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|
// Based on proto/rip/rip.c
#include <stdio.h>
#include <stdlib.h>
#include "nest/protocol.h"
#include "nest/iface.h"
#include "sysdep/linux/wireguard.h"
#include "wireguard.h"
#include "proto/bgp/bgp.h"
static
int get_device(struct wg_proto *p, wg_device **pdev, const char *device_name)
{
struct wg_config *c = (struct wg_config *) p->p.cf;
/* if (has_user_space(p)) */
/* return user_get_device(p, dev, device_name); */
/* else */
/* return wg_get_device(dev, device_name); */
wg_device *dev = calloc(1, sizeof(wg_device));
strncpy(dev->name, device_name, sizeof(dev->name));
dev->flags = WGDEVICE_HAS_PRIVATE_KEY | WGDEVICE_HAS_LISTEN_PORT;
memcpy(dev->private_key, p->private_key, sizeof(dev->private_key));
dev->listen_port = c->listen_port;
debug("listen port %d\n", c->listen_port);
struct peer_config *pc = NULL;
WALK_LIST(pc,c->peers)
{
wg_peer *peer = calloc(1, sizeof(wg_peer));
if (!dev->first_peer)
dev->first_peer = peer;
if (dev->last_peer)
dev->last_peer->next_peer = peer;
dev->last_peer = peer;
if (pc->public_key)
{
peer->flags = WGPEER_HAS_PUBLIC_KEY;
wg_key_from_base64(peer->public_key, pc->public_key);
}
peer->next_peer = NULL;
sockaddr_fill((sockaddr*)&peer->endpoint.addr,
ipa_is_ip4(pc->endpoint) ? AF_INET : AF_INET6,
pc->endpoint, NULL, pc->remote_port);
wg_allowedip *allowedip = calloc(1, sizeof(wg_allowedip));
peer->first_allowedip = allowedip;
peer->last_allowedip = allowedip;
switch (pc->allowedip.type)
{
case NET_IP4:
allowedip->family = AF_INET;
allowedip->ip4 = ipa_to_in4(net_prefix(&pc->allowedip));
allowedip->cidr = net_pxlen(&pc->allowedip);
break;
case NET_IP6:
allowedip->family = AF_INET6;
allowedip->ip6 = ipa_to_in6(net_prefix(&pc->allowedip));
allowedip->cidr = net_pxlen(&pc->allowedip);
break;
default:
break;
}
allowedip->next_allowedip = NULL;
}
*pdev = dev;
return 0;
}
static void
wg_init_entry(void *e_)
{
struct wg_entry *e UNUSED = e_;
// debug("wg_init_entry\n");
}
static void
wg_postconfig(struct proto_config *C UNUSED)
{
debug("postconfig\n");
}
static void
wg_if_notify(struct proto *P, unsigned flags, struct iface *i)
{
struct wg_proto *p = (struct wg_proto *) P;
struct wg_config *c = (struct wg_config *) P->cf;
debug("WG: if_notify %p %s %d %s\n", i, i->name, flags, c->ifname);
if (c->ifname && !strcmp(i->name, c->ifname)) {
debug("WG: found ifname\n");
p->iface = i;
}
}
static void
dump(void *ptr, size_t len)
{
unsigned char *data = ptr;
for (size_t i=0; i<len; i++) {
fprintf(stderr, "%02x ", data[i]);
}
fprintf(stderr, "\n");
}
#define BGP_TUNNEL_ENCAP_A_SUB_TLV_ENCAP 1
#define BGP_TUNNEL_ENCAP_A_SUB_TLV_COLOR 4
#define BGP_TUNNEL_ENCAP_A_SUB_TLV_REMOTE_EP 6
#define BGP_TUNNEL_ENCAP_A_SUB_TLV_UDP_DEST_PORT 8
#define FLAG_BGP_TUNNEL_ENCAP_A_SUB_TLV_ENCAP (1<<BGP_TUNNEL_ENCAP_A_SUB_TLV_ENCAP)
#define FLAG_BGP_TUNNEL_ENCAP_A_SUB_TLV_COLOR (1<<BGP_TUNNEL_ENCAP_A_SUB_TLV_COLOR)
#define FLAG_BGP_TUNNEL_ENCAP_A_SUB_TLV_REMOTE_EP (1<<BGP_TUNNEL_ENCAP_A_SUB_TLV_REMOTE_EP)
#define FLAG_BGP_TUNNEL_ENCAP_A_SUB_TLV_UDP_DEST_PORT (1<<BGP_TUNNEL_ENCAP_A_SUB_TLV_UDP_DEST_PORT)
#define BGP_TUNNEL_ENCAP_A_TUNNEL_TYPE_WIREGUARD 65535
static
int decode_wireguard(const void *p, size_t sub_tlv_len, wg_key *pubkey, u16 *flags)
