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samba-mirror/source3/lib/interface.c

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/*
Unix SMB/CIFS implementation.
multiple interface handling
Copyright (C) Andrew Tridgell 1992-1998
Copyright (C) Jeremy Allison 2007
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3 of the License, or
(at your option) any later version.
This program 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "includes.h"
static struct iface_struct *probed_ifaces;
static int total_probed;
static struct interface *local_interfaces;
/****************************************************************************
Check if an IP is one of mine.
**************************************************************************/
bool ismyaddr(const struct sockaddr_storage *ip)
{
struct interface *i;
for (i=local_interfaces;i;i=i->next) {
if (addr_equal(&i->ip,ip)) {
return true;
}
}
return false;
}
bool ismyip_v4(struct in_addr ip)
{
struct sockaddr_storage ss;
in_addr_to_sockaddr_storage(&ss, ip);
return ismyaddr(&ss);
}
/****************************************************************************
Try and find an interface that matches an ip. If we cannot, return NULL.
**************************************************************************/
static struct interface *iface_find(const struct sockaddr_storage *ip,
bool check_mask)
{
struct interface *i;
if (is_address_any(ip)) {
return local_interfaces;
}
for (i=local_interfaces;i;i=i->next) {
if (check_mask) {
if (same_net(ip, &i->ip, &i->netmask)) {
return i;
}
} else if (addr_equal(&i->ip, ip)) {
return i;
}
}
return NULL;
}
/****************************************************************************
Check if a packet is from a local (known) net.
**************************************************************************/
bool is_local_net(const struct sockaddr_storage *from)
{
struct interface *i;
for (i=local_interfaces;i;i=i->next) {
if (same_net(from, &i->ip, &i->netmask)) {
return true;
}
}
return false;
}
/****************************************************************************
Check if a packet is from a local (known) net.
**************************************************************************/
bool is_local_net_v4(struct in_addr from)
{
struct sockaddr_storage ss;
in_addr_to_sockaddr_storage(&ss, from);
return is_local_net(&ss);
}
/****************************************************************************
How many interfaces do we have ?
**************************************************************************/
int iface_count(void)
{
int ret = 0;
struct interface *i;
for (i=local_interfaces;i;i=i->next) {
ret++;
}
return ret;
}
/****************************************************************************
How many interfaces do we have (v4 only) ?
**************************************************************************/
int iface_count_v4(void)
{
int ret = 0;
struct interface *i;
for (i=local_interfaces;i;i=i->next) {
if (i->ip.ss_family == AF_INET) {
ret++;
}
}
return ret;
}
/****************************************************************************
Return a pointer to the in_addr of the first IPv4 interface.
**************************************************************************/
const struct in_addr *first_ipv4_iface(void)
{
struct interface *i;
for (i=local_interfaces;i ;i=i->next) {
if (i->ip.ss_family == AF_INET) {
break;
}
}
if (!i) {
return NULL;
}
return &((const struct sockaddr_in *)&i->ip)->sin_addr;
}
/****************************************************************************
Return the Nth interface.
**************************************************************************/
struct interface *get_interface(int n)
{
struct interface *i;
for (i=local_interfaces;i && n;i=i->next) {
n--;
}
if (i) {
return i;
}
return NULL;
}
/****************************************************************************
Return IP sockaddr_storage of the Nth interface.
**************************************************************************/
const struct sockaddr_storage *iface_n_sockaddr_storage(int n)
{
struct interface *i;
for (i=local_interfaces;i && n;i=i->next) {
n--;
}
if (i) {
return &i->ip;
}
return NULL;
}
/****************************************************************************
Return IPv4 of the Nth interface (if a v4 address). NULL otherwise.
**************************************************************************/
const struct in_addr *iface_n_ip_v4(int n)
{
struct interface *i;
for (i=local_interfaces;i && n;i=i->next) {
n--;
}
if (i && i->ip.ss_family == AF_INET) {
return &((const struct sockaddr_in *)&i->ip)->sin_addr;
}
return NULL;
}
/****************************************************************************
Return IPv4 bcast of the Nth interface (if a v4 address). NULL otherwise.
