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|
/* routines that interface with the kernel's IPsec mechanism
* Copyright (C) 1997 Angelos D. Keromytis.
* Copyright (C) 1998-2002 D. Hugh Redelmeier.
* Copyright (C) 2009 Andreas Steffen - Hochschule fuer Technik Rapperswil
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation; either version 2 of the License, or (at your
* option) any later version. See <http://www.fsf.org/copyleft/gpl.txt>.
*
* 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 <stddef.h>
#include <string.h>
#include <stdio.h>
#include <stdlib.h>
#include <errno.h>
#include <wait.h>
#include <unistd.h>
#include <fcntl.h>
#include <sys/queue.h>
#include <sys/stat.h>
#include <sys/socket.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <freeswan.h>
#include <library.h>
#include <crypto/rngs/rng.h>
#ifdef KLIPS
#include <signal.h>
#include <sys/time.h> /* for select(2) */
#include <sys/types.h> /* for select(2) */
#include <pfkeyv2.h>
#include <pfkey.h>
#include "kameipsec.h"
#endif /* KLIPS */
#include "constants.h"
#include "defs.h"
#include "id.h"
#include "connections.h"
#include "state.h"
#include "timer.h"
#include "kernel.h"
#include "kernel_netlink.h"
#include "kernel_pfkey.h"
#include "kernel_noklips.h"
#include "log.h"
#include "ca.h"
#include "server.h"
#include "whack.h" /* for RC_LOG_SERIOUS */
#include "keys.h"
#include "nat_traversal.h"
#include "alg_info.h"
#include "kernel_alg.h"
bool can_do_IPcomp = TRUE; /* can system actually perform IPCOMP? */
/* How far can IPsec messages arrive out of order before the anti-replay
* logic loses track and swats them? 64 is the best KLIPS can do.
* And 32 is the best XFRM can do...
*/
#define REPLAY_WINDOW 64
#define REPLAY_WINDOW_XFRM 32
/* test if the routes required for two different connections agree
* It is assumed that the destination subnets agree; we are only
* testing that the interfaces and nexthops match.
*/
#define routes_agree(c, d) ((c)->interface == (d)->interface \
&& sameaddr(&(c)->spd.this.host_nexthop, &(d)->spd.this.host_nexthop))
#ifndef KLIPS
bool no_klips = TRUE; /* don't actually use KLIPS */
#else /* !KLIPS */
/* bare (connectionless) shunt (eroute) table
*
* Bare shunts are those that don't "belong" to a connection.
* This happens because some %trapped traffic hasn't yet or cannot be
* assigned to a connection. The usual reason is that we cannot discover
* the peer SG. Another is that even when the peer has been discovered,
* it may be that no connection matches all the particulars.
* We record them so that, with scanning, we can discover
* which %holds are news and which others should expire.
*/
#define SHUNT_SCAN_INTERVAL (60 * 2) /* time between scans of eroutes */
/* SHUNT_PATIENCE only has resolution down to a multiple of the sample rate,
* SHUNT_SCAN_INTERVAL.
* By making SHUNT_PATIENCE an odd multiple of half of SHUNT_SCAN_INTERVAL,
* we minimize the effects of jitter.
*/
#define SHUNT_PATIENCE (SHUNT_SCAN_INTERVAL * 15 / 2) /* inactivity timeout */
struct bare_shunt {
policy_prio_t policy_prio;
ip_subnet ours;
ip_subnet his;
ip_said said;
int transport_proto;
unsigned long count;
time_t last_activity;
char *why;
struct bare_shunt *next;
};
static struct bare_shunt *bare_shunts = NULL;
#ifdef DEBUG
static void DBG_bare_shunt(const char *op, const struct bare_shunt *bs)
{
DBG(DBG_KLIPS,
{
int ourport = ntohs(portof(&(bs)->ours.addr));
int hisport = ntohs(portof(&(bs)->his.addr));
char ourst[SUBNETTOT_BUF];
char hist[SUBNETTOT_BUF];
char sat[SATOT_BUF];
char prio[POLICY_PRIO_BUF];
subnettot(&(bs)->ours, 0, ourst, sizeof(ourst));
subnettot(&(bs)->his, 0, hist, sizeof(hist));
satot(&(bs)->said, 0, sat, sizeof(sat));
fmt_policy_prio(bs->policy_prio, prio);
DBG_log("%s bare shunt %p %s:%d -> %s:%d => %s:%d %s %s"
, op, (const void *)(bs), ourst, ourport, hist, hisport
, sat, (bs)->transport_proto, prio, (bs)->why);
});
}
#else /* !DEBUG */
#define DBG_bare_shunt(op, bs) {}
#endif /* !DEBUG */
/* The orphaned_holds table records %holds for which we
* scan_proc_shunts found no representation of in any connection.
* The corresponding ACQUIRE message might have been lost.
*/
struct eroute_info *orphaned_holds = NULL;
/* forward declaration */
static bool shunt_eroute(struct connection *c, struct spd_route *sr,
enum routing_t rt_kind, unsigned int op,
const char *opname);
static void set_text_said(char *text_said, const ip_address *dst,
ipsec_spi_t spi, int proto);
bool no_klips = FALSE; /* don't actually use KLIPS */
static const struct pfkey_proto_info null_proto_info[2] = {
{
proto: IPPROTO_ESP,
encapsulation: ENCAPSULATION_MODE_TRANSPORT,
reqid: 0
},
{
proto: 0,
encapsulation: 0,
reqid: 0
}
};
void record_and_initiate_opportunistic(const ip_subnet *ours,
const ip_subnet *his,
int transport_proto, const char *why)
{
passert(samesubnettype(ours, his));
/* Add to bare shunt list.
* We need to do this because the shunt was installed by KLIPS
* which can't do this itself.
*/
{
struct bare_shunt *bs = malloc_thing(struct bare_shunt);
bs->why = clone_str(why);
bs->ours = *ours;
bs->his = *his;
bs->transport_proto = transport_proto;
bs->policy_prio = BOTTOM_PRIO;
bs->said.proto = SA_INT;
bs->said.spi = htonl(SPI_HOLD);
bs->said.dst = *aftoinfo(subnettypeof(ours))->any;
bs->count = 0;
bs->last_activity = now();
bs->next = bare_shunts;
bare_shunts = bs;
DBG_bare_shunt("add", bs);
}
/* actually initiate opportunism */
{
ip_address src, dst;
networkof(ours, &src);
networkof(his, &dst);
initiate_opportunistic(&src, &dst, transport_proto, TRUE, NULL_FD);
}
/* if present, remove from orphaned_holds list.
* NOTE: we do this last in case ours or his is a pointer into a member.
*/
{
struct eroute_info **pp, *p;
for (pp = &orphaned_holds; (p = *pp) != NULL; pp = &p->next)
{
if (samesubnet(ours, &p->ours)
&& samesubnet(his, &p->his)
&& transport_proto == p->transport_proto
&& portof(&ours->addr) == portof(&p->ours.addr)
&& portof(&his->addr) == portof(&p->his.addr))
{
*pp = p->next;
free(p);
break;
}
}
}
}
#endif /* KLIPS */
static unsigned get_proto_reqid(unsigned base, int proto)
{
switch (proto)
{
default:
case IPPROTO_COMP:
base++;
/* fall through */
case IPPROTO_ESP:
base++;
/* fall through */
case IPPROTO_AH:
break;
}
return base;
}
/* Generate Unique SPI numbers.
*
* The specs say that the number must not be less than IPSEC_DOI_SPI_MIN.
* Pluto generates numbers not less than IPSEC_DOI_SPI_OUR_MIN,
* reserving numbers in between for manual keying (but we cannot so
* restrict numbers generated by our peer).
* XXX This should be replaced by a call to the kernel when
* XXX we get an API.
* The returned SPI is in network byte order.
* We use a random number as the initial SPI so that there is
* a good chance that different Pluto instances will choose
* different SPIs. This is good for two reasons.
* - the keying material for the initiator and responder only
* differs if the SPIs differ.
* - if Pluto is restarted, it would otherwise recycle the SPI
* numbers and confuse everything. When the kernel generates
* SPIs, this will no longer matter.
* We then allocate numbers sequentially. Thus we don't have to
* check if the number was previously used (assuming that no
* SPI lives longer than 4G of its successors).
