/*
Solaris NSS wrapper for winbind
- Shirish Kalele 2000
Based on Luke Howard's ldap_nss module for Solaris
*/
/*
Copyright (C) 1997-2003 Luke Howard.
This file is part of the nss_ldap library.
The nss_ldap library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public License as
published by the Free Software Foundation; either version 3 of the
License, or (at your option) any later version.
The nss_ldap library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Library General Public License for more details.
You should have received a copy of the GNU Library General Public
License along with the nss_ldap library; see the file COPYING.LIB. If not,
see .
*/
#undef DEVELOPER
#include "winbind_client.h"
#include
#include
#include
#include
#include
#include "includes.h"
#include
#if !defined(HPUX)
#include
#endif /*hpux*/
#if defined(HAVE_NSS_COMMON_H) || defined(HPUX)
#undef NSS_DEBUG
#ifdef NSS_DEBUG
#define NSS_DEBUG(str) syslog(LOG_DEBUG, "nss_winbind: %s", str);
#else
#define NSS_DEBUG(str) ;
#endif
#define NSS_ARGS(args) ((nss_XbyY_args_t *)args)
#ifdef HPUX
/*
* HP-UX 11 has no definiton of the nss_groupsbymem structure. This
* definition is taken from the nss_ldap project at:
* http://www.padl.com/OSS/nss_ldap.html
*/
struct nss_groupsbymem {
const char *username;
gid_t *gid_array;
int maxgids;
int force_slow_way;
int (*str2ent)(const char *instr, int instr_len, void *ent,
char *buffer, int buflen);
nss_status_t (*process_cstr)(const char *instr, int instr_len,
struct nss_groupsbymem *);
int numgids;
};
#endif /* HPUX */
#define make_pwent_str(dest, src) \
{ \
if((dest = get_static(buffer, buflen, strlen(src)+1)) == NULL) \
{ \
*errnop = ERANGE; \
NSS_DEBUG("ERANGE error"); \
return NSS_STATUS_TRYAGAIN; \
} \
strcpy(dest, src); \
}
static NSS_STATUS _nss_winbind_setpwent_solwrap (nss_backend_t* be, void* args)
{
NSS_DEBUG("_nss_winbind_setpwent_solwrap");
return _nss_winbind_setpwent();
}
static NSS_STATUS
_nss_winbind_endpwent_solwrap (nss_backend_t * be, void *args)
{
NSS_DEBUG("_nss_winbind_endpwent_solwrap");
return _nss_winbind_endpwent();
}
static NSS_STATUS
_nss_winbind_getpwent_solwrap (nss_backend_t* be, void *args)
{
NSS_STATUS ret;
char* buffer = NSS_ARGS(args)->buf.buffer;
int buflen = NSS_ARGS(args)->buf.buflen;
struct passwd* result = (struct passwd*) NSS_ARGS(args)->buf.result;
int* errnop = &NSS_ARGS(args)->erange;
char logmsg[80];
ret = _nss_winbind_getpwent_r(result, buffer,
buflen, errnop);
if(ret == NSS_STATUS_SUCCESS)
{
snprintf(logmsg, 79, "_nss_winbind_getpwent_solwrap: Returning user: %s\n",
result->pw_name);
NSS_DEBUG(logmsg);
NSS_ARGS(args)->returnval = (void*) result;
} else {
snprintf(logmsg, 79, "_nss_winbind_getpwent_solwrap: Returning error: %d.\n",ret);
NSS_DEBUG(logmsg);
}
return ret;
}
static NSS_STATUS
_nss_winbind_getpwnam_solwrap (nss_backend_t* be, void* args)
{
NSS_STATUS ret;
struct passwd* result = (struct passwd*) NSS_ARGS(args)->buf.result;
NSS_DEBUG("_nss_winbind_getpwnam_solwrap");
