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|
/* $OpenBSD: pf_key_v2.c,v 1.13 1999/07/07 22:08:10 niklas Exp $ */
/* $EOM: pf_key_v2.c,v 1.17 1999/07/07 19:17:31 niklas Exp $ */
/*
* Copyright (c) 1999 Niklas Hallqvist. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by Ericsson Radio Systems.
* 4. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
/*
* This code was written under funding by Ericsson Radio Systems.
*/
#include <sys/types.h>
#include <sys/ioctl.h>
#include <sys/queue.h>
#include <sys/socket.h>
#include <sys/time.h>
#include <sys/uio.h>
#include <net/pfkeyv2.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include "conf.h"
#include "exchange.h"
#include "ipsec.h"
#include "ipsec_num.h"
#include "log.h"
#include "pf_key_v2.h"
#include "sa.h"
#include "timer.h"
#include "transport.h"
/*
* PF_KEY v2 always work with 64-bit entities and aligns on 64-bit boundaries.
*/
#define PF_KEY_V2_CHUNK 8
#define PF_KEY_V2_ROUND(x) \
(((x) + PF_KEY_V2_CHUNK - 1) & ~(PF_KEY_V2_CHUNK - 1))
/* How many microseconds we will wait for a reply from the PF_KEY socket. */
#define PF_KEY_REPLY_TIMEOUT 1000
struct pf_key_v2_node {
TAILQ_ENTRY (pf_key_v2_node) link;
void *seg;
size_t sz;
int cnt;
u_int16_t type;
u_int8_t flags;
};
TAILQ_HEAD (pf_key_v2_msg, pf_key_v2_node);
#define PF_KEY_V2_NODE_MALLOCED 1
#define PF_KEY_V2_NODE_MARK 2
static struct pf_key_v2_msg *pf_key_v2_call (struct pf_key_v2_msg *);
static struct pf_key_v2_node *pf_key_v2_find_ext (struct pf_key_v2_msg *,
u_int16_t);
static void pf_key_v2_notify (struct pf_key_v2_msg *);
static struct pf_key_v2_msg *pf_key_v2_read (u_int32_t);
static u_int32_t pf_key_v2_seq (void);
static u_int32_t pf_key_v2_write (struct pf_key_v2_msg *);
/* The socket to use for PF_KEY interactions. */
static int pf_key_v2_socket;
static struct pf_key_v2_msg *
pf_key_v2_msg_new (struct sadb_msg *msg, int flags)
{
struct pf_key_v2_node *node = 0;
struct pf_key_v2_msg *ret;
node = malloc (sizeof *node);
if (!node)
goto cleanup;
ret = malloc (sizeof *ret);
if (!ret)
goto cleanup;
TAILQ_INIT (ret);
node->seg = msg;
node->sz = sizeof *msg;
node->type = 0;
node->cnt = 1;
node->flags = flags;
TAILQ_INSERT_HEAD (ret, node, link);
return ret;
cleanup:
if (node)
free (node);
return 0;
}
/* Add a SZ sized segment SEG to the PF_KEY message MSG. */
static int
pf_key_v2_msg_add (struct pf_key_v2_msg *msg, struct sadb_ext *ext, int flags)
{
struct pf_key_v2_node *node;
node = malloc (sizeof *node);
if (!node)
return -1;
node->seg = ext;
node->sz = ext->sadb_ext_len * PF_KEY_V2_CHUNK;
node->type = ext->sadb_ext_type;
node->flags = flags;
TAILQ_FIRST (msg)->cnt++;
TAILQ_INSERT_TAIL (msg, node, link);
return 0;
}
/* Deallocate the PF_KEY message MSG. */
static void
pf_key_v2_msg_free (struct pf_key_v2_msg *msg)
{
struct pf_key_v2_node *np, *next;
for (np = TAILQ_FIRST (msg); np; np = next)
{
next = TAILQ_NEXT (np, link);
if (np->flags & PF_KEY_V2_NODE_MALLOCED)
free (np->seg);
free (np);
}
free (msg);
}
/* Just return a new sequence number. */
static u_int32_t
pf_key_v2_seq ()
{
static u_int32_t seq = 0;
return ++seq;
}
/*
* Read a PF_KEY packet with SEQ as the sequence number, looping if necessary.
* If SEQ is zero just read the first message we see, otherwise we queue
* messages up untile both the PID and the sequence number match.
*/
static struct pf_key_v2_msg *
pf_key_v2_read (u_int32_t seq)
{
ssize_t n;
u_int8_t *buf = 0;
struct pf_key_v2_msg *ret = 0;
struct sadb_msg *msg;
struct sadb_msg hdr;
struct sadb_ext *ext;
struct timeval tv;
fd_set *fds;
while (1)
{
/*
* If this is a read of a reply we should actually expect the reply to
* get lost as PF_KEY is an unreliable service per the specs.
* Currently we do this by setting a short timeout, and if it is not
* readable in that time, we fail the read.
*/
if (seq)
{
fds = calloc (howmany (pf_key_v2_socket + 1, NFDBITS),
sizeof (fd_mask));
if (!fds)
{
log_error ("pf_key_v2_read: calloc (%d, %d) failed",
howmany (pf_key_v2_socket + 1, NFDBITS),
sizeof (fd_mask));
goto cleanup;
}
FD_SET (pf_key_v2_socket, fds);
tv.tv_sec = 0;
tv.tv_usec = PF_KEY_REPLY_TIMEOUT;
n = select (pf_key_v2_socket + 1, fds, 0, 0, &tv);
free (fds);
if (n == -1)
{
log_error ("pf_key_v2_read: select (%d, fds, 0, 0, &tv) failed",
pf_key_v2_socket + 1);
goto cleanup;
}
if (!n)
{
log_print ("pf_key_v2_read: no reply from PF_KEY");
goto cleanup;
}
}
n = recv (pf_key_v2_socket, &hdr, sizeof hdr, MSG_PEEK);
if (n == -1)
{
log_error ("pf_key_v2_read: recv (%d, ...) failed",
pf_key_v2_socket);
goto cleanup;
}
if (n != sizeof hdr)
{
log_error ("pf_key_v2_read: recv (%d, ...) returned short packet "
"(%d bytes)",
pf_key_v2_socket, n);
goto cleanup;
}
n = hdr.sadb_msg_len * PF_KEY_V2_CHUNK;
buf = malloc (n);
if (!buf)
{
log_error ("pf_key_v2_read: malloc (%d) failed", n);
goto cleanup;
}
n = read (pf_key_v2_socket, buf, n);
if (n == -1)
{
log_error ("pf_key_v2_read: read (%d, ...) failed",
pf_key_v2_socket);
goto cleanup;
}
if ((size_t)n != hdr.sadb_msg_len * PF_KEY_V2_CHUNK)
{
log_print ("pf_key_v2_read: read (%d, ...) returned short packet "
"(%d bytes)",
pf_key_v2_socket, n);
