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passt/dhcpv6.c
Stefano Brivio 89678c5157 conf, udp: Introduce basic DNS forwarding 
For compatibility with libslirp/slirp4netns users: introduce a
mechanism to map, in the UDP routines, an address facing guest or
namespace to the first IPv4 or IPv6 address resulting from
configuration as resolver. This can be enabled with the new
--dns-forward option.

This implies that sourcing and using DNS addresses and search lists,
passed via command line or read from /etc/resolv.conf, is not bound
anymore to DHCP/DHCPv6/NDP usage: for example, pasta users might just
want to use addresses from /etc/resolv.conf as mapping target, while
not passing DNS options via DHCP.

Reflect this in all the involved code paths by differentiating
DHCP/DHCPv6/NDP usage from DNS configuration per se, and in the new
options --dhcp-dns, --dhcp-search for pasta, and --no-dhcp-dns,
--no-dhcp-search for passt.

This should be the last bit to enable substantial compatibility
between slirp4netns.sh and slirp4netns(1): pass the --dns-forward
option from the script too.

Signed-off-by: Stefano Brivio <sbrivio@redhat.com>
2022-02-21 13:41:13 +01:00

617 lines
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// SPDX-License-Identifier: AGPL-3.0-or-later
/* PASST - Plug A Simple Socket Transport
* for qemu/UNIX domain socket mode
*
* PASTA - Pack A Subtle Tap Abstraction
* for network namespace/tap device mode
*
* dhcpv6.c - Minimalistic DHCPv6 server for PASST
*
* Copyright (c) 2021 Red Hat GmbH
* Author: Stefano Brivio <sbrivio@redhat.com>
*/
#include <arpa/inet.h>
#include <net/if_arp.h>
#include <net/if.h>
#include <netinet/ip.h>
#include <netinet/udp.h>
#include <netinet/if_ether.h>
#include <stdio.h>
#include <stddef.h>
#include <stdint.h>
#include <unistd.h>
#include <string.h>
#include <time.h>
#include "util.h"
#include "passt.h"
#include "tap.h"
/**
* struct opt_hdr - DHCPv6 option header
* @t: Option type
* @l: Option length, network order
*/
struct opt_hdr {
uint16_t t;
#if __BYTE_ORDER == __BIG_ENDIAN
# define OPT_CLIENTID 1
# define OPT_SERVERID 2
# define OPT_IA_NA 3
# define OPT_IA_TA 4
# define OPT_IAAADR 5
# define OPT_STATUS_CODE 13
# define STATUS_NOTONLINK 4
# define OPT_DNS_SERVERS 23
# define OPT_DNS_SEARCH 24
#else
# define OPT_CLIENTID __bswap_constant_16(1)
# define OPT_SERVERID __bswap_constant_16(2)
# define OPT_IA_NA __bswap_constant_16(3)
# define OPT_IA_TA __bswap_constant_16(4)
# define OPT_IAAADR __bswap_constant_16(5)
# define OPT_STATUS_CODE __bswap_constant_16(13)
# define STATUS_NOTONLINK __bswap_constant_16(4)
# define OPT_DNS_SERVERS __bswap_constant_16(23)
# define OPT_DNS_SEARCH __bswap_constant_16(24)
#endif
#define STR_NOTONLINK "Prefix not appropriate for link."
uint16_t l;
};
#if __BYTE_ORDER == __BIG_ENDIAN
# define OPT_SIZE_CONV(x) (x)
#else
# define OPT_SIZE_CONV(x) (__bswap_constant_16(x))
#endif
#define OPT_SIZE(x) OPT_SIZE_CONV(sizeof(struct opt_##x) - \
sizeof(struct opt_hdr))
/**
* struct opt_client_id - DHCPv6 Client Identifier option
* @hdr: Option header
* @duid: Client DUID, up to 128 bytes (cf. RFC 8415, 11.1.)
