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/**
* Copyright (C) 2012-2013 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 v2 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 <errno.h>
#include <unistd.h>
#include <stddef.h>
#include <resolv.h>
#include <sys/timerfd.h>
#include "odhcpd.h"
#include "dhcpv6.h"
static void relay_client_request(struct sockaddr_in6 *source,
const void *data, size_t len, struct interface *iface);
static void relay_server_response(uint8_t *data, size_t len);
static void handle_dhcpv6(void *addr, void *data, size_t len,
struct interface *iface, void *dest);
static void handle_client_request(void *addr, void *data, size_t len,
struct interface *iface, void *dest_addr);
// Create socket and register events
int init_dhcpv6(void)
{
dhcpv6_ia_init();
return 0;
}
int setup_dhcpv6_interface(struct interface *iface, bool enable)
{
if (iface->dhcpv6_event.uloop.fd > 0) {
uloop_fd_delete(&iface->dhcpv6_event.uloop);
close(iface->dhcpv6_event.uloop.fd);
iface->dhcpv6_event.uloop.fd = -1;
}
// Configure multicast settings
if (enable && iface->dhcpv6 && !iface->master) {
int sock = socket(AF_INET6, SOCK_DGRAM | SOCK_CLOEXEC, IPPROTO_UDP);
if (sock < 0) {
syslog(LOG_ERR, "Failed to create DHCPv6 server socket: %s",
strerror(errno));
return -1;
}
// Basic IPv6 configuration
setsockopt(sock, SOL_SOCKET, SO_BINDTODEVICE, iface->ifname, strlen(iface->ifname));
int val = 1;
setsockopt(sock, IPPROTO_IPV6, IPV6_V6ONLY, &val, sizeof(val));
setsockopt(sock, SOL_SOCKET, SO_REUSEADDR, &val, sizeof(val));
setsockopt(sock, IPPROTO_IPV6, IPV6_RECVPKTINFO, &val, sizeof(val));
val = DHCPV6_HOP_COUNT_LIMIT;
setsockopt(sock, IPPROTO_IPV6, IPV6_MULTICAST_HOPS, &val, sizeof(val));
val = 0;
setsockopt(sock, IPPROTO_IPV6, IPV6_MULTICAST_LOOP, &val, sizeof(val));
struct sockaddr_in6 bind_addr = {AF_INET6, htons(DHCPV6_SERVER_PORT),
0, IN6ADDR_ANY_INIT, 0};
if (bind(sock, (struct sockaddr*)&bind_addr, sizeof(bind_addr))) {
syslog(LOG_ERR, "Failed to open DHCPv6 server socket: %s",
strerror(errno));
return -1;
}
struct ipv6_mreq relay = {ALL_DHCPV6_RELAYS, iface->ifindex};
struct ipv6_mreq server = {ALL_DHCPV6_SERVERS, iface->ifindex};
setsockopt(sock, IPPROTO_IPV6, IPV6_ADD_MEMBERSHIP, &relay, sizeof(relay));
if (iface->dhcpv6 == RELAYD_SERVER)
setsockopt(sock, IPPROTO_IPV6, IPV6_ADD_MEMBERSHIP, &server, sizeof(server));
iface->dhcpv6_event.uloop.fd = sock;
iface->dhcpv6_event.handle_dgram = handle_dhcpv6;
odhcpd_register(&iface->dhcpv6_event);
}
return setup_dhcpv6_ia_interface(iface, enable);
}
enum {
IOV_NESTED = 0,
IOV_DEST,
IOV_MAXRT,
#define IOV_STAT IOV_MAXRT
IOV_DNS,
IOV_DNS_ADDR,
IOV_SEARCH,
IOV_SEARCH_DOMAIN,
IOV_PDBUF,
#define IOV_REFRESH IOV_PDBUF
IOV_CERID,
IOV_DHCPV6_RAW,
IOV_RELAY_MSG,
IOV_TOTAL
};
static void handle_nested_message(uint8_t *data, size_t len,
uint8_t **opts, uint8_t **end, struct iovec iov[IOV_TOTAL - 1])
{
struct dhcpv6_relay_header *hdr = (struct dhcpv6_relay_header*)data;
if (iov[IOV_NESTED].iov_base == NULL) {
iov[IOV_NESTED].iov_base = data;
iov[IOV_NESTED].iov_len = len;
}