{
if (sub_tlv_len != sizeof(wg_key)) {
log(L_TRACE "WG: wireguard len error %d", sub_tlv_len);
return -1;
}
memcpy(pubkey, p, sizeof(wg_key));
*flags |= FLAG_BGP_TUNNEL_ENCAP_A_SUB_TLV_ENCAP;
return 0;
}
static
int decode_color(const void *p, size_t sub_tlv_len, u32 *color, u16 *flags)
{
if (sub_tlv_len != 8) {
log(L_TRACE "WG: color len error %d", sub_tlv_len);
return -1;
}
if (get_u16(p) != 0x030b) {
log(L_TRACE "WG: color error %04x", get_u16(p));
return -1;
}
*color = get_u32(p+2);
*flags |= FLAG_BGP_TUNNEL_ENCAP_A_SUB_TLV_COLOR;
return 0;
}
static
int decode_udp_dest_port(const void *p, size_t sub_tlv_len, u16 *udp_dest_port, u16 *flags)
{
if (sub_tlv_len != 2) {
log(L_TRACE "WG: udp dest port len error %d", sub_tlv_len);
return -1;
}
*udp_dest_port = get_u16(p);
*flags |= FLAG_BGP_TUNNEL_ENCAP_A_SUB_TLV_UDP_DEST_PORT;
return 0;
}
static
int decode_remote_ep(void *p, size_t sub_tlv_len, u32 *as4, ip_addr *remote_ep, u16 *flags)
{
if (sub_tlv_len < 6) {
log(L_TRACE "WG: remote ep len error");
return -1;
}
*as4 = get_u32(p);
u16 af = get_u16(p + 4);
switch (af) {
case NET_IP4:
if (sub_tlv_len != 10) {
log(L_TRACE "WG: IPv4 len error %d", sub_tlv_len);
return -1;
}
*remote_ep = ipa_from_ip4(get_ip4(p + 6));
*flags |= FLAG_BGP_TUNNEL_ENCAP_A_SUB_TLV_REMOTE_EP;
return 0;
case NET_IP6:
if (sub_tlv_len != 22) {
log(L_TRACE "WG: IPv6 len error %d", sub_tlv_len);
return -1;
}
*remote_ep = ipa_from_ip6(get_ip6(p + 6));
*flags |= FLAG_BGP_TUNNEL_ENCAP_A_SUB_TLV_REMOTE_EP;
return 0;
default:
log(L_TRACE "WG: Address family error %d", af);
return -1;
}
}
static
int decode_sub_tlv(u8 *p, size_t len, wg_key *pubkey,
u32 *remote_ep_as, ip_addr *remote_ep_addr,
u32 *color, u16 *udp_dest_port, u16 *flags)
{
if (len < 3) {
log(L_TRACE "WG: sub_tlv len error %d", len);
return -1;
}
const u8 *first = p;
const u8 *last = p + len;
int type = get_u8(p++);
u16 sub_tlv_len = 0;
log(L_TRACE "WG: sub tlv type %d", type);
if (type >= 0 && type <= 127) {
sub_tlv_len = get_u8(p);
p++;
} else if (type >= 128 && type <= 255) {
sub_tlv_len = get_u16(p);
p += 2;
} else {
log(L_TRACE "WG: sub_tlv type error %d", type);
return -1;
}
log(L_TRACE "WG: sub tlv len %d", sub_tlv_len);
if (p + sub_tlv_len > last) {
log(L_TRACE "WG: sub_tlv value len error %d", sub_tlv_len);
return -1;
}
int res = 0;
switch (type) {
case BGP_TUNNEL_ENCAP_A_SUB_TLV_ENCAP:
res = decode_wireguard(p, sub_tlv_len, pubkey, flags);
break;
case BGP_TUNNEL_ENCAP_A_SUB_TLV_REMOTE_EP:
res = decode_remote_ep(p, sub_tlv_len, remote_ep_as, remote_ep_addr, flags);
break;
case BGP_TUNNEL_ENCAP_A_SUB_TLV_COLOR:
res = decode_color(p, sub_tlv_len, color, flags);
break;
case BGP_TUNNEL_ENCAP_A_SUB_TLV_UDP_DEST_PORT:
res = decode_udp_dest_port(p, sub_tlv_len, udp_dest_port, flags);
break;
default:
/* Skip unsupported sub-TLV. */
res = 0;
break;
}
if (res < 0)
return res;
return p - first + sub_tlv_len;
}
static
int decode_tunnel_encap(const eattr *e, wg_key *pubkey, u32 *as4, ip_addr *remote_ep, u32 *color, u16 *udp_port, u16 *flags)
{
u8 *p = e->u.ptr->data;
int len = e->u.ptr->length;
if (len < 4) {
log(L_TRACE "WG: tunnel_encap len error %d", len);
return -1;
}
u16 tunnel_type = get_u16(p);
log(L_DEBUG "WG: tunnel type %d", tunnel_type);
