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freebsd/contrib/tcp_wrappers/tli.c
Yoshinobu Inoue 8053080cbc Missing tcp_wrapper IPv6 support seemed to be a bug, so commit it.
Now when tcp_wrapper is enabled by inetd -wW,
  several accesses which should be permitted are refused only for IPv6,
  if hostname is used to decide the host to be allowed.
  IPv6 users will be just upset.

  About security related concern.
    -All extensions are wrapped by #ifdef INET6, so people can completely
     disable the extension by recompile libwrap without INET6 option.
    -Access via IPv6 is not enabled by default.
     People need to enable IPv6 access by changing /etc/inetd.conf at first,
     by adding tcp6 and/or tcp46 entries.
    -The base of patches are from KAME package and are actually daily used
     for more than a year in several Japanese IPv6 environments.
    -Patches are reviewed by markm.

Approved by: jkh

Submitted by: Hajimu UMEMOTO <ume@mahoroba.org>
Reviewed by: markm
Obtained from: KAME project
2000-02-03 10:27:03 +00:00

373 lines
10 KiB
C

/*
* tli_host() determines the type of transport (connected, connectionless),
* the transport address of a client host, and the transport address of a
* server endpoint. In addition, it provides methods to map a transport
* address to a printable host name or address. Socket address results are
* in static memory; tli structures are allocated from the heap.
*
* The result from the hostname lookup method is STRING_PARANOID when a host
* pretends to have someone elses name, or when a host name is available but
* could not be verified.
*
* Diagnostics are reported through syslog(3).
*
* Author: Wietse Venema, Eindhoven University of Technology, The Netherlands.
*
* $FreeBSD$
*/
#ifndef lint
static char sccsid[] = "@(#) tli.c 1.15 97/03/21 19:27:25";
#endif
#ifdef TLI
/* System libraries. */
#include <sys/types.h>
#include <sys/param.h>
#include <sys/stream.h>
#include <sys/stat.h>
#include <sys/mkdev.h>
#include <sys/tiuser.h>
#include <sys/timod.h>
#include <sys/socket.h>
#include <netinet/in.h>
#include <stdio.h>
#include <syslog.h>
#include <errno.h>
#include <netconfig.h>
#include <netdir.h>
#include <string.h>
extern char *nc_sperror();
extern int errno;
extern char *sys_errlist[];
extern int sys_nerr;
extern int t_errno;
extern char *t_errlist[];
extern int t_nerr;
/* Local stuff. */
#include "tcpd.h"
/* Forward declarations. */
static void tli_endpoints();
static struct netconfig *tli_transport();
static void tli_hostname();
static void tli_hostaddr();
static void tli_cleanup();
static char *tli_error();
static void tli_sink();
/* tli_host - look up endpoint addresses and install conversion methods */
void tli_host(request)
struct request_info *request;
{
#ifdef INET6
static struct sockaddr_storage client;
static struct sockaddr_storage server;
#else
static struct sockaddr_in client;
static struct sockaddr_in server;
#endif
/*
* If we discover that we are using an IP transport, pretend we never
* were here. Otherwise, use the transport-independent method and stick
* to generic network addresses. XXX hard-coded protocol family name.
*/
tli_endpoints(request);
#ifdef INET6
if ((request->config = tli_transport(request->fd)) != 0
&& (STR_EQ(request->config->nc_protofmly, "inet") ||
STR_EQ(request->config->nc_protofmly, "inet6"))) {
#else
if ((request->config = tli_transport(request->fd)) != 0
&& STR_EQ(request->config->nc_protofmly, "inet")) {
#endif
if (request->client->unit != 0) {
#ifdef INET6
client = *(struct sockaddr_storage *) request->client->unit->addr.buf;