ret = _nss_winbind_getpwnam_r (NSS_ARGS(args)->key.name,
result,
NSS_ARGS(args)->buf.buffer,
NSS_ARGS(args)->buf.buflen,
&NSS_ARGS(args)->erange);
if(ret == NSS_STATUS_SUCCESS)
NSS_ARGS(args)->returnval = (void*) result;
return ret;
}
static NSS_STATUS
_nss_winbind_getpwuid_solwrap(nss_backend_t* be, void* args)
{
NSS_STATUS ret;
struct passwd* result = (struct passwd*) NSS_ARGS(args)->buf.result;
NSS_DEBUG("_nss_winbind_getpwuid_solwrap");
ret = _nss_winbind_getpwuid_r (NSS_ARGS(args)->key.uid,
result,
NSS_ARGS(args)->buf.buffer,
NSS_ARGS(args)->buf.buflen,
&NSS_ARGS(args)->erange);
if(ret == NSS_STATUS_SUCCESS)
NSS_ARGS(args)->returnval = (void*) result;
return ret;
}
static NSS_STATUS _nss_winbind_passwd_destr (nss_backend_t * be, void *args)
{
SAFE_FREE(be);
NSS_DEBUG("_nss_winbind_passwd_destr");
return NSS_STATUS_SUCCESS;
}
static nss_backend_op_t passwd_ops[] =
{
_nss_winbind_passwd_destr,
_nss_winbind_endpwent_solwrap, /* NSS_DBOP_ENDENT */
_nss_winbind_setpwent_solwrap, /* NSS_DBOP_SETENT */
_nss_winbind_getpwent_solwrap, /* NSS_DBOP_GETENT */
_nss_winbind_getpwnam_solwrap, /* NSS_DBOP_PASSWD_BYNAME */
_nss_winbind_getpwuid_solwrap /* NSS_DBOP_PASSWD_BYUID */
};
nss_backend_t*
_nss_winbind_passwd_constr (const char* db_name,
const char* src_name,
const char* cfg_args)
{
nss_backend_t *be;
if(!(be = SMB_MALLOC_P(nss_backend_t)) )
return NULL;
be->ops = passwd_ops;
be->n_ops = sizeof(passwd_ops) / sizeof(nss_backend_op_t);
NSS_DEBUG("Initialized nss_winbind passwd backend");
return be;
}
/*****************************************************************
GROUP database backend
*****************************************************************/
static NSS_STATUS _nss_winbind_setgrent_solwrap (nss_backend_t* be, void* args)
{
NSS_DEBUG("_nss_winbind_setgrent_solwrap");
return _nss_winbind_setgrent();
}
static NSS_STATUS
_nss_winbind_endgrent_solwrap (nss_backend_t * be, void *args)
{
NSS_DEBUG("_nss_winbind_endgrent_solwrap");
return _nss_winbind_endgrent();
}
static NSS_STATUS
_nss_winbind_getgrent_solwrap(nss_backend_t* be, void* args)
{
NSS_STATUS ret;
char* buffer = NSS_ARGS(args)->buf.buffer;
int buflen = NSS_ARGS(args)->buf.buflen;
struct group* result = (struct group*) NSS_ARGS(args)->buf.result;
int* errnop = &NSS_ARGS(args)->erange;
char logmsg[80];
ret = _nss_winbind_getgrent_r(result, buffer,
buflen, errnop);
if(ret == NSS_STATUS_SUCCESS)
{
snprintf(logmsg, 79, "_nss_winbind_getgrent_solwrap: Returning group: %s\n", result->gr_name);
NSS_DEBUG(logmsg);
NSS_ARGS(args)->returnval = (void*) result;
} else {
snprintf(logmsg, 79, "_nss_winbind_getgrent_solwrap: Returning error: %d.\n", ret);
NSS_DEBUG(logmsg);
}
return ret;
}
static NSS_STATUS
_nss_winbind_getgrnam_solwrap(nss_backend_t* be, void* args)
{
NSS_STATUS ret;
struct group* result = (struct group*) NSS_ARGS(args)->buf.result;
NSS_DEBUG("_nss_winbind_getgrnam_solwrap");
ret = _nss_winbind_getgrnam_r(NSS_ARGS(args)->key.name,
result,
NSS_ARGS(args)->buf.buffer,