if (tunnel_type != BGP_TUNNEL_ENCAP_A_TUNNEL_TYPE_WIREGUARD) {
log(L_TRACE "WG: tunnel type error %d", tunnel_type);
return -1;
}
u16 value_length = get_u16(p + 2);
log(L_TRACE "WG: tunnel encap value len %d", value_length);
if (len < value_length + 4) {
log(L_TRACE "WG: tunnel encap len error %d", value_length);
return -1;
}
for (u8 *cur = p + 4; cur < p + 4 + value_length;) {
int res = decode_sub_tlv(cur, value_length, pubkey, as4, remote_ep, color, udp_port, flags);
if (res < 0) {
log(L_TRACE "WG: decode error %d", res);
return res;
}
cur += res;
}
return 0;
}
static wg_peer *
add_peer(wg_device *dev, wg_key pubkey)
{
struct wg_peer *peer = malloc(sizeof(struct wg_peer));
memset(peer, 0, sizeof(struct wg_peer));
peer->flags = WGPEER_HAS_PUBLIC_KEY;
memcpy(peer->public_key, pubkey, sizeof(wg_key));
if (dev->first_peer && dev->last_peer)
dev->last_peer->next_peer = peer;
else
dev->first_peer = peer;
dev->last_peer = peer;
return peer;
}
static int
set_peer_remote_ep(wg_peer *peer, ip_addr remote_ep_addr, u16 udp_dest_port)
{
if (udp_dest_port != 0 && ipa_nonzero(remote_ep_addr) ) {
if (ipa_is_ip4(remote_ep_addr)) {
log(L_TRACE "WG: found ip4 ep");
peer->endpoint.addr4.sin_family = AF_INET;
put_ip4(&peer->endpoint.addr4.sin_addr.s_addr, ipa_to_ip4(remote_ep_addr));
put_u16(&peer->endpoint.addr4.sin_port, udp_dest_port);
} else {
log(L_TRACE "WG: found ip6 ep");
peer->endpoint.addr6.sin6_family = AF_INET6;
put_ip6(&peer->endpoint.addr6.sin6_addr, ipa_to_ip6(remote_ep_addr));
put_u16(&peer->endpoint.addr6.sin6_port, udp_dest_port);
}
}
return 0;
}
static int
add_allowed_ips(u8 net_type, struct network *n, wg_peer *peer)
{
// Add allowed ip
struct wg_allowedip *allowedip = malloc(sizeof(struct wg_allowedip));
memset(allowedip, 0, sizeof(struct wg_allowedip));
if (net_type == NET_IP4) {
allowedip->family = AF_INET;
allowedip->ip4.s_addr = ip4_to_u32(ip4_hton(net4_prefix(n->n.addr)));
} else if (net_type == NET_IP6) {
allowedip->family = AF_INET6;
ip6_addr addr = ip6_hton(net6_prefix(n->n.addr));
memcpy(allowedip->ip6.s6_addr, &addr, 16);
}
allowedip->cidr = net_pxlen(n->n.addr);
if (peer->first_allowedip && peer->last_allowedip)
peer->last_allowedip->next_allowedip = allowedip;
else
peer->first_allowedip = allowedip;
peer->last_allowedip = allowedip;
return 0;
}
static void
wg_rt_notify(struct proto *P, struct channel *CH, struct network *n,
struct rte *new, struct rte *old UNUSED)
{
struct wg_proto *p = (struct wg_proto *) P;
struct wg_config *c = (struct wg_config *) P->cf;
struct wg_channel *ch = (struct wg_channel *) CH;
struct wg_entry *en;
struct iface *iface = NULL;
const char *ifname = NULL;
// debug("WG: notify\n");
if (new) {
iface = new->attrs->nh.iface;
ifname = iface ? iface->name : NULL;
if (iface && iface == p->iface) {
struct eattr *t;
debug("WG: found iface\n");
en = fib_get(&ch->rtable, n->n.addr);
debug("WG: notify new %d %N\n",
new->attrs->dest, n->n.addr);
wg_key pubkey;
memset(pubkey, 0, sizeof(wg_key));
u32 remote_ep_as4 = 0;
ip_addr remote_ep_addr = IPA_NONE;
u16 udp_dest_port = 0;
u32 color = 0;
u16 flags = 0;
t = ea_find(new->attrs->eattrs, EA_CODE(PROTOCOL_BGP, BA_TUNNEL_ENCAP));
if (t && t->u.ptr && decode_tunnel_encap(t, &pubkey, &remote_ep_as4, &remote_ep_addr, &color, &udp_dest_port, &flags) == 0) {