goto cleanup;
}
log_debug_buf (LOG_SYSDEP, 80, "pf_key_v2_read: msg", buf, n);
/* We drop all messages that is not what we expect. */
msg = (struct sadb_msg *)buf;
if (msg->sadb_msg_version != PF_KEY_V2
|| (msg->sadb_msg_pid != 0 && msg->sadb_msg_pid != getpid ()))
{
if (seq)
{
free (buf);
buf = 0;
continue;
}
else
{
log_debug (LOG_SYSDEP, 90,
"pf_key_v2_read:"
"bad version (%d) or PID (%d, mine is %d), ignored",
msg->sadb_msg_version, msg->sadb_msg_pid, getpid ());
goto cleanup;
}
}
/* Parse the message. */
ret = pf_key_v2_msg_new (msg, PF_KEY_V2_NODE_MALLOCED);
if (!ret)
goto cleanup;
buf = 0;
for (ext = (struct sadb_ext *)(msg + 1);
(u_int8_t *)ext - (u_int8_t *)msg
< msg->sadb_msg_len * PF_KEY_V2_CHUNK;
ext = (struct sadb_ext *)((u_int8_t *)ext
+ ext->sadb_ext_len * PF_KEY_V2_CHUNK))
pf_key_v2_msg_add (ret, ext, 0);
/* If the message is not the one we are waiting for, queue it up. */
if (seq && (msg->sadb_msg_pid != getpid () || msg->sadb_msg_seq != seq))
{
gettimeofday (&tv, 0);
timer_add_event ("pf_key_v2_notify",
(void (*) (void *))pf_key_v2_notify, ret, &tv);
ret = 0;
continue;
}
return ret;
}
cleanup:
if (buf)
free (buf);
if (ret)
pf_key_v2_msg_free (ret);
return 0;
}
/* Write the message in PMSG to the PF_KEY socket. */
u_int32_t
pf_key_v2_write (struct pf_key_v2_msg *pmsg)
{
struct iovec *iov = 0;
ssize_t n;
size_t len;
int i, cnt = TAILQ_FIRST (pmsg)->cnt;
char header[80];
struct sadb_msg *msg = TAILQ_FIRST (pmsg)->seg;
struct pf_key_v2_node *np = TAILQ_FIRST (pmsg);
iov = (struct iovec *)malloc (cnt * sizeof *iov);
if (!iov)
{
log_error ("pf_key_v2_write: malloc (%d) failed", cnt * sizeof *iov);
return 0;
}
msg->sadb_msg_version = PF_KEY_V2;
msg->sadb_msg_errno = 0;
msg->sadb_msg_reserved = 0;
msg->sadb_msg_pid = getpid ();
if (!msg->sadb_msg_seq)
msg->sadb_msg_seq = pf_key_v2_seq ();
/* Compute the iovec segments as well as the message length. */
len = 0;
for (i = 0; i < cnt; i++)
{
iov[i].iov_base = np->seg;
len += iov[i].iov_len = np->sz;
/*
* XXX One can envision setting specific extension fields, like
* *_reserved ones here. For now we require them to be set by the
* caller.
*/
np = TAILQ_NEXT (np, link);
}
msg->sadb_msg_len = len / PF_KEY_V2_CHUNK;
for (i = 0; i < cnt; i++)
{
sprintf (header, "pf_key_v2_write: iov[%d]", i);
log_debug_buf (LOG_SYSDEP, 80, header, (u_int8_t *)iov[i].iov_base,
iov[i].iov_len);
}
n = writev (pf_key_v2_socket, iov, cnt);
if (n == -1)
{
log_error ("pf_key_v2_write: writev (%d, 0x%p, %d) failed",
pf_key_v2_socket, iov, cnt);
goto cleanup;
}
if ((size_t)n != len)
{
log_error ("pf_key_v2_write: writev (%d, ...) returned prematurely (%d)",
pf_key_v2_socket, n);
goto cleanup;
}
free (iov);
return msg->sadb_msg_seq;
cleanup:
if (iov)
free (iov);
return 0;
}
/*
* Do a PF_KEY "call", i.e. write a message MSG, read the reply and return
* it to the caller.
*/
static struct pf_key_v2_msg *
pf_key_v2_call (struct pf_key_v2_msg *msg)
{
u_int32_t seq;
seq = pf_key_v2_write (msg);
if (!seq)
return 0;
return pf_key_v2_read (seq);
}
/* Find the TYPE extension in MSG. Return zero if none found. */
static struct pf_key_v2_node *
pf_key_v2_find_ext (struct pf_key_v2_msg *msg, u_int16_t type)
{
struct pf_key_v2_node *ext;
for (ext = TAILQ_NEXT (TAILQ_FIRST (msg), link); ext;
ext = TAILQ_NEXT (ext, link))
if (ext->type == type)
return ext;
return 0;
}
/*
* Open the PF_KEYv2 sockets and return the descriptor used for notifies.
* Return -1 for failure and -2 if no notifies will show up.
*/
int
pf_key_v2_open ()
{
int fd = -1, err;
struct sadb_msg msg;
struct pf_key_v2_msg *regmsg = 0, *ret = 0;
/* Open the socket we use to speak to IPSec. */
pf_key_v2_socket = -1;
fd = socket (PF_KEY, SOCK_RAW, PF_KEY_V2);
if (fd == -1)
{
log_error ("pf_key_v2_open: "
"socket (PF_KEY, SOCK_RAW, PF_KEY_V2) failed");
goto cleanup;
}
pf_key_v2_socket = fd;
/* Register it to get ESP and AH acquires from the kernel. */
msg.sadb_msg_seq = 0;
msg.sadb_msg_type = SADB_REGISTER;
msg.sadb_msg_satype = SADB_SATYPE_ESP;
regmsg = pf_key_v2_msg_new (&msg, 0);
if (!regmsg)
goto cleanup;
ret = pf_key_v2_call (regmsg);
pf_key_v2_msg_free (regmsg);
if (!ret)
goto cleanup;
err = ((struct sadb_msg *)TAILQ_FIRST (ret)->seg)->sadb_msg_errno;
if (err)
{
log_print ("pf_key_v2_open: REGISTER: %s", strerror (err));
goto cleanup;
}
/* XXX Register the accepted transforms. */
pf_key_v2_msg_free (ret);
ret = 0;
msg.sadb_msg_seq = 0;
msg.sadb_msg_type = SADB_REGISTER;
msg.sadb_msg_satype = SADB_SATYPE_AH;
regmsg = pf_key_v2_msg_new (&msg, 0);
if (!regmsg)
goto cleanup;
ret = pf_key_v2_call (regmsg);
pf_key_v2_msg_free (regmsg);
if (!ret)
goto cleanup;
err = ((struct sadb_msg *)TAILQ_FIRST (ret)->seg)->sadb_msg_errno;
if (err)
{
log_print ("pf_key_v2_open: REGISTER: %s", strerror (err));
goto cleanup;
}
/* XXX Register the accepted transforms. */
pf_key_v2_msg_free (ret);
return fd;
cleanup:
if (pf_key_v2_socket != -1)
{
close (pf_key_v2_socket);
pf_key_v2_socket = -1;
}
if (ret)
pf_key_v2_msg_free (ret);
return -1;
}
/*
* Generate a SPI for protocol PROTO and the source/destination pair given by
* SRC, SRCLEN, DST & DSTLEN. Stash the SPI size in SZ.