request->client->sin = (struct sockaddr *) &client;
#else
client = *(struct sockaddr_in *) request->client->unit->addr.buf;
request->client->sin = &client;
#endif
}
if (request->server->unit != 0) {
#ifdef INET6
server = *(struct sockaddr_storage *) request->server->unit->addr.buf;
request->server->sin = (struct sockaddr *) &server;
#else
server = *(struct sockaddr_in *) request->server->unit->addr.buf;
request->server->sin = &server;
#endif
}
tli_cleanup(request);
sock_methods(request);
} else {
request->hostname = tli_hostname;
request->hostaddr = tli_hostaddr;
request->cleanup = tli_cleanup;
}
}
/* tli_cleanup - cleanup some dynamically-allocated data structures */
static void tli_cleanup(request)
struct request_info *request;
{
if (request->config != 0)
freenetconfigent(request->config);
if (request->client->unit != 0)
t_free((char *) request->client->unit, T_UNITDATA);
if (request->server->unit != 0)
t_free((char *) request->server->unit, T_UNITDATA);
}
/* tli_endpoints - determine TLI client and server endpoint information */
static void tli_endpoints(request)
struct request_info *request;
{
struct t_unitdata *server;
struct t_unitdata *client;
int fd = request->fd;
int flags;
/*
* Determine the client endpoint address. With unconnected services, peek
* at the sender address of the pending protocol data unit without
* popping it off the receive queue. This trick works because only the
* address member of the unitdata structure has been allocated.
*
* Beware of successful returns with zero-length netbufs (for example,
* Solaris 2.3 with ticlts transport). The netdir(3) routines can't
* handle that. Assume connection-less transport when TI_GETPEERNAME
* produces no usable result, even when t_rcvudata() is unable to figure
* out the peer address. Better to hang than to loop.
*/
if ((client = (struct t_unitdata *) t_alloc(fd, T_UNITDATA, T_ADDR)) == 0) {
tcpd_warn("t_alloc: %s", tli_error());
return;
}
if (ioctl(fd, TI_GETPEERNAME, &client->addr) < 0 || client->addr.len == 0) {
request->sink = tli_sink;
if (t_rcvudata(fd, client, &flags) < 0 || client->addr.len == 0) {
tcpd_warn("can't get client address: %s", tli_error());
t_free((void *) client, T_UNITDATA);
return;
}
}
request->client->unit = client;
/*
* Look up the server endpoint address. This can be used for filtering on
* server address or name, or to look up the client user.
*/
if ((server = (struct t_unitdata *) t_alloc(fd, T_UNITDATA, T_ADDR)) == 0) {
tcpd_warn("t_alloc: %s", tli_error());
return;
}
if (ioctl(fd, TI_GETMYNAME, &server->addr) < 0) {
tcpd_warn("TI_GETMYNAME: %m");
t_free((void *) server, T_UNITDATA);
return;
}
request->server->unit = server;
}
/* tli_transport - find out TLI transport type */
static struct netconfig *tli_transport(fd)
int fd;
{
struct stat from_client;
struct stat from_config;
void *handlep;
struct netconfig *config;
/*
* Assuming that the network device is a clone device, we must compare
* the major device number of stdin to the minor device number of the
* devices listed in the netconfig table.
*/
if (fstat(fd, &from_client) != 0) {
tcpd_warn("fstat(fd %d): %m", fd);
return (0);
}
if ((handlep = setnetconfig()) == 0) {
tcpd_warn("setnetconfig: %m");
return (0);
}
while (config = getnetconfig(handlep)) {
if (stat(config->nc_device, &from_config) == 0) {
#ifdef NO_CLONE_DEVICE
/*
* If the network devices are not cloned (as is the case for
* Solaris 8 Beta), we must compare the major device numbers.
*/
if (major(from_config.st_rdev) == major(from_client.st_rdev))
#else
if (minor(from_config.st_rdev) == major(from_client.st_rdev))