*/
ipsec_spi_t get_ipsec_spi(ipsec_spi_t avoid, int proto, struct spd_route *sr,
bool tunnel)
{
static ipsec_spi_t spi = 0; /* host order, so not returned directly! */
char text_said[SATOT_BUF];
rng_t *rng;
set_text_said(text_said, &sr->this.host_addr, 0, proto);
if (kernel_ops->get_spi)
{
return kernel_ops->get_spi(&sr->that.host_addr
, &sr->this.host_addr, proto, tunnel
, get_proto_reqid(sr->reqid, proto)
, IPSEC_DOI_SPI_OUR_MIN, 0xffffffff
, text_said);
}
spi++;
rng = lib->crypto->create_rng(lib->crypto, RNG_WEAK);
while (spi < IPSEC_DOI_SPI_OUR_MIN || spi == ntohl(avoid))
{
rng->get_bytes(rng, sizeof(spi), (u_char *)&spi);
}
rng->destroy(rng);
DBG(DBG_CONTROL,
{
ipsec_spi_t spi_net = htonl(spi);
DBG_dump("generate SPI:", (u_char *)&spi_net, sizeof(spi_net));
});
return htonl(spi);
}
/* Generate Unique CPI numbers.
* The result is returned as an SPI (4 bytes) in network order!
* The real bits are in the nework-low-order 2 bytes.
* Modelled on get_ipsec_spi, but range is more limited:
* 256-61439.
* If we can't find one easily, return 0 (a bad SPI,
* no matter what order) indicating failure.
*/
ipsec_spi_t get_my_cpi(struct spd_route *sr, bool tunnel)
{
static cpi_t first_busy_cpi = 0, latest_cpi;
char text_said[SATOT_BUF];
rng_t *rng;
set_text_said(text_said, &sr->this.host_addr, 0, IPPROTO_COMP);
if (kernel_ops->get_spi)
{
return kernel_ops->get_spi(&sr->that.host_addr
, &sr->this.host_addr, IPPROTO_COMP, tunnel
, get_proto_reqid(sr->reqid, IPPROTO_COMP)
, IPCOMP_FIRST_NEGOTIATED, IPCOMP_LAST_NEGOTIATED
, text_said);
}
rng = lib->crypto->create_rng(lib->crypto, RNG_WEAK);
while (!(IPCOMP_FIRST_NEGOTIATED <= first_busy_cpi && first_busy_cpi < IPCOMP_LAST_NEGOTIATED))
{
rng->get_bytes(rng, sizeof(first_busy_cpi), (u_char *)&first_busy_cpi);
latest_cpi = first_busy_cpi;
}
rng->destroy(rng);
latest_cpi++;
if (latest_cpi == first_busy_cpi)
find_my_cpi_gap(&latest_cpi, &first_busy_cpi);
if (latest_cpi > IPCOMP_LAST_NEGOTIATED)
latest_cpi = IPCOMP_FIRST_NEGOTIATED;
return htonl((ipsec_spi_t)latest_cpi);
}
/* invoke the updown script to do the routing and firewall commands required
*
* The user-specified updown script is run. Parameters are fed to it in
* the form of environment variables. All such environment variables
* have names starting with "PLUTO_".
*
* The operation to be performed is specified by PLUTO_VERB. This
* verb has a suffix "-host" if the client on this end is just the
* host; otherwise the suffix is "-client". If the address family
* of the host is IPv6, an extra suffix of "-v6" is added.
*
* "prepare-host" and "prepare-client" are used to delete a route
* that may exist (due to forces outside of Pluto). It is used to
* prepare for pluto creating a route.
*
* "route-host" and "route-client" are used to install a route.
* Since routing is based only on destination, the PLUTO_MY_CLIENT_*
* values are probably of no use (using them may signify a bug).
*
* "unroute-host" and "unroute-client" are used to delete a route.
* Since routing is based only on destination, the PLUTO_MY_CLIENT_*
* values are probably of no use (using them may signify a bug).
*
* "up-host" and "up-client" are run when an eroute is added (not replaced).
* They are useful for adjusting a firewall: usually for adding a rule
* to let processed packets flow between clients. Note that only
* one eroute may exist for a pair of client subnets but inbound
* IPsec SAs may persist without an eroute.
*
* "down-host" and "down-client" are run when an eroute is deleted.
* They are useful for adjusting a firewall.
*/
#ifndef DEFAULT_UPDOWN
# define DEFAULT_UPDOWN "ipsec _updown"
#endif
static bool do_command(struct connection *c, struct spd_route *sr,
const char *verb)
{
char cmd[1536]; /* arbitrary limit on shell command length */
const char *verb_suffix;
/* figure out which verb suffix applies */
{
const char *hs, *cs;
switch (addrtypeof(&sr->this.host_addr))
{
case AF_INET:
hs = "-host";
cs = "-client";
break;
case AF_INET6:
hs = "-host-v6";
cs = "-client-v6";
break;
default:
loglog(RC_LOG_SERIOUS, "unknown address family");
return FALSE;
}
verb_suffix = subnetisaddr(&sr->this.client, &sr->this.host_addr)
? hs : cs;
}
/* form the command string */
{
char
nexthop_str[sizeof("PLUTO_NEXT_HOP='' ") +ADDRTOT_BUF] = "",
srcip_str[sizeof("PLUTO_MY_SOURCEIP='' ")+ADDRTOT_BUF] = "",
me_str[ADDRTOT_BUF],
myid_str[BUF_LEN],
myclient_str[SUBNETTOT_BUF],
myclientnet_str[ADDRTOT_BUF],
myclientmask_str[ADDRTOT_BUF],
peer_str[ADDRTOT_BUF],
peerid_str[BUF_LEN],
peerclient_str[SUBNETTOT_BUF],
peerclientnet_str[ADDRTOT_BUF],
peerclientmask_str[ADDRTOT_BUF],
peerca_str[BUF_LEN],
secure_myid_str[BUF_LEN] = "",
secure_peerid_str[BUF_LEN] = "",
secure_peerca_str[BUF_LEN] = "";
ip_address ta;
pubkey_list_t *p;
if (addrbytesptr(&sr->this.host_nexthop, NULL)
&& !isanyaddr(&sr->this.host_nexthop))
{
char *n;
strcpy(nexthop_str, "PLUTO_NEXT_HOP='");
n = nexthop_str + strlen(nexthop_str);
addrtot(&sr->this.host_nexthop, 0
,n , sizeof(nexthop_str)-strlen(nexthop_str));
strncat(nexthop_str, "' ", sizeof(nexthop_str));
}
if (addrbytesptr(&sr->this.host_srcip, NULL)
&& !isanyaddr(&sr->this.host_srcip))
{
char *n;
strcpy(srcip_str, "PLUTO_MY_SOURCEIP='");
n = srcip_str + strlen(srcip_str);
addrtot(&sr->this.host_srcip, 0
,n , sizeof(srcip_str)-strlen(srcip_str));
strncat(srcip_str, "' ", sizeof(srcip_str));
}
addrtot(&sr->this.host_addr, 0, me_str, sizeof(me_str));
idtoa(&sr->this.id, myid_str, sizeof(myid_str));
escape_metachar(myid_str, secure_myid_str, sizeof(secure_myid_str));
subnettot(&sr->this.client, 0, myclient_str, sizeof(myclientnet_str));
networkof(&sr->this.client, &ta);
addrtot(&ta, 0, myclientnet_str, sizeof(myclientnet_str));
maskof(&sr->this.client, &ta);
addrtot(&ta, 0, myclientmask_str, sizeof(myclientmask_str));
addrtot(&sr->that.host_addr, 0, peer_str, sizeof(peer_str));
idtoa(&sr->that.id, peerid_str, sizeof(peerid_str));
escape_metachar(peerid_str, secure_peerid_str, sizeof(secure_peerid_str));
subnettot(&sr->that.client, 0, peerclient_str, sizeof(peerclientnet_str));
networkof(&sr->that.client, &ta);
addrtot(&ta, 0, peerclientnet_str, sizeof(peerclientnet_str));
maskof(&sr->that.client, &ta);
addrtot(&ta, 0, peerclientmask_str, sizeof(peerclientmask_str));
for (p = pubkeys; p != NULL; p = p->next)
{
pubkey_t *key = p->key;
key_type_t type = key->public_key->get_type(key->public_key);
int pathlen;
if (type == KEY_RSA && same_id(&sr->that.id, &key->id) &&
trusted_ca(key->issuer, sr->that.ca, &pathlen))
{
dntoa_or_null(peerca_str, BUF_LEN, key->issuer, "");
escape_metachar(peerca_str, secure_peerca_str, sizeof(secure_peerca_str));
break;
}
}
if (-1 == snprintf(cmd, sizeof(cmd)
, "2>&1 " /* capture stderr along with stdout */
"PLUTO_VERSION='1.1' " /* change VERSION when interface spec changes */
"PLUTO_VERB='%s%s' "
"PLUTO_CONNECTION='%s' "
"%s" /* optional PLUTO_NEXT_HOP */
"PLUTO_INTERFACE='%s' "
"%s" /* optional PLUTO_HOST_ACCESS */
"PLUTO_REQID='%u' "
"PLUTO_ME='%s' "
"PLUTO_MY_ID='%s' "
"PLUTO_MY_CLIENT='%s' "
"PLUTO_MY_CLIENT_NET='%s' "
"PLUTO_MY_CLIENT_MASK='%s' "
"PLUTO_MY_PORT='%u' "
"PLUTO_MY_PROTOCOL='%u' "
"PLUTO_PEER='%s' "
"PLUTO_PEER_ID='%s' "
"PLUTO_PEER_CLIENT='%s' "
"PLUTO_PEER_CLIENT_NET='%s' "
"PLUTO_PEER_CLIENT_MASK='%s' "
"PLUTO_PEER_PORT='%u' "
"PLUTO_PEER_PROTOCOL='%u' "
"PLUTO_PEER_CA='%s' "
"%s" /* optional PLUTO_MY_SRCIP */
"%s" /* actual script */
, verb, verb_suffix
, c->name
, nexthop_str
, c->interface->vname
, sr->this.hostaccess? "PLUTO_HOST_ACCESS='1' " : ""
, sr->reqid + 1 /* ESP requid */
, me_str
, secure_myid_str
, myclient_str
, myclientnet_str
, myclientmask_str
, sr->this.port
, sr->this.protocol
, peer_str
, secure_peerid_str
, peerclient_str
, peerclientnet_str
, peerclientmask_str
, sr->that.port
, sr->that.protocol
, secure_peerca_str
, srcip_str
, sr->this.updown == NULL? DEFAULT_UPDOWN : sr->this.updown))
{
loglog(RC_LOG_SERIOUS, "%s%s command too long!", verb, verb_suffix);
return FALSE;
}
}
DBG(DBG_CONTROL, DBG_log("executing %s%s: %s"
, verb, verb_suffix, cmd));
#ifdef KLIPS
if (!no_klips)
{
/* invoke the script, catching stderr and stdout
* It may be of concern that some file descriptors will
* be inherited. For the ones under our control, we
* have done fcntl(fd, F_SETFD, FD_CLOEXEC) to prevent this.