NSS_ARGS(args)->buf.buflen,
&NSS_ARGS(args)->erange);
if(ret == NSS_STATUS_SUCCESS)
NSS_ARGS(args)->returnval = (void*) result;
return ret;
}
static NSS_STATUS
_nss_winbind_getgrgid_solwrap(nss_backend_t* be, void* args)
{
NSS_STATUS ret;
struct group* result = (struct group*) NSS_ARGS(args)->buf.result;
NSS_DEBUG("_nss_winbind_getgrgid_solwrap");
ret = _nss_winbind_getgrgid_r (NSS_ARGS(args)->key.gid,
result,
NSS_ARGS(args)->buf.buffer,
NSS_ARGS(args)->buf.buflen,
&NSS_ARGS(args)->erange);
if(ret == NSS_STATUS_SUCCESS)
NSS_ARGS(args)->returnval = (void*) result;
return ret;
}
static NSS_STATUS
_nss_winbind_getgroupsbymember_solwrap(nss_backend_t* be, void* args)
{
int errnop;
struct nss_groupsbymem *gmem = (struct nss_groupsbymem *)args;
NSS_DEBUG("_nss_winbind_getgroupsbymember");
_nss_winbind_initgroups_dyn(gmem->username,
gmem->gid_array[0], /* Primary Group */
&gmem->numgids,
&gmem->maxgids,
&gmem->gid_array,
gmem->maxgids,
&errnop);
/*
* If the maximum number of gids have been found, return
* SUCCESS so the switch engine will stop searching. Otherwise
* return NOTFOUND so nsswitch will continue to get groups
* from the remaining database backends specified in the
* nsswitch.conf file.
*/
return (gmem->numgids == gmem->maxgids ? NSS_STATUS_SUCCESS : NSS_STATUS_NOTFOUND);
}
static NSS_STATUS
_nss_winbind_group_destr (nss_backend_t* be, void* args)
{
SAFE_FREE(be);
NSS_DEBUG("_nss_winbind_group_destr");
return NSS_STATUS_SUCCESS;
}
static nss_backend_op_t group_ops[] =
{
_nss_winbind_group_destr,
_nss_winbind_endgrent_solwrap,
_nss_winbind_setgrent_solwrap,
_nss_winbind_getgrent_solwrap,
_nss_winbind_getgrnam_solwrap,
_nss_winbind_getgrgid_solwrap,
_nss_winbind_getgroupsbymember_solwrap
};
nss_backend_t*
_nss_winbind_group_constr (const char* db_name,
const char* src_name,
const char* cfg_args)
{
nss_backend_t* be;
if(!(be = SMB_MALLOC_P(nss_backend_t)) )
return NULL;
be->ops = group_ops;
be->n_ops = sizeof(group_ops) / sizeof(nss_backend_op_t);
NSS_DEBUG("Initialized nss_winbind group backend");
return be;
}
/*****************************************************************
hosts and ipnodes backend
*****************************************************************/
#if defined(SUNOS5) /* not compatible with HP-UX */
/* this parser is shared between get*byname and get*byaddr, as key type
in request is stored in different locations, I had to provide the
address family as an argument, caller must free the winbind response. */
static NSS_STATUS
parse_response(int af, nss_XbyY_args_t* argp, struct winbindd_response *response)
{
struct hostent *he = (struct hostent *)argp->buf.result;
char *buffer = argp->buf.buffer;
int buflen = argp->buf.buflen;
NSS_STATUS ret;
char *p, *data;
int addrcount = 0;
int len = 0;
struct in_addr *addrp;
struct in6_addr *addrp6;
int i;
/* response is tab separated list of ip addresses with hostname
and newline at the end. so at first we will strip newline
then construct list of addresses for hostent.
