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|
/*
* netifd - network interface daemon
* Copyright (C) 2012 Felix Fietkau <nbd@openwrt.org>
* Copyright (C) 2012 Steven Barth <steven@midlink.org>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2
* as published by the Free Software Foundation
*
* 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.
*/
#include <string.h>
#include <stdlib.h>
#include <stdio.h>
#include <limits.h>
#include <arpa/inet.h>
#include <netinet/in.h>
#include "netifd.h"
#include "device.h"
#include "interface.h"
#include "interface-ip.h"
#include "proto.h"
#include "ubus.h"
#include "system.h"
enum {
ROUTE_INTERFACE,
ROUTE_TARGET,
ROUTE_MASK,
ROUTE_GATEWAY,
ROUTE_METRIC,
ROUTE_MTU,
ROUTE_VALID,
ROUTE_TABLE,
ROUTE_SOURCE,
ROUTE_ONLINK,
ROUTE_TYPE,
ROUTE_PROTO,
__ROUTE_MAX
};
static const struct blobmsg_policy route_attr[__ROUTE_MAX] = {
[ROUTE_INTERFACE] = { .name = "interface", .type = BLOBMSG_TYPE_STRING },
[ROUTE_TARGET] = { .name = "target", .type = BLOBMSG_TYPE_STRING },
[ROUTE_MASK] = { .name = "netmask", .type = BLOBMSG_TYPE_STRING },
[ROUTE_GATEWAY] = { .name = "gateway", .type = BLOBMSG_TYPE_STRING },
[ROUTE_METRIC] = { .name = "metric", .type = BLOBMSG_TYPE_INT32 },
[ROUTE_MTU] = { .name = "mtu", .type = BLOBMSG_TYPE_INT32 },
[ROUTE_TABLE] = { .name = "table", .type = BLOBMSG_TYPE_STRING },
[ROUTE_VALID] = { .name = "valid", .type = BLOBMSG_TYPE_INT32 },
[ROUTE_SOURCE] = { .name = "source", .type = BLOBMSG_TYPE_STRING },
[ROUTE_ONLINK] = { .name = "onlink", .type = BLOBMSG_TYPE_BOOL },
[ROUTE_TYPE] = { .name = "type", .type = BLOBMSG_TYPE_STRING },
[ROUTE_PROTO] = { .name = "proto", .type = BLOBMSG_TYPE_STRING },
};
const struct uci_blob_param_list route_attr_list = {
.n_params = __ROUTE_MAX,
.params = route_attr,
};
struct list_head prefixes = LIST_HEAD_INIT(prefixes);
static struct device_prefix *ula_prefix = NULL;
static struct uloop_timeout valid_until_timeout;
static void
clear_if_addr(union if_addr *a, int mask)
{
int m_bytes = (mask + 7) / 8;
uint8_t m_clear = (1 << (m_bytes * 8 - mask)) - 1;
uint8_t *p = (uint8_t *) a;
if (m_bytes < sizeof(*a))
memset(p + m_bytes, 0, sizeof(*a) - m_bytes);
p[m_bytes - 1] &= ~m_clear;
}
static bool
match_if_addr(union if_addr *a1, union if_addr *a2, int mask)
{
union if_addr *p1, *p2;
p1 = alloca(sizeof(*a1));
p2 = alloca(sizeof(*a2));
memcpy(p1, a1, sizeof(*a1));
clear_if_addr(p1, mask);
memcpy(p2, a2, sizeof(*a2));
clear_if_addr(p2, mask);
return !memcmp(p1, p2, sizeof(*p1));
}
static int set_ip_source_policy(bool add, bool v6, unsigned int priority,
const union if_addr *addr, uint8_t mask, unsigned int table,
struct interface *in_iface, const char *action, bool src)
{
struct iprule rule = {
.flags = IPRULE_PRIORITY,
.priority = priority
};
if (addr) {
if (src) {
rule.flags |= IPRULE_SRC;
rule.src_addr = *addr;
rule.src_mask = mask;
} else {
rule.flags |= IPRULE_DEST;
rule.dest_addr = *addr;
rule.dest_mask = mask;
}
}
if (table) {
rule.flags |= IPRULE_LOOKUP;
rule.lookup = table;
if (!rule.lookup)
return 0;
} else if (action) {
rule.flags |= IPRULE_ACTION;
system_resolve_iprule_action(action, &rule.action);
}
if (in_iface && in_iface->l3_dev.dev) {
rule.flags |= IPRULE_IN;
strcpy(rule.in_dev, in_iface->l3_dev.dev->ifname);
}
rule.flags |= (v6) ? IPRULE_INET6 : IPRULE_INET4;
return (add) ? system_add_iprule(&rule) : system_del_iprule(&rule);
}
static int set_ip_lo_policy(bool add, bool v6, struct interface *iface)
{
struct iprule rule = {
.flags = IPRULE_IN | IPRULE_LOOKUP | IPRULE_PRIORITY,
.priority = IPRULE_PRIORITY_NW + iface->l3_dev.dev->ifindex,
.lookup = (v6) ? iface->ip6table : iface->ip4table,
.in_dev = "lo"
};
if (!rule.lookup)
return 0;
rule.flags |= (v6) ? IPRULE_INET6 : IPRULE_INET4;
return (add) ? system_add_iprule(&rule) : system_del_iprule(&rule);
}
static bool
__find_ip_addr_target(struct interface_ip_settings *ip, union if_addr *a, bool v6)
{
struct device_addr *addr;
vlist_for_each_element(&ip->addr, addr, node) {
if (!addr->enabled)
continue;
if (v6 != ((addr->flags & DEVADDR_FAMILY) == DEVADDR_INET6))
continue;
// Handle offlink addresses correctly
unsigned int mask = addr->mask;
if ((addr->flags & DEVADDR_FAMILY) == DEVADDR_INET6 &&
(addr->flags & DEVADDR_OFFLINK))
mask = 128;
if (!match_if_addr(&addr->addr, a, mask))
continue;
return true;
}
return false;
}
static void
__find_ip_route_target(struct interface_ip_settings *ip, union if_addr *a,
bool v6, struct device_route **res)
{
struct device_route *route;
vlist_for_each_element(&ip->route, route, node) {
if (!route->enabled)
continue;
if (v6 != ((route->flags & DEVADDR_FAMILY) == DEVADDR_INET6))
continue;