log(L_TRACE "WG: Attr %x %x %d %04x", t->flags, t->type, t->u.ptr->length, flags);
struct wg_device *dev = p->dev;
if (dev != NULL) {
bool dirty = false;
bool found = false;
struct wg_peer *peer = NULL;
wg_for_each_peer(dev, peer) {
// Look for public key
size_t len = 32; // FIXME
// MIN(32, t->u.ptr->length)
if (memcmp(peer->public_key, pubkey, len) != 0) {
log(L_TRACE "WG: Not found");
continue;
}
log(L_TRACE "WG: Found");
found = true;
set_peer_remote_ep(peer, remote_ep_addr, udp_dest_port);
add_allowed_ips(ch->c.net_type, n, peer);
dirty = true;
break;
}
if (!found) {
wg_peer *peer = add_peer(dev, pubkey);
set_peer_remote_ep(peer, remote_ep_addr, udp_dest_port);
add_allowed_ips(ch->c.net_type, n, peer);
dirty = true;
}
if (dirty) {
int res = wg_set_device(dev);
log(L_TRACE "WG: wg_set_device %d", res);
}
}
/*
struct sub_tlv_remove_endpoint {
u32 asn;
u8 address_family;
union {
ip4_addr ip4;
ip6_addr ip6;
};
};
struct sub_tlv_udp_dest_port {
u16 port;
};
struct sub_tlv_wireguard {
u8 pubkey[32];
};
struct sub_tlv {
u8 type;
union {
struct {
u8 length;
struct sub_tlv_value value[];
} s8;
struct {
u16 length;
struct sub_tlv_value value[];
} s16;
} u;
};
struct bgp_tunnel_encap_attr {
u16 type;
u16 length;
struct sub_tlv stlv[];
};
*/
} else {
log(L_TRACE "WG: No Attr");
}
// old_metric = en->valid ? en->metric : -1;
// en->valid = RIP_ENTRY_VALID;
// en->metric = rt_metric;
// en->tag = rt_tag;
// en->from = (new->attrs->src->proto == P) ? new->u.rip.from : NULL;
// en->iface = new->attrs->iface;
// en->next_hop = new->attrs->gw;
}
} else {
debug("WG: notify withdraw %N\n",
n->n.addr);
/* Withdraw */
en = fib_find(&ch->rtable, n->n.addr);
if (!en) { // || en->valid != RIP_ENTRY_VALID)
debug("WG: fib not found\n");
return;
}
struct wg_device *dev = p->dev;
if (dev != NULL) {
bool found = false;
struct wg_peer *peer = NULL;
wg_for_each_peer(dev, peer) {
// Remove from all peers
found = true;
if (found) {
// Add allowed ip
struct wg_allowedip *allowedip = malloc(sizeof(struct wg_allowedip));
memset(allowedip, 0, sizeof(struct wg_allowedip));
if (ch->c.net_type == NET_IP4) {
allowedip->family = AF_INET;
allowedip->ip4.s_addr = ip4_to_u32(ip4_hton(net4_prefix(n->n.addr)));
} else if (ch->c.net_type == NET_IP6) {
allowedip->family = AF_INET6;
ip6_addr addr = ip6_hton(net6_prefix(n->n.addr));
memcpy(allowedip->ip6.s6_addr, &addr, 16);
}
allowedip->cidr = net_pxlen(n->n.addr);
struct wg_allowedip *ip = NULL;
struct wg_allowedip *previp = NULL;
wg_for_each_allowedip(peer, ip) {
if (allowedip->family != ip->family) {
debug("WG: family no match\n");
previp = ip;
continue;
}
if (allowedip->cidr != ip->cidr) {
debug("WG: cidr no match\n");
previp = ip;
continue;
}
if (memcmp(&allowedip->ip6, &ip->ip6, sizeof(struct in6_addr))) {
debug("WG: ip no match\n");
dump(&allowedip->ip6, sizeof(struct in6_addr));
dump(&ip->ip6, sizeof(struct in6_addr));
previp = ip;
continue;
}
debug("WG: found ip\n");
if (!previp) {
debug("WG: remove first\n");
peer->first_allowedip = ip->next_allowedip;
if (peer->last_allowedip == ip) {
peer->last_allowedip = NULL;
peer->first_allowedip = NULL;
}
} else {
debug("WG: remove middle\n");
// Remove