**************************************************************************/
const struct in_addr *iface_n_bcast_v4(int n)
{
struct interface *i;
for (i=local_interfaces;i && n;i=i->next) {
n--;
}
if (i && i->ip.ss_family == AF_INET) {
return &((const struct sockaddr_in *)&i->bcast)->sin_addr;
}
return NULL;
}
/****************************************************************************
Return bcast of the Nth interface.
**************************************************************************/
const struct sockaddr_storage *iface_n_bcast(int n)
{
struct interface *i;
for (i=local_interfaces;i && n;i=i->next) {
n--;
}
if (i) {
return &i->bcast;
}
return NULL;
}
/* these 3 functions return the ip/bcast/nmask for the interface
most appropriate for the given ip address. If they can't find
an appropriate interface they return the requested field of the
first known interface. */
const struct sockaddr_storage *iface_ip(const struct sockaddr_storage *ip)
{
struct interface *i = iface_find(ip, true);
if (i) {
return &i->ip;
}
/* Search for the first interface with
* matching address family. */
for (i=local_interfaces;i;i=i->next) {
if (i->ip.ss_family == ip->ss_family) {
return &i->ip;
}
}
return NULL;
}
/*
return True if a IP is directly reachable on one of our interfaces
*/
bool iface_local(struct sockaddr_storage *ip)
{
return iface_find(ip, True) ? true : false;
}
/****************************************************************************
Add an interface to the linked list of interfaces.
****************************************************************************/
static void add_interface(const struct iface_struct *ifs)
{
char addr[INET6_ADDRSTRLEN];
struct interface *iface;
if (iface_find(&ifs->ip, False)) {
DEBUG(3,("add_interface: not adding duplicate interface %s\n",
print_sockaddr(addr, sizeof(addr),
&ifs->ip, sizeof(struct sockaddr_storage)) ));
return;
}
if (!(ifs->flags & (IFF_BROADCAST|IFF_LOOPBACK))) {
DEBUG(3,("not adding non-broadcast interface %s\n",
ifs->name ));
return;
}
iface = SMB_MALLOC_P(struct interface);
if (!iface) {
return;
}
ZERO_STRUCTPN(iface);
iface->name = SMB_STRDUP(ifs->name);
if (!iface->name) {
SAFE_FREE(iface);
return;
}
iface->flags = ifs->flags;
iface->ip = ifs->ip;
iface->netmask = ifs->netmask;
iface->bcast = ifs->bcast;
DLIST_ADD(local_interfaces, iface);
DEBUG(2,("added interface %s ip=%s ",
iface->name,
print_sockaddr(addr, sizeof(addr),
&iface->ip, sizeof(struct sockaddr_storage)) ));
DEBUG(2,("bcast=%s ",
print_sockaddr(addr, sizeof(addr),
&iface->bcast,
sizeof(struct sockaddr_storage)) ));
DEBUG(2,("netmask=%s\n",
print_sockaddr(addr, sizeof(addr),
&iface->netmask,
sizeof(struct sockaddr_storage)) ));
}
/****************************************************************************
Create a struct sockaddr_storage with the netmask bits set to 1.
****************************************************************************/
static bool make_netmask(struct sockaddr_storage *pss_out,
const struct sockaddr_storage *pss_in,
unsigned long masklen)
{
*pss_out = *pss_in;
/* Now apply masklen bits of mask. */
#if defined(AF_INET6)
if (pss_in->ss_family == AF_INET6) {
char *p = (char *)&((struct sockaddr_in6 *)pss_out)->sin6_addr;
unsigned int i;
if (masklen > 128) {
return false;
}
for (i = 0; masklen >= 8; masklen -= 8, i++) {
*p++ = 0xff;
}
/* Deal with the partial byte. */
*p++ &= (0xff & ~(0xff>>masklen));
i++;
for (;i < sizeof(struct in6_addr); i++) {
*p++ = '\0';
}
return true;
}
#endif
if (pss_in->ss_family == AF_INET) {
if (masklen > 32) {
return false;
}
((struct sockaddr_in *)pss_out)->sin_addr.s_addr =
htonl(((0xFFFFFFFFL >> masklen) ^ 0xFFFFFFFFL));
return true;
}
return false;
}
/****************************************************************************
Create a struct sockaddr_storage set to the broadcast or network adress from
an incoming sockaddr_storage.
