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passt/dhcp.c
David Gibson 935bd81936 conf, fwd: Split notion of gateway/router from guest-visible host address 
The @gw fields in the ip4_ctx and ip6_ctx give the (host's) default
gateway.  We use this for two quite distinct things: advertising the
gateway that the guest should use (via DHCP, NDP and/or --config-net)
and for a limited form of NAT.  So that the guest can access services
on the host, we map the gateway address within the guest to the
loopback address on the host.

Using the gateway address for this isn't necessarily the best choice
for this purpose, certainly not for all circumstances.  So, start off
by splitting the notion of these into two different values: @guest_gw
which is the gateway address the guest should use and @nat_host_loopback,
which is the guest visible address to remap to the host's loopback.

Usually nat_host_loopback will have the same value as guest_gw.  However
when --no-map-gw is specified we leave them unspecified instead.  This
means when we use nat_host_loopback, we don't need to separately check
c->no_map_gw to see if it's relevant.

Signed-off-by: David Gibson <david@gibson.dropbear.id.au>
Signed-off-by: Stefano Brivio <sbrivio@redhat.com>
2024-08-21 12:00:31 +02:00

386 lines
8.9 KiB
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// SPDX-License-Identifier: GPL-2.0-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
*
* dhcp.c - Minimalistic DHCP server for PASST
*
* Copyright (c) 2020-2021 Red Hat GmbH
* Author: Stefano Brivio <sbrivio@redhat.com>
*/
#include <arpa/inet.h>
#include <net/if.h>
#include <netinet/if_ether.h>
#include <netinet/ip.h>
#include <netinet/udp.h>
#include <stddef.h>
#include <stdio.h>
#include <stdint.h>
#include <unistd.h>
#include <string.h>
#include <limits.h>
#include "util.h"
#include "ip.h"
#include "checksum.h"
#include "packet.h"
#include "passt.h"
#include "tap.h"
#include "log.h"
#include "dhcp.h"
/**
* struct opt - DHCP option
* @sent: Convenience flag, set while filling replies
* @slen: Length of option defined for server
* @s: Option payload from server
* @clen: Length of option received from client
* @c: Option payload from client
*/
struct opt {
int sent;
int slen;
uint8_t s[255];
int clen;
uint8_t c[255];
};
static struct opt opts[255];
#define DHCPDISCOVER 1
#define DHCPOFFER 2
#define DHCPREQUEST 3
#define DHCPDECLINE 4
#define DHCPACK 5
#define DHCPNAK 6
#define DHCPRELEASE 7
#define DHCPINFORM 8
#define DHCPFORCERENEW 9
#define OPT_MIN 60 /* RFC 951 */
/**
* dhcp_init() - Initialise DHCP options
*/
void dhcp_init(void)
{
opts[1] = (struct opt) { 0, 4, { 0 }, 0, { 0 }, }; /* Mask */
opts[3] = (struct opt) { 0, 4, { 0 }, 0, { 0 }, }; /* Router */
opts[51] = (struct opt) { 0, 4, { 0xff,
0xff,
0xff,
0xff }, 0, { 0 }, }; /* Lease time */
opts[53] = (struct opt) { 0, 1, { 0 }, 0, { 0 }, }; /* Type */
opts[54] = (struct opt) { 0, 4, { 0 }, 0, { 0 }, }; /* Server ID */
}
/**
* struct msg - BOOTP/DHCP message
* @op: BOOTP message type
* @htype: Hardware address type
* @hlen: Hardware address length
* @hops: DHCP relay hops
* @xid: Transaction ID randomly chosen by client
* @secs: Seconds elapsed since beginning of acquisition or renewal
* @flags: DHCP message flags
* @ciaddr: Client IP address in BOUND, RENEW, REBINDING
* @yiaddr: IP address being offered or assigned
* @siaddr: Next server to use in bootstrap
* @giaddr: Relay agent IP address
* @chaddr: Client hardware address
* @sname: Server host name
* @file: Boot file name
* @magic: Magic cookie prefix before options
* @o: Options
*/
struct msg {
uint8_t op;
#define BOOTREQUEST 1
#define BOOTREPLY 2
uint8_t htype;
uint8_t hlen;
uint8_t hops;
uint32_t xid;
uint16_t secs;
uint16_t flags;
uint32_t ciaddr;
struct in_addr yiaddr;
uint32_t siaddr;
uint32_t giaddr;
uint8_t chaddr[16];
uint8_t sname[64];
uint8_t file[128];
uint32_t magic;
uint8_t o[308];
} __attribute__((__packed__));
/**
* fill_one() - Fill a single option in message
* @m: Message to fill
* @o: Option number
* @offset: Current offset within options field, updated on insertion
*/
static void fill_one(struct msg *m, int o, int *offset)
{
m->o[*offset] = o;
m->o[*offset + 1] = opts[o].slen;
memcpy(&m->o[*offset + 2], opts[o].s, opts[o].slen);
opts[o].sent = 1;
*offset += 2 + opts[o].slen;
}
/**
* fill() - Fill options in message
* @m: Message to fill
*
* Return: current size of options field
*/
static int fill(struct msg *m)
{
int i, o, offset = 0;
m->op = BOOTREPLY;
m->secs = 0;
for (o = 0; o < 255; o++)
opts[o].sent = 0;
/* Some clients (wattcp32, mTCP, maybe some others) expect
* option 53 at the beginning of the list.