*/
u_int8_t *
pf_key_v2_get_spi (size_t *sz, u_int8_t proto, struct sockaddr *src,
int srclen, struct sockaddr *dst, int dstlen)
{
struct sadb_msg msg;
struct sadb_sa *sa;
struct sadb_address *addr = 0;
struct sadb_spirange spirange;
struct pf_key_v2_msg *getspi = 0, *ret = 0;
u_int8_t *spi = 0;
int len, err;
msg.sadb_msg_type = SADB_GETSPI;
switch (proto)
{
case IPSEC_PROTO_IPSEC_ESP:
msg.sadb_msg_satype = SADB_SATYPE_ESP;
break;
case IPSEC_PROTO_IPSEC_AH:
msg.sadb_msg_satype = SADB_SATYPE_AH;
break;
default:
log_print ("pf_key_v2_get_spi: invalid proto %d", proto);
goto cleanup;
}
/*
* XXX When we have acquires working, the sequence number have to be set
* from the acquire message.
*/
msg.sadb_msg_seq = 0;
getspi = pf_key_v2_msg_new (&msg, 0);
if (!getspi)
goto cleanup;
/* Setup the ADDRESS extensions. */
len = sizeof (struct sadb_address) + PF_KEY_V2_ROUND (srclen);
addr = malloc (len);
if (!addr)
goto cleanup;
addr->sadb_address_exttype = SADB_EXT_ADDRESS_SRC;
addr->sadb_address_len = len / PF_KEY_V2_CHUNK;
#if 0
addr->sadb_address_proto = 0;
addr->sadb_address_prefixlen = 0;
#endif
addr->sadb_address_reserved = 0;
memcpy (addr + 1, src, srclen);
/* XXX IPv4-specific. */
((struct sockaddr_in *)(addr + 1))->sin_port = 0;
if (pf_key_v2_msg_add (getspi, (struct sadb_ext *)addr,
PF_KEY_V2_NODE_MALLOCED) == -1)
goto cleanup;
addr = 0;
len = sizeof (struct sadb_address) + PF_KEY_V2_ROUND (dstlen);
addr = malloc (len);
if (!addr)
goto cleanup;
addr->sadb_address_exttype = SADB_EXT_ADDRESS_DST;
addr->sadb_address_len = len / PF_KEY_V2_CHUNK;
#if 0
addr->sadb_address_proto = 0;
addr->sadb_address_prefixlen = 0;
#endif
addr->sadb_address_reserved = 0;
memcpy (addr + 1, dst, dstlen);
/* XXX IPv4-specific. */
((struct sockaddr_in *)(addr + 1))->sin_port = 0;
if (pf_key_v2_msg_add (getspi, (struct sadb_ext *)addr,
PF_KEY_V2_NODE_MALLOCED) == -1)
goto cleanup;
addr = 0;
/* Setup the SPIRANGE extension. */
spirange.sadb_spirange_exttype = SADB_EXT_SPIRANGE;
spirange.sadb_spirange_len = sizeof spirange / PF_KEY_V2_CHUNK;
spirange.sadb_spirange_min = IPSEC_SPI_LOW;
spirange.sadb_spirange_max = 0xffffffff;
spirange.sadb_spirange_reserved = 0;
if (pf_key_v2_msg_add (getspi, (struct sadb_ext *)&spirange, 0) == -1)
goto cleanup;
ret = pf_key_v2_call (getspi);
pf_key_v2_msg_free (getspi);
getspi = 0;
if (!ret)
goto cleanup;
err = ((struct sadb_msg *)TAILQ_FIRST (ret)->seg)->sadb_msg_errno;
if (err)
{
log_print ("pf_key_v2_get_spi: GETSPI: %s", strerror (err));
goto cleanup;
}
sa = (struct sadb_sa *)pf_key_v2_find_ext (ret, SADB_EXT_SA)->seg;
if (!sa)
{
log_print ("pf_key_v2_get_spi: no SA extension found");
goto cleanup;
}
*sz = sizeof sa->sadb_sa_spi;
spi = malloc (*sz);
if (!spi)
goto cleanup;
memcpy (spi, &sa->sadb_sa_spi, *sz);
pf_key_v2_msg_free (ret);
log_debug_buf (LOG_SYSDEP, 50, "pf_key_v2_get_spi: spi", spi, *sz);
return spi;
cleanup:
if (spi)
free (spi);
if (addr)
free (addr);
if (getspi)
pf_key_v2_msg_free (getspi);
if (ret)
pf_key_v2_msg_free (ret);
return 0;
}
/*
* Store/update a PF_KEY_V2 security association with full information from the
* IKE SA and PROTO into the kernel. INCOMING is set if we are setting the
* parameters for the incoming SA, and cleared otherwise.
*/
int
pf_key_v2_set_spi (struct sa *sa, struct proto *proto, int incoming)
{
struct sadb_msg msg;
struct sadb_sa ssa;
struct sadb_lifetime *life = 0;
struct sadb_address *addr = 0;
struct sadb_key *key = 0;
struct sockaddr *src, *dst;
int dstlen, srclen, keylen, hashlen, err;
struct pf_key_v2_msg *update = 0, *ret = 0;
struct ipsec_proto *iproto = proto->data;
size_t len;
msg.sadb_msg_type = incoming ? SADB_UPDATE : SADB_ADD;
switch (proto->proto)
{
case IPSEC_PROTO_IPSEC_ESP:
msg.sadb_msg_satype = SADB_SATYPE_ESP;
keylen = ipsec_esp_enckeylength (proto);
hashlen = ipsec_esp_authkeylength (proto);
switch (proto->id)
{
case IPSEC_ESP_DES:
case IPSEC_ESP_DES_IV32:
case IPSEC_ESP_DES_IV64:
ssa.sadb_sa_encrypt = SADB_EALG_DESCBC;
break;
case IPSEC_ESP_3DES:
ssa.sadb_sa_encrypt = SADB_EALG_3DESCBC;
break;
#ifdef SADB_X_EALG_CAST
case IPSEC_ESP_CAST:
ssa.sadb_sa_encrypt = SADB_X_EALG_CAST;
break;
#endif
#ifdef SADB_X_EALG_BLF
case IPSEC_ESP_BLOWFISH:
ssa.sadb_sa_encrypt = SADB_X_EALG_BLF;
break;
#endif
default:
/* XXX Log? */
return -1;
}
switch (iproto->auth)
{
case IPSEC_AUTH_HMAC_MD5:
ssa.sadb_sa_auth = SADB_AALG_MD5HMAC96;
break;
case IPSEC_AUTH_HMAC_SHA:
ssa.sadb_sa_auth = SADB_AALG_SHA1HMAC96;
break;
case IPSEC_AUTH_DES_MAC:
case IPSEC_AUTH_KPDK:
/* XXX Log? */
return -1;
default:
ssa.sadb_sa_auth = SADB_AALG_NONE;
}
break;
case IPSEC_PROTO_IPSEC_AH:
msg.sadb_msg_satype = SADB_SATYPE_AH;
hashlen = ipsec_ah_keylength (proto);
keylen = 0;
ssa.sadb_sa_encrypt = SADB_EALG_NONE;
switch (proto->id)
{
case IPSEC_AH_MD5:
ssa.sadb_sa_auth = SADB_AALG_MD5HMAC96;
break;
case IPSEC_AH_SHA:
ssa.sadb_sa_auth = SADB_AALG_SHA1HMAC96;
break;
default:
/* XXX Log? */
goto cleanup;
}
break;
default:
log_print ("pf_key_v2_set_spi: invalid proto %d", proto->proto);
goto cleanup;
}
msg.sadb_msg_seq = 0;
update = pf_key_v2_msg_new (&msg, 0);
if (!update)
goto cleanup;
/* Setup the rest of the SA extension. */
ssa.sadb_sa_exttype = SADB_EXT_SA;
ssa.sadb_sa_len = sizeof ssa / PF_KEY_V2_CHUNK;
memcpy (&ssa.sadb_sa_spi, proto->spi[incoming], sizeof ssa.sadb_sa_spi);