* Any used by library routines (perhaps the resolver or syslog)
* will remain.
*/
FILE *f = popen(cmd, "r");
if (f == NULL)
{
loglog(RC_LOG_SERIOUS, "unable to popen %s%s command", verb, verb_suffix);
return FALSE;
}
/* log any output */
for (;;)
{
/* if response doesn't fit in this buffer, it will be folded */
char resp[256];
if (fgets(resp, sizeof(resp), f) == NULL)
{
if (ferror(f))
{
log_errno((e, "fgets failed on output of %s%s command"
, verb, verb_suffix));
return FALSE;
}
else
{
passert(feof(f));
break;
}
}
else
{
char *e = resp + strlen(resp);
if (e > resp && e[-1] == '\n')
e[-1] = '\0'; /* trim trailing '\n' */
plog("%s%s output: %s", verb, verb_suffix, resp);
}
}
/* report on and react to return code */
{
int r = pclose(f);
if (r == -1)
{
log_errno((e, "pclose failed for %s%s command"
, verb, verb_suffix));
return FALSE;
}
else if (WIFEXITED(r))
{
if (WEXITSTATUS(r) != 0)
{
loglog(RC_LOG_SERIOUS, "%s%s command exited with status %d"
, verb, verb_suffix, WEXITSTATUS(r));
return FALSE;
}
}
else if (WIFSIGNALED(r))
{
loglog(RC_LOG_SERIOUS, "%s%s command exited with signal %d"
, verb, verb_suffix, WTERMSIG(r));
return FALSE;
}
else
{
loglog(RC_LOG_SERIOUS, "%s%s command exited with unknown status %d"
, verb, verb_suffix, r);
return FALSE;
}
}
}
#endif /* KLIPS */
return TRUE;
}
/* Check that we can route (and eroute). Diagnose if we cannot. */
enum routability {
route_impossible = 0,
route_easy = 1,
route_nearconflict = 2,
route_farconflict = 3
};
static enum routability could_route(struct connection *c)
{
struct spd_route *esr, *rosr;
struct connection *ero /* who, if anyone, owns our eroute? */
, *ro = route_owner(c, &rosr, &ero, &esr); /* who owns our route? */
/* it makes no sense to route a connection that is ISAKMP-only */
if (!NEVER_NEGOTIATE(c->policy) && !HAS_IPSEC_POLICY(c->policy))
{
loglog(RC_ROUTE, "cannot route an ISAKMP-only connection");
return route_impossible;
}
/* if this is a Road Warrior template, we cannot route.
* Opportunistic template is OK.
*/
if (c->kind == CK_TEMPLATE && !(c->policy & POLICY_OPPO))
{
loglog(RC_ROUTE, "cannot route Road Warrior template");
return route_impossible;
}
/* if we don't know nexthop, we cannot route */
if (isanyaddr(&c->spd.this.host_nexthop))
{
loglog(RC_ROUTE, "cannot route connection without knowing our nexthop");
return route_impossible;
}
/* if routing would affect IKE messages, reject */
if (!no_klips
&& c->spd.this.host_port != NAT_T_IKE_FLOAT_PORT
&& c->spd.this.host_port != IKE_UDP_PORT
&& addrinsubnet(&c->spd.that.host_addr, &c->spd.that.client))
{
loglog(RC_LOG_SERIOUS, "cannot install route: peer is within its client");
return route_impossible;
}
/* If there is already a route for peer's client subnet
* and it disagrees about interface or nexthop, we cannot steal it.
* Note: if this connection is already routed (perhaps for another
* state object), the route will agree.
* This is as it should be -- it will arise during rekeying.
*/
if (ro != NULL && !routes_agree(ro, c))
{
loglog(RC_LOG_SERIOUS, "cannot route -- route already in use for \"%s\""
, ro->name);
return route_impossible; /* another connection already
using the eroute */
}
#ifdef KLIPS
/* if there is an eroute for another connection, there is a problem */
if (ero != NULL && ero != c)
{
struct connection *ero2, *ero_top;
struct connection *inside, *outside;
/*
* note, wavesec (PERMANENT) goes *outside* and
* OE goes *inside* (TEMPLATE)
*/
inside = NULL;
outside= NULL;
if (ero->kind == CK_PERMANENT
&& c->kind == CK_TEMPLATE)
{
outside = ero;
inside = c;
}
else if (c->kind == CK_PERMANENT
&& ero->kind == CK_TEMPLATE)
{
outside = c;
inside = ero;
}
/* okay, check again, with correct order */
if (outside && outside->kind == CK_PERMANENT
&& inside && inside->kind == CK_TEMPLATE)
{
char inst[CONN_INST_BUF];
/* this is a co-terminal attempt of the "near" kind. */
/* when chaining, we chain from inside to outside */
/* XXX permit multiple deep connections? */
passert(inside->policy_next == NULL);
inside->policy_next = outside;
/* since we are going to steal the eroute from the secondary
* policy, we need to make sure that it no longer thinks that
* it owns the eroute.
*/
outside->spd.eroute_owner = SOS_NOBODY;
outside->spd.routing = RT_UNROUTED_KEYED;
/* set the priority of the new eroute owner to be higher
* than that of the current eroute owner
*/
inside->prio = outside->prio + 1;
fmt_conn_instance(inside, inst);
loglog(RC_LOG_SERIOUS
, "conflict on eroute (%s), switching eroute to %s and linking %s"
, inst, inside->name, outside->name);
return route_nearconflict;
}
/* look along the chain of policies for one with the same name */
ero_top = ero;
for (ero2 = ero; ero2 != NULL; ero2 = ero->policy_next)
{
if (ero2->kind == CK_TEMPLATE
&& streq(ero2->name, c->name))
break;
}
/* If we fell of the end of the list, then we found no TEMPLATE
* so there must be a conflict that we can't resolve.
* As the names are not equal, then we aren't replacing/rekeying.