****************************************************************************/
static void make_bcast_or_net(struct sockaddr_storage *pss_out,
const struct sockaddr_storage *pss_in,
const struct sockaddr_storage *nmask,
bool make_bcast)
{
unsigned int i = 0, len = 0;
char *pmask = NULL;
char *p = NULL;
*pss_out = *pss_in;
/* Set all zero netmask bits to 1. */
#if defined(AF_INET6)
if (pss_in->ss_family == AF_INET6) {
p = (char *)&((struct sockaddr_in6 *)pss_out)->sin6_addr;
pmask = (char *)&((struct sockaddr_in6 *)nmask)->sin6_addr;
len = 16;
}
#endif
if (pss_in->ss_family == AF_INET) {
p = (char *)&((struct sockaddr_in *)pss_out)->sin_addr;
pmask = (char *)&((struct sockaddr_in *)nmask)->sin_addr;
len = 4;
}
for (i = 0; i < len; i++, p++, pmask++) {
if (make_bcast) {
*p = (*p & *pmask) | (*pmask ^ 0xff);
} else {
/* make_net */
*p = (*p & *pmask);
}
}
}
static void make_bcast(struct sockaddr_storage *pss_out,
const struct sockaddr_storage *pss_in,
const struct sockaddr_storage *nmask)
{
make_bcast_or_net(pss_out, pss_in, nmask, true);
}
static void make_net(struct sockaddr_storage *pss_out,
const struct sockaddr_storage *pss_in,
const struct sockaddr_storage *nmask)
{
make_bcast_or_net(pss_out, pss_in, nmask, false);
}
/****************************************************************************
Interpret a single element from a interfaces= config line.
This handles the following different forms:
1) wildcard interface name
2) DNS name
3) IP/masklen
4) ip/mask
5) bcast/mask
****************************************************************************/
static void interpret_interface(char *token)
{
struct sockaddr_storage ss;
struct sockaddr_storage ss_mask;
struct sockaddr_storage ss_net;
struct sockaddr_storage ss_bcast;
struct iface_struct ifs;
char *p;
int i;
bool added=false;
bool goodaddr = false;
/* first check if it is an interface name */
for (i=0;i<total_probed;i++) {
if (gen_fnmatch(token, probed_ifaces[i].name) == 0) {
add_interface(&probed_ifaces[i]);
added = true;
}
}
if (added) {
return;
}
/* maybe it is a DNS name */
p = strchr_m(token,'/');
if (p == NULL) {
if (!interpret_string_addr(&ss, token, 0)) {
DEBUG(2, ("interpret_interface: Can't find address "
"for %s\n", token));
return;
}
for (i=0;i<total_probed;i++) {
if (addr_equal(&ss, &probed_ifaces[i].ip)) {
add_interface(&probed_ifaces[i]);
return;
}
}
DEBUG(2,("interpret_interface: "
"can't determine interface for %s\n",
token));
return;
}
/* parse it into an IP address/netmasklength pair */
*p = 0;
goodaddr = interpret_string_addr(&ss, token, 0);
*p++ = '/';
if (!goodaddr) {
DEBUG(2,("interpret_interface: "
"can't determine interface for %s\n",
token));
return;
}
if (strlen(p) > 2) {
goodaddr = interpret_string_addr(&ss_mask, p, 0);
if (!goodaddr) {
DEBUG(2,("interpret_interface: "
"can't determine netmask from %s\n",
p));
return;
}
} else {
char *endp = NULL;
unsigned long val = strtoul(p, &endp, 0);
if (p == endp || (endp && *endp != '\0')) {
DEBUG(2,("interpret_interface: "
"can't determine netmask value from %s\n",
p));
return;
}
if (!make_netmask(&ss_mask, &ss, val)) {
DEBUG(2,("interpret_interface: "
"can't apply netmask value %lu from %s\n",
val,
p));
return;