if (!match_if_addr(&route->addr, a, route->mask))
continue;
if (route->flags & DEVROUTE_TABLE)
continue;
if (!*res || route->mask > (*res)->mask)
*res = route;
}
}
static bool
interface_ip_find_addr_target(struct interface *iface, union if_addr *a, bool v6)
{
return __find_ip_addr_target(&iface->proto_ip, a, v6) ||
__find_ip_addr_target(&iface->config_ip, a, v6);
}
static void
interface_ip_find_route_target(struct interface *iface, union if_addr *a,
bool v6, struct device_route **route)
{
__find_ip_route_target(&iface->proto_ip, a, v6, route);
__find_ip_route_target(&iface->config_ip, a, v6, route);
}
struct interface *
interface_ip_add_target_route(union if_addr *addr, bool v6, struct interface *iface)
{
struct device_route *route, *r_next = NULL;
bool defaultroute_target = false;
union if_addr addr_zero;
int addrsize = v6 ? sizeof(addr->in6) : sizeof(addr->in);
memset(&addr_zero, 0, sizeof(addr_zero));
if (memcmp(&addr_zero, addr, addrsize) == 0)
defaultroute_target = true;
if (iface) {
/* look for locally addressable target first */
if (interface_ip_find_addr_target(iface, addr, v6))
return iface;
/* do not stop at the first route, let the lookup compare
* masks to find the best match */
interface_ip_find_route_target(iface, addr, v6, &r_next);
} else {
vlist_for_each_element(&interfaces, iface, node) {
/* look for locally addressable target first */
if (interface_ip_find_addr_target(iface, addr, v6))
return iface;
/* do not stop at the first route, let the lookup compare
* masks to find the best match */
interface_ip_find_route_target(iface, addr, v6, &r_next);
}
}
if (!r_next)
return NULL;
iface = r_next->iface;
if (defaultroute_target)
return iface;
route = calloc(1, sizeof(*route));
if (!route)
return NULL;
route->flags = v6 ? DEVADDR_INET6 : DEVADDR_INET4;
route->mask = v6 ? 128 : 32;
memcpy(&route->addr, addr, addrsize);
memcpy(&route->nexthop, &r_next->nexthop, sizeof(route->nexthop));
route->mtu = r_next->mtu;
route->metric = r_next->metric;
route->table = r_next->table;
route->iface = iface;
vlist_add(&iface->host_routes, &route->node, route);
return iface;
}
static void
interface_set_route_info(struct interface *iface, struct device_route *route)
{
bool v6 = ((route->flags & DEVADDR_FAMILY) == DEVADDR_INET6);
if (!iface)
return;
if (!(route->flags & DEVROUTE_METRIC))
route->metric = iface->metric;
if (!(route->flags & DEVROUTE_TABLE)) {
route->table = (v6) ? iface->ip6table : iface->ip4table;
if (route->table)
route->flags |= DEVROUTE_SRCTABLE;
}
}
void
interface_ip_add_route(struct interface *iface, struct blob_attr *attr, bool v6)
{
struct interface_ip_settings *ip;
struct blob_attr *tb[__ROUTE_MAX], *cur;
struct device_route *route;
int af = v6 ? AF_INET6 : AF_INET;
blobmsg_parse(route_attr, __ROUTE_MAX, tb, blobmsg_data(attr), blobmsg_data_len(attr));
if (!iface) {
if ((cur = tb[ROUTE_INTERFACE]) == NULL)
return;
iface = vlist_find(&interfaces, blobmsg_data(cur), iface, node);
if (!iface)
return;
ip = &iface->config_ip;
} else {
ip = &iface->proto_ip;
}
route = calloc(1, sizeof(*route));
if (!route)
return;
route->flags = v6 ? DEVADDR_INET6 : DEVADDR_INET4;
route->mask = v6 ? 128 : 32;
if ((cur = tb[ROUTE_MASK]) != NULL) {
route->mask = parse_netmask_string(blobmsg_data(cur), v6);
if (route->mask > (v6 ? 128 : 32))
goto error;
}
if ((cur = tb[ROUTE_TARGET]) != NULL) {
if (!parse_ip_and_netmask(af, blobmsg_data(cur), &route->addr, &route->mask)) {
DPRINTF("Failed to parse route target: %s\n", (char *) blobmsg_data(cur));
goto error;
}
}
if ((cur = tb[ROUTE_GATEWAY]) != NULL) {
if (!inet_pton(af, blobmsg_data(cur), &route->nexthop)) {
DPRINTF("Failed to parse route gateway: %s\n", (char *) blobmsg_data(cur));
goto error;
}
}
if ((cur = tb[ROUTE_METRIC]) != NULL) {
route->metric = blobmsg_get_u32(cur);
route->flags |= DEVROUTE_METRIC;
}
if ((cur = tb[ROUTE_MTU]) != NULL) {
route->mtu = blobmsg_get_u32(cur);
route->flags |= DEVROUTE_MTU;
}
// Use source-based routing
if ((cur = tb[ROUTE_SOURCE]) != NULL) {
char *saveptr, *source = alloca(blobmsg_data_len(cur));
memcpy(source, blobmsg_data(cur), blobmsg_data_len(cur));
const char *addr = strtok_r(source, "/", &saveptr);
const char *mask = strtok_r(NULL, "/", &saveptr);
if (!addr || inet_pton(af, addr, &route->source) < 1) {
DPRINTF("Failed to parse route source: %s\n", addr ? addr : "NULL");
goto error;
}
route->sourcemask = (mask) ? atoi(mask) : ((af == AF_INET6) ? 128 : 32);
}
if ((cur = tb[ROUTE_ONLINK]) != NULL && blobmsg_get_bool(cur))
route->flags |= DEVROUTE_ONLINK;
if ((cur = tb[ROUTE_TABLE]) != NULL) {
if (!system_resolve_rt_table(blobmsg_data(cur), &route->table)) {
DPRINTF("Failed to resolve routing table: %s\n", (char *) blobmsg_data(cur));
