tinc/src/subnet.c

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/*
subnet.c -- handle subnet lookups and lists
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Copyright (C) 2000-2014 Guus Sliepen <guus@tinc-vpn.org>,
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2000-2005 Ivo Timmermans
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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 2 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.
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You should have received a copy of the GNU General Public License along
with this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
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*/
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#include "system.h"
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#include "avl_tree.h"
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#include "device.h"
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#include "logger.h"
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#include "net.h"
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#include "netutl.h"
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#include "node.h"
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#include "process.h"
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#include "subnet.h"
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#include "utils.h"
#include "xalloc.h"
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/* lists type of subnet */
avl_tree_t *subnet_tree;
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/* Subnet lookup cache */
static ipv4_t cache_ipv4_address[2];
static subnet_t *cache_ipv4_subnet[2];
static bool cache_ipv4_valid[2];
static int cache_ipv4_slot;
static ipv6_t cache_ipv6_address[2];
static subnet_t *cache_ipv6_subnet[2];
static bool cache_ipv6_valid[2];
static int cache_ipv6_slot;
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static mac_t cache_mac_address[2];
static subnet_t *cache_mac_subnet[2];
static bool cache_mac_valid[2];
static int cache_mac_slot;
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void subnet_cache_flush(void) {
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cache_ipv4_valid[0] = cache_ipv4_valid[1] = false;
cache_ipv6_valid[0] = cache_ipv6_valid[1] = false;
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cache_mac_valid[0] = cache_mac_valid[1] = false;
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}
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/* Subnet comparison */
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static int subnet_compare_mac(const subnet_t *a, const subnet_t *b) {
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int result;
result = memcmp(&a->net.mac.address, &b->net.mac.address, sizeof(mac_t));
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if(result)
return result;
result = a->weight - b->weight;
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if(result || !a->owner || !b->owner)
return result;
return strcmp(a->owner->name, b->owner->name);
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}
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static int subnet_compare_ipv4(const subnet_t *a, const subnet_t *b) {
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int result;
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result = b->net.ipv4.prefixlength - a->net.ipv4.prefixlength;
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if(result)
return result;
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result = memcmp(&a->net.ipv4.address, &b->net.ipv4.address, sizeof(ipv4_t));
if(result)
return result;
result = a->weight - b->weight;
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if(result || !a->owner || !b->owner)
return result;
return strcmp(a->owner->name, b->owner->name);
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}
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static int subnet_compare_ipv6(const subnet_t *a, const subnet_t *b) {
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int result;
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result = b->net.ipv6.prefixlength - a->net.ipv6.prefixlength;
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if(result)
return result;
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result = memcmp(&a->net.ipv6.address, &b->net.ipv6.address, sizeof(ipv6_t));
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if(result)
return result;
result = a->weight - b->weight;
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if(result || !a->owner || !b->owner)
return result;
return strcmp(a->owner->name, b->owner->name);
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}
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int subnet_compare(const subnet_t *a, const subnet_t *b) {
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int result;
result = a->type - b->type;
if(result)
return result;
switch (a->type) {
case SUBNET_MAC:
return subnet_compare_mac(a, b);
case SUBNET_IPV4:
return subnet_compare_ipv4(a, b);
case SUBNET_IPV6:
return subnet_compare_ipv6(a, b);
default:
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logger(LOG_ERR, "subnet_compare() was called with unknown subnet type %d, exitting!",
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a->type);
exit(0);
}
return 0;
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}
/* Initialising trees */
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void init_subnets(void) {
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subnet_tree = avl_alloc_tree((avl_compare_t) subnet_compare, (avl_action_t) free_subnet);
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subnet_cache_flush();
}
