ = '\0'; /* isolate netid */
for (tpp = netpp; *tpp; tpp++) {
if (strcmp(netid, (*tpp)->nc_netid) == 0) {
(void) strcat(valid_netpath,
(*tpp)->nc_netid);
(void) strcat(valid_netpath, ":");
count++;
break;
}
}
}
}
/* Get space to hold the valid list (+1 for the NULL) */
if ((rnetpp = malloc((count + 1) *
sizeof (struct netconfig *))) == NULL) {
free(retp);
nc_error = NC_NOMEM;
return (NULL);
}
/*
* Populate the NETPATH list, ending it with a NULL.
* Each entry in the list points to the structure in the
* "netpp" list (the entry must exist in the list, otherwise
* it wouldn't appear in valid_netpath[]).
*/
curr_pp = rnetpp;
netid = tp = valid_netpath;
while (*tp) {
netid = tp;
while (*tp && *tp != ':')
tp++;
if (*tp)
*tp++ = '\0';
for (tpp = netpp; *tpp; tpp++) {
if (strcmp(netid, (*tpp)->nc_netid) == 0) {
*curr_pp++ = *tpp;
break;
}
}
}
*curr_pp = NULL;
retp->nc_curr = retp->nc_head = rnetpp;
return ((void *)retp);
}
/*
* endnetpath() frees up all of the memory allocated by setnetpath().
* It returns -1 (error) if setnetpath was never called.
*/
int
endnetpath(void *vdata)
{
/* The argument is really a NCONF_HANDLE; cast it here */
NCONF_HANDLE *nconf_handlep = (NCONF_HANDLE *)vdata;
(void) mutex_lock(&netpp_mutex);
if (netpp == NULL || nconf_handlep == NULL) {
nc_error = NC_NOSET;
(void) mutex_unlock(&netpp_mutex);
return (-1);
}
(void) mutex_unlock(&netpp_mutex);
free(nconf_handlep->nc_head);
free(nconf_handlep);
return (0);
}
/*
* getnetpath() returns the current entry in the list
* from the NETPATH variable. If setnetpath() was not called
* previously to set up the list, return NULL.
*/
struct netconfig *
getnetpath(void *vdata)
{
/* The argument is really a NCONF_HANDLE; cast it here */
NCONF_HANDLE *nconf_handlep = (NCONF_HANDLE *)vdata;
struct netconfig *retp; /* holds the return value */
int ipv6_present = -1;
(void) mutex_lock(&netpp_mutex);
if (netpp == NULL) {
nc_error = NC_NOSET;
(void) mutex_unlock(&netpp_mutex);
return (NULL);
}
(void) mutex_unlock(&netpp_mutex);
for (;;) {
retp = *(nconf_handlep->nc_curr);
if (retp && (strcmp(retp->nc_netid, "udp6") == 0 ||
strcmp(retp->nc_netid, "tcp6") == 0)) {
if (ipv6_present == -1)
ipv6_present = __can_use_af(AF_INET6);
if (!ipv6_present) {
++(nconf_handlep->nc_curr);
continue;
}
}
break;
}
if (retp) {
++(nconf_handlep->nc_curr);
nc_error = NC_NOERROR;
} else {
nc_error = NC_NOMOREENTRIES;
}
return (retp);
}
/*
* blank() returns true if the line is a blank line, 0 otherwise
*/
static int
blank(char *cp)
{
while (*cp && isspace(*cp)) {
cp++;
}
return (*cp == '\0');
}
/*
* comment() returns true if the line is a comment, 0 otherwise.
*/
static int
comment(char *cp)
{
while (*cp && isspace(*cp)) {
cp++;
}
return (*cp == '#');
}
/*
* getvalue() searches for the given string in the given array,
* and return the integer value associated with the string.
*/
static unsigned int
getvalue(char *cp, struct nc_data nc_data[])
{
int i; /* used to index through the given struct nc_data array */
for (i = 0; nc_data[i].string; i++) {
if (strcmp(nc_data[i].string, cp) == 0) {
break;
}
}
return (nc_data[i].value);
}
/*
* getflag() creates a bitmap of the one-character flags in
* the given string. It uses nc_flags array to get the values.