goto error;
}
/* only set the table flag if not using the main (default) table */
if (system_is_default_rt_table(route->table))
route->table = 0;
if (route->table)
route->flags |= DEVROUTE_TABLE;
}
if ((cur = tb[ROUTE_VALID]) != NULL) {
int64_t valid = blobmsg_get_u32(cur);
int64_t valid_until = valid + (int64_t)system_get_rtime();
if (valid_until <= LONG_MAX && valid != 0xffffffffLL) // Catch overflow
route->valid_until = valid_until;
}
if ((cur = tb[ROUTE_TYPE]) != NULL) {
if (!system_resolve_rt_type(blobmsg_data(cur), &route->type)) {
DPRINTF("Failed to resolve routing type: %s\n", (char *) blobmsg_data(cur));
goto error;
}
route->flags |= DEVROUTE_TYPE;
}
if ((cur = tb[ROUTE_PROTO]) != NULL) {
if (!system_resolve_rt_proto(blobmsg_data(cur), &route->proto)) {
DPRINTF("Failed to resolve proto type: %s\n", (char *) blobmsg_data(cur));
goto error;
}
route->flags |= DEVROUTE_PROTO;
}
interface_set_route_info(iface, route);
vlist_add(&ip->route, &route->node, route);
return;
error:
free(route);
}
static int
addr_cmp(const void *k1, const void *k2, void *ptr)
{
return memcmp(k1, k2, sizeof(struct device_addr) -
offsetof(struct device_addr, flags));
}
static int
route_cmp(const void *k1, const void *k2, void *ptr)
{
const struct device_route *r1 = k1, *r2 = k2;
if (r1->mask != r2->mask)
return r2->mask - r1->mask;
if (r1->metric != r2->metric)
return r1->metric - r2->metric;
if (r1->flags != r2->flags)
return r2->flags - r1->flags;
if (r1->sourcemask != r2->sourcemask)
return r1->sourcemask - r2->sourcemask;
if (r1->table != r2->table)
return r1->table - r2->table;
int maskcmp = memcmp(&r1->source, &r2->source, sizeof(r1->source));
if (maskcmp)
return maskcmp;
return memcmp(&r1->addr, &r2->addr, sizeof(r1->addr));
}
static int
prefix_cmp(const void *k1, const void *k2, void *ptr)
{
return memcmp(k1, k2, offsetof(struct device_prefix, pclass) -
offsetof(struct device_prefix, addr));
}
static void
interface_handle_subnet_route(struct interface *iface, struct device_addr *addr, bool add)
{
struct device *dev = iface->l3_dev.dev;
struct device_route *r = &addr->subnet;
if (addr->flags & DEVADDR_OFFLINK)
return;
if (!add) {
if (!addr->subnet.iface)
return;
system_del_route(dev, r);
memset(r, 0, sizeof(*r));
return;
}
r->iface = iface;
r->flags = addr->flags;
r->mask = addr->mask;
memcpy(&r->addr, &addr->addr, sizeof(r->addr));
clear_if_addr(&r->addr, r->mask);
if (!system_resolve_rt_proto("kernel", &r->proto))
return;
r->flags |= DEVROUTE_PROTO;
system_del_route(dev, r);
r->flags &= ~DEVROUTE_PROTO;
interface_set_route_info(iface, r);
system_add_route(dev, r);
}
static void
interface_add_addr_rules(struct device_addr *addr, bool enabled)
{
bool v6 = (addr->flags & DEVADDR_FAMILY) == DEVADDR_INET6;
set_ip_source_policy(enabled, v6, IPRULE_PRIORITY_ADDR, &addr->addr,
(v6) ? 128 : 32, addr->policy_table, NULL, NULL,
true);
set_ip_source_policy(enabled, v6, IPRULE_PRIORITY_ADDR_MASK,
&addr->addr, addr->mask, addr->policy_table, NULL,
NULL, false);
}
static void
interface_update_proto_addr(struct vlist_tree *tree,
struct vlist_node *node_new,
struct vlist_node *node_old)
{
struct interface_ip_settings *ip;
struct interface *iface;
struct device *dev;
struct device_addr *a_new = NULL, *a_old = NULL;
bool replace = false;
bool keep = false;
bool v6 = false;
ip = container_of(tree, struct interface_ip_settings, addr);
iface = ip->iface;
dev = iface->l3_dev.dev;
if (!node_new || !node_old)
iface->updated |= IUF_ADDRESS;
if (node_new) {
a_new = container_of(node_new, struct device_addr, node);
if ((a_new->flags & DEVADDR_FAMILY) == DEVADDR_INET4 &&
!a_new->broadcast) {
/* /31 and /32 addressing need 255.255.255.255
* as broadcast address. */
if (a_new->mask >= 31) {
a_new->broadcast = (uint32_t) ~0;
} else {
uint32_t mask = ~0;
uint32_t *a = (uint32_t *) &a_new->addr;
mask >>= a_new->mask;
a_new->broadcast = *a | htonl(mask);
}
}
}
if (node_old)
a_old = container_of(node_old, struct device_addr, node);
if (a_new && a_old) {
keep = true;
if (a_old->flags != a_new->flags || a_old->failed)
keep = false;
if (a_old->valid_until != a_new->valid_until ||
a_old->preferred_until != a_new->preferred_until)
replace = true;
if (((a_new->flags & DEVADDR_FAMILY) == DEVADDR_INET4) &&
(a_new->broadcast != a_old->broadcast ||
a_new->point_to_point != a_old->point_to_point))
keep = false;
}
if (node_old) {
if (a_old->enabled && !keep) {
//This is needed for source routing to work correctly. If a device
//has two connections to a network using the same subnet, adding
//only the network-rule will cause packets to be routed through the
//first matching network (source IP matches both masks).