}
}
make_bcast(&ss_bcast, &ss, &ss_mask);
make_net(&ss_net, &ss, &ss_mask);
/* Maybe the first component was a broadcast address. */
if (addr_equal(&ss_bcast, &ss) || addr_equal(&ss_net, &ss)) {
for (i=0;i<total_probed;i++) {
if (same_net(&ss, &probed_ifaces[i].ip, &ss_mask)) {
/* Temporarily replace netmask on
* the detected interface - user knows
* best.... */
struct sockaddr_storage saved_mask =
probed_ifaces[i].netmask;
probed_ifaces[i].netmask = ss_mask;
DEBUG(2,("interpret_interface: "
"using netmask value %s from "
"config file on interface %s\n",
p,
probed_ifaces[i].name));
add_interface(&probed_ifaces[i]);
probed_ifaces[i].netmask = saved_mask;
return;
}
}
DEBUG(2,("interpret_interface: Can't determine ip for "
"broadcast address %s\n",
token));
return;
}
/* Just fake up the interface definition. User knows best. */
DEBUG(2,("interpret_interface: Adding interface %s\n",
token));
ZERO_STRUCT(ifs);
safe_strcpy(ifs.name, token, sizeof(ifs.name)-1);
ifs.flags = IFF_BROADCAST;
ifs.ip = ss;
ifs.netmask = ss_mask;
ifs.bcast = ss_bcast;
add_interface(&ifs);
}
/****************************************************************************
Load the list of network interfaces.
****************************************************************************/
void load_interfaces(void)
{
struct iface_struct ifaces[MAX_INTERFACES];
const char **ptr = lp_interfaces();
int i;
SAFE_FREE(probed_ifaces);
/* dump the current interfaces if any */
while (local_interfaces) {
struct interface *iface = local_interfaces;
DLIST_REMOVE(local_interfaces, local_interfaces);
SAFE_FREE(iface->name);
SAFE_FREE(iface);
}
/* Probe the kernel for interfaces */
total_probed = get_interfaces(ifaces, MAX_INTERFACES);
if (total_probed > 0) {
probed_ifaces = (struct iface_struct *)memdup(ifaces,
sizeof(ifaces[0])*total_probed);
if (!probed_ifaces) {
DEBUG(0,("ERROR: memdup failed\n"));
exit(1);
}
}
/* if we don't have a interfaces line then use all broadcast capable
interfaces except loopback */
if (!ptr || !*ptr || !**ptr) {
if (total_probed <= 0) {
DEBUG(0,("ERROR: Could not determine network "
"interfaces, you must use a interfaces config line\n"));
exit(1);
}
for (i=0;i<total_probed;i++) {
if (probed_ifaces[i].flags & IFF_BROADCAST) {
add_interface(&probed_ifaces[i]);
}
}
return;
}
if (ptr) {
while (*ptr) {
char *ptr_cpy = SMB_STRDUP(*ptr);
if (ptr_cpy) {
interpret_interface(ptr_cpy);
free(ptr_cpy);
}
ptr++;
}
}
if (!local_interfaces) {
DEBUG(0,("WARNING: no network interfaces found\n"));
}
}
void gfree_interfaces(void)
{
while (local_interfaces) {
struct interface *iface = local_interfaces;
DLIST_REMOVE(local_interfaces, local_interfaces);
SAFE_FREE(iface->name);
SAFE_FREE(iface);
}
SAFE_FREE(probed_ifaces);
}
/****************************************************************************
Return True if the list of probed interfaces has changed.
****************************************************************************/
bool interfaces_changed(void)
{
int n;
struct iface_struct ifaces[MAX_INTERFACES];
n = get_interfaces(ifaces, MAX_INTERFACES);
if ((n > 0 )&& (n != total_probed ||
memcmp(ifaces, probed_ifaces, sizeof(ifaces[0])*n))) {
return true;
}
return false;
}