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void exit_subnets(void) {
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avl_delete_tree(subnet_tree);
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}
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avl_tree_t *new_subnet_tree(void) {
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return avl_alloc_tree((avl_compare_t) subnet_compare, NULL);
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}
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void free_subnet_tree(avl_tree_t *subnet_tree) {
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avl_delete_tree(subnet_tree);
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}
/* Allocating and freeing space for subnets */
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subnet_t *new_subnet(void) {
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return xmalloc_and_zero(sizeof(subnet_t));
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}
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void free_subnet(subnet_t *subnet) {
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free(subnet);
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}
/* Adding and removing subnets */
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void subnet_add(node_t *n, subnet_t *subnet) {
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subnet->owner = n;
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avl_insert(subnet_tree, subnet);
avl_insert(n->subnet_tree, subnet);
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subnet_cache_flush();
}
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void subnet_del(node_t *n, subnet_t *subnet) {
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avl_delete(n->subnet_tree, subnet);
avl_delete(subnet_tree, subnet);
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subnet_cache_flush();
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}
/* Ascii representation of subnets */
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bool str2net(subnet_t *subnet, const char *subnetstr) {
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int i, l;
uint16_t x[8];
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int weight = 10;
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if(sscanf(subnetstr, "%hu.%hu.%hu.%hu/%d#%d",
&x[0], &x[1], &x[2], &x[3], &l, &weight) >= 5) {
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if(l < 0 || l > 32)
return false;
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subnet->type = SUBNET_IPV4;
subnet->net.ipv4.prefixlength = l;
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subnet->weight = weight;
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for(i = 0; i < 4; i++) {
if(x[i] > 255)
return false;
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subnet->net.ipv4.address.x[i] = x[i];
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}
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return true;
}
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if(sscanf(subnetstr, "%hx:%hx:%hx:%hx:%hx:%hx:%hx:%hx/%d#%d",
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&x[0], &x[1], &x[2], &x[3], &x[4], &x[5], &x[6], &x[7],
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&l, &weight) >= 9) {
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if(l < 0 || l > 128)
return false;
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subnet->type = SUBNET_IPV6;
subnet->net.ipv6.prefixlength = l;
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subnet->weight = weight;
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for(i = 0; i < 8; i++)
subnet->net.ipv6.address.x[i] = htons(x[i]);
return true;
}
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if(sscanf(subnetstr, "%hu.%hu.%hu.%hu#%d", &x[0], &x[1], &x[2], &x[3], &weight) >= 4) {
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subnet->type = SUBNET_IPV4;
subnet->net.ipv4.prefixlength = 32;
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subnet->weight = weight;
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for(i = 0; i < 4; i++) {
if(x[i] > 255)
return false;
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subnet->net.ipv4.address.x[i] = x[i];
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}
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return true;
}
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if(sscanf(subnetstr, "%hx:%hx:%hx:%hx:%hx:%hx:%hx:%hx#%d",
&x[0], &x[1], &x[2], &x[3], &x[4], &x[5], &x[6], &x[7], &weight) >= 8) {
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subnet->type = SUBNET_IPV6;
subnet->net.ipv6.prefixlength = 128;
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subnet->weight = weight;
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for(i = 0; i < 8; i++)
subnet->net.ipv6.address.x[i] = htons(x[i]);
return true;
}
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if(sscanf(subnetstr, "%hx:%hx:%hx:%hx:%hx:%hx#%d",
&x[0], &x[1], &x[2], &x[3], &x[4], &x[5], &weight) >= 6) {
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subnet->type = SUBNET_MAC;
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subnet->weight = weight;
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for(i = 0; i < 6; i++)
subnet->net.mac.address.x[i] = x[i];
return true;
}
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// IPv6 short form
if(strstr(subnetstr, "::")) {
const char *p;
char *q;
int colons = 0;
// Count number of colons
for(p = subnetstr; *p; p++)
if(*p == ':')
colons++;
if(colons > 7)
return false;
// Scan numbers before the double colon
p = subnetstr;
for(i = 0; i < colons; i++) {
if(*p == ':')
break;
x[i] = strtoul(p, &q, 0x10);
if(!q || p == q || *q != ':')
return false;
p = ++q;
}
p++;
colons -= i;
if(!i) {