if (a_old->policy_table)
interface_add_addr_rules(a_old, false);
if (!(a_old->flags & DEVADDR_EXTERNAL)) {
interface_handle_subnet_route(iface, a_old, false);
system_del_address(dev, a_old);
}
}
free(a_old->pclass);
free(a_old);
}
if (node_new) {
a_new->enabled = true;
if ((a_new->flags & DEVADDR_FAMILY) == DEVADDR_INET6)
v6 = true;
a_new->policy_table = (v6) ? iface->ip6table : iface->ip4table;
if (!keep || replace) {
if (!(a_new->flags & DEVADDR_EXTERNAL)) {
if (system_add_address(dev, a_new))
a_new->failed = true;
if (iface->metric || a_new->policy_table)
interface_handle_subnet_route(iface, a_new, true);
}
if (!keep) {
if (a_new->policy_table)
interface_add_addr_rules(a_new, true);
}
}
}
}
static bool
enable_route(struct interface_ip_settings *ip, struct device_route *route)
{
if (ip->no_defaultroute && !route->mask)
return false;
return ip->enabled;
}
static void
interface_update_proto_route(struct vlist_tree *tree,
struct vlist_node *node_new,
struct vlist_node *node_old)
{
struct interface_ip_settings *ip;
struct interface *iface;
struct device *dev;
struct device_route *route_old, *route_new;
bool keep = false;
ip = container_of(tree, struct interface_ip_settings, route);
iface = ip->iface;
dev = iface->l3_dev.dev;
if (!node_new || !node_old)
iface->updated |= IUF_ROUTE;
route_old = container_of(node_old, struct device_route, node);
route_new = container_of(node_new, struct device_route, node);
if (node_old && node_new)
keep = !memcmp(&route_old->nexthop, &route_new->nexthop, sizeof(route_old->nexthop)) &&
(route_old->mtu == route_new->mtu) && (route_old->type == route_new->type) &&
(route_old->proto == route_new->proto) && !route_old->failed;
if (node_old) {
if (!(route_old->flags & DEVADDR_EXTERNAL) && route_old->enabled && !keep)
system_del_route(dev, route_old);
free(route_old);
}
if (node_new) {
bool _enabled = enable_route(ip, route_new);
if (!(route_new->flags & DEVADDR_EXTERNAL) && !keep && _enabled)
if (system_add_route(dev, route_new))
route_new->failed = true;
route_new->iface = iface;
route_new->enabled = _enabled;
}
}
static void
interface_update_host_route(struct vlist_tree *tree,
struct vlist_node *node_new,
struct vlist_node *node_old)
{
struct interface *iface;
struct device *dev;
struct device_route *route_old, *route_new;
iface = container_of(tree, struct interface, host_routes);
dev = iface->l3_dev.dev;
route_old = container_of(node_old, struct device_route, node);
route_new = container_of(node_new, struct device_route, node);
if (node_old) {
system_del_route(dev, route_old);
free(route_old);
}
if (node_new) {
if (system_add_route(dev, route_new))
route_new->failed = true;
}
}
static void
random_ifaceid(struct in6_addr *addr)
{
static bool initialized = false;
struct timeval t;
if (!initialized) {
long int seed = 0;
gettimeofday(&t, NULL);
seed = t.tv_sec ^ t.tv_usec ^ getpid();
srand48(seed);
initialized = true;
}
addr->s6_addr32[2] = (uint32_t)mrand48();
addr->s6_addr32[3] = (uint32_t)mrand48();
}
static bool
eui64_ifaceid(struct interface *iface, struct in6_addr *addr)
{
struct device_settings st;
device_merge_settings(iface->l3_dev.dev, &st);
if (!(st.flags & DEV_OPT_MACADDR))
return false;
/* get mac address */
uint8_t *macaddr = iface->l3_dev.dev->settings.macaddr;
uint8_t *ifaceid = addr->s6_addr + 8;
memcpy(ifaceid,macaddr,3);
memcpy(ifaceid + 5,macaddr + 3, 3);
ifaceid[3] = 0xff;
ifaceid[4] = 0xfe;
ifaceid[0] ^= 0x02;
return true;
}
static bool
generate_ifaceid(struct interface *iface, struct in6_addr *addr)
{
bool ret = true;
/* generate new iface id */
switch (iface->assignment_iface_id_selection) {
case IFID_FIXED:
/* fixed */
/* copy host part from assignment_fixed_iface_id */
memcpy(addr->s6_addr + 8, iface->assignment_fixed_iface_id.s6_addr + 8, 8);
break;
case IFID_RANDOM:
/* randomize last 64 bits */
random_ifaceid(addr);
break;
case IFID_EUI64:
/* eui64 */
ret = eui64_ifaceid(iface, addr);
break;
default:
ret = false;
break;
}
return ret;
}
static void
interface_set_prefix_address(struct device_prefix_assignment *assignment,
const struct device_prefix *prefix, struct interface *iface, bool add)
{
const struct interface *uplink = prefix->iface;
if (!iface->l3_dev.dev)
return;
struct device *l3_downlink = iface->l3_dev.dev;
struct device_addr addr;
struct device_route route;
memset(&addr, 0, sizeof(addr));
memset(&route, 0, sizeof(route));
addr.addr.in6 = assignment->addr;
addr.mask = assignment->length;
addr.flags = DEVADDR_INET6 | DEVADDR_OFFLINK;
addr.preferred_until = prefix->preferred_until;
addr.valid_until = prefix->valid_until;
route.flags = DEVADDR_INET6;
route.mask = addr.mask < 64 ? 64 : addr.mask;
route.addr = addr.addr;
if (!add && assignment->enabled) {
time_t now = system_get_rtime();
addr.preferred_until = now;