if (len < sizeof(struct dhcpv6_client_header))
return;
if (hdr->msg_type != DHCPV6_MSG_RELAY_FORW) {
iov[IOV_NESTED].iov_len = data - (uint8_t*)iov[IOV_NESTED].iov_base;
struct dhcpv6_client_header *hdr = (void*)data;
*opts = (uint8_t*)&hdr[1];
*end = data + len;
return;
}
uint16_t otype, olen;
uint8_t *odata;
dhcpv6_for_each_option(hdr->options, data + len, otype, olen, odata) {
if (otype == DHCPV6_OPT_RELAY_MSG) {
iov[IOV_RELAY_MSG].iov_base = odata + olen;
iov[IOV_RELAY_MSG].iov_len = (((uint8_t*)iov[IOV_NESTED].iov_base) +
iov[IOV_NESTED].iov_len) - (odata + olen);
handle_nested_message(odata, olen, opts, end, iov);
return;
}
}
}
static void update_nested_message(uint8_t *data, size_t len, ssize_t pdiff)
{
struct dhcpv6_relay_header *hdr = (struct dhcpv6_relay_header*)data;
if (hdr->msg_type != DHCPV6_MSG_RELAY_FORW)
return;
hdr->msg_type = DHCPV6_MSG_RELAY_REPL;
uint16_t otype, olen;
uint8_t *odata;
dhcpv6_for_each_option(hdr->options, data + len, otype, olen, odata) {
if (otype == DHCPV6_OPT_RELAY_MSG) {
olen += pdiff;
odata[-2] = (olen >> 8) & 0xff;
odata[-1] = olen & 0xff;
update_nested_message(odata, olen - pdiff, pdiff);
return;
}
}
}
// Simple DHCPv6-server for information requests
static void handle_client_request(void *addr, void *data, size_t len,
struct interface *iface, void *dest_addr)
{
struct dhcpv6_client_header *hdr = data;
if (len < sizeof(*hdr))
return;
syslog(LOG_NOTICE, "Got DHCPv6 request");
// Construct reply message
struct __attribute__((packed)) {
uint8_t msg_type;
uint8_t tr_id[3];
uint16_t serverid_type;
uint16_t serverid_length;
uint16_t duid_type;
uint16_t hardware_type;
uint8_t mac[6];
uint16_t clientid_type;
uint16_t clientid_length;
uint8_t clientid_buf[130];
} dest = {
.msg_type = DHCPV6_MSG_REPLY,
.serverid_type = htons(DHCPV6_OPT_SERVERID),
.serverid_length = htons(10),
.duid_type = htons(3),
.hardware_type = htons(1),
.clientid_type = htons(DHCPV6_OPT_CLIENTID),
.clientid_buf = {0}
};
odhcpd_get_mac(iface, dest.mac);
struct __attribute__((packed)) {
uint16_t type;
uint16_t len;
uint32_t value;
} maxrt = {htons(DHCPV6_OPT_SOL_MAX_RT), htons(sizeof(maxrt) - 4),
htonl(60)};
struct __attribute__((packed)) {
uint16_t type;
uint16_t len;
uint16_t value;
} stat = {htons(DHCPV6_OPT_STATUS), htons(sizeof(stat) - 4),
htons(DHCPV6_STATUS_USEMULTICAST)};
struct __attribute__((packed)) {
uint16_t type;
uint16_t len;
uint32_t value;
} refresh = {htons(DHCPV6_OPT_INFO_REFRESH), htons(sizeof(uint32_t)),
htonl(600)};
struct odhcpd_ipaddr ipaddr;
struct in6_addr *dns_addr = iface->dns;
size_t dns_cnt = iface->dns_cnt;
if (dns_cnt == 0 && odhcpd_get_interface_addresses(iface->ifindex, &ipaddr, 1) == 1) {
dns_addr = &ipaddr.addr;
dns_cnt = 1;
}
struct {
uint16_t type;
uint16_t len;
} dns = {htons(DHCPV6_OPT_DNS_SERVERS), htons(dns_cnt * sizeof(*dns_addr))};
// DNS Search options
uint8_t search_buf[256], *search_domain = iface->search;
size_t search_len = iface->search_len;
if (!search_domain && !res_init() && _res.dnsrch[0] && _res.dnsrch[0][0]) {
int len = dn_comp(_res.dnsrch[0], search_buf,
sizeof(search_buf), NULL, NULL);