* Put it there explicitly, unless requested via option 55.
*/
if (!memchr(opts[55].c, 53, opts[55].clen))
fill_one(m, 53, &offset);
for (i = 0; i < opts[55].clen; i++) {
o = opts[55].c[i];
if (opts[o].slen)
fill_one(m, o, &offset);
}
for (o = 0; o < 255; o++) {
if (opts[o].slen && !opts[o].sent)
fill_one(m, o, &offset);
}
m->o[offset++] = 255;
m->o[offset++] = 0;
if (offset < OPT_MIN) {
memset(&m->o[offset], 0, OPT_MIN - offset);
offset = OPT_MIN;
}
return offset;
}
/**
* opt_dns_search_dup_ptr() - Look for possible domain name compression pointer
* @buf: Current option buffer with existing labels
* @cmp: Portion of domain name being added
* @len: Length of current option buffer
*
* Return: offset to corresponding compression pointer if any, -1 if not found
*/
static int opt_dns_search_dup_ptr(unsigned char *buf, const char *cmp,
size_t len)
{
unsigned int i;
for (i = 0; i < len; i++) {
if (buf[i] == 0 &&
len - i - 1 >= strlen(cmp) &&
!memcmp(buf + i + 1, cmp, strlen(cmp)))
return i;
if ((buf[i] & 0xc0) == 0xc0 &&
len - i - 2 >= strlen(cmp) &&
!memcmp(buf + i + 2, cmp, strlen(cmp)))
return i + 1;
}
return -1;
}
/**
* opt_set_dns_search() - Fill data and set length for Domain Search option
* @c: Execution context
* @max_len: Maximum total length of option buffer
*/
static void opt_set_dns_search(const struct ctx *c, size_t max_len)
{
char buf[NS_MAXDNAME];
int i;
opts[119].slen = 0;
for (i = 0; i < 255; i++)
max_len -= opts[i].slen;
for (i = 0; *c->dns_search[i].n; i++) {
unsigned int n;
int count = -1;
const char *p;
buf[0] = 0;
for (p = c->dns_search[i].n, n = 1; *p; p++) {
if (*p == '.') {
/* RFC 1035 4.1.4 Message compression */
count = opt_dns_search_dup_ptr(opts[119].s,
p + 1,
opts[119].slen);
if (count >= 0) {
buf[n++] = '\xc0';
buf[n++] = count;
break;
}
buf[n++] = '.';
} else {
buf[n++] = *p;
}
}
/* The compression pointer is also an end of label */
if (count < 0)
buf[n++] = 0;
if (n >= max_len)
break;
memcpy(opts[119].s + opts[119].slen, buf, n);
opts[119].slen += n;
max_len -= n;
}
for (i = 0; i < opts[119].slen; i++) {
if (!opts[119].s[i] || opts[119].s[i] == '.') {
opts[119].s[i] = strcspn((char *)opts[119].s + i + 1,
".\xc0");
}
}
}
/**
* dhcp() - Check if this is a DHCP message, reply as needed
* @c: Execution context
* @p: Packet pool, single packet with Ethernet buffer
*
* Return: 0 if it's not a DHCP message, 1 if handled, -1 on failure
*/
int dhcp(const struct ctx *c, const struct pool *p)
{
size_t mlen, dlen, offset = 0, opt_len, opt_off = 0;
char macstr[ETH_ADDRSTRLEN];
const struct ethhdr *eh;