if (!addr.valid_until || addr.valid_until - now > 7200)
addr.valid_until = now + 7200;
if (iface->ip6table)
set_ip_source_policy(false, true, IPRULE_PRIORITY_ADDR_MASK, &addr.addr,
addr.mask < 64 ? 64 : addr.mask, iface->ip6table, NULL, NULL, false);
if (prefix->iface) {
if (prefix->iface->ip6table)
set_ip_source_policy(false, true, IPRULE_PRIORITY_NW, &addr.addr,
addr.mask, prefix->iface->ip6table, iface, NULL, true);
set_ip_source_policy(false, true, IPRULE_PRIORITY_REJECT, &addr.addr,
addr.mask, 0, iface, "unreachable", true);
}
clear_if_addr(&route.addr, route.mask);
interface_set_route_info(iface, &route);
system_del_route(l3_downlink, &route);
system_add_address(l3_downlink, &addr);
assignment->addr = in6addr_any;
assignment->enabled = false;
} else if (add && (iface->state == IFS_UP || iface->state == IFS_SETUP)) {
if (IN6_IS_ADDR_UNSPECIFIED(&addr.addr.in6)) {
addr.addr.in6 = prefix->addr;
addr.addr.in6.s6_addr32[1] |= htonl(assignment->assigned);
if (!generate_ifaceid(iface, &addr.addr.in6))
return;
assignment->addr = addr.addr.in6;
route.addr = addr.addr;
}
if (system_add_address(l3_downlink, &addr))
return;
if (!assignment->enabled) {
if (iface->ip6table)
set_ip_source_policy(true, true, IPRULE_PRIORITY_ADDR_MASK, &addr.addr,
addr.mask < 64 ? 64 : addr.mask, iface->ip6table, NULL, NULL, false);
if (prefix->iface) {
set_ip_source_policy(true, true, IPRULE_PRIORITY_REJECT, &addr.addr,
addr.mask, 0, iface, "unreachable", true);
if (prefix->iface->ip6table)
set_ip_source_policy(true, true, IPRULE_PRIORITY_NW, &addr.addr,
addr.mask, prefix->iface->ip6table, iface, NULL, true);
}
}
clear_if_addr(&route.addr, route.mask);
interface_set_route_info(iface, &route);
system_add_route(l3_downlink, &route);
if (uplink && uplink->l3_dev.dev && !(l3_downlink->settings.flags & DEV_OPT_MTU6)) {
int mtu = system_update_ipv6_mtu(uplink->l3_dev.dev, 0);
int mtu_old = system_update_ipv6_mtu(l3_downlink, 0);
if (mtu > 0 && mtu_old > mtu)
system_update_ipv6_mtu(l3_downlink, mtu);
}
assignment->enabled = true;
}
}
static bool interface_prefix_assign(struct list_head *list,
struct device_prefix_assignment *assign)
{
int32_t current = 0, asize = (1 << (64 - assign->length)) - 1;
struct device_prefix_assignment *c;
list_for_each_entry(c, list, head) {
if (assign->assigned != -1) {
if (assign->assigned >= current && assign->assigned + asize < c->assigned) {
list_add_tail(&assign->head, &c->head);
return true;
}
} else if (assign->assigned == -1) {
current = (current + asize) & (~asize);
if (current + asize < c->assigned) {
assign->assigned = current;
list_add_tail(&assign->head, &c->head);
return true;
}
}
current = (c->assigned + (1 << (64 - c->length)));
}
return false;
}
/*
* Sorting of assignment entries:
* Primary on assignment length: smallest assignment first
* Secondary on assignment weight: highest weight first
* Finally alphabetical order of interface names
*/
static int prefix_assignment_cmp(const void *k1, const void *k2, void *ptr)
{
const struct device_prefix_assignment *a1 = k1, *a2 = k2;
if (a1->length != a2->length)
return a1->length - a2->length;
if (a1->weight != a2->weight)
return a2->weight - a1->weight;
return strcmp(a1->name, a2->name);
}
static void interface_update_prefix_assignments(struct device_prefix *prefix, bool setup)
{
struct device_prefix_assignment *c;
struct interface *iface;
// Delete all assignments
while (!list_empty(&prefix->assignments)) {
c = list_first_entry(&prefix->assignments,
struct device_prefix_assignment, head);
if ((iface = vlist_find(&interfaces, c->name, iface, node)))
interface_set_prefix_address(c, prefix, iface, false);
list_del(&c->head);
free(c);
}
if (!setup)
return;
// End-of-assignment sentinel
c = malloc(sizeof(*c) + 1);
if (!c)
return;
c->assigned = 1 << (64 - prefix->length);
c->length = 64;
c->name[0] = 0;
c->addr = in6addr_any;
list_add(&c->head, &prefix->assignments);
// Excluded prefix
if (prefix->excl_length > 0) {
const char name[] = "!excluded";
c = malloc(sizeof(*c) + sizeof(name));
if (c) {
c->assigned = ntohl(prefix->excl_addr.s6_addr32[1]) &
((1 << (64 - prefix->length)) - 1);
c->length = prefix->excl_length;
c->addr = in6addr_any;
memcpy(c->name, name, sizeof(name));
list_add(&c->head, &prefix->assignments);
}
}
bool assigned_any = false;
struct {
struct avl_node node;
} *entry, *n_entry;
struct avl_tree assign_later;
avl_init(&assign_later, prefix_assignment_cmp, false, NULL);
vlist_for_each_element(&interfaces, iface, node) {
if (iface->assignment_length < 48 ||
iface->assignment_length > 64)
continue;
// Test whether there is a matching class
if (!list_empty(&iface->assignment_classes)) {
bool found = false;
struct interface_assignment_class *c;
list_for_each_entry(c, &iface->assignment_classes, head) {