if (len > 0) {
search_domain = search_buf;
search_len = len;
}
}
struct {
uint16_t type;
uint16_t len;
} search = {htons(DHCPV6_OPT_DNS_DOMAIN), htons(search_len)};
struct dhcpv6_cer_id cerid = {
#ifdef EXT_CER_ID
.type = htons(EXT_CER_ID),
#endif
.len = htons(36),
.addr = iface->dhcpv6_pd_cer,
};
uint8_t pdbuf[512];
struct iovec iov[IOV_TOTAL] = {
[IOV_NESTED] = {NULL, 0},
[IOV_DEST] = {&dest, (uint8_t*)&dest.clientid_type - (uint8_t*)&dest},
[IOV_MAXRT] = {&maxrt, sizeof(maxrt)},
[IOV_DNS] = {&dns, (dns_cnt) ? sizeof(dns) : 0},
[IOV_DNS_ADDR] = {dns_addr, dns_cnt * sizeof(*dns_addr)},
[IOV_SEARCH] = {&search, (search_len) ? sizeof(search) : 0},
[IOV_SEARCH_DOMAIN] = {search_domain, search_len},
[IOV_PDBUF] = {pdbuf, 0},
[IOV_CERID] = {&cerid, 0},
[IOV_DHCPV6_RAW] = {iface->dhcpv6_raw, iface->dhcpv6_raw_len},
[IOV_RELAY_MSG] = {NULL, 0}
};
uint8_t *opts = (uint8_t*)&hdr[1], *opts_end = (uint8_t*)data + len;
if (hdr->msg_type == DHCPV6_MSG_RELAY_FORW)
handle_nested_message(data, len, &opts, &opts_end, iov);
memcpy(dest.tr_id, &opts[-3], sizeof(dest.tr_id));
if (opts[-4] == DHCPV6_MSG_ADVERTISE || opts[-4] == DHCPV6_MSG_REPLY || opts[-4] == DHCPV6_MSG_RELAY_REPL)
return;
if (!IN6_IS_ADDR_MULTICAST((struct in6_addr *)dest_addr) && iov[IOV_NESTED].iov_len == 0 &&
(opts[-4] == DHCPV6_MSG_SOLICIT || opts[-4] == DHCPV6_MSG_CONFIRM ||
opts[-4] == DHCPV6_MSG_REBIND || opts[-4] == DHCPV6_MSG_INFORMATION_REQUEST))
return;
if (opts[-4] == DHCPV6_MSG_SOLICIT) {
dest.msg_type = DHCPV6_MSG_ADVERTISE;
} else if (opts[-4] == DHCPV6_MSG_INFORMATION_REQUEST) {
iov[IOV_REFRESH].iov_base = &refresh;
iov[IOV_REFRESH].iov_len = sizeof(refresh);
// Return inf max rt option in reply to information request
maxrt.type = htons(DHCPV6_OPT_INF_MAX_RT);
}
// Go through options and find what we need
uint16_t otype, olen;
uint8_t *odata;
dhcpv6_for_each_option(opts, opts_end, otype, olen, odata) {
if (otype == DHCPV6_OPT_CLIENTID && olen <= 130) {
dest.clientid_length = htons(olen);
memcpy(dest.clientid_buf, odata, olen);
iov[IOV_DEST].iov_len += 4 + olen;
} else if (otype == DHCPV6_OPT_SERVERID) {
if (olen != ntohs(dest.serverid_length) ||
memcmp(odata, &dest.duid_type, olen))
return; // Not for us
} else if (iface->filter_class && otype == DHCPV6_OPT_USER_CLASS) {
uint8_t *c = odata, *cend = &odata[olen];
for (; &c[2] <= cend && &c[2 + (c[0] << 8) + c[1]] <= cend; c = &c[2 + (c[0] << 8) + c[1]]) {
size_t elen = strlen(iface->filter_class);
if (((((size_t)c[0]) << 8) | c[1]) == elen && !memcmp(&c[2], iface->filter_class, elen))
return; // Ignore from homenet
}
} else if (otype == DHCPV6_OPT_IA_PD) {
#ifdef EXT_CER_ID
iov[IOV_CERID].iov_len = sizeof(cerid);
if (IN6_IS_ADDR_UNSPECIFIED(&cerid.addr)) {
struct odhcpd_ipaddr addrs[32];
ssize_t len = odhcpd_get_interface_addresses(0, addrs,
sizeof(addrs) / sizeof(*addrs));
for (ssize_t i = 0; i < len; ++i)
if (IN6_IS_ADDR_UNSPECIFIED(&cerid.addr)
|| memcmp(&addrs[i].addr, &cerid.addr, sizeof(cerid.addr)) < 0)
cerid.addr = addrs[i].addr;
}
#endif
}
}
if (!IN6_IS_ADDR_MULTICAST((struct in6_addr *)dest_addr) && iov[IOV_NESTED].iov_len == 0 &&