*/
p = strchr(response->data.winsresp, '\n');
if(p) *p = '\0';
else {/* it must be broken */
argp->h_errno = NO_DATA;
return NSS_STATUS_UNAVAIL;
}
for(; p != response->data.winsresp; p--) {
if(*p == '\t') addrcount++;
}
if(addrcount == 0) {/* it must be broken */
argp->h_errno = NO_DATA;
return NSS_STATUS_UNAVAIL;
}
/* allocate space for addresses and h_addr_list */
he->h_addrtype = af;
if( he->h_addrtype == AF_INET) {
he->h_length = sizeof(struct in_addr);
addrp = (struct in_addr *)ROUND_DOWN(buffer + buflen,
sizeof(struct in_addr));
addrp -= addrcount;
he->h_addr_list = (char **)ROUND_DOWN(addrp, sizeof (char*));
he->h_addr_list -= addrcount+1;
} else {
he->h_length = sizeof(struct in6_addr);
addrp6 = (struct in6_addr *)ROUND_DOWN(buffer + buflen,
sizeof(struct in6_addr));
addrp6 -= addrcount;
he->h_addr_list = (char **)ROUND_DOWN(addrp6, sizeof (char*));
he->h_addr_list -= addrcount+1;
}
/* buffer too small?! */
if((char *)he->h_addr_list < buffer ) {
argp->erange = 1;
return NSS_STR_PARSE_ERANGE;
}
data = response->data.winsresp;
for( i = 0; i < addrcount; i++) {
p = strchr(data, '\t');
if(p == NULL) break; /* just in case... */
*p = '\0'; /* terminate the string */
if(he->h_addrtype == AF_INET) {
he->h_addr_list[i] = (char *)&addrp[i];
if ((addrp[i].s_addr = inet_addr(data)) == -1) {
argp->erange = 1;
return NSS_STR_PARSE_ERANGE;
}
} else {
he->h_addr_list[i] = (char *)&addrp6[i];
if (strchr(data, ':') != 0) {
if (inet_pton(AF_INET6, data, &addrp6[i]) != 1) {
argp->erange = 1;
return NSS_STR_PARSE_ERANGE;
}
} else {
struct in_addr in4;
if ((in4.s_addr = inet_addr(data)) == -1) {
argp->erange = 1;
return NSS_STR_PARSE_ERANGE;
}
IN6_INADDR_TO_V4MAPPED(&in4, &addrp6[i]);
}
}
data = p+1;
}
he->h_addr_list[i] = (char *)NULL;
len = strlen(data);
if(len > he->h_addr_list - (char**)argp->buf.buffer) {
argp->erange = 1;
return NSS_STR_PARSE_ERANGE;
}
/* this is a bit overkill to use _nss_netdb_aliases here since
there seems to be no aliases but it will create all data for us */
he->h_aliases = _nss_netdb_aliases(data, len, buffer,
((char*) he->h_addr_list) - buffer);
if(he->h_aliases == NULL) {
argp->erange = 1;
ret = NSS_STR_PARSE_ERANGE;
} else {
he->h_name = he->h_aliases[0];
he->h_aliases++;
ret = NSS_STR_PARSE_SUCCESS;
}
argp->returnval = (void*)he;
return ret;
}
static NSS_STATUS
_nss_winbind_ipnodes_getbyname(nss_backend_t* be, void *args)
{
nss_XbyY_args_t *argp = (nss_XbyY_args_t*) args;
struct winbindd_response response;
struct winbindd_request request;
NSS_STATUS ret;
int af;
ZERO_STRUCT(response);
ZERO_STRUCT(request);
/* I assume there that AI_ADDRCONFIG cases are handled in nss
frontend code, at least it seems done so in solaris...
we will give NO_DATA for pure IPv6; IPv4 will be returned for
AF_INET or for AF_INET6 and AI_ALL|AI_V4MAPPED we have to map
IPv4 to IPv6.