if (!strcmp(c->name, prefix->pclass)) {
found = true;
break;
}
}
if (!found)
continue;
}
size_t namelen = strlen(iface->name) + 1;
c = malloc(sizeof(*c) + namelen);
if (!c)
continue;
c->length = iface->assignment_length;
c->assigned = iface->assignment_hint;
c->weight = iface->assignment_weight;
c->addr = in6addr_any;
c->enabled = false;
memcpy(c->name, iface->name, namelen);
// First process all custom assignments, put all others in later-list
if (c->assigned == -1 || !interface_prefix_assign(&prefix->assignments, c)) {
if (c->assigned != -1) {
c->assigned = -1;
netifd_log_message(L_WARNING, "Failed to assign requested subprefix "
"of size %hhu for %s, trying other\n", c->length, c->name);
}
entry = calloc(1, sizeof(*entry));
if (!entry) {
free(c);
continue;
}
entry->node.key = c;
avl_insert(&assign_later, &entry->node);
}
if (c->assigned != -1)
assigned_any = true;
}
/* Then try to assign all other + failed custom assignments */
avl_for_each_element_safe(&assign_later, entry, node, n_entry) {
bool assigned = false;
c = (struct device_prefix_assignment *)entry->node.key;
avl_delete(&assign_later, &entry->node);
do {
assigned = interface_prefix_assign(&prefix->assignments, c);
} while (!assigned && ++c->length <= 64);
if (!assigned) {
netifd_log_message(L_WARNING, "Failed to assign subprefix "
"of size %hhu for %s\n", c->length, c->name);
free(c);
} else
assigned_any = true;
free(entry);
}
list_for_each_entry(c, &prefix->assignments, head)
if ((iface = vlist_find(&interfaces, c->name, iface, node)))
interface_set_prefix_address(c, prefix, iface, true);
if (!assigned_any)
netifd_log_message(L_WARNING, "You have delegated IPv6-prefixes but haven't assigned them "
"to any interface. Did you forget to set option ip6assign on your lan-interfaces?");
}
void interface_refresh_assignments(bool hint)
{
static bool refresh = false;
if (!hint && refresh) {
struct device_prefix *p;
list_for_each_entry(p, &prefixes, head)
interface_update_prefix_assignments(p, true);
}
refresh = hint;
}
static void
interface_update_prefix(struct vlist_tree *tree,
struct vlist_node *node_new,
struct vlist_node *node_old)
{
struct device_prefix *prefix_old, *prefix_new;
prefix_old = container_of(node_old, struct device_prefix, node);
prefix_new = container_of(node_new, struct device_prefix, node);
struct interface_ip_settings *ip = container_of(tree, struct interface_ip_settings, prefix);
if (tree && (!node_new || !node_old))
ip->iface->updated |= IUF_PREFIX;
struct device_route route;
memset(&route, 0, sizeof(route));
route.flags = DEVADDR_INET6;
route.metric = INT32_MAX;
route.mask = (node_new) ? prefix_new->length : prefix_old->length;
route.addr.in6 = (node_new) ? prefix_new->addr : prefix_old->addr;
struct device_prefix_assignment *c;
struct interface *iface;
if (node_old && node_new) {
// Move assignments and refresh addresses to update valid times
list_splice(&prefix_old->assignments, &prefix_new->assignments);
list_for_each_entry(c, &prefix_new->assignments, head)
if ((iface = vlist_find(&interfaces, c->name, iface, node)))
interface_set_prefix_address(c, prefix_new, iface, true);
if (prefix_new->preferred_until != prefix_old->preferred_until ||
prefix_new->valid_until != prefix_old->valid_until)
ip->iface->updated |= IUF_PREFIX;
} else if (node_new) {
// Set null-route to avoid routing loops
system_add_route(NULL, &route);
if (!prefix_new->iface || !prefix_new->iface->proto_ip.no_delegation)
interface_update_prefix_assignments(prefix_new, true);
} else if (node_old) {
// Remove null-route
interface_update_prefix_assignments(prefix_old, false);
system_del_route(NULL, &route);
}
if (node_old) {
if (prefix_old->head.next)
list_del(&prefix_old->head);
free(prefix_old);
}
if (node_new && (!prefix_new->iface || !prefix_new->iface->proto_ip.no_delegation))
list_add(&prefix_new->head, &prefixes);
}
struct device_prefix*
interface_ip_add_device_prefix(struct interface *iface, struct in6_addr *addr,
uint8_t length, time_t valid_until, time_t preferred_until,
struct in6_addr *excl_addr, uint8_t excl_length, const char *pclass)
{
if (!pclass)
pclass = (iface) ? iface->name : "local";
struct device_prefix *prefix = calloc(1, sizeof(*prefix) + strlen(pclass) + 1);
if (!prefix)
return NULL;
prefix->length = length;
prefix->addr = *addr;
prefix->preferred_until = preferred_until;
prefix->valid_until = valid_until;
prefix->iface = iface;
INIT_LIST_HEAD(&prefix->assignments);
if (excl_addr) {
prefix->excl_addr = *excl_addr;
prefix->excl_length = excl_length;
}
strcpy(prefix->pclass, pclass);
if (iface)
vlist_add(&iface->proto_ip.prefix, &prefix->node, &prefix->addr);
else
interface_update_prefix(NULL, &prefix->node, NULL);
return prefix;
}
void
interface_ip_set_ula_prefix(const char *prefix)
{