ssa.sadb_sa_replay
= conf_get_str ("General", "Shared-SADB") ? 0 : iproto->replay_window;
ssa.sadb_sa_state = SADB_SASTATE_MATURE;
#ifdef SADB_X_SAFLAGS_TUNNEL
ssa.sadb_sa_flags
= iproto->encap_mode == IPSEC_ENCAP_TUNNEL ? SADB_X_SAFLAGS_TUNNEL : 0;
#else
ssa.sadb_sa_flags = 0;
#endif
if (pf_key_v2_msg_add (update, (struct sadb_ext *)&ssa, 0) == -1)
goto cleanup;
if (sa->seconds || sa->kilobytes)
{
/* setup the hard limits. */
life = malloc (sizeof *life);
if (!life)
goto cleanup;
life->sadb_lifetime_len = sizeof *life / PF_KEY_V2_CHUNK;
life->sadb_lifetime_exttype = SADB_EXT_LIFETIME_HARD;
life->sadb_lifetime_allocations = 0;
life->sadb_lifetime_bytes = sa->kilobytes * 1024;
/*
* XXX I am not sure which one is best in security respect. Maybe the
* RFCs actually mandate what a lifetime reaaly is.
*/
#if 0
life->sadb_lifetime_addtime = 0;
life->sadb_lifetime_usetime = sa->seconds;
#else
life->sadb_lifetime_addtime = sa->seconds;
life->sadb_lifetime_usetime = 0;
#endif
if (pf_key_v2_msg_add (update, (struct sadb_ext *)life,
PF_KEY_V2_NODE_MALLOCED) == -1)
goto cleanup;
life = 0;
/*
* Setup the soft limits, we use 90 % of the hard ones.
* XXX A configurable ratio would be better.
*/
life = malloc (sizeof *life);
if (!life)
goto cleanup;
life->sadb_lifetime_len = sizeof *life / PF_KEY_V2_CHUNK;
life->sadb_lifetime_exttype = SADB_EXT_LIFETIME_SOFT;
life->sadb_lifetime_allocations = 0;
life->sadb_lifetime_bytes = sa->kilobytes * 1024 * 9 / 10;
/*
* XXX I am not sure which one is best in security respect. Maybe the
* RFCs actually mandate what a lifetime really is.
*/
#if 0
life->sadb_lifetime_addtime = 0;
life->sadb_lifetime_usetime = sa->seconds * 9 / 10;
#else
life->sadb_lifetime_addtime = sa->seconds * 9 / 10;
life->sadb_lifetime_usetime = 0;
#endif
if (pf_key_v2_msg_add (update, (struct sadb_ext *)life,
PF_KEY_V2_NODE_MALLOCED) == -1)
goto cleanup;
life = 0;
}
/*
* Setup the ADDRESS extensions.
*
* XXX Addresses has to be thought through. Assumes IPv4.
*/
if (incoming)
sa->transport->vtbl->get_dst (sa->transport, &src, &srclen);
else
sa->transport->vtbl->get_src (sa->transport, &src, &srclen);
len = sizeof *addr + PF_KEY_V2_ROUND (srclen);
addr = malloc (len);
if (!addr)
goto cleanup;
addr->sadb_address_exttype = SADB_EXT_ADDRESS_SRC;
addr->sadb_address_len = len / PF_KEY_V2_CHUNK;
#if 0
addr->sadb_address_proto = 0;
addr->sadb_address_prefixlen = 0;
#endif
addr->sadb_address_reserved = 0;
memcpy (addr + 1, src, srclen);
((struct sockaddr_in *)(addr + 1))->sin_port = 0;
if (pf_key_v2_msg_add (update, (struct sadb_ext *)addr,
PF_KEY_V2_NODE_MALLOCED) == -1)
goto cleanup;
addr = 0;
if (incoming)
sa->transport->vtbl->get_src (sa->transport, &dst, &dstlen);
else
sa->transport->vtbl->get_dst (sa->transport, &dst, &dstlen);
len = sizeof *addr + PF_KEY_V2_ROUND (dstlen);
addr = malloc (len);
if (!addr)
goto cleanup;
addr->sadb_address_exttype = SADB_EXT_ADDRESS_DST;
addr->sadb_address_len = len / PF_KEY_V2_CHUNK;
#if 0
addr->sadb_address_proto = 0;
addr->sadb_address_prefixlen = 0;
#endif
addr->sadb_address_reserved = 0;
memcpy (addr + 1, dst, dstlen);
((struct sockaddr_in *)(addr + 1))->sin_port = 0;
if (pf_key_v2_msg_add (update, (struct sadb_ext *)addr,
PF_KEY_V2_NODE_MALLOCED) == -1)
goto cleanup;
addr = 0;
#if 0
/* XXX I am not sure about what to do here just yet. */
if (iproto->encap_mode == IPSEC_ENCAP_TUNNEL)
{
len = sizeof *addr + PF_KEY_V2_ROUND (dstlen);
addr = malloc (len);
if (!addr)
goto cleanup;
addr->sadb_address_exttype = SADB_EXT_ADDRESS_PROXY;
addr->sadb_address_len = len / PF_KEY_V2_CHUNK;
#if 0
addr->sadb_address_proto = 0;
addr->sadb_address_prefixlen = 0;
#endif
addr->sadb_address_reserved = 0;
memcpy (addr + 1, dst, dstlen);
((struct sockaddr_in *)(addr + 1))->sin_port = 0;
if (pf_key_v2_msg_add (update, (struct sadb_ext *)addr,
PF_KEY_V2_NODE_MALLOCED) == -1)
goto cleanup;
addr = 0;
#if 0
msg->em_odst = msg->em_dst;
msg->em_osrc = msg->em_src;
#endif
}
#endif
/* Setup the KEY extensions. */
len = sizeof *key + PF_KEY_V2_ROUND (hashlen);
key = malloc (len);
if (!key)
goto cleanup;
key->sadb_key_exttype = SADB_EXT_KEY_AUTH;
key->sadb_key_len = len / PF_KEY_V2_CHUNK;
key->sadb_key_bits = hashlen * 8;
key->sadb_key_reserved = 0;
memcpy (key + 1,
iproto->keymat[incoming]
+ (proto->proto == IPSEC_PROTO_IPSEC_ESP ? keylen : 0),
hashlen);
if (pf_key_v2_msg_add (update, (struct sadb_ext *)key,
PF_KEY_V2_NODE_MALLOCED) == -1)
goto cleanup;
key = 0;
len = sizeof *key + PF_KEY_V2_ROUND (keylen);
key = malloc (len);
if (!key)
goto cleanup;
key->sadb_key_exttype = SADB_EXT_KEY_ENCRYPT;
key->sadb_key_len = len / PF_KEY_V2_CHUNK;
key->sadb_key_bits = keylen * 8;
key->sadb_key_reserved = 0;
memcpy (key + 1, iproto->keymat[incoming], keylen);
if (pf_key_v2_msg_add (update, (struct sadb_ext *)key,
PF_KEY_V2_NODE_MALLOCED) == -1)
goto cleanup;
key = 0;
/* XXX Here can identity and sensitivity extensions be setup. */
/* XXX IPv4 specific. */
log_debug (LOG_SYSDEP, 10, "pf_key_v2_set_spi: satype %d dst %s SPI 0x%x",
msg.sadb_msg_satype,
inet_ntoa (((struct sockaddr_in *)dst)->sin_addr),
ntohl (ssa.sadb_sa_spi));
/*
* Although PF_KEY knows about expirations, it is unreliable per the specs
* thus we need to do them inside isakmpd as well.