*/
static unsigned int
getflag(char *cp)
{
int i; /* indexs through the nc_flag array */
unsigned int mask = 0; /* holds bitmask of flags */
while (*cp) {
for (i = 0; nc_flag[i].string; i++) {
if (*nc_flag[i].string == *cp) {
mask |= nc_flag[i].value;
break;
}
}
cp++;
}
return (mask);
}
/*
* getlookups() creates and returns an array of string representing
* the directory lookup libraries, given as a comma-seperated list
* in the argument "cp".
*/
static char **
getlookups(char *cp)
{
unsigned int num; /* holds the number of entries in the list */
char **listpp; /* the beginning of the list of dir routines */
char **tpp; /* traverses the list, populating it */
char *start;
num = getnlookups(cp);
if (num == 0)
return (NULL);
if ((listpp = malloc((num + 1) * sizeof (char *))) == NULL)
return (NULL);
tpp = listpp;
while (num--) {
start = cp;
/*
* Traverse the string looking for the next entry
* of the list (i.e, where the ',' or end of the
* string appears). If a "\" is found, shift the
* token over 1 to the left (taking the next char
* literally).
*/
while (*cp && *cp != ',') {
if (*cp == '\\' && *(cp + 1)) {
shift1left(cp);
}
cp++;
}
if (*cp)
*cp++ = '\0';
if ((*tpp++ = strdup(start)) == NULL) {
for (tpp = listpp; *tpp; tpp++)
free(*tpp);
free(listpp);
return (NULL);
}
}
*tpp = NULL;
return (listpp);
}
/*
* getnlookups() returns the number of entries in a comma-separated
* string of tokens. A "-" means no strings are present.
*/
static unsigned int
getnlookups(char *cp)
{
unsigned int count; /* the number of tokens in the string */
if (strcmp(cp, "-") == 0)
return (0);
count = 1;
while (*cp) {
if (*cp == ',') {
count++;
}
/*
* If a "\" is in the string, take the next character
* literally. Onlly skip the character if "\" is
* not the last character of the token.
*/
if (*cp == '\\' && *(cp + 1)) {
cp++;
}
cp++;
}
return (count);
}
/*
* gettoken() behaves much like strtok(), except that
* it knows about escaped space characters (i.e., space characters
* preceeded by a '\' are taken literally).
*/
static char *
gettoken(char *cp, int skip)
{
static char *savep; /* the place where we left off */
char *p; /* the beginning of the new token */
char *retp; /* the token to be returned */
fieldnum++;
/* Determine if first or subsequent call */
p = (cp == NULL)? savep: cp;
/* Return if no tokens remain. */
if (p == 0)
return (NULL);
while (isspace(*p))
p++;
if (*p == '\0')
return (NULL);
/*
* Save the location of the token and then skip past it
*/
retp = p;
while (*p) {
if (isspace(*p))
if (skip == TRUE) {
shift1left(p);
continue;
} else
break;
/*
* Only process the escape of the space seperator;
* since the token may contain other separators,
* let the other routines handle the escape of
* specific characters in the token.
*/
if (*p == '\\' && *(p + 1) != '\n' && isspace(*(p + 1))) {
shift1left(p);
}
p++;
}
if (*p == '\0') {
savep = 0; /* indicate this is last token */
} else {
*p = '\0';
savep = ++p;
}
return (strdup(retp));
}
/*
* shift1left() moves all characters in the string over 1 to
* the left.