*/
if (ero2 == NULL)
{
char inst[CONN_INST_BUF];
fmt_conn_instance(ero, inst);
loglog(RC_LOG_SERIOUS
, "cannot install eroute -- it is in use for \"%s\"%s #%lu"
, ero->name, inst, esr->eroute_owner);
return FALSE; /* another connection already using the eroute */
}
}
#endif /* KLIPS */
return route_easy;
}
bool trap_connection(struct connection *c)
{
switch (could_route(c))
{
case route_impossible:
return FALSE;
case route_nearconflict:
case route_easy:
/* RT_ROUTED_TUNNEL is treated specially: we don't override
* because we don't want to lose track of the IPSEC_SAs etc.
*/
if (c->spd.routing < RT_ROUTED_TUNNEL)
{
return route_and_eroute(c, &c->spd, NULL);
}
return TRUE;
case route_farconflict:
return FALSE;
}
return FALSE;
}
/**
* Delete any eroute for a connection and unroute it if route isn't shared
*/
void unroute_connection(struct connection *c)
{
struct spd_route *sr;
enum routing_t cr;
for (sr = &c->spd; sr; sr = sr->next)
{
cr = sr->routing;
if (erouted(cr))
{
/* cannot handle a live one */
passert(sr->routing != RT_ROUTED_TUNNEL);
#ifdef KLIPS
shunt_eroute(c, sr, RT_UNROUTED, ERO_DELETE, "delete");
#endif
}
sr->routing = RT_UNROUTED; /* do now so route_owner won't find us */
/* only unroute if no other connection shares it */
if (routed(cr) && route_owner(c, NULL, NULL, NULL) == NULL)
(void) do_command(c, sr, "unroute");
}
}
#ifdef KLIPS
static void set_text_said(char *text_said, const ip_address *dst,
ipsec_spi_t spi, int proto)
{
ip_said said;
initsaid(dst, spi, proto, &said);
satot(&said, 0, text_said, SATOT_BUF);
}
/* find an entry in the bare_shunt table.
* Trick: return a pointer to the pointer to the entry;
* this allows the entry to be deleted.
*/
static struct bare_shunt** bare_shunt_ptr(const ip_subnet *ours,
const ip_subnet *his,
int transport_proto)
{
struct bare_shunt *p, **pp;
for (pp = &bare_shunts; (p = *pp) != NULL; pp = &p->next)
{
if (samesubnet(ours, &p->ours)
&& samesubnet(his, &p->his)
&& transport_proto == p->transport_proto
&& portof(&ours->addr) == portof(&p->ours.addr)
&& portof(&his->addr) == portof(&p->his.addr))
return pp;
}
return NULL;
}
/* free a bare_shunt entry, given a pointer to the pointer */
static void free_bare_shunt(struct bare_shunt **pp)
{
if (pp == NULL)
{
DBG(DBG_CONTROL,
DBG_log("delete bare shunt: null pointer")
)
}
else
{
struct bare_shunt *p = *pp;
*pp = p->next;
DBG_bare_shunt("delete", p);
free(p->why);
free(p);
}
}
void
show_shunt_status(void)
{
struct bare_shunt *bs;
for (bs = bare_shunts; bs != NULL; bs = bs->next)
{
/* Print interesting fields. Ignore count and last_active. */
int ourport = ntohs(portof(&bs->ours.addr));
int hisport = ntohs(portof(&bs->his.addr));
char ourst[SUBNETTOT_BUF];
char hist[SUBNETTOT_BUF];
char sat[SATOT_BUF];
char prio[POLICY_PRIO_BUF];
subnettot(&(bs)->ours, 0, ourst, sizeof(ourst));
subnettot(&(bs)->his, 0, hist, sizeof(hist));
satot(&(bs)->said, 0, sat, sizeof(sat));
fmt_policy_prio(bs->policy_prio, prio);
whack_log(RC_COMMENT, "%s:%d -> %s:%d => %s:%d %s %s"
, ourst, ourport, hist, hisport, sat, bs->transport_proto
, prio, bs->why);
}
if (bare_shunts != NULL)
whack_log(RC_COMMENT, BLANK_FORMAT); /* spacer */
}
/* Setup an IPsec route entry.
* op is one of the ERO_* operators.
*/
static bool raw_eroute(const ip_address *this_host,
const ip_subnet *this_client,
const ip_address *that_host,
const ip_subnet *that_client,
ipsec_spi_t spi,
unsigned int proto,
unsigned int satype,
unsigned int transport_proto,
const struct pfkey_proto_info *proto_info,
time_t use_lifetime,
unsigned int op,
const char *opname USED_BY_DEBUG)
{
char text_said[SATOT_BUF];
set_text_said(text_said, that_host, spi, proto);
DBG(DBG_CONTROL | DBG_KLIPS,
{
int sport = ntohs(portof(&this_client->addr));
int dport = ntohs(portof(&that_client->addr));
char mybuf[SUBNETTOT_BUF];
char peerbuf[SUBNETTOT_BUF];
subnettot(this_client, 0, mybuf, sizeof(mybuf));
subnettot(that_client, 0, peerbuf, sizeof(peerbuf));
DBG_log("%s eroute %s:%d -> %s:%d => %s:%d"
, opname, mybuf, sport, peerbuf, dport
, text_said, transport_proto);
});
return kernel_ops->raw_eroute(this_host, this_client
, that_host, that_client, spi, satype, transport_proto, proto_info
, use_lifetime, op, text_said);
}
/* test to see if %hold remains */
bool has_bare_hold(const ip_address *src, const ip_address *dst,
int transport_proto)
{
ip_subnet this_client, that_client;
struct bare_shunt **bspp;
passert(addrtypeof(src) == addrtypeof(dst));
happy(addrtosubnet(src, &this_client));
happy(addrtosubnet(dst, &that_client));
bspp = bare_shunt_ptr(&this_client, &that_client, transport_proto);
return bspp != NULL
&& (*bspp)->said.proto == SA_INT && (*bspp)->said.spi == htonl(SPI_HOLD);
}
/* Replace (or delete) a shunt that is in the bare_shunts table.
* Issues the PF_KEY commands and updates the bare_shunts table.
*/
bool replace_bare_shunt(const ip_address *src, const ip_address *dst,
policy_prio_t policy_prio, ipsec_spi_t shunt_spi,
bool repl, unsigned int transport_proto, const char *why)
{
ip_subnet this_client, that_client;
ip_subnet this_broad_client, that_broad_client;
const ip_address *null_host = aftoinfo(addrtypeof(src))->any;
passert(addrtypeof(src) == addrtypeof(dst));
happy(addrtosubnet(src, &this_client));
happy(addrtosubnet(dst, &that_client));
this_broad_client = this_client;
that_broad_client = that_client;
setportof(0, &this_broad_client.addr);
setportof(0, &that_broad_client.addr);
if (repl)
{
struct bare_shunt **bs_pp = bare_shunt_ptr(&this_broad_client
, &that_broad_client, 0);
/* is there already a broad host-to-host bare shunt? */
if (bs_pp == NULL)
{
if (raw_eroute(null_host, &this_broad_client, null_host, &that_broad_client
, htonl(shunt_spi), SA_INT, SADB_X_SATYPE_INT
, 0, null_proto_info
, SHUNT_PATIENCE, ERO_ADD, why))
{
struct bare_shunt *bs = malloc_thing(struct bare_shunt);
bs->ours = this_broad_client;
bs->his = that_broad_client;
bs->transport_proto = 0;
bs->said.proto = SA_INT;
bs->why = clone_str(why);
bs->policy_prio = policy_prio;
bs->said.spi = htonl(shunt_spi);
bs->said.dst = *null_host;
bs->count = 0;
bs->last_activity = now();
bs->next = bare_shunts;
bare_shunts = bs;
DBG_bare_shunt("add", bs);
}
}
shunt_spi = SPI_HOLD;
}
if (raw_eroute(null_host, &this_client, null_host, &that_client
, htonl(shunt_spi), SA_INT, SADB_X_SATYPE_INT
, transport_proto, null_proto_info
, SHUNT_PATIENCE, ERO_DELETE, why))
{
struct bare_shunt **bs_pp = bare_shunt_ptr(&this_client, &that_client
, transport_proto);
/* delete bare eroute */
free_bare_shunt(bs_pp);
return TRUE;
}
else
{
return FALSE;
}
}
static bool eroute_connection(struct spd_route *sr, ipsec_spi_t spi,
unsigned int proto, unsigned int satype,
const struct pfkey_proto_info *proto_info,
unsigned int op, const char *opname)
{
const ip_address *peer = &sr->that.host_addr;
char buf2[256];
snprintf(buf2, sizeof(buf2)
, "eroute_connection %s", opname);
if (proto == SA_INT)
peer = aftoinfo(addrtypeof(peer))->any;
return raw_eroute(&sr->this.host_addr, &sr->this.client
, peer
, &sr->that.client
, spi, proto, satype
, sr->this.protocol, proto_info, 0, op, buf2);
}
/* assign a bare hold to a connection */
bool assign_hold(struct connection *c USED_BY_DEBUG, struct spd_route *sr,
int transport_proto,
const ip_address *src,
const ip_address *dst)
{
/* either the automatically installed %hold eroute is broad enough
* or we try to add a broader one and delete the automatic one.