*/
if (sa->seconds)
if (sa_setup_expirations (sa))
goto cleanup;
ret = pf_key_v2_call (update);
pf_key_v2_msg_free (update);
update = 0;
if (!ret)
goto cleanup;
err = ((struct sadb_msg *)TAILQ_FIRST (ret)->seg)->sadb_msg_errno;
pf_key_v2_msg_free (ret);
ret = 0;
/*
* If we are doing an addition into an SADB shared with our peer, errors
* here are to be expected as the peer will already have created the SA,
* and can thus be ignored.
*/
if (err && !(msg.sadb_msg_type == SADB_ADD
&& conf_get_str ("General", "Shared-SADB")))
{
log_print ("pf_key_v2_set_spi: %s: %s",
msg.sadb_msg_type == SADB_ADD ? "ADD" : "UPDATE",
strerror (err));
goto cleanup;
}
log_debug (LOG_SYSDEP, 50, "pf_key_v2_set_spi: done");
return 0;
cleanup:
if (addr)
free (addr);
if (life)
free (life);
if (key)
free (key);
if (update)
pf_key_v2_msg_free (update);
if (ret)
pf_key_v2_msg_free (ret);
return -1;
}
/*
* Enable/disable a flow.
* XXX Assumes OpenBSD {ADD,DEL}FLOW extensions.
* Should probably be moved to sysdep.c
*/
static int
pf_key_v2_flow (in_addr_t laddr, in_addr_t lmask, in_addr_t raddr,
in_addr_t rmask, u_int8_t *spi, u_int8_t proto,
in_addr_t dst, int delete)
{
#if defined (SADB_X_ADDFLOW) && defined (SADB_X_DELFLOW)
struct sadb_msg msg;
struct sadb_sa ssa;
struct sadb_address *addr = 0;
struct pf_key_v2_msg *flow = 0, *ret = 0;
size_t len;
int err;
msg.sadb_msg_type = delete ? SADB_X_DELFLOW : SADB_X_ADDFLOW;
switch (proto)
{
case IPSEC_PROTO_IPSEC_ESP:
msg.sadb_msg_satype = SADB_SATYPE_ESP;
break;
case IPSEC_PROTO_IPSEC_AH:
msg.sadb_msg_satype = SADB_SATYPE_AH;
break;
default:
log_print ("pf_key_v2_flow: invalid proto %d", proto);
goto cleanup;
}
msg.sadb_msg_seq = 0;
flow = pf_key_v2_msg_new (&msg, 0);
if (!flow)
goto cleanup;
/* Setup the SA extension. */
ssa.sadb_sa_exttype = SADB_EXT_SA;
ssa.sadb_sa_len = sizeof ssa / PF_KEY_V2_CHUNK;
memcpy (&ssa.sadb_sa_spi, spi, sizeof ssa.sadb_sa_spi);
ssa.sadb_sa_replay = 0;
ssa.sadb_sa_state = 0;
ssa.sadb_sa_auth = 0;
ssa.sadb_sa_encrypt = 0;
/*
* XXX The LOCALFLOW flag should only be set if this machine is part of the
* source subnet.
*/
ssa.sadb_sa_flags = SADB_X_SAFLAGS_LOCALFLOW;
if (!delete)
ssa.sadb_sa_flags |= SADB_X_SAFLAGS_REPLACEFLOW;
if (pf_key_v2_msg_add (flow, (struct sadb_ext *)&ssa, 0) == -1)
goto cleanup;
/*
* Setup the ADDRESS extensions.
*
* XXX Addresses has to be thought through. Assumes IPv4.