#endif
break;
}
}
if (config == 0) {
tcpd_warn("unable to identify transport protocol");
return (0);
}
/*
* Something else may clobber our getnetconfig() result, so we'd better
* acquire our private copy.
*/
if ((config = getnetconfigent(config->nc_netid)) == 0) {
tcpd_warn("getnetconfigent(%s): %s", config->nc_netid, nc_sperror());
return (0);
}
return (config);
}
/* tli_hostaddr - map TLI transport address to printable address */
static void tli_hostaddr(host)
struct host_info *host;
{
struct request_info *request = host->request;
struct netconfig *config = request->config;
struct t_unitdata *unit = host->unit;
char *uaddr;
if (config != 0 && unit != 0
&& (uaddr = taddr2uaddr(config, &unit->addr)) != 0) {
STRN_CPY(host->addr, uaddr, sizeof(host->addr));
free(uaddr);
}
}
/* tli_hostname - map TLI transport address to hostname */
static void tli_hostname(host)
struct host_info *host;
{
struct request_info *request = host->request;
struct netconfig *config = request->config;
struct t_unitdata *unit = host->unit;
struct nd_hostservlist *servlist;
if (config != 0 && unit != 0
&& netdir_getbyaddr(config, &servlist, &unit->addr) == ND_OK) {
struct nd_hostserv *service = servlist->h_hostservs;
struct nd_addrlist *addr_list;
int found = 0;
if (netdir_getbyname(config, service, &addr_list) != ND_OK) {
/*
* Unable to verify that the name matches the address. This may
* be a transient problem or a botched name server setup. We
* decide to play safe.
*/
tcpd_warn("can't verify hostname: netdir_getbyname(%.*s) failed",
STRING_LENGTH, service->h_host);
} else {
/*
* Look up the host address in the address list we just got. The
* comparison is done on the textual representation, because the
* transport address is an opaque structure that may have holes
* with uninitialized garbage. This approach obviously loses when
* the address does not have a textual representation.
*/
char *uaddr = eval_hostaddr(host);
char *ua;
int i;
for (i = 0; found == 0 && i < addr_list->n_cnt; i++) {
if ((ua = taddr2uaddr(config, &(addr_list->n_addrs[i]))) != 0) {
found = !strcmp(ua, uaddr);
free(ua);
}
}
netdir_free((void *) addr_list, ND_ADDRLIST);
/*
* When the host name does not map to the initial address, assume
* someone has compromised a name server. More likely someone
* botched it, but that could be dangerous, too.
*/
if (found == 0)
tcpd_warn("host name/address mismatch: %s != %.*s",
host->addr, STRING_LENGTH, service->h_host);
}
STRN_CPY(host->name, found ? service->h_host : paranoid,
sizeof(host->name));
netdir_free((void *) servlist, ND_HOSTSERVLIST);
}
}
/* tli_error - convert tli error number to text */
static char *tli_error()
{
static char buf[40];
if (t_errno != TSYSERR) {
if (t_errno < 0 || t_errno >= t_nerr) {
sprintf(buf, "Unknown TLI error %d", t_errno);
return (buf);
} else {
return (t_errlist[t_errno]);
}
} else {
if (errno < 0 || errno >= sys_nerr) {
sprintf(buf, "Unknown UNIX error %d", errno);
return (buf);
} else {
return (sys_errlist[errno]);
}
}
}
/* tli_sink - absorb unreceived datagram */
static void tli_sink(fd)
int fd;
{
struct t_unitdata *unit;
int flags;
/*
* Something went wrong. Absorb the datagram to keep inetd from looping.
* Allocate storage for address, control and data. If that fails, sleep
* for a couple of seconds in an attempt to keep inetd from looping too
* fast.
*/
if ((unit = (struct t_unitdata *) t_alloc(fd, T_UNITDATA, T_ALL)) == 0) {
tcpd_warn("t_alloc: %s", tli_error());
sleep(5);
} else {
(void) t_rcvudata(fd, unit, &flags);
t_free((void *) unit, T_UNITDATA);
}
}
#endif /* TLI */