* Beware: this %hold might be already handled, but still squeak
* through because of a race.
*/
enum routing_t ro = sr->routing /* routing, old */
, rn = ro; /* routing, new */
passert(LHAS(LELEM(CK_PERMANENT) | LELEM(CK_INSTANCE), c->kind));
/* figure out what routing should become */
switch (ro)
{
case RT_UNROUTED:
rn = RT_UNROUTED_HOLD;
break;
case RT_ROUTED_PROSPECTIVE:
rn = RT_ROUTED_HOLD;
break;
default:
/* no change: this %hold is old news and should just be deleted */
break;
}
/* we need a broad %hold, not the narrow one.
* First we ensure that there is a broad %hold.
* There may already be one (race condition): no need to create one.
* There may already be a %trap: replace it.
* There may not be any broad eroute: add %hold.
* Once the broad %hold is in place, delete the narrow one.
*/
if (rn != ro)
{
if (erouted(ro)
? !eroute_connection(sr, htonl(SPI_HOLD), SA_INT, SADB_X_SATYPE_INT
, null_proto_info
, ERO_REPLACE, "replace %trap with broad %hold")
: !eroute_connection(sr, htonl(SPI_HOLD), SA_INT, SADB_X_SATYPE_INT
, null_proto_info
, ERO_ADD, "add broad %hold"))
{
return FALSE;
}
}
if (!replace_bare_shunt(src, dst, BOTTOM_PRIO, SPI_HOLD, FALSE
, transport_proto, "delete narrow %hold"))
{
return FALSE;
}
sr->routing = rn;
return TRUE;
}
/* install or remove eroute for SA Group */
static bool sag_eroute(struct state *st, struct spd_route *sr,
unsigned op, const char *opname)
{
u_int inner_proto = 0;
u_int inner_satype = 0;
ipsec_spi_t inner_spi = 0;
struct pfkey_proto_info proto_info[4];
int i;
bool tunnel;
/* figure out the SPI and protocol (in two forms)
* for the innermost transformation.
*/
i = sizeof(proto_info) / sizeof(proto_info[0]) - 1;
proto_info[i].proto = 0;
tunnel = FALSE;
if (st->st_ah.present)
{
inner_spi = st->st_ah.attrs.spi;
inner_proto = SA_AH;
inner_satype = SADB_SATYPE_AH;
i--;
proto_info[i].proto = IPPROTO_AH;
proto_info[i].encapsulation = st->st_ah.attrs.encapsulation;
tunnel |= proto_info[i].encapsulation == ENCAPSULATION_MODE_TUNNEL;
proto_info[i].reqid = sr->reqid;
}
if (st->st_esp.present)
{
inner_spi = st->st_esp.attrs.spi;
inner_proto = SA_ESP;
inner_satype = SADB_SATYPE_ESP;
i--;
proto_info[i].proto = IPPROTO_ESP;
proto_info[i].encapsulation = st->st_esp.attrs.encapsulation;
tunnel |= proto_info[i].encapsulation == ENCAPSULATION_MODE_TUNNEL;
proto_info[i].reqid = sr->reqid + 1;
}
if (st->st_ipcomp.present)
{
inner_spi = st->st_ipcomp.attrs.spi;
inner_proto = SA_COMP;
inner_satype = SADB_X_SATYPE_COMP;
i--;
proto_info[i].proto = IPPROTO_COMP;
proto_info[i].encapsulation = st->st_ipcomp.attrs.encapsulation;
tunnel |= proto_info[i].encapsulation == ENCAPSULATION_MODE_TUNNEL;
proto_info[i].reqid = sr->reqid + 2;
}
if (i == sizeof(proto_info) / sizeof(proto_info[0]) - 1)
{
impossible(); /* no transform at all! */
}
if (tunnel)
{
int j;
inner_spi = st->st_tunnel_out_spi;
inner_proto = SA_IPIP;
inner_satype = SADB_X_SATYPE_IPIP;
proto_info[i].encapsulation = ENCAPSULATION_MODE_TUNNEL;
for (j = i + 1; proto_info[j].proto; j++)
{
proto_info[j].encapsulation = ENCAPSULATION_MODE_TRANSPORT;
}
}
return eroute_connection(sr
, inner_spi, inner_proto, inner_satype, proto_info + i
, op, opname);
}
/* compute a (host-order!) SPI to implement the policy in connection c */
ipsec_spi_t
shunt_policy_spi(struct connection *c, bool prospective)
{
/* note: these are in host order :-( */
static const ipsec_spi_t shunt_spi[] =
{
SPI_TRAP, /* --initiateontraffic */
SPI_PASS, /* --pass */
SPI_DROP, /* --drop */
SPI_REJECT, /* --reject */
};
static const ipsec_spi_t fail_spi[] =
{
0, /* --none*/
SPI_PASS, /* --failpass */
SPI_DROP, /* --faildrop */
SPI_REJECT, /* --failreject */
};
return prospective
? shunt_spi[(c->policy & POLICY_SHUNT_MASK) >> POLICY_SHUNT_SHIFT]
: fail_spi[(c->policy & POLICY_FAIL_MASK) >> POLICY_FAIL_SHIFT];
}
/* Add/replace/delete a shunt eroute.
* Such an eroute determines the fate of packets without the use
* of any SAs. These are defaults, in effect.
* If a negotiation has not been attempted, use %trap.
* If negotiation has failed, the choice between %trap/%pass/%drop/%reject
* is specified in the policy of connection c.
*/
static bool shunt_eroute(struct connection *c, struct spd_route *sr,
enum routing_t rt_kind,
unsigned int op, const char *opname)
{
/* We are constructing a special SAID for the eroute.
* The destination doesn't seem to matter, but the family does.
* The protocol is SA_INT -- mark this as shunt.
* The satype has no meaning, but is required for PF_KEY header!
* The SPI signifies the kind of shunt.
*/
ipsec_spi_t spi = shunt_policy_spi(c, rt_kind == RT_ROUTED_PROSPECTIVE);
bool ok;
if (spi == 0)
{
/* we're supposed to end up with no eroute: rejig op and opname */
switch (op)
{
case ERO_REPLACE:
/* replace with nothing == delete */
op = ERO_DELETE;
opname = "delete";
break;
case ERO_ADD:
/* add nothing == do nothing */
return TRUE;
case ERO_DELETE:
/* delete remains delete */
break;
default:
bad_case(op);
}
}
if (sr->routing == RT_ROUTED_ECLIPSED && c->kind == CK_TEMPLATE)
{
/* We think that we have an eroute, but we don't.
* Adjust the request and account for eclipses.
*/
passert(eclipsable(sr));
switch (op)
{
case ERO_REPLACE:
/* really an add */
op = ERO_ADD;
opname = "replace eclipsed";
eclipse_count--;
break;
case ERO_DELETE:
/* delete unnecessary: we don't actually have an eroute */
eclipse_count--;
return TRUE;
case ERO_ADD:
default:
bad_case(op);
}
}
else if (eclipse_count > 0 && op == ERO_DELETE && eclipsable(sr))
{
/* maybe we are uneclipsing something */
struct spd_route *esr;
struct connection *ue = eclipsed(c, &esr);
if (ue != NULL)
{
esr->routing = RT_ROUTED_PROSPECTIVE;
return shunt_eroute(ue, esr
, RT_ROUTED_PROSPECTIVE, ERO_REPLACE, "restoring eclipsed");
}
}
ok = TRUE;
if (kernel_ops->inbound_eroute)
{
ok = raw_eroute(&c->spd.that.host_addr, &c->spd.that.client
, &c->spd.this.host_addr, &c->spd.this.client
, htonl(spi), SA_INT, SADB_X_SATYPE_INT
, 0, null_proto_info, 0
, op | (SADB_X_SAFLAGS_INFLOW << ERO_FLAG_SHIFT), opname);
}
return eroute_connection(sr, htonl(spi), SA_INT, SADB_X_SATYPE_INT
, null_proto_info, op, opname) && ok;
}
/*
* This is only called when s is a likely SAID with trailing protocol i.e.