*/
len = sizeof *addr + PF_KEY_V2_ROUND (sizeof (struct sockaddr_in));
if (!delete)
{
addr = malloc (len);
if (!addr)
goto cleanup;
addr->sadb_address_exttype = SADB_EXT_ADDRESS_DST;
addr->sadb_address_len = len / PF_KEY_V2_CHUNK;
#if 0
addr->sadb_address_proto = 0;
addr->sadb_address_prefixlen = 0;
#endif
addr->sadb_address_reserved = 0;
memset (addr + 1, '\0', sizeof (struct sockaddr_in));
((struct sockaddr_in *)(addr + 1))->sin_len
= sizeof (struct sockaddr_in);
((struct sockaddr_in *)(addr + 1))->sin_family = AF_INET;
((struct sockaddr_in *)(addr + 1))->sin_addr.s_addr = dst;
((struct sockaddr_in *)(addr + 1))->sin_port = 0;
if (pf_key_v2_msg_add (flow, (struct sadb_ext *)addr,
PF_KEY_V2_NODE_MALLOCED) == -1)
goto cleanup;
addr = 0;
}
addr = malloc (len);
if (!addr)
goto cleanup;
addr->sadb_address_exttype = SADB_X_EXT_SRC_FLOW;
addr->sadb_address_len = len / PF_KEY_V2_CHUNK;
#if 0
addr->sadb_address_proto = 0;
addr->sadb_address_prefixlen = 0;
#endif
addr->sadb_address_reserved = 0;
memset (addr + 1, '\0', sizeof (struct sockaddr_in));
((struct sockaddr_in *)(addr + 1))->sin_len = sizeof (struct sockaddr_in);
((struct sockaddr_in *)(addr + 1))->sin_family = AF_INET;
((struct sockaddr_in *)(addr + 1))->sin_addr.s_addr = laddr;
((struct sockaddr_in *)(addr + 1))->sin_port = 0;
if (pf_key_v2_msg_add (flow, (struct sadb_ext *)addr,
PF_KEY_V2_NODE_MALLOCED) == -1)
goto cleanup;
addr = 0;
addr = malloc (len);
if (!addr)
goto cleanup;
addr->sadb_address_exttype = SADB_X_EXT_SRC_MASK;
addr->sadb_address_len = len / PF_KEY_V2_CHUNK;
#if 0
addr->sadb_address_proto = 0;
addr->sadb_address_prefixlen = 0;
#endif
addr->sadb_address_reserved = 0;
memset (addr + 1, '\0', sizeof (struct sockaddr_in));
((struct sockaddr_in *)(addr + 1))->sin_len = sizeof (struct sockaddr_in);
((struct sockaddr_in *)(addr + 1))->sin_family = AF_INET;
((struct sockaddr_in *)(addr + 1))->sin_addr.s_addr = lmask;
((struct sockaddr_in *)(addr + 1))->sin_port = 0;
if (pf_key_v2_msg_add (flow, (struct sadb_ext *)addr,
PF_KEY_V2_NODE_MALLOCED) == -1)
goto cleanup;
addr = 0;
addr = malloc (len);
if (!addr)
goto cleanup;
addr->sadb_address_exttype = SADB_X_EXT_DST_FLOW;
addr->sadb_address_len = len / PF_KEY_V2_CHUNK;
#if 0
addr->sadb_address_proto = 0;
addr->sadb_address_prefixlen = 0;
#endif
addr->sadb_address_reserved = 0;
memset (addr + 1, '\0', sizeof (struct sockaddr_in));
((struct sockaddr_in *)(addr + 1))->sin_len = sizeof (struct sockaddr_in);
((struct sockaddr_in *)(addr + 1))->sin_family = AF_INET;
((struct sockaddr_in *)(addr + 1))->sin_addr.s_addr = raddr;
((struct sockaddr_in *)(addr + 1))->sin_port = 0;
if (pf_key_v2_msg_add (flow, (struct sadb_ext *)addr,
PF_KEY_V2_NODE_MALLOCED) == -1)
goto cleanup;
addr = 0;
addr = malloc (len);
if (!addr)
goto cleanup;
addr->sadb_address_exttype = SADB_X_EXT_DST_MASK;
addr->sadb_address_len = len / PF_KEY_V2_CHUNK;
#if 0
addr->sadb_address_proto = 0;
addr->sadb_address_prefixlen = 0;
#endif
addr->sadb_address_reserved = 0;
memset (addr + 1, '\0', sizeof (struct sockaddr_in));
((struct sockaddr_in *)(addr + 1))->sin_len = sizeof (struct sockaddr_in);
((struct sockaddr_in *)(addr + 1))->sin_family = AF_INET;
((struct sockaddr_in *)(addr + 1))->sin_addr.s_addr = rmask;
((struct sockaddr_in *)(addr + 1))->sin_port = 0;
if (pf_key_v2_msg_add (flow, (struct sadb_ext *)addr,
PF_KEY_V2_NODE_MALLOCED) == -1)
goto cleanup;
addr = 0;
log_debug (LOG_SYSDEP, 50, "pf_key_v2_flow: src %x %x dst %x %x",
htonl(laddr), htonl(lmask), htonl(raddr), htonl(rmask));
ret = pf_key_v2_call (flow);
pf_key_v2_msg_free (flow);
flow = 0;
if (!ret)
goto cleanup;
err = ((struct sadb_msg *)TAILQ_FIRST (ret)->seg)->sadb_msg_errno;
if (err)
{
log_print ("pf_key_v2_flow: %sFLOW: %s", delete ? "DEL" : "ADD",
strerror (err));
goto cleanup;
}
pf_key_v2_msg_free (ret);
log_debug (LOG_MISC, 50, "pf_key_v2_flow: done");
return 0;
cleanup:
if (addr)
free (addr);
if (flow)
pf_key_v2_msg_free (flow);
if (ret)
pf_key_v2_msg_free (ret);
return -1;
#else
log_error ("pf_key_v2_flow: not supported in pure PF_KEYv2");
return -1;
#endif
}
/* Enable a flow given a SA. */
int
pf_key_v2_enable_sa (struct sa *sa)
{
struct ipsec_sa *isa = sa->data;
struct sockaddr *dst;
int dstlen;
struct proto *proto = TAILQ_FIRST (&sa->protos);
sa->transport->vtbl->get_dst (sa->transport, &dst, &dstlen);
return pf_key_v2_flow (isa->src_net, isa->src_mask, isa->dst_net,
isa->dst_mask, proto->spi[0], proto->proto,
((struct sockaddr_in *)dst)->sin_addr.s_addr, 0);
}
/* Disable a flow given a SA. */
static int
pf_key_v2_disable_sa (struct sa *sa)
{
struct ipsec_sa *isa = sa->data;
struct sockaddr *dst;
int dstlen;
struct proto *proto = TAILQ_FIRST (&sa->protos);
sa->transport->vtbl->get_dst (sa->transport, &dst, &dstlen);
return pf_key_v2_flow (isa->src_net, isa->src_mask, isa->dst_net,
isa->dst_mask, proto->spi[0], proto->proto,
((struct sockaddr_in *)dst)->sin_addr.s_addr, 1);
}
/*
* Delete the IPSec SA represented by the INCOMING direction in protocol PROTO
* of the IKE security association SA. Also delete potential flows tied to it.
*/
int
pf_key_v2_delete_spi (struct sa *sa, struct proto *proto, int incoming)
{
struct sadb_msg msg;
struct sadb_sa ssa;
struct sadb_address *addr = 0;
struct sockaddr *saddr;
int saddrlen, len, err;
struct pf_key_v2_msg *delete = 0, *ret = 0;
/*
* If the SA was outbound and it has not yet been replaced, remove the
* flow associated with it.
* We ignore any errors from the disabling of the flow, it does not matter.
*/
if (!incoming && !(sa->flags & SA_FLAG_REPLACED))
pf_key_v2_disable_sa (sa);
msg.sadb_msg_type = SADB_DELETE;
switch (proto->proto)
{
case IPSEC_PROTO_IPSEC_ESP:
msg.sadb_msg_satype = SADB_SATYPE_ESP;
break;
case IPSEC_PROTO_IPSEC_AH:
msg.sadb_msg_satype = SADB_SATYPE_AH;
break;
default:
log_print ("pf_key_v2_delete_spi: invalid proto %d", proto->proto);
goto cleanup;
}
msg.sadb_msg_seq = 0;
delete = pf_key_v2_msg_new (&msg, 0);
if (!delete)
goto cleanup;
/* Setup the SA extension. */
ssa.sadb_sa_exttype = SADB_EXT_SA;
ssa.sadb_sa_len = sizeof ssa / PF_KEY_V2_CHUNK;
memcpy (&ssa.sadb_sa_spi, proto->spi[incoming], sizeof ssa.sadb_sa_spi);
ssa.sadb_sa_replay = 0;
ssa.sadb_sa_state = 0;
ssa.sadb_sa_auth = 0;
ssa.sadb_sa_encrypt = 0;
ssa.sadb_sa_flags = 0;
if (pf_key_v2_msg_add (delete, (struct sadb_ext *)&ssa, 0) == -1)
goto cleanup;
/*
* Setup the ADDRESS extensions.