char buf[INET6_ADDRSTRLEN + 4] = {0}, *saveptr;
if (prefix)
strncpy(buf, prefix, sizeof(buf) - 1);
char *prefixaddr = strtok_r(buf, "/", &saveptr);
struct in6_addr addr;
if (!prefixaddr || inet_pton(AF_INET6, prefixaddr, &addr) < 1) {
if (ula_prefix) {
interface_update_prefix(NULL, NULL, &ula_prefix->node);
ula_prefix = NULL;
}
return;
}
int length;
char *prefixlen = strtok_r(NULL, ",", &saveptr);
if (!prefixlen || (length = atoi(prefixlen)) < 1 || length > 64)
return;
if (!ula_prefix || !IN6_ARE_ADDR_EQUAL(&addr, &ula_prefix->addr) ||
ula_prefix->length != length) {
if (ula_prefix)
interface_update_prefix(NULL, NULL, &ula_prefix->node);
ula_prefix = interface_ip_add_device_prefix(NULL, &addr, length,
0, 0, NULL, 0, NULL);
}
}
void
interface_add_dns_server(struct interface_ip_settings *ip, const char *str)
{
struct dns_server *s;
s = calloc(1, sizeof(*s));
if (!s)
return;
s->af = AF_INET;
if (inet_pton(s->af, str, &s->addr.in))
goto add;
s->af = AF_INET6;
if (inet_pton(s->af, str, &s->addr.in))
goto add;
free(s);
return;
add:
D(INTERFACE, "Add IPv%c DNS server: %s\n",
s->af == AF_INET6 ? '6' : '4', str);
vlist_simple_add(&ip->dns_servers, &s->node);
}
void
interface_add_dns_server_list(struct interface_ip_settings *ip, struct blob_attr *list)
{
struct blob_attr *cur;
int rem;
blobmsg_for_each_attr(cur, list, rem) {
if (blobmsg_type(cur) != BLOBMSG_TYPE_STRING)
continue;
if (!blobmsg_check_attr(cur, NULL))
continue;
interface_add_dns_server(ip, blobmsg_data(cur));
}
}
static void
interface_add_dns_search_domain(struct interface_ip_settings *ip, const char *str)
{
struct dns_search_domain *s;
int len = strlen(str);
s = calloc(1, sizeof(*s) + len + 1);
if (!s)
return;
D(INTERFACE, "Add DNS search domain: %s\n", str);
memcpy(s->name, str, len);
vlist_simple_add(&ip->dns_search, &s->node);
}
void
interface_add_dns_search_list(struct interface_ip_settings *ip, struct blob_attr *list)
{
struct blob_attr *cur;
int rem;
blobmsg_for_each_attr(cur, list, rem) {
if (blobmsg_type(cur) != BLOBMSG_TYPE_STRING)
continue;
if (!blobmsg_check_attr(cur, NULL))
continue;
interface_add_dns_search_domain(ip, blobmsg_data(cur));
}
}
static void
write_resolv_conf_entries(FILE *f, struct interface_ip_settings *ip, const char *dev)
{
struct dns_server *s;
struct dns_search_domain *d;
const char *str;
char buf[INET6_ADDRSTRLEN];
vlist_simple_for_each_element(&ip->dns_servers, s, node) {
str = inet_ntop(s->af, &s->addr, buf, sizeof(buf));
if (!str)
continue;
if (s->af == AF_INET6 && IN6_IS_ADDR_LINKLOCAL(&s->addr.in6))
fprintf(f, "nameserver %s%%%s\n", str, dev);
else
fprintf(f, "nameserver %s\n", str);
}
vlist_simple_for_each_element(&ip->dns_search, d, node) {
fprintf(f, "search %s\n", d->name);
}
}
/* Sorting of interface resolver entries : */
/* Primary on interface dns_metric : lowest metric first */
/* Secondary on interface metric : lowest metric first */
/* Finally alphabetical order of interface names */
static int resolv_conf_iface_cmp(const void *k1, const void *k2, void *ptr)
{
const struct interface *iface1 = k1, *iface2 = k2;
if (iface1->dns_metric != iface2->dns_metric)
return iface1->dns_metric - iface2->dns_metric;
if (iface1->metric != iface2->metric)
return iface1->metric - iface2->metric;
return strcmp(iface1->name, iface2->name);
}
static void
__interface_write_dns_entries(FILE *f)
{
struct interface *iface;
struct {
struct avl_node node;
} *entry, *n_entry;
struct avl_tree resolv_conf_iface_entries;
avl_init(&resolv_conf_iface_entries, resolv_conf_iface_cmp, false, NULL);
vlist_for_each_element(&interfaces, iface, node) {
if (iface->state != IFS_UP)
continue;
if (vlist_simple_empty(&iface->proto_ip.dns_search) &&
vlist_simple_empty(&iface->proto_ip.dns_servers) &&
vlist_simple_empty(&iface->config_ip.dns_search) &&
vlist_simple_empty(&iface->config_ip.dns_servers))
continue;
entry = calloc(1, sizeof(*entry));
if (!entry)
continue;
entry->node.key = iface;
avl_insert(&resolv_conf_iface_entries, &entry->node);
}
avl_for_each_element(&resolv_conf_iface_entries, entry, node) {
iface = (struct interface *)entry->node.key;
struct device *dev = iface->l3_dev.dev;
fprintf(f, "# Interface %s\n", iface->name);
write_resolv_conf_entries(f, &iface->config_ip, dev->ifname);
if (!iface->proto_ip.no_dns)
write_resolv_conf_entries(f, &iface->proto_ip, dev->ifname);
}
avl_remove_all_elements(&resolv_conf_iface_entries, entry, node, n_entry)
free(entry);
}
void
interface_write_resolv_conf(void)
{
char *path = alloca(strlen(resolv_conf) + 5);
FILE *f;
uint32_t crcold, crcnew;
sprintf(path, "%s.tmp", resolv_conf);
unlink(path);
f = fopen(path, "w+");
if (!f) {
D(INTERFACE, "Failed to open %s for writing\n", path);
return;
}
__interface_write_dns_entries(f);
fflush(f);
rewind(f);
crcnew = crc32_file(f);