const struct iphdr *iph;
const struct udphdr *uh;
struct in_addr mask;
unsigned int i;
struct msg *m;
eh = packet_get(p, 0, offset, sizeof(*eh), NULL);
offset += sizeof(*eh);
iph = packet_get(p, 0, offset, sizeof(*iph), NULL);
if (!eh || !iph)
return -1;
offset += iph->ihl * 4UL;
uh = packet_get(p, 0, offset, sizeof(*uh), &mlen);
offset += sizeof(*uh);
if (!uh)
return -1;
if (uh->dest != htons(67))
return 0;
if (c->no_dhcp)
return 1;
m = packet_get(p, 0, offset, offsetof(struct msg, o), &opt_len);
if (!m ||
mlen != ntohs(uh->len) - sizeof(*uh) ||
mlen < offsetof(struct msg, o) ||
m->op != BOOTREQUEST)
return -1;
offset += offsetof(struct msg, o);
while (opt_off + 2 < opt_len) {
const uint8_t *olen, *val;
uint8_t *type;
type = packet_get(p, 0, offset + opt_off, 1, NULL);
olen = packet_get(p, 0, offset + opt_off + 1, 1, NULL);
if (!type || !olen)
return -1;
val = packet_get(p, 0, offset + opt_off + 2, *olen, NULL);
if (!val)
return -1;
memcpy(&opts[*type].c, val, *olen);
opts[*type].clen = *olen;
opt_off += *olen + 2;
}
if (opts[53].c[0] == DHCPDISCOVER) {
info("DHCP: offer to discover");
opts[53].s[0] = DHCPOFFER;
} else if (opts[53].c[0] == DHCPREQUEST || !opts[53].clen) {
info("%s: ack to request", opts[53].clen ? "DHCP" : "BOOTP");
opts[53].s[0] = DHCPACK;
} else {
return -1;
}
info(" from %s", eth_ntop(m->chaddr, macstr, sizeof(macstr)));
m->yiaddr = c->ip4.addr;
mask.s_addr = htonl(0xffffffff << (32 - c->ip4.prefix_len));
memcpy(opts[1].s, &mask, sizeof(mask));
memcpy(opts[3].s, &c->ip4.guest_gw, sizeof(c->ip4.guest_gw));
memcpy(opts[54].s, &c->ip4.our_tap_addr, sizeof(c->ip4.our_tap_addr));
/* If the gateway is not on the assigned subnet, send an option 121
* (Classless Static Routing) adding a dummy route to it.
*/
if ((c->ip4.addr.s_addr & mask.s_addr)
!= (c->ip4.guest_gw.s_addr & mask.s_addr)) {
/* a.b.c.d/32:0.0.0.0, 0:a.b.c.d */
opts[121].slen = 14;
opts[121].s[0] = 32;
memcpy(opts[121].s + 1,
&c->ip4.guest_gw, sizeof(c->ip4.guest_gw));
memcpy(opts[121].s + 10,
&c->ip4.guest_gw, sizeof(c->ip4.guest_gw));
}
if (c->mtu != -1) {
opts[26].slen = 2;
opts[26].s[0] = c->mtu / 256;
opts[26].s[1] = c->mtu % 256;
}
for (i = 0, opts[6].slen = 0;
!c->no_dhcp_dns && !IN4_IS_ADDR_UNSPECIFIED(&c->ip4.dns[i]); i++) {
((struct in_addr *)opts[6].s)[i] = c->ip4.dns[i];
opts[6].slen += sizeof(uint32_t);
}
if (!c->no_dhcp_dns_search)
opt_set_dns_search(c, sizeof(m->o));
dlen = offsetof(struct msg, o) + fill(m);
tap_udp4_send(c, c->ip4.our_tap_addr, 67, c->ip4.addr, 68, m, dlen);
return 1;
}
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