*
* XXX Addresses has to be thought through. Assumes IPv4.
*/
if (incoming)
sa->transport->vtbl->get_dst (sa->transport, &saddr, &saddrlen);
else
sa->transport->vtbl->get_src (sa->transport, &saddr, &saddrlen);
len = sizeof *addr + PF_KEY_V2_ROUND (saddrlen);
addr = malloc (len);
if (!addr)
goto cleanup;
addr->sadb_address_exttype = SADB_EXT_ADDRESS_SRC;
addr->sadb_address_len = len / PF_KEY_V2_CHUNK;
#if 0
addr->sadb_address_proto = 0;
addr->sadb_address_prefixlen = 0;
#endif
addr->sadb_address_reserved = 0;
memcpy (addr + 1, saddr, saddrlen);
((struct sockaddr_in *)(addr + 1))->sin_port = 0;
if (pf_key_v2_msg_add (delete, (struct sadb_ext *)addr,
PF_KEY_V2_NODE_MALLOCED) == -1)
goto cleanup;
addr = 0;
if (incoming)
sa->transport->vtbl->get_src (sa->transport, &saddr, &saddrlen);
else
sa->transport->vtbl->get_dst (sa->transport, &saddr, &saddrlen);
len = sizeof *addr + PF_KEY_V2_ROUND (saddrlen);
addr = malloc (len);
if (!addr)
goto cleanup;
addr->sadb_address_exttype = SADB_EXT_ADDRESS_DST;
addr->sadb_address_len = len / PF_KEY_V2_CHUNK;
#if 0
addr->sadb_address_proto = 0;
addr->sadb_address_prefixlen = 0;
#endif
addr->sadb_address_reserved = 0;
memcpy (addr + 1, saddr, saddrlen);
((struct sockaddr_in *)(addr + 1))->sin_port = 0;
if (pf_key_v2_msg_add (delete, (struct sadb_ext *)addr,
PF_KEY_V2_NODE_MALLOCED) == -1)
goto cleanup;
addr = 0;
ret = pf_key_v2_call (delete);
pf_key_v2_msg_free (delete);
delete = 0;
if (!ret)
goto cleanup;
err = ((struct sadb_msg *)TAILQ_FIRST (ret)->seg)->sadb_msg_errno;
if (err)
{
log_print ("pf_key_v2_delete_spi: DELETE: %s", strerror (err));
goto cleanup;
}
pf_key_v2_msg_free (ret);
log_debug (LOG_MISC, 50, "pf_key_v2_delete_spi: done");
return 0;
cleanup:
if (addr)
free (addr);
if (delete)
pf_key_v2_msg_free (delete);
if (ret)
pf_key_v2_msg_free (ret);
return -1;
}
static void
pf_key_v2_stayalive (struct exchange *exchange, void *vconn, int fail)
{
char *conn = vconn;
struct sa *sa;
/* XXX What if it is phase 1? */
sa = sa_lookup_by_name (conn, 2);
if (sa)
sa->flags |= SA_FLAG_STAYALIVE;
}
/* Check if a connection CONN exists, otherwise establish it. */
void
pf_key_v2_connection_check (char *conn)
{
if (!sa_lookup_by_name (conn, 2))
{
log_debug (LOG_SYSDEP, 70,
"pf_key_v2_connection_check: SA for %s missing", conn);
exchange_establish (conn, pf_key_v2_stayalive, conn);
}
else
log_debug (LOG_SYSDEP, 70, "pf_key_v2_connection_check: SA for %s exists",
conn);
}
/* Handle a PF_KEY lifetime expiration message PMSG. */
static void
pf_key_v2_expire (struct pf_key_v2_msg *pmsg)
{
struct sadb_msg *msg;
struct sadb_sa *ssa;
struct sadb_address *dst;
struct sockaddr *dstaddr;
struct sadb_lifetime *life;
struct sa *sa;
struct pf_key_v2_node *lifenode;
msg = (struct sadb_msg *)TAILQ_FIRST (pmsg)->seg;
ssa = pf_key_v2_find_ext (pmsg, SADB_EXT_SA)->seg;
dst = pf_key_v2_find_ext (pmsg, SADB_EXT_ADDRESS_DST)->seg;
dstaddr = (struct sockaddr *)(dst + 1);
lifenode = pf_key_v2_find_ext (pmsg, SADB_EXT_LIFETIME_HARD);
if (!lifenode)
lifenode = pf_key_v2_find_ext (pmsg, SADB_EXT_LIFETIME_SOFT);
life = lifenode->seg;
/* XXX IPv4 specific. */
log_debug (LOG_SYSDEP, 20,
"pf_key_v2_expire: %s dst %s SPI %x sproto %d",
life->sadb_lifetime_exttype == SADB_EXT_LIFETIME_SOFT ? "SOFT"
: "HARD",
inet_ntoa (((struct sockaddr_in *)dstaddr)->sin_addr),
ntohl (ssa->sadb_sa_spi), msg->sadb_msg_satype);
/*
* Find the IPsec SA. The IPsec stack has two SAs for every IKE SA,
* one outgoing and one incoming, we regard expirations for any of
* them as an expiration of the full IKE SA. Likewise, in
* protection suites consisting of more than one protocol, any
* expired individual IPsec stack SA will be seen as an expiration
* of the full suite.
*
* XXX When anything else than AH and ESP is supported this needs to change.
* XXX IPv4 specific.
*/
sa = ipsec_sa_lookup (((struct sockaddr_in *)dstaddr)->sin_addr.s_addr,
ssa->sadb_sa_spi,
msg->sadb_msg_satype == SADB_SATYPE_ESP
? IPSEC_PROTO_IPSEC_ESP : IPSEC_PROTO_IPSEC_AH);
/* If the SA is already gone, don't do anything. */
if (!sa)
return;
/*
* If we want this connection to stay "forever", we should renegotiate
* already at the soft expire, and certainly at the hard expire if we
* haven't started a negotiation by then. However, do not renegotiate
* if this SA is already obsoleted by another.
*/
if ((sa->flags & (SA_FLAG_STAYALIVE | SA_FLAG_REPLACED))
== SA_FLAG_STAYALIVE)
exchange_establish (sa->name, 0, 0);
if (life->sadb_lifetime_exttype == SADB_EXT_LIFETIME_HARD)
{
/*
* XXX We need to reestablish the on-demand route here. This we need
* even if we have started a new negotiation, considering it might
* fail.