* it has the form :-
*
* %<keyword>:p
* <ip-proto><spi>@a.b.c.d:p
*
* The task here is to remove the ":p" part so that the rest can be read
* by another routine.
*/
static const char *read_proto(const char * s, size_t * len, int * transport_proto)
{
const char * p;
const char * ugh;
unsigned long proto;
size_t l;
l = *len;
p = memchr(s, ':', l);
if (p == 0) {
*transport_proto = 0;
return 0;
}
ugh = ttoul(p+1, l-((p-s)+1), 10, &proto);
if (ugh != 0)
return ugh;
if (proto > 65535)
return "protocol number is too large, legal range is 0-65535";
*len = p-s;
*transport_proto = proto;
return 0;
}
/* scan /proc/net/ipsec_eroute every once in a while, looking for:
*
* - %hold shunts of which Pluto isn't aware. This situation could
* be caused by lost ACQUIRE messages. When found, they will
* added to orphan_holds. This in turn will lead to Opportunistic
* initiation.
*
* - other kinds of shunts that haven't been used recently. These will be
* deleted. They represent OE failures.
*
* - recording recent uses of tunnel eroutes so that rekeying decisions
* can be made for OE connections.
*
* Here are some sample lines:
* 10 10.3.2.1.0/24 -> 0.0.0.0/0 => %trap
* 259 10.3.2.1.115/32 -> 10.19.75.161/32 => tun0x1002@10.19.75.145
* 71 10.44.73.97/32 -> 0.0.0.0/0 => %trap
* 4119 10.44.73.97/32 -> 10.114.121.41/32 => %pass
* Newer versions of KLIPS start each line with a 32-bit packet count.
* If available, the count is used to detect whether a %pass shunt is in use.
*
* NOTE: execution time is quadratic in the number of eroutes since the
* searching for each is sequential. If this becomes a problem, faster
* searches could be implemented (hash or radix tree, for example).
*/
void scan_proc_shunts(void)
{
static const char procname[] = "/proc/net/ipsec_eroute";
FILE *f;
time_t nw = now();
int lino;
struct eroute_info *expired = NULL;
event_schedule(EVENT_SHUNT_SCAN, SHUNT_SCAN_INTERVAL, NULL);
DBG(DBG_CONTROL,
DBG_log("scanning for shunt eroutes")
)
/* free any leftover entries: they will be refreshed if still current */
while (orphaned_holds != NULL)
{
struct eroute_info *p = orphaned_holds;
orphaned_holds = p->next;
free(orphaned_holds);
}
/* decode the /proc file. Don't do anything strenuous to it
* (certainly no PF_KEY stuff) to minimize the chance that it
* might change underfoot.
*/
f = fopen(procname, "r");
if (f == NULL)
return;
/* for each line... */
for (lino = 1; ; lino++)
{
unsigned char buf[1024]; /* should be big enough */
chunk_t field[10]; /* 10 is loose upper bound */
chunk_t *ff = NULL; /* fixed fields (excluding optional count) */
int fi;
struct eroute_info eri;
char *cp;
err_t context = ""
, ugh = NULL;
cp = fgets(buf, sizeof(buf), f);
if (cp == NULL)
break;
/* break out each field
* Note: if there are too many fields, just stop;
* it will be diagnosed a little later.
*/
for (fi = 0; fi < (int)countof(field); fi++)
{
static const char sep[] = " \t\n"; /* field-separating whitespace */
size_t w;
cp += strspn(cp, sep); /* find start of field */
w = strcspn(cp, sep); /* find width of field */
field[fi] = chunk_create(cp, w);
cp += w;
if (w == 0)
break;
}
/* This odd do-hickey is to share error reporting code.
* A break will get to that common code. The setting
* of "ugh" and "context" parameterize it.
*/
do {
/* Old entries have no packet count; new ones do.
* check if things are as they should be.
*/
if (fi == 5)
ff = &field[0]; /* old form, with no count */
else if (fi == 6)
ff = &field[1]; /* new form, with count */
else
{
ugh = "has wrong number of fields";
break;
}
if (ff[1].len != 2
|| strncmp(ff[1].ptr, "->", 2) != 0
|| ff[3].len != 2
|| strncmp(ff[3].ptr, "=>", 2) != 0)
{
ugh = "is missing -> or =>";
break;
}
/* actually digest fields of interest */
/* packet count */
eri.count = 0;
if (ff != field)
{
context = "count field is malformed: ";
ugh = ttoul(field[0].ptr, field[0].len, 10, &eri.count);
if (ugh != NULL)
break;
}
/* our client */
context = "source subnet field malformed: ";
ugh = ttosubnet(ff[0].ptr, ff[0].len, AF_INET, &eri.ours);
if (ugh != NULL)
break;
/* his client */
context = "destination subnet field malformed: ";
ugh = ttosubnet(ff[2].ptr, ff[2].len, AF_INET, &eri.his);
if (ugh != NULL)
break;
/* SAID */
context = "SA ID field malformed: ";
ugh = read_proto(ff[4].ptr, &ff[4].len, &eri.transport_proto);
if (ugh != NULL)
break;
ugh = ttosa(ff[4].ptr, ff[4].len, &eri.said);
} while (FALSE);
if (ugh != NULL)
{
plog("INTERNAL ERROR: %s line %d %s%s"
, procname, lino, context, ugh);
continue; /* ignore rest of line */
}
/* Now we have decoded eroute, let's consider it.
* For shunt eroutes:
*
* %hold: if not known, add to orphaned_holds list for initiation
* because ACQUIRE might have been lost.
*
* %pass, %drop, %reject: determine if idle; if so, blast it away.
* Can occur bare (if DNS provided insufficient information)
* or with a connection (failure context).
* Could even be installed by ipsec manual.
*
* %trap: always welcome.
*
* For other eroutes: find state and record count change
*/
if (eri.said.proto == SA_INT)
{
/* shunt eroute */
switch (ntohl(eri.said.spi))
{
case SPI_HOLD:
if (bare_shunt_ptr(&eri.ours, &eri.his, eri.transport_proto) == NULL
&& shunt_owner(&eri.ours, &eri.his) == NULL)
{
int ourport = ntohs(portof(&eri.ours.addr));
int hisport = ntohs(portof(&eri.his.addr));
char ourst[SUBNETTOT_BUF];
char hist[SUBNETTOT_BUF];
char sat[SATOT_BUF];
subnettot(&eri.ours, 0, ourst, sizeof(ourst));
subnettot(&eri.his, 0, hist, sizeof(hist));
satot(&eri.said, 0, sat, sizeof(sat));
DBG(DBG_CONTROL,
DBG_log("add orphaned shunt %s:%d -> %s:%d => %s:%d"
, ourst, ourport, hist, hisport, sat, eri.transport_proto)
)
eri.next = orphaned_holds;
orphaned_holds = clone_thing(eri);
}
break;
case SPI_PASS:
case SPI_DROP:
case SPI_REJECT:
/* nothing sensible to do if we don't have counts */
if (ff != field)
{
struct bare_shunt **bs_pp
= bare_shunt_ptr(&eri.ours, &eri.his, eri.transport_proto);
if (bs_pp != NULL)
{
struct bare_shunt *bs = *bs_pp;
if (eri.count != bs->count)
{
bs->count = eri.count;
bs->last_activity = nw;
}
else if (nw - bs->last_activity > SHUNT_PATIENCE)
{
eri.next = expired;
expired = clone_thing(eri);
}
}
}
break;
case SPI_TRAP:
break;
default:
bad_case(ntohl(eri.said.spi));
}
}
else
{
/* regular (non-shunt) eroute */
state_eroute_usage(&eri.ours, &eri.his, eri.count, nw);
}
} /* for each line */
fclose(f);
/* Now that we've finished processing the /proc file,
* it is safe to delete the expired %pass shunts.
*/
while (expired != NULL)
{
struct eroute_info *p = expired;
ip_address src, dst;
networkof(&p->ours, &src);
networkof(&p->his, &dst);
(void) replace_bare_shunt(&src, &dst
, BOTTOM_PRIO /* not used because we are deleting. This value is a filler */
, SPI_PASS /* not used because we are deleting. This value is a filler */
, FALSE, p->transport_proto, "delete expired bare shunts");
expired = p->next;
free(p);
}
}
static bool del_spi(ipsec_spi_t spi, int proto,
const ip_address *src, const ip_address *dest)
{
char text_said[SATOT_BUF];
struct kernel_sa sa;
set_text_said(text_said, dest, spi, proto);
DBG(DBG_KLIPS, DBG_log("delete %s", text_said));
memset(&sa, 0, sizeof(sa));
sa.spi = spi;
sa.proto = proto;
sa.src = src;
sa.dst = dest;
sa.text_said = text_said;
return kernel_ops->del_sa(&sa);
}
/* Setup a pair of SAs. Code taken from setsa.c and spigrp.c, in
* ipsec-0.5.