p++;
colons--;
}
if(!*p || *p == '/' || *p == '#')
colons--;
// Fill in the blanks
for(; i < 8 - colons; i++)
x[i] = 0;
// Scan the remaining numbers
for(; i < 8; i++) {
x[i] = strtoul(p, &q, 0x10);
if(!q || p == q)
return false;
if(i == 7) {
p = q;
break;
}
if(*q != ':')
return false;
p = ++q;
}
l = 128;
if(*p == '/')
sscanf(p, "/%d#%d", &l, &weight);
else if(*p == '#')
sscanf(p, "#%d", &weight);
if(l < 0 || l > 128)
return false;
subnet->type = SUBNET_IPV6;
subnet->net.ipv6.prefixlength = l;
subnet->weight = weight;
for(i = 0; i < 8; i++)
subnet->net.ipv6.address.x[i] = htons(x[i]);
return true;
}
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return false;
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}
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bool net2str(char *netstr, int len, const subnet_t *subnet) {
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if(!netstr || !subnet) {
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logger(LOG_ERR, "net2str() was called with netstr=%p, subnet=%p!", netstr, subnet);
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return false;
}
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switch (subnet->type) {
case SUBNET_MAC:
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snprintf(netstr, len, "%x:%x:%x:%x:%x:%x#%d",
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subnet->net.mac.address.x[0],
subnet->net.mac.address.x[1],
subnet->net.mac.address.x[2],
subnet->net.mac.address.x[3],
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subnet->net.mac.address.x[4],
subnet->net.mac.address.x[5],
subnet->weight);
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break;
case SUBNET_IPV4:
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snprintf(netstr, len, "%u.%u.%u.%u/%d#%d",
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subnet->net.ipv4.address.x[0],
subnet->net.ipv4.address.x[1],
subnet->net.ipv4.address.x[2],
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subnet->net.ipv4.address.x[3],
subnet->net.ipv4.prefixlength,
subnet->weight);
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break;
case SUBNET_IPV6:
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snprintf(netstr, len, "%x:%x:%x:%x:%x:%x:%x:%x/%d#%d",
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ntohs(subnet->net.ipv6.address.x[0]),
ntohs(subnet->net.ipv6.address.x[1]),
ntohs(subnet->net.ipv6.address.x[2]),
ntohs(subnet->net.ipv6.address.x[3]),
ntohs(subnet->net.ipv6.address.x[4]),
ntohs(subnet->net.ipv6.address.x[5]),
ntohs(subnet->net.ipv6.address.x[6]),
ntohs(subnet->net.ipv6.address.x[7]),
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subnet->net.ipv6.prefixlength,
subnet->weight);
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break;
default:
logger(LOG_ERR,
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"net2str() was called with unknown subnet type %d, exiting!",
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subnet->type);
exit(0);
}
return true;
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}
/* Subnet lookup routines */
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subnet_t *lookup_subnet(const node_t *owner, const subnet_t *subnet) {
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return avl_search(owner->subnet_tree, subnet);
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}
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subnet_t *lookup_subnet_mac(const node_t *owner, const mac_t *address) {
subnet_t *p, *r = NULL;
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avl_node_t *n;
int i;
// Check if this address is cached
for(i = 0; i < 2; i++) {
if(!cache_mac_valid[i])
continue;
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if(owner && cache_mac_subnet[i] && cache_mac_subnet[i]->owner != owner)
continue;
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if(!memcmp(address, &cache_mac_address[i], sizeof *address))
return cache_mac_subnet[i];
}
// Search all subnets for a matching one
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for(n = owner ? owner->subnet_tree->head : subnet_tree->head; n; n = n->next) {
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p = n->data;
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if(!p || p->type != SUBNET_MAC)
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continue;
if(!memcmp(address, &p->net.mac.address, sizeof *address)) {
r = p;
if(p->owner->status.reachable)
break;
}
}
// Cache the result
cache_mac_slot = !cache_mac_slot;
memcpy(&cache_mac_address[cache_mac_slot], address, sizeof *address);
cache_mac_subnet[cache_mac_slot] = r;
cache_mac_valid[cache_mac_slot] = true;
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return r;
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}
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subnet_t *lookup_subnet_ipv4(const ipv4_t *address) {
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subnet_t *p, *r = NULL;
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avl_node_t *n;
int i;
// Check if this address is cached
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for(i = 0; i < 2; i++) {
if(!cache_ipv4_valid[i])
continue;
if(!memcmp(address, &cache_ipv4_address[i], sizeof *address))
return cache_ipv4_subnet[i];
}
// Search all subnets for a matching one
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for(n = subnet_tree->head; n; n = n->next) {
p = n->data;
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if(!p || p->type != SUBNET_IPV4)
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continue;
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if(!maskcmp(address, &p->net.ipv4.address, p->net.ipv4.prefixlength)) {
r = p;
if(p->owner->status.reachable)
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break;