*/
struct opt_client_id {
struct opt_hdr hdr;
uint8_t duid[128];
};
/**
* struct opt_server_id - DHCPv6 Server Identifier option
* @hdr: Option header
* @duid_type: Type of server DUID, network order
* @duid_hw: IANA hardware type, network order
* @duid_time: Time reference, network order
* @duid_lladdr: Link-layer address (MAC address)
*/
struct opt_server_id {
struct opt_hdr hdr;
uint16_t duid_type;
#define DUID_TYPE_LLT 1
uint16_t duid_hw;
uint32_t duid_time;
uint8_t duid_lladdr[ETH_ALEN];
};
#if __BYTE_ORDER == __BIG_ENDIAN
#define SERVER_ID { \
{ OPT_SERVERID, OPT_SIZE(server_id) }, \
DUID_TYPE_LLT, ARPHRD_ETHER, 0, { 0 } \
}
#else
#define SERVER_ID { \
{ OPT_SERVERID, OPT_SIZE(server_id) }, \
__bswap_constant_16(DUID_TYPE_LLT), \
__bswap_constant_16(ARPHRD_ETHER), \
0, { 0 } \
}
#endif
/**
* struct opt_ia_na - Identity Association for Non-temporary Addresses Option
* @hdr: Option header
* @iaid: Unique identifier for IA_NA, network order
* @t1: Rebind interval for this server (always infinity)
* @t2: Rebind interval for any server (always infinity)
*/
struct opt_ia_na {
struct opt_hdr hdr;
uint32_t iaid;
uint32_t t1;
uint32_t t2;
};
/**
* struct opt_ia_ta - Identity Association for Temporary Addresses Option
* @hdr: Option header
* @iaid: Unique identifier for IA_TA, network order
*/
struct opt_ia_ta {
struct opt_hdr hdr;
uint32_t iaid;
};
/**
* struct opt_ia_addr - IA Address Option
* @hdr: Option header
* @addr: Leased IPv6 address
* @pref_lifetime: Preferred lifetime, network order (always infinity)
* @valid_lifetime: Valid lifetime, network order (always infinity)
*/
struct opt_ia_addr {
struct opt_hdr hdr;
struct in6_addr addr;
uint32_t pref_lifetime;
uint32_t valid_lifetime;
};
/**
* struct opt_status_code - Status Code Option (used for NotOnLink error only)
* @hdr: Option header
* @code: Numeric code for status, network order
* @status_msg: Text string suitable for display, not NULL-terminated
*/
struct opt_status_code {
struct opt_hdr hdr;
uint16_t code;
char status_msg[sizeof(STR_NOTONLINK) - 1];
};
/**
* struct opt_dns_servers - DNS Recursive Name Server option (RFC 3646)
* @hdr: Option header
* @addr: IPv6 DNS addresses
*/
struct opt_dns_servers {
struct opt_hdr hdr;
struct in6_addr addr[MAXNS];
};
/**
* struct opt_dns_servers - Domain Search List option (RFC 3646)
* @hdr: Option header
* @list: NULL-separated list of domain names
*/
struct opt_dns_search {
struct opt_hdr hdr;
char list[MAXDNSRCH * NS_MAXDNAME];
};
/**
* struct msg_hdr - DHCPv6 client/server message header
* @type: DHCP message type
* @xid: Transaction ID for message exchange
*/
struct msg_hdr {
uint32_t type:8;
#define TYPE_SOLICIT 1
#define TYPE_ADVERTISE 2
#define TYPE_REQUEST 3
#define TYPE_CONFIRM 4
#define TYPE_RENEW 5
#define TYPE_REBIND 6
#define TYPE_REPLY 7
#define TYPE_RELEASE 8
#define TYPE_DECLINE 9
#define TYPE_INFORMATION_REQUEST 11
uint32_t xid:24;
} __attribute__((__packed__));
#if __BYTE_ORDER == __BIG_ENDIAN
#define UH_RESP {{{ 547, 546, 0, 0, }}}
#else
#define UH_RESP {{{ __bswap_constant_16(547), __bswap_constant_16(546), 0, 0 }}}
#endif
/**
* struct resp_t - Normal advertise and reply message
* @uh: UDP header
* @hdr: DHCP message header
* @server_id: Server Identifier option
* @ia_na: Non-temporary Address option
* @ia_addr: Address for IA_NA
* @client_id: Client Identifier, variable length
* @dns_servers: DNS Recursive Name Server, here just for storage size
* @dns_search: Domain Search List, here just for storage size
*/
static struct resp_t {
struct udphdr uh;
struct msg_hdr hdr;
struct opt_server_id server_id;