*/
static bool setup_half_ipsec_sa(struct state *st, bool inbound)
{
/* Build an inbound or outbound SA */
struct connection *c = st->st_connection;
ip_subnet src, dst;
ip_subnet src_client, dst_client;
ipsec_spi_t inner_spi = 0;
u_int proto = 0;
u_int satype = SADB_SATYPE_UNSPEC;
bool replace;
/* SPIs, saved for spigrouping or undoing, if necessary */
struct kernel_sa
said[EM_MAXRELSPIS],
*said_next = said;
char text_said[SATOT_BUF];
int encapsulation;
replace = inbound && (kernel_ops->get_spi != NULL);
src.maskbits = 0;
dst.maskbits = 0;
if (inbound)
{
src.addr = c->spd.that.host_addr;
dst.addr = c->spd.this.host_addr;
src_client = c->spd.that.client;
dst_client = c->spd.this.client;
}
else
{
src.addr = c->spd.this.host_addr,
dst.addr = c->spd.that.host_addr;
src_client = c->spd.this.client;
dst_client = c->spd.that.client;
}
encapsulation = ENCAPSULATION_MODE_TRANSPORT;
if (st->st_ah.attrs.encapsulation == ENCAPSULATION_MODE_TUNNEL
|| st->st_esp.attrs.encapsulation == ENCAPSULATION_MODE_TUNNEL
|| st->st_ipcomp.attrs.encapsulation == ENCAPSULATION_MODE_TUNNEL)
{
encapsulation = ENCAPSULATION_MODE_TUNNEL;
}
memset(said, 0, sizeof(said));
/* If we are tunnelling, set up IP in IP pseudo SA */
if (kernel_ops->inbound_eroute)
{
inner_spi = 256;
proto = SA_IPIP;
satype = SADB_SATYPE_UNSPEC;
}
else if (encapsulation == ENCAPSULATION_MODE_TUNNEL)
{
/* XXX hack alert -- we SHOULD NOT HAVE TO HAVE A DIFFERENT SPI
* XXX FOR IP-in-IP ENCAPSULATION!
*/
ipsec_spi_t ipip_spi;
/* Allocate an SPI for the tunnel.
* Since our peer will never see this,
* and it comes from its own number space,
* it is purely a local implementation wart.
*/
{
static ipsec_spi_t last_tunnel_spi = IPSEC_DOI_SPI_OUR_MIN;
ipip_spi = htonl(++last_tunnel_spi);
if (inbound)
st->st_tunnel_in_spi = ipip_spi;
else
st->st_tunnel_out_spi = ipip_spi;
}
set_text_said(text_said
, &c->spd.that.host_addr, ipip_spi, SA_IPIP);
said_next->src = &src.addr;
said_next->dst = &dst.addr;
said_next->src_client = &src_client;
said_next->dst_client = &dst_client;
said_next->spi = ipip_spi;
said_next->satype = SADB_X_SATYPE_IPIP;
said_next->text_said = text_said;
if (!kernel_ops->add_sa(said_next, replace))
goto fail;
said_next++;
inner_spi = ipip_spi;
proto = SA_IPIP;
satype = SADB_X_SATYPE_IPIP;
}
/* set up IPCOMP SA, if any */
if (st->st_ipcomp.present)
{
ipsec_spi_t ipcomp_spi = inbound? st->st_ipcomp.our_spi : st->st_ipcomp.attrs.spi;
unsigned compalg;
switch (st->st_ipcomp.attrs.transid)
{
case IPCOMP_DEFLATE:
compalg = SADB_X_CALG_DEFLATE;
break;
default:
loglog(RC_LOG_SERIOUS, "IPCOMP transform %s not implemented"
, enum_name(&ipcomp_transformid_names, st->st_ipcomp.attrs.transid));
goto fail;
}
set_text_said(text_said, &dst.addr, ipcomp_spi, SA_COMP);
said_next->src = &src.addr;
said_next->dst = &dst.addr;
said_next->src_client = &src_client;
said_next->dst_client = &dst_client;
said_next->spi = ipcomp_spi;
said_next->satype = SADB_X_SATYPE_COMP;
said_next->compalg = compalg;
said_next->encapsulation = encapsulation;
said_next->reqid = c->spd.reqid + 2;
said_next->text_said = text_said;
if (!kernel_ops->add_sa(said_next, replace))
goto fail;
said_next++;
encapsulation = ENCAPSULATION_MODE_TRANSPORT;
}
/* set up ESP SA, if any */
if (st->st_esp.present)
{
ipsec_spi_t esp_spi = inbound? st->st_esp.our_spi : st->st_esp.attrs.spi;
u_char *esp_dst_keymat = inbound? st->st_esp.our_keymat : st->st_esp.peer_keymat;
const struct esp_info *ei;
u_int16_t key_len;
static const struct esp_info esp_info[] = {
{ ESP_NULL, AUTH_ALGORITHM_HMAC_MD5,
0, HMAC_MD5_KEY_LEN,
SADB_EALG_NULL, SADB_AALG_MD5HMAC },
{ ESP_NULL, AUTH_ALGORITHM_HMAC_SHA1,
0, HMAC_SHA1_KEY_LEN,
SADB_EALG_NULL, SADB_AALG_SHA1HMAC },
{ ESP_DES, AUTH_ALGORITHM_NONE,
DES_CBC_BLOCK_SIZE, 0,
SADB_EALG_DESCBC, SADB_AALG_NONE },
{ ESP_DES, AUTH_ALGORITHM_HMAC_MD5,
DES_CBC_BLOCK_SIZE, HMAC_MD5_KEY_LEN,
SADB_EALG_DESCBC, SADB_AALG_MD5HMAC },
{ ESP_DES, AUTH_ALGORITHM_HMAC_SHA1,
DES_CBC_BLOCK_SIZE,
HMAC_SHA1_KEY_LEN, SADB_EALG_DESCBC, SADB_AALG_SHA1HMAC },
{ ESP_3DES, AUTH_ALGORITHM_NONE,
DES_CBC_BLOCK_SIZE * 3, 0,
SADB_EALG_3DESCBC, SADB_AALG_NONE },
{ ESP_3DES, AUTH_ALGORITHM_HMAC_MD5,
DES_CBC_BLOCK_SIZE * 3, HMAC_MD5_KEY_LEN,
SADB_EALG_3DESCBC, SADB_AALG_MD5HMAC },
{ ESP_3DES, AUTH_ALGORITHM_HMAC_SHA1,
DES_CBC_BLOCK_SIZE * 3, HMAC_SHA1_KEY_LEN,
SADB_EALG_3DESCBC, SADB_AALG_SHA1HMAC },
};
u_int8_t natt_type = 0;
u_int16_t natt_sport = 0;
u_int16_t natt_dport = 0;
ip_address natt_oa;
if (st->nat_traversal & NAT_T_DETECTED)
{
natt_type = (st->nat_traversal & NAT_T_WITH_PORT_FLOATING) ?
ESPINUDP_WITH_NON_ESP : ESPINUDP_WITH_NON_IKE;
natt_sport = inbound? c->spd.that.host_port : c->spd.this.host_port;
natt_dport = inbound? c->spd.this.host_port : c->spd.that.host_port;
natt_oa = st->nat_oa;
}
for (ei = esp_info; ; ei++)
{
if (ei == &esp_info[countof(esp_info)])
{
/* Check for additional kernel alg */
if ((ei=kernel_alg_esp_info(st->st_esp.attrs.transid,
st->st_esp.attrs.auth))!=NULL)
{
break;
}
/* note: enum_show may use a static buffer, so two
* calls in one printf would be a mistake.
* enum_name does the same job, without a static buffer,
* assuming the name will be found.