}
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}
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// Cache the result
cache_ipv4_slot = !cache_ipv4_slot;
memcpy(&cache_ipv4_address[cache_ipv4_slot], address, sizeof *address);
cache_ipv4_subnet[cache_ipv4_slot] = r;
cache_ipv4_valid[cache_ipv4_slot] = true;
return r;
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}
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subnet_t *lookup_subnet_ipv6(const ipv6_t *address) {
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subnet_t *p, *r = NULL;
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avl_node_t *n;
int i;
// Check if this address is cached
for(i = 0; i < 2; i++) {
if(!cache_ipv6_valid[i])
continue;
if(!memcmp(address, &cache_ipv6_address[i], sizeof *address))
return cache_ipv6_subnet[i];
}
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// Search all subnets for a matching one
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for(n = subnet_tree->head; n; n = n->next) {
p = n->data;
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if(!p || p->type != SUBNET_IPV6)
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continue;
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if(!maskcmp(address, &p->net.ipv6.address, p->net.ipv6.prefixlength)) {
r = p;
if(p->owner->status.reachable)
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break;
}
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}
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// Cache the result
cache_ipv6_slot = !cache_ipv6_slot;
memcpy(&cache_ipv6_address[cache_ipv6_slot], address, sizeof *address);
cache_ipv6_subnet[cache_ipv6_slot] = r;
cache_ipv6_valid[cache_ipv6_slot] = true;
return r;
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}
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void subnet_update(node_t *owner, subnet_t *subnet, bool up) {
avl_node_t *node;
int i;
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char *envp[10] = {NULL};
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char netstr[MAXNETSTR];
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char *name, *address, *port;
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char empty[] = "";
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// Prepare environment variables to be passed to the script
xasprintf(&envp[0], "NETNAME=%s", netname ? : "");
xasprintf(&envp[1], "DEVICE=%s", device ? : "");
xasprintf(&envp[2], "INTERFACE=%s", iface ? : "");
xasprintf(&envp[3], "NODE=%s", owner->name);
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xasprintf(&envp[4], "NAME=%s", myself->name);
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if(owner != myself) {
sockaddr2str(&owner->address, &address, &port);
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// 5 and 6 are reserved for SUBNET and WEIGHT
xasprintf(&envp[7], "REMOTEADDRESS=%s", address);
xasprintf(&envp[8], "REMOTEPORT=%s", port);
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free(port);
free(address);
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}
name = up ? "subnet-up" : "subnet-down";
if(!subnet) {
for(node = owner->subnet_tree->head; node; node = node->next) {
subnet = node->data;
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if(!net2str(netstr, sizeof netstr, subnet))
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continue;
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// Strip the weight from the subnet, and put it in its own environment variable
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char *weight = strchr(netstr, '#');
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if(weight)
*weight++ = 0;
else
weight = empty;
// Prepare the SUBNET and WEIGHT variables
if(envp[5])
free(envp[5]);
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if(envp[6])
free(envp[6]);
xasprintf(&envp[5], "SUBNET=%s", netstr);
xasprintf(&envp[6], "WEIGHT=%s", weight);
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execute_script(name, envp);
}
} else {
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if(net2str(netstr, sizeof netstr, subnet)) {
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// Strip the weight from the subnet, and put it in its own environment variable
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char *weight = strchr(netstr, '#');
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if(weight)
*weight++ = 0;
else
weight = empty;
// Prepare the SUBNET and WEIGHT variables
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xasprintf(&envp[5], "SUBNET=%s", netstr);
xasprintf(&envp[6], "WEIGHT=%s", weight);
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execute_script(name, envp);
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}
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}
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for(i = 0; envp[i] && i < 9; i++)
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free(envp[i]);
}
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void dump_subnets(void) {
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char netstr[MAXNETSTR];
subnet_t *subnet;
avl_node_t *node;
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logger(LOG_DEBUG, "Subnet list:");
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for(node = subnet_tree->head; node; node = node->next) {
subnet = node->data;
if(!net2str(netstr, sizeof netstr, subnet))
continue;
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logger(LOG_DEBUG, " %s owner %s", netstr, subnet->owner->name);
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}
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logger(LOG_DEBUG, "End of subnet list.");
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}