(opts[-4] == DHCPV6_MSG_REQUEST || opts[-4] == DHCPV6_MSG_RENEW ||
opts[-4] == DHCPV6_MSG_RELEASE || opts[-4] == DHCPV6_MSG_DECLINE)) {
iov[IOV_STAT].iov_base = &stat;
iov[IOV_STAT].iov_len = sizeof(stat);
for (ssize_t i = IOV_STAT + 1; i < IOV_TOTAL; ++i)
iov[i].iov_len = 0;
odhcpd_send(iface->dhcpv6_event.uloop.fd, addr, iov, ARRAY_SIZE(iov), iface);
return;
}
if (opts[-4] != DHCPV6_MSG_INFORMATION_REQUEST) {
ssize_t ialen = dhcpv6_handle_ia(pdbuf, sizeof(pdbuf), iface, addr, &opts[-4], opts_end);
iov[IOV_PDBUF].iov_len = ialen;
if (ialen < 0 || (ialen == 0 && (opts[-4] == DHCPV6_MSG_REBIND || opts[-4] == DHCPV6_MSG_CONFIRM)))
return;
}
if (iov[IOV_NESTED].iov_len > 0) // Update length
update_nested_message(data, len, iov[IOV_DEST].iov_len + iov[IOV_MAXRT].iov_len +
iov[IOV_DNS].iov_len + iov[IOV_DNS_ADDR].iov_len +
iov[IOV_SEARCH].iov_len + iov[IOV_SEARCH_DOMAIN].iov_len +
iov[IOV_PDBUF].iov_len + iov[IOV_CERID].iov_len +
iov[IOV_DHCPV6_RAW].iov_len - (4 + opts_end - opts));
odhcpd_send(iface->dhcpv6_event.uloop.fd, addr, iov, ARRAY_SIZE(iov), iface);
}
// Central DHCPv6-relay handler
static void handle_dhcpv6(void *addr, void *data, size_t len,
struct interface *iface, void *dest_addr)
{
if (iface->dhcpv6 == RELAYD_SERVER) {
handle_client_request(addr, data, len, iface, dest_addr);
} else if (iface->dhcpv6 == RELAYD_RELAY) {
if (iface->master)
relay_server_response(data, len);
else
relay_client_request(addr, data, len, iface);
}
}
// Relay server response (regular relay server handling)
static void relay_server_response(uint8_t *data, size_t len)
{
// Information we need to gather
uint8_t *payload_data = NULL;
size_t payload_len = 0;
int32_t ifaceidx = 0;
struct sockaddr_in6 target = {AF_INET6, htons(DHCPV6_CLIENT_PORT),
0, IN6ADDR_ANY_INIT, 0};
syslog(LOG_NOTICE, "Got a DHCPv6-reply");
int otype, olen;
uint8_t *odata, *end = data + len;
// Relay DHCPv6 reply from server to client
struct dhcpv6_relay_header *h = (void*)data;
if (len < sizeof(*h) || h->msg_type != DHCPV6_MSG_RELAY_REPL)
return;
memcpy(&target.sin6_addr, &h->peer_address,
sizeof(struct in6_addr));
// Go through options and find what we need
dhcpv6_for_each_option(h->options, end, otype, olen, odata) {
if (otype == DHCPV6_OPT_INTERFACE_ID
&& olen == sizeof(ifaceidx)) {
memcpy(&ifaceidx, odata, sizeof(ifaceidx));
} else if (otype == DHCPV6_OPT_RELAY_MSG) {
payload_data = odata;
payload_len = olen;
}
}
// Invalid interface-id or basic payload
struct interface *iface = odhcpd_get_interface_by_index(ifaceidx);
if (!iface || iface->master || !payload_data || payload_len < 4)
return;
bool is_authenticated = false;
struct in6_addr *dns_ptr = NULL;
size_t dns_count = 0;
// If the payload is relay-reply we have to send to the server port
if (payload_data[0] == DHCPV6_MSG_RELAY_REPL) {
target.sin6_port = htons(DHCPV6_SERVER_PORT);
} else { // Go through the payload data
struct dhcpv6_client_header *h = (void*)payload_data;
end = payload_data + payload_len;
dhcpv6_for_each_option(&h[1], end, otype, olen, odata) {