if (peer->last_allowedip == ip)
peer->last_allowedip = previp;
previp->next_allowedip = ip->next_allowedip;
}
free(ip);
break;
}
peer->flags |= WGPEER_REPLACE_ALLOWEDIPS;
int res = wg_set_device(dev);
log(L_TRACE "WG: wg_set_device %d", res);
}
}
/*
old_metric = en->metric;
en->valid = RIP_ENTRY_STALE;
en->metric = p->infinity;
en->tag = 0;
en->from = NULL;
en->iface = NULL;
en->next_hop = IPA_NONE;
*/
}
}
// TRACE(D_EVENTS, "wg notify %s %s", src_table->name, ifname?ifname:"(null)");
}
static void
wg_reload_routes(struct channel *C)
{
struct wg_proto *p UNUSED = (struct wg_proto *) C->proto;
debug("reload routes\n");
// TODO
// WALK_LIST(c, p->channels)
// channel_request_feeding(c);
}
static struct proto *
wg_init(struct proto_config *C)
{
struct wg_config *c UNUSED = (struct wg_config *) C;
struct proto *P = proto_new(C);
struct wg_proto *p UNUSED = (struct wg_proto *) P;
debug("init\n");
P->if_notify = wg_if_notify;
P->rt_notify = wg_rt_notify;
P->reload_routes = wg_reload_routes;
// P->accept_ra_types = RA_ANY;
log(L_TRACE "WG: private_key %s", c->private_key);
if (c->private_key)
wg_key_from_base64(p->private_key, c->private_key);
log(L_TRACE "WG: public_key %s", c->peer.public_key);
if (c->peer.public_key)
wg_key_from_base64(p->peer.public_key, c->peer.public_key);
/* Add all channels */
struct wg_channel_config *cc;
WALK_LIST(cc, C->channels)
proto_add_channel(P, &cc->c);
return P;
}
static int
wg_start(struct proto *P)
{
struct wg_config *cf UNUSED = (struct wg_config *) P->cf;
struct wg_proto *p = (struct wg_proto *) P;
log(L_TRACE "WG: start");
if (get_device(p, &p->dev, cf->ifname) >= 0)
{
int res = wg_set_device(p->dev);
log(L_TRACE "WG: wg_set_device %d", res);
}
struct wg_channel *ch;
WALK_LIST(ch,p->p.channels) {
fib_init(&ch->rtable, P->pool, ch->c.net_type, sizeof(struct wg_entry),
OFFSETOF(struct wg_entry, n), 0, wg_init_entry);
}
return PS_UP;
}
static void
wg_dump(struct proto *P)
{
struct wg_proto *p = (struct wg_proto *) P;
int i;
i = 0;
struct wg_channel *ch;
WALK_LIST(ch,p->p.channels) {
FIB_WALK(&ch->rtable, struct wg_entry, en)
{
// struct wg_entry *en = (struct wg_entry *) e;
debug("WG: entry #%d:\n",
i++);
}
FIB_WALK_END;
}
}
struct peer_config *peer_new(struct wg_config *c)
{
struct peer_config *pc = cfg_allocz(sizeof(struct peer_config));
debug("peer_new %p\n", pc);
add_tail(&c->peers, (node*)pc);
return pc;
}
struct channel_class channel_wg = {
.channel_size = sizeof(struct wg_channel),
.config_size = sizeof(struct wg_channel_config),
/* .init = wg_channel_init, */
/* .start = wg_channel_start, */
/* .shutdown = wg_channel_shutdown, */
/* .cleanup = wg_channel_cleanup, */
/* .reconfigure = wg_channel_reconfigure, */
};
struct protocol proto_wireguard = {
.name = "Wireguard",
.template = "wg%d",
.class = PROTOCOL_WG,
.channel_mask = NB_IP,
.proto_size = sizeof(struct wg_proto),
.config_size = sizeof(struct wg_config),
.postconfig = wg_postconfig,
.init = wg_init,
.start = wg_start,
.dump = wg_dump,
/* .multitable = 1,
.preference = DEF_PREF_PIPE,
.cleanup = wg_cleanup,
.reconfigure = wg_reconfigure,
.copy_config = wg_copy_config,
.get_status = wg_get_status,
.show_proto_info = wg_show_proto_info*/
};
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