fclose(f);
crcold = crcnew + 1;
f = fopen(resolv_conf, "r");
if (f) {
crcold = crc32_file(f);
fclose(f);
}
if (crcold == crcnew) {
unlink(path);
} else if (rename(path, resolv_conf) < 0) {
D(INTERFACE, "Failed to replace %s\n", resolv_conf);
unlink(path);
}
}
void interface_ip_set_enabled(struct interface_ip_settings *ip, bool enabled)
{
struct device_addr *addr;
struct device_route *route;
struct device *dev;
struct interface *iface;
ip->enabled = enabled;
iface = ip->iface;
dev = iface->l3_dev.dev;
if (!dev)
return;
vlist_for_each_element(&ip->addr, addr, node) {
bool v6 = ((addr->flags & DEVADDR_FAMILY) == DEVADDR_INET6) ? true : false;
if (addr->flags & DEVADDR_EXTERNAL)
continue;
if (addr->enabled == enabled)
continue;
if (enabled) {
system_add_address(dev, addr);
addr->policy_table = (v6) ? iface->ip6table : iface->ip4table;
if (iface->metric || addr->policy_table)
interface_handle_subnet_route(iface, addr, true);
if (addr->policy_table)
interface_add_addr_rules(addr, true);
} else {
interface_handle_subnet_route(iface, addr, false);
system_del_address(dev, addr);
if (addr->policy_table)
interface_add_addr_rules(addr, false);
}
addr->enabled = enabled;
}
vlist_for_each_element(&ip->route, route, node) {
bool _enabled = enabled;
if (route->flags & DEVADDR_EXTERNAL)
continue;
if (!enable_route(ip, route))
_enabled = false;
if (route->enabled == _enabled)
continue;
if (_enabled) {
interface_set_route_info(ip->iface, route);
if (system_add_route(dev, route))
route->failed = true;
} else
system_del_route(dev, route);
route->enabled = _enabled;
}
struct device_prefix *c;
struct device_prefix_assignment *a;
list_for_each_entry(c, &prefixes, head)
list_for_each_entry(a, &c->assignments, head)
if (!strcmp(a->name, ip->iface->name))
interface_set_prefix_address(a, c, ip->iface, enabled);
if (ip->iface->policy_rules_set != enabled &&
ip->iface->l3_dev.dev) {
set_ip_lo_policy(enabled, true, ip->iface);
set_ip_lo_policy(enabled, false, ip->iface);
set_ip_source_policy(enabled, true, IPRULE_PRIORITY_REJECT + ip->iface->l3_dev.dev->ifindex,
NULL, 0, 0, ip->iface, "failed_policy", true);
ip->iface->policy_rules_set = enabled;
}
}
void
interface_ip_update_start(struct interface_ip_settings *ip)
{
if (ip != &ip->iface->config_ip) {
vlist_simple_update(&ip->dns_servers);
vlist_simple_update(&ip->dns_search);
}
vlist_update(&ip->route);
vlist_update(&ip->addr);
vlist_update(&ip->prefix);
}
void
interface_ip_update_complete(struct interface_ip_settings *ip)
{
vlist_simple_flush(&ip->dns_servers);
vlist_simple_flush(&ip->dns_search);
vlist_flush(&ip->route);
vlist_flush(&ip->addr);
vlist_flush(&ip->prefix);
interface_write_resolv_conf();
}
void
interface_ip_flush(struct interface_ip_settings *ip)
{
if (ip == &ip->iface->proto_ip)
vlist_flush_all(&ip->iface->host_routes);
vlist_simple_flush_all(&ip->dns_servers);
vlist_simple_flush_all(&ip->dns_search);
vlist_flush_all(&ip->route);
vlist_flush_all(&ip->addr);
vlist_flush_all(&ip->prefix);
}
static void
__interface_ip_init(struct interface_ip_settings *ip, struct interface *iface)
{
ip->iface = iface;
ip->enabled = true;
vlist_simple_init(&ip->dns_search, struct dns_search_domain, node);
vlist_simple_init(&ip->dns_servers, struct dns_server, node);
vlist_init(&ip->route, route_cmp, interface_update_proto_route);
vlist_init(&ip->addr, addr_cmp, interface_update_proto_addr);
vlist_init(&ip->prefix, prefix_cmp, interface_update_prefix);
}
void
interface_ip_init(struct interface *iface)
{
__interface_ip_init(&iface->proto_ip, iface);
__interface_ip_init(&iface->config_ip, iface);
vlist_init(&iface->host_routes, route_cmp, interface_update_host_route);
}
static void
interface_ip_valid_until_handler(struct uloop_timeout *t)
{
time_t now = system_get_rtime();
struct interface *iface;
vlist_for_each_element(&interfaces, iface, node) {
if (iface->state != IFS_UP)
continue;
struct device_addr *addr, *addrp;
struct device_route *route, *routep;
struct device_prefix *pref, *prefp;
vlist_for_each_element_safe(&iface->proto_ip.addr, addr, node, addrp)
if (addr->valid_until && addr->valid_until < now)
vlist_delete(&iface->proto_ip.addr, &addr->node);
vlist_for_each_element_safe(&iface->proto_ip.route, route, node, routep)
if (route->valid_until && route->valid_until < now)
vlist_delete(&iface->proto_ip.route, &route->node);
vlist_for_each_element_safe(&iface->proto_ip.prefix, pref, node, prefp)
if (pref->valid_until && pref->valid_until < now)
vlist_delete(&iface->proto_ip.prefix, &pref->node);
}
uloop_timeout_set(t, 1000);
}
static void __init
interface_ip_init_worker(void)
{
valid_until_timeout.cb = interface_ip_valid_until_handler;
uloop_timeout_set(&valid_until_timeout, 1000);
}
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