*/
/* Remove the old SA, it isn't useful anymore. */
sa_free (sa);
}
}
static void
pf_key_v2_notify (struct pf_key_v2_msg *msg)
{
switch (((struct sadb_msg *)TAILQ_FIRST (msg)->seg)->sadb_msg_type)
{
case SADB_EXPIRE:
pf_key_v2_expire (msg);
break;
case SADB_ACQUIRE:
log_print ("pf_key_v2_notify: ACQUIRE not yet implemented");
/* XXX To be implemented. */
break;
default:
log_print ("pf_key_v2_notify: unexpected message type (%d)",
((struct sadb_msg *)TAILQ_FIRST (msg)->seg)->sadb_msg_type);
}
pf_key_v2_msg_free (msg);
}
void
pf_key_v2_handler (int fd)
{
struct pf_key_v2_msg *msg;
int n;
/*
* As synchronous read/writes to the socket can have taken place between
* the select(2) call of the main loop and this handler, we need to recheck
* the readability.
*/
if (ioctl (pf_key_v2_socket, FIONREAD, &n) == -1)
{
log_error ("pf_key_v2_handler: ioctl (%d, FIONREAD, &n) failed",
pf_key_v2_socket);
return;
}
if (!n)
return;
msg = pf_key_v2_read (0);
if (msg)
pf_key_v2_notify (msg);
}
/*
* Group 2 IPSec SAs given by the PROTO1 and PROTO2 protocols of the SA IKE
* security association in a chain.
* XXX Assumes OpenBSD GRPSPIS extension. Should probably be moved to sysdep.c
*/
int
pf_key_v2_group_spis (struct sa *sa, struct proto *proto1,
struct proto *proto2, int incoming)
{
#ifdef SADB_X_GRPSPIS
struct sadb_msg msg;
struct sadb_sa sa1, sa2;
struct sadb_address *addr = 0;
struct sadb_protocol protocol;
struct pf_key_v2_msg *grpspis = 0, *ret = 0;
struct sockaddr *saddr;
int saddrlen, err;
size_t len;
msg.sadb_msg_type = SADB_X_GRPSPIS;
switch (proto1->proto)
{
case IPSEC_PROTO_IPSEC_ESP:
msg.sadb_msg_satype = SADB_SATYPE_ESP;
break;
case IPSEC_PROTO_IPSEC_AH:
msg.sadb_msg_satype = SADB_SATYPE_AH;
break;
default:
log_print ("pf_key_v2_group_spis: invalid proto %d", proto1->proto);
goto cleanup;
}
msg.sadb_msg_seq = 0;
grpspis = pf_key_v2_msg_new (&msg, 0);
if (!grpspis)
goto cleanup;
/* Setup the SA extensions. */
sa1.sadb_sa_exttype = SADB_EXT_SA;
sa1.sadb_sa_len = sizeof sa1 / PF_KEY_V2_CHUNK;
memcpy (&sa1.sadb_sa_spi, proto1->spi[incoming], sizeof sa1.sadb_sa_spi);
sa1.sadb_sa_replay = 0;
sa1.sadb_sa_state = 0;
sa1.sadb_sa_auth = 0;
sa1.sadb_sa_encrypt = 0;
sa1.sadb_sa_flags = 0;
if (pf_key_v2_msg_add (grpspis, (struct sadb_ext *)&sa1, 0) == -1)
goto cleanup;
sa2.sadb_sa_exttype = SADB_X_EXT_SA2;
sa2.sadb_sa_len = sizeof sa2 / PF_KEY_V2_CHUNK;
memcpy (&sa2.sadb_sa_spi, proto2->spi[incoming], sizeof sa2.sadb_sa_spi);
sa2.sadb_sa_replay = 0;
sa2.sadb_sa_state = 0;
sa2.sadb_sa_auth = 0;
sa2.sadb_sa_encrypt = 0;
sa2.sadb_sa_flags = 0;
if (pf_key_v2_msg_add (grpspis, (struct sadb_ext *)&sa2, 0) == -1)
goto cleanup;
/*
* Setup the ADDRESS extensions.
*
* XXX Addresses has to be thought through. Assumes IPv4.
*/
if (incoming)
sa->transport->vtbl->get_src (sa->transport, &saddr, &saddrlen);
else
sa->transport->vtbl->get_dst (sa->transport, &saddr, &saddrlen);
len = sizeof *addr + PF_KEY_V2_ROUND (saddrlen);
addr = malloc (len);
if (!addr)
goto cleanup;
addr->sadb_address_exttype = SADB_EXT_ADDRESS_DST;
addr->sadb_address_len = len / PF_KEY_V2_CHUNK;
#if 0
addr->sadb_address_proto = 0;
addr->sadb_address_prefixlen = 0;
#endif
addr->sadb_address_reserved = 0;
memcpy (addr + 1, saddr, saddrlen);
((struct sockaddr_in *)(addr + 1))->sin_port = 0;
if (pf_key_v2_msg_add (grpspis, (struct sadb_ext *)addr,
PF_KEY_V2_NODE_MALLOCED) == -1)
goto cleanup;
addr = 0;
addr = malloc (len);
if (!addr)
goto cleanup;
addr->sadb_address_exttype = SADB_X_EXT_DST2;
addr->sadb_address_len = len / PF_KEY_V2_CHUNK;
#if 0
addr->sadb_address_proto = 0;
addr->sadb_address_prefixlen = 0;
#endif
addr->sadb_address_reserved = 0;
memcpy (addr + 1, saddr, saddrlen);
((struct sockaddr_in *)(addr + 1))->sin_port = 0;
if (pf_key_v2_msg_add (grpspis, (struct sadb_ext *)addr,
PF_KEY_V2_NODE_MALLOCED) == -1)
goto cleanup;
addr = 0;
/* Setup the PROTOCOL extension. */
protocol.sadb_protocol_exttype = SADB_X_EXT_PROTOCOL;
protocol.sadb_protocol_len = sizeof protocol / PF_KEY_V2_CHUNK;
switch (proto2->proto)
{
case IPSEC_PROTO_IPSEC_ESP:
protocol.sadb_protocol_proto = SADB_SATYPE_ESP;
break;
case IPSEC_PROTO_IPSEC_AH:
protocol.sadb_protocol_proto = SADB_SATYPE_AH;
break;
default:
log_print ("pf_key_v2_group_spis: invalid proto %d", proto2->proto);
goto cleanup;
}
protocol.sadb_protocol_reserved1 = 0;
protocol.sadb_protocol_reserved2 = 0;
if (pf_key_v2_msg_add (grpspis, (struct sadb_ext *)&protocol, 0) == -1)
goto cleanup;
ret = pf_key_v2_call (grpspis);
pf_key_v2_msg_free (grpspis);
grpspis = 0;
if (!ret)
goto cleanup;
err = ((struct sadb_msg *)TAILQ_FIRST (ret)->seg)->sadb_msg_errno;
if (err)
{
log_print ("pf_key_v2_group_spis: GRPSPIS: %s", strerror (err));
goto cleanup;
}
pf_key_v2_msg_free (ret);
log_debug (LOG_SYSDEP, 50, "pf_key_v2_group_spis: done");
return 0;
cleanup:
if (addr)
free (addr);
if (grpspis)
pf_key_v2_msg_free (grpspis);
if (ret)
pf_key_v2_msg_free (ret);
return -1;
#else
log_error ("pf_key_v2_group_spis: not supported in pure PF_KEYv2");
return -1;
#endif
}
|