*/
static void
shift1left(char *p)
{
for (; *p; p++)
*p = *(p + 1);
}
char *
nc_sperror(void)
{
static char buf_main[BUFSIZ];
static pthread_key_t perror_key = PTHREAD_ONCE_KEY_NP;
char *retstr = thr_main()?
buf_main :
thr_get_storage(&perror_key, BUFSIZ, free);
if (retstr == NULL) {
syslog(LOG_WARNING,
"nc_sperror: malloc failed when trying to create buffer\n");
return (NULL);
}
switch (nc_error) {
case NC_NOERROR:
(void) strlcpy(retstr, dgettext(__nsl_dom, "no error"), BUFSIZ);
break;
case NC_NOMEM:
(void) strlcpy(retstr, dgettext(__nsl_dom, "out of memory"),
BUFSIZ);
break;
case NC_NOSET:
(void) strlcpy(retstr, dgettext(__nsl_dom,
"routine called before calling \
setnetpath() or setnetconfig()"), BUFSIZ);
break;
case NC_OPENFAIL:
(void) strlcpy(retstr,
dgettext(__nsl_dom, "cannot open /etc/netconfig"),
BUFSIZ);
break;
case NC_BADLINE:
(void) snprintf(retstr, BUFSIZ, dgettext(__nsl_dom,
"error in /etc/netconfig: field %d of line %d\n"),
fieldnum, linenum);
break;
case NC_NOTFOUND:
(void) snprintf(retstr, BUFSIZ,
dgettext(__nsl_dom,
"netid not found in /etc/netconfig"));
break;
case NC_NOMOREENTRIES:
(void) snprintf(retstr, BUFSIZ,
dgettext(__nsl_dom,
"no more entries in /etc/netconfig"));
break;
default:
(void) strlcpy(retstr, dgettext(__nsl_dom, "unknown error"),
BUFSIZ);
break;
}
return (retstr);
}
void
nc_perror(const char *string)
{
if (string)
(void) fprintf(stderr, "%s: %s\n", string, nc_sperror());
else
(void) fprintf(stderr, "%s\n", nc_sperror());
}
static void
netlist_free(struct netconfig ***netppp)
{
struct netconfig **tpp;
for (tpp = *netppp; *tpp; tpp++) {
netconfig_free(*tpp);
}
free(*netppp);
*netppp = NULL;
}
static void
netconfig_free(struct netconfig *netconfigp)
{
int i;
if (netconfigp == NULL)
return;
free_entry(netconfigp->nc_netid);
free_entry(netconfigp->nc_protofmly);
free_entry(netconfigp->nc_proto);
free_entry(netconfigp->nc_device);
if (netconfigp->nc_lookups)
for (i = 0; i < netconfigp->nc_nlookups; i++)
free_entry(netconfigp->nc_lookups[i]);
free_entry(netconfigp->nc_lookups);
free(netconfigp);
}
static struct netconfig *
netconfig_dup(struct netconfig *netconfigp)
{
struct netconfig *nconf;
int i;
nconf = calloc(1, sizeof (struct netconfig));
if (nconf == NULL) {
nc_error = NC_NOMEM;
return (NULL);
}
nconf->nc_netid = strdup(netconfigp->nc_netid);
nconf->nc_protofmly = strdup(netconfigp->nc_protofmly);
nconf->nc_proto = strdup(netconfigp->nc_proto);
nconf->nc_device = strdup(netconfigp->nc_device);
nconf->nc_lookups = malloc((netconfigp->nc_nlookups + 1)
* sizeof (char *));
if (!(nconf->nc_lookups && nconf->nc_netid &&
nconf->nc_protofmly && nconf->nc_proto &&
nconf->nc_device)) {
nc_error = NC_NOMEM;
netconfig_free(nconf);
return (NULL);
}
for (i = 0; i < netconfigp->nc_nlookups; i++) {
nconf->nc_lookups[i] = strdup(netconfigp->nc_lookups[i]);
if (nconf->nc_lookups[i] == NULL) {
nconf->nc_nlookups = i;
netconfig_free(nconf);
nc_error = NC_NOMEM;
return (NULL);
}
}
nconf->nc_lookups[i] = NULL;
nconf->nc_nlookups = netconfigp->nc_nlookups;
nconf->nc_flag = netconfigp->nc_flag;
nconf->nc_semantics = netconfigp->nc_semantics;
return (nconf);
}
static void
free_entry(void *foo)
{
if (foo)
free(foo);
}