*/
#ifdef HAVE_NSS_XBYY_KEY_IPNODE
af = argp->key.ipnode.af_family;
if(af == AF_INET6 && argp->key.ipnode.flags == 0) {
argp->h_errno = NO_DATA;
return NSS_STATUS_UNAVAIL;
}
#else
/* I'm not that sure if this is correct, but... */
af = AF_INET6;
#endif
strncpy(request.data.winsreq, argp->key.name, sizeof(request.data.winsreq) - 1);
request.data.winsreq[sizeof(request.data.winsreq) - 1] = '\0';
if( (ret = winbindd_request_response(WINBINDD_WINS_BYNAME, &request, &response))
== NSS_STATUS_SUCCESS ) {
ret = parse_response(af, argp, &response);
}
free_response(&response);
return ret;
}
static NSS_STATUS
_nss_winbind_hosts_getbyname(nss_backend_t* be, void *args)
{
nss_XbyY_args_t *argp = (nss_XbyY_args_t*) args;
struct winbindd_response response;
struct winbindd_request request;
NSS_STATUS ret;
ZERO_STRUCT(response);
ZERO_STRUCT(request);
strncpy(request.data.winsreq, argp->key.name, sizeof(request.data.winsreq) - 1);
request.data.winsreq[sizeof(request.data.winsreq) - 1] = '\0';
if( (ret = winbindd_request_response(WINBINDD_WINS_BYNAME, &request, &response))
== NSS_STATUS_SUCCESS ) {
ret = parse_response(AF_INET, argp, &response);
}
free_response(&response);
return ret;
}
static NSS_STATUS
_nss_winbind_hosts_getbyaddr(nss_backend_t* be, void *args)
{
NSS_STATUS ret;
struct winbindd_response response;
struct winbindd_request request;
nss_XbyY_args_t *argp = (nss_XbyY_args_t *)args;
const char *p;
ZERO_STRUCT(response);
ZERO_STRUCT(request);
/* winbindd currently does not resolve IPv6 */
if(argp->key.hostaddr.type == AF_INET6) {
argp->h_errno = NO_DATA;
return NSS_STATUS_UNAVAIL;
}
p = inet_ntop(argp->key.hostaddr.type, argp->key.hostaddr.addr,
request.data.winsreq, INET6_ADDRSTRLEN);
ret = winbindd_request_response(WINBINDD_WINS_BYIP, &request, &response);
if( ret == NSS_STATUS_SUCCESS) {
parse_response(argp->key.hostaddr.type, argp, &response);
}
free_response(&response);
return ret;
}
/* winbind does not provide setent, getent, endent for wins */
static NSS_STATUS
_nss_winbind_common_endent(nss_backend_t* be, void *args)
{
return (NSS_STATUS_UNAVAIL);
}
static NSS_STATUS
_nss_winbind_common_setent(nss_backend_t* be, void *args)
{
return (NSS_STATUS_UNAVAIL);
}
static NSS_STATUS
_nss_winbind_common_getent(nss_backend_t* be, void *args)
{
return (NSS_STATUS_UNAVAIL);
}
static nss_backend_t*
_nss_winbind_common_constr (nss_backend_op_t ops[], int n_ops)
{
nss_backend_t* be;
if(!(be = SMB_MALLOC_P(nss_backend_t)) )
return NULL;
be->ops = ops;
be->n_ops = n_ops;
return be;
}
static NSS_STATUS
_nss_winbind_common_destr (nss_backend_t* be, void* args)
{
SAFE_FREE(be);
return NSS_STATUS_SUCCESS;
}
static nss_backend_op_t ipnodes_ops[] = {
_nss_winbind_common_destr,
_nss_winbind_common_endent,
_nss_winbind_common_setent,
_nss_winbind_common_getent,
_nss_winbind_ipnodes_getbyname,
_nss_winbind_hosts_getbyaddr,
};
nss_backend_t *
_nss_winbind_ipnodes_constr(dummy1, dummy2, dummy3)
const char *dummy1, *dummy2, *dummy3;
{
return (_nss_winbind_common_constr(ipnodes_ops,
sizeof (ipnodes_ops) / sizeof (ipnodes_ops[0])));
}
static nss_backend_op_t host_ops[] = {
_nss_winbind_common_destr,
_nss_winbind_common_endent,
_nss_winbind_common_setent,
_nss_winbind_common_getent,
_nss_winbind_hosts_getbyname,
_nss_winbind_hosts_getbyaddr,
};
nss_backend_t *
_nss_winbind_hosts_constr(dummy1, dummy2, dummy3)
const char *dummy1, *dummy2, *dummy3;
{
return (_nss_winbind_common_constr(host_ops,
sizeof (host_ops) / sizeof (host_ops[0])));
}
#endif /* defined(SUNOS5) */
#endif /* defined(HAVE_NSS_COMMON_H) || defined(HPUX) */