struct opt_ia_na ia_na;
struct opt_ia_addr ia_addr;
struct opt_client_id client_id;
struct opt_dns_servers dns_servers;
struct opt_dns_search dns_search;
} __attribute__((__packed__)) resp = {
UH_RESP,
{ 0 },
SERVER_ID,
{ { OPT_IA_NA, OPT_SIZE_CONV(sizeof(struct opt_ia_na) +
sizeof(struct opt_ia_addr) -
sizeof(struct opt_hdr)) },
1, (uint32_t)~0U, (uint32_t)~0U
},
{ { OPT_IAAADR, OPT_SIZE(ia_addr) },
IN6ADDR_ANY_INIT, (uint32_t)~0U, (uint32_t)~0U
},
{ { OPT_CLIENTID, 0, },
{ 0 }
},
{ { OPT_DNS_SERVERS, 0, },
{ IN6ADDR_ANY_INIT }
},
{ { OPT_DNS_SEARCH, 0, },
{ 0 },
},
};
static const struct opt_status_code sc_not_on_link = {
{ OPT_STATUS_CODE, OPT_SIZE(status_code), },
STATUS_NOTONLINK, STR_NOTONLINK
};
/**
* struct resp_not_on_link_t - NotOnLink error (mandated by RFC 8415, 18.3.2.)
* @uh: UDP header
* @hdr: DHCP message header
* @server_id: Server Identifier option
* @var: Payload: IA_NA from client, status code, client ID
*/
static struct resp_not_on_link_t {
struct udphdr uh;
struct msg_hdr hdr;
struct opt_server_id server_id;
uint8_t var[sizeof(struct opt_ia_na) + sizeof(struct opt_status_code) +
sizeof(struct opt_client_id)];
} __attribute__((__packed__)) resp_not_on_link = {
UH_RESP,
{ TYPE_REPLY, 0 },
SERVER_ID,
{ 0, },
};
/**
* dhcpv6_opt() - Get option from DHCPv6 message
* @o: First option header to check
* @type: Option type to look up, network order
* @len: Remaining length, host order, modified on return
*
* Return: pointer to option header, or NULL on malformed or missing option
*/
static struct opt_hdr *dhcpv6_opt(struct opt_hdr *o, uint16_t type, size_t *len)
{
while (*len >= sizeof(struct opt_hdr)) {
unsigned int opt_len = ntohs(o->l) + sizeof(struct opt_hdr);
if (opt_len > *len)
return NULL;
*len -= opt_len;
if (o->t == type)
return o;
o = (struct opt_hdr *)((uint8_t *)o + opt_len);
}
return NULL;
}
/**
* dhcpv6_ia_notonlink() - Check if any IA contains non-appropriate addresses
* @o: First option header to check for IAs
* @rem_len: Remaining message length, host order
* @addr: Address we want to lease to the client
*
* Return: pointer to non-appropriate IA_NA or IA_TA, if any, NULL otherwise
*/
static struct opt_hdr *dhcpv6_ia_notonlink(struct opt_hdr *o, size_t rem_len,
struct in6_addr *addr)
{
struct opt_hdr *ia, *ia_addr;
char buf[INET6_ADDRSTRLEN];
struct in6_addr *req_addr;
size_t len;
int ia_type;
ia_type = OPT_IA_NA;
ia_ta:
len = rem_len;
ia = o;
while ((ia = dhcpv6_opt(ia, ia_type, &len))) {
size_t ia_len = ntohs(ia->l);
if (ia_type == OPT_IA_NA) {
struct opt_ia_na *subopt = (struct opt_ia_na *)ia + 1;
ia_addr = (struct opt_hdr *)subopt;
} else if (ia_type == OPT_IA_TA) {
struct opt_ia_ta *subopt = (struct opt_ia_ta *)ia + 1;
ia_addr = (struct opt_hdr *)subopt;
}
ia_len -= sizeof(struct opt_ia_na) - sizeof(struct opt_hdr);
while ((ia_addr = dhcpv6_opt(ia_addr, OPT_IAAADR, &ia_len))) {
struct opt_ia_addr *next;
req_addr = (struct in6_addr *)(ia_addr + 1);
if (memcmp(addr, req_addr, sizeof(*addr))) {
info("DHCPv6: requested address %s not on link",
inet_ntop(AF_INET6, req_addr,
buf, sizeof(buf)));
return ia;
}
next = (struct opt_ia_addr *)ia_addr + 1;
ia_addr = (struct opt_hdr *)next;
}
if (!ia_addr)
break;
ia = ia_addr;
}
if (ia_type == OPT_IA_NA) {
ia_type = OPT_IA_TA;
goto ia_ta;
}
return NULL;
}
/**
* dhcpv6_dns_fill() - Fill in DNS Servers and Domain Search list options
* @c: Execution context
* @buf: Response message buffer where options will be appended
* @offset: Offset in message buffer for new options
*
* Return: updated length of response message buffer.