if (otype == DHCPV6_OPT_DNS_SERVERS && olen >= 16) {
dns_ptr = (struct in6_addr*)odata;
dns_count = olen / 16;
} else if (otype == DHCPV6_OPT_AUTH) {
is_authenticated = true;
}
}
}
// Rewrite DNS servers if requested
if (iface->always_rewrite_dns && dns_ptr && dns_count > 0) {
if (is_authenticated)
return; // Impossible to rewrite
struct odhcpd_ipaddr ip;
const struct in6_addr *rewrite = iface->dns;
size_t rewrite_cnt = iface->dns_cnt;
if (rewrite_cnt == 0) {
if (odhcpd_get_interface_addresses(iface->ifindex, &ip, 1) < 1)
return; // Unable to get interface address
rewrite = &ip.addr;
rewrite_cnt = 1;
}
// Copy over any other addresses
for (size_t i = 0; i < dns_count; ++i) {
size_t j = (i < rewrite_cnt) ? i : rewrite_cnt - 1;
memcpy(&dns_ptr[i], &rewrite[j], sizeof(*rewrite));
}
}
struct iovec iov = {payload_data, payload_len};
odhcpd_send(iface->dhcpv6_event.uloop.fd, &target, &iov, 1, iface);
}
// Relay client request (regular DHCPv6-relay)
static void relay_client_request(struct sockaddr_in6 *source,
const void *data, size_t len, struct interface *iface)
{
struct interface *master = odhcpd_get_master_interface();
const struct dhcpv6_relay_header *h = data;
if (!master || master->dhcpv6 != RELAYD_RELAY ||
h->msg_type == DHCPV6_MSG_RELAY_REPL ||
h->msg_type == DHCPV6_MSG_RECONFIGURE ||
h->msg_type == DHCPV6_MSG_REPLY ||
h->msg_type == DHCPV6_MSG_ADVERTISE)
return; // Invalid message types for client
syslog(LOG_NOTICE, "Got a DHCPv6-request");
// Construct our forwarding envelope
struct dhcpv6_relay_forward_envelope hdr = {
.msg_type = DHCPV6_MSG_RELAY_FORW,
.hop_count = 0,
.interface_id_type = htons(DHCPV6_OPT_INTERFACE_ID),
.interface_id_len = htons(sizeof(uint32_t)),
.relay_message_type = htons(DHCPV6_OPT_RELAY_MSG),
.relay_message_len = htons(len),
};
if (h->msg_type == DHCPV6_MSG_RELAY_FORW) { // handle relay-forward
if (h->hop_count >= DHCPV6_HOP_COUNT_LIMIT)
return; // Invalid hop count
else
hdr.hop_count = h->hop_count + 1;
}
// use memcpy here as the destination fields are unaligned
uint32_t ifindex = iface->ifindex;
memcpy(&hdr.peer_address, &source->sin6_addr, sizeof(struct in6_addr));
memcpy(&hdr.interface_id_data, &ifindex, sizeof(ifindex));
// Detect public IP of slave interface to use as link-address
struct odhcpd_ipaddr ip;
if (odhcpd_get_interface_addresses(iface->ifindex, &ip, 1) < 1) {
// No suitable address! Is the slave not configured yet?
// Detect public IP of master interface and use it instead
// This is WRONG and probably violates the RFC. However
// otherwise we have a hen and egg problem because the
// slave-interface cannot be auto-configured.
if (odhcpd_get_interface_addresses(master->ifindex, &ip, 1) < 1)
return; // Could not obtain a suitable address
}
memcpy(&hdr.link_address, &ip.addr, sizeof(hdr.link_address));
struct sockaddr_in6 dhcpv6_servers = {AF_INET6,
htons(DHCPV6_SERVER_PORT), 0, ALL_DHCPV6_SERVERS, 0};
struct iovec iov[2] = {{&hdr, sizeof(hdr)}, {(void*)data, len}};
odhcpd_send(iface->dhcpv6_event.uloop.fd, &dhcpv6_servers, iov, 2, master);
}
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