*/
static size_t dhcpv6_dns_fill(struct ctx *c, char *buf, int offset)
{
struct opt_dns_servers *srv = NULL;
struct opt_dns_search *srch = NULL;
char *p = NULL;
int i;
if (c->no_dhcp_dns)
goto search;
for (i = 0; !IN6_IS_ADDR_UNSPECIFIED(&c->dns6[i]); i++) {
if (!i) {
srv = (struct opt_dns_servers *)(buf + offset);
offset += sizeof(struct opt_hdr);
srv->hdr.t = OPT_DNS_SERVERS;
srv->hdr.l = 0;
}
memcpy(&srv->addr[i], &c->dns6[i], sizeof(srv->addr[i]));
srv->hdr.l += sizeof(srv->addr[i]);
offset += sizeof(srv->addr[i]);
}
if (srv)
srv->hdr.l = htons(srv->hdr.l);
search:
if (c->no_dhcp_dns_search)
return offset;
for (i = 0; *c->dns_search[i].n; i++) {
if (!i) {
srch = (struct opt_dns_search *)(buf + offset);
offset += sizeof(struct opt_hdr);
srch->hdr.t = OPT_DNS_SEARCH;
srch->hdr.l = 0;
p = srch->list;
*p = 0;
}
p = stpcpy(p + 1, c->dns_search[i].n);
*(p++) = 0;
srch->hdr.l += strlen(c->dns_search[i].n) + 2;
offset += strlen(c->dns_search[i].n) + 2;
}
if (srch) {
for (i = 0; i < srch->hdr.l; i++) {
if (srch->list[i] == '.' || !srch->list[i]) {
srch->list[i] = strcspn(srch->list + i + 1,
".");
}
}
srch->hdr.l = htons(srch->hdr.l);
}
return offset;
}
/**
* dhcpv6() - Check if this is a DHCPv6 message, reply as needed
* @c: Execution context
* @eh: Packet buffer, Ethernet header
* @len: Total L2 packet length
*
* Return: 0 if it's not a DHCPv6 message, 1 if handled, -1 on failure
*/
int dhcpv6(struct ctx *c, struct ethhdr *eh, size_t len)
{
struct ipv6hdr *ip6h = (struct ipv6hdr *)(eh + 1);
struct opt_hdr *ia, *bad_ia, *client_id, *server_id;
struct in6_addr *src;
struct msg_hdr *mh;
struct udphdr *uh;
uint8_t proto;
size_t mlen;
size_t n;
uh = (struct udphdr *)ipv6_l4hdr(ip6h, &proto);
if (!uh || proto != IPPROTO_UDP || uh->dest != htons(547))
return 0;
if (c->no_dhcpv6)
return 1;
if (!IN6_IS_ADDR_MULTICAST(&ip6h->daddr))
return -1;
mlen = len - ((intptr_t)uh - (intptr_t)eh) - sizeof(*uh);
if (mlen != ntohs(uh->len) - sizeof(*uh) ||
mlen < sizeof(struct msg_hdr))
return -1;
c->addr6_ll_seen = ip6h->saddr;
if (IN6_IS_ADDR_LINKLOCAL(&c->gw6))
src = &c->gw6;
else
src = &c->addr6_ll;
mh = (struct msg_hdr *)(uh + 1);
mlen -= sizeof(struct msg_hdr);
n = mlen;
client_id = dhcpv6_opt((struct opt_hdr *)(mh + 1), OPT_CLIENTID, &n);
if (!client_id || ntohs(client_id->l) > ntohs(OPT_SIZE(client_id)))
return -1;
n = mlen;
server_id = dhcpv6_opt((struct opt_hdr *)(mh + 1), OPT_SERVERID, &n);
n = mlen;
ia = dhcpv6_opt((struct opt_hdr *)(mh + 1), OPT_IA_NA, &n);
if (ia && ntohs(ia->l) < ntohs(OPT_SIZE(ia_na)))
return -1;
resp.hdr.type = TYPE_REPLY;
switch (mh->type) {
case TYPE_REQUEST:
case TYPE_RENEW:
if (!server_id ||
memcmp(&resp.server_id, server_id, sizeof(resp.server_id)))
return -1;
/* Falls through */
case TYPE_CONFIRM:
if (mh->type == TYPE_CONFIRM && server_id)
return -1;
if ((bad_ia = dhcpv6_ia_notonlink((struct opt_hdr *)(mh + 1),
mlen, &c->addr6))) {
info("DHCPv6: received CONFIRM with inappropriate IA,"
" sending NotOnLink status in REPLY");
n = ntohs(bad_ia->l) + sizeof(struct opt_hdr);
bad_ia->l = htons(n - sizeof(struct opt_hdr) +
sizeof(sc_not_on_link));
memcpy(resp_not_on_link.var, bad_ia, n);
memcpy(resp_not_on_link.var + n, &sc_not_on_link,
sizeof(sc_not_on_link));
n += sizeof(sc_not_on_link);
memcpy(resp_not_on_link.var + n, client_id,
sizeof(struct opt_hdr) + ntohs(client_id->l));
n += sizeof(struct opt_hdr) + ntohs(client_id->l);
n = offsetof(struct resp_not_on_link_t, var) + n;
resp_not_on_link.uh.len = htons(n);
resp_not_on_link.hdr.xid = mh->xid;
tap_ip_send(c, src, IPPROTO_UDP,
(char *)&resp_not_on_link, n, mh->xid);
return 1;
}
info("DHCPv6: received REQUEST/RENEW/CONFIRM, sending REPLY");
break;
case TYPE_INFORMATION_REQUEST:
if (server_id &&
memcmp(&resp.server_id, server_id, sizeof(resp.server_id)))
return -1;
n = mlen;
if (ia || dhcpv6_opt((struct opt_hdr *)(mh + 1), OPT_IA_TA, &n))
return -1;
info("DHCPv6: received INFORMATION_REQUEST, sending REPLY");
break;
case TYPE_REBIND:
if (!server_id ||
memcmp(&resp.server_id, server_id, sizeof(resp.server_id)))
return -1;
info("DHCPv6: received REBIND, sending REPLY");
break;
case TYPE_SOLICIT:
if (server_id)
return -1;
resp.hdr.type = TYPE_ADVERTISE;
info("DHCPv6: received SOLICIT, sending ADVERTISE");
break;
default:
return -1;
}
if (ia)
resp.ia_na.iaid = ((struct opt_ia_na *)ia)->iaid;
memcpy(&resp.client_id, client_id,
ntohs(client_id->l) + sizeof(struct opt_hdr));
n = offsetof(struct resp_t, client_id) +
sizeof(struct opt_hdr) + ntohs(client_id->l);
n = dhcpv6_dns_fill(c, (char *)&resp, n);
resp.uh.len = htons(n);
resp.hdr.xid = mh->xid;
tap_ip_send(c, src, IPPROTO_UDP, (char *)&resp, n, mh->xid);
c->addr6_seen = c->addr6;
return 1;
}
/**
* dhcpv6_init() - Initialise DUID and addresses for DHCPv6 server
* @c: Execution context
*/
void dhcpv6_init(struct ctx *c)
{
time_t y2k = 946684800; /* Epoch to 2000-01-01T00:00:00Z, no mktime() */
uint32_t duid_time;
duid_time = htonl(difftime(time(NULL), y2k));
resp.server_id.duid_time = duid_time;
resp_not_on_link.server_id.duid_time = duid_time;
memcpy(resp.server_id.duid_lladdr, c->mac, sizeof(c->mac));
memcpy(resp_not_on_link.server_id.duid_lladdr, c->mac, sizeof(c->mac));
resp.ia_addr.addr = c->addr6;
}
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