*/
loglog(RC_LOG_SERIOUS, "ESP transform %s / auth %s not implemented yet"
, enum_name(&esp_transformid_names, st->st_esp.attrs.transid)
, enum_name(&auth_alg_names, st->st_esp.attrs.auth));
goto fail;
}
if (st->st_esp.attrs.transid == ei->transid &&
st->st_esp.attrs.auth == ei->auth)
{
break;
}
}
key_len = st->st_esp.attrs.key_len/8;
if (key_len)
{
/* XXX: must change to check valid _range_ key_len */
if (key_len > ei->enckeylen)
{
loglog(RC_LOG_SERIOUS, "ESP transform %s passed key_len=%d > %d",
enum_name(&esp_transformid_names, st->st_esp.attrs.transid),
(int)key_len, (int)ei->enckeylen);
goto fail;
}
}
else
{
key_len = ei->enckeylen;
}
switch (ei->transid)
{
case ESP_3DES:
/* 168 bits in kernel, need 192 bits for keymat_len */
if (key_len == 21)
{
key_len = 24;
}
break;
case ESP_DES:
/* 56 bits in kernel, need 64 bits for keymat_len */
if (key_len == 7)
{
key_len = 8;
}
break;
case ESP_AES_CCM_8:
case ESP_AES_CCM_12:
case ESP_AES_CCM_16:
key_len += 3;
break;
case ESP_AES_GCM_8:
case ESP_AES_GCM_12:
case ESP_AES_GCM_16:
case ESP_AES_CTR:
key_len += 4;
break;
default:
break;
}
/* divide up keying material */
set_text_said(text_said, &dst.addr, esp_spi, SA_ESP);
said_next->src = &src.addr;
said_next->dst = &dst.addr;
said_next->src_client = &src_client;
said_next->dst_client = &dst_client;
said_next->spi = esp_spi;
said_next->satype = SADB_SATYPE_ESP;
said_next->replay_window = (kernel_ops->type == KERNEL_TYPE_KLIPS) ?
REPLAY_WINDOW : REPLAY_WINDOW_XFRM;
said_next->authalg = ei->authalg;
said_next->authkeylen = ei->authkeylen;
said_next->authkey = esp_dst_keymat + key_len;
said_next->encalg = ei->encryptalg;
said_next->enckeylen = key_len;
said_next->enckey = esp_dst_keymat;
said_next->encapsulation = encapsulation;
said_next->reqid = c->spd.reqid + 1;
said_next->natt_sport = natt_sport;
said_next->natt_dport = natt_dport;
said_next->transid = st->st_esp.attrs.transid;
said_next->natt_type = natt_type;
said_next->natt_oa = &natt_oa;
said_next->text_said = text_said;
if (!kernel_ops->add_sa(said_next, replace))
{
goto fail;
}
said_next++;
encapsulation = ENCAPSULATION_MODE_TRANSPORT;
}
/* set up AH SA, if any */
if (st->st_ah.present)
{
ipsec_spi_t ah_spi = inbound? st->st_ah.our_spi : st->st_ah.attrs.spi;
u_char *ah_dst_keymat = inbound? st->st_ah.our_keymat : st->st_ah.peer_keymat;
unsigned char authalg;
switch (st->st_ah.attrs.auth)
{
case AUTH_ALGORITHM_HMAC_MD5:
authalg = SADB_AALG_MD5HMAC;
break;
case AUTH_ALGORITHM_HMAC_SHA1:
authalg = SADB_AALG_SHA1HMAC;
break;
default:
loglog(RC_LOG_SERIOUS, "%s not implemented yet",
enum_show(&auth_alg_names, st->st_ah.attrs.auth));
goto fail;
}
set_text_said(text_said, &dst.addr, ah_spi, SA_AH);
said_next->src = &src.addr;
said_next->dst = &dst.addr;
said_next->src_client = &src_client;
said_next->dst_client = &dst_client;
said_next->spi = ah_spi;
said_next->satype = SADB_SATYPE_AH;
said_next->replay_window = (kernel_ops->type == KERNEL_TYPE_KLIPS) ?
REPLAY_WINDOW : REPLAY_WINDOW_XFRM;
said_next->authalg = authalg;
said_next->authkeylen = st->st_ah.keymat_len;
said_next->authkey = ah_dst_keymat;
said_next->encapsulation = encapsulation;
said_next->reqid = c->spd.reqid;
said_next->text_said = text_said;
if (!kernel_ops->add_sa(said_next, replace))
{
goto fail;
}
said_next++;
encapsulation = ENCAPSULATION_MODE_TRANSPORT;
}
if (st->st_ah.attrs.encapsulation == ENCAPSULATION_MODE_TUNNEL
|| st->st_esp.attrs.encapsulation == ENCAPSULATION_MODE_TUNNEL
|| st->st_ipcomp.attrs.encapsulation == ENCAPSULATION_MODE_TUNNEL)
{
encapsulation = ENCAPSULATION_MODE_TUNNEL;
}
if (kernel_ops->inbound_eroute ? c->spd.eroute_owner == SOS_NOBODY
: encapsulation == ENCAPSULATION_MODE_TUNNEL)
{
/* If inbound, and policy does not specifie DISABLEARRIVALCHECK,
* tell KLIPS to enforce the IP addresses appropriate for this tunnel.
* Note reversed ends.
* Not much to be done on failure.
*/
if (inbound && (c->policy & POLICY_DISABLEARRIVALCHECK) == 0)
{
struct pfkey_proto_info proto_info[4];
int i = 0;
if (st->st_ipcomp.present)
{
proto_info[i].proto = IPPROTO_COMP;
proto_info[i].encapsulation = st->st_ipcomp.attrs.encapsulation;
proto_info[i].reqid = c->spd.reqid + 2;
i++;
}
if (st->st_esp.present)
{
proto_info[i].proto = IPPROTO_ESP;
proto_info[i].encapsulation = st->st_esp.attrs.encapsulation;
proto_info[i].reqid = c->spd.reqid + 1;
i++;
}
if (st->st_ah.present)
{
proto_info[i].proto = IPPROTO_AH;
proto_info[i].encapsulation = st->st_ah.attrs.encapsulation;
proto_info[i].reqid = c->spd.reqid;
i++;
}
proto_info[i].proto = 0;
if (kernel_ops->inbound_eroute
&& encapsulation == ENCAPSULATION_MODE_TUNNEL)
{
proto_info[0].encapsulation = ENCAPSULATION_MODE_TUNNEL;
for (i = 1; proto_info[i].proto; i++)
{
proto_info[i].encapsulation = ENCAPSULATION_MODE_TRANSPORT;
}
}
/* MCR - should be passed a spd_eroute structure here */
(void) raw_eroute(&c->spd.that.host_addr, &c->spd.that.client
, &c->spd.this.host_addr, &c->spd.this.client
, inner_spi, proto, satype, c->spd.this.protocol
, proto_info, 0
, ERO_ADD_INBOUND, "add inbound");
}
}
/* If there are multiple SPIs, group them. */
if (kernel_ops->grp_sa && said_next > &said[1])
{
struct kernel_sa *s;
/* group SAs, two at a time, inner to outer (backwards in said[])
* The grouping is by pairs. So if said[] contains ah esp ipip,
* the grouping would be ipip:esp, esp:ah.
*/
for (s = said; s < said_next-1; s++)
{
char
text_said0[SATOT_BUF],
text_said1[SATOT_BUF];
/* group s[1] and s[0], in that order */
set_text_said(text_said0, s[0].dst, s[0].spi, s[0].proto);
set_text_said(text_said1, s[1].dst, s[1].spi, s[1].proto);
DBG(DBG_KLIPS, DBG_log("grouping %s and %s", text_said1, text_said0));
s[0].text_said = text_said0;
s[1].text_said = text_said1;
if (!kernel_ops->grp_sa(s + 1, s))
{
goto fail;
}
}
/* could update said, but it will not be used */
}
return TRUE;
fail:
{
/* undo the done SPIs */
while (said_next-- != said)
{
(void) del_spi(said_next->spi, said_next->proto, &src.addr,
said_next->dst);
}
return FALSE;
}
}
/* teardown_ipsec_sa is a canibalized version of setup_ipsec_sa */
static bool teardown_half_ipsec_sa(struct state *st, bool inbound)
{
/* We need to delete AH, ESP, and IP in IP SPIs.
* But if there is more than one, they have been grouped
* so deleting any one will do. So we just delete the
* first one found. It may or may not be the only one.
*/
struct connection *c = st->st_connection;
struct {
unsigned proto;
struct ipsec_proto_info *info;
} protos[4];
int i;
bool result;
i = 0;
if (kernel_ops->inbound_eroute && inbound
&& c->spd.eroute_owner == SOS_NOBODY)
{
(void) raw_eroute(&c->spd.that.host_addr, &c->spd.that.client
, &c->spd.this.host_addr, &c->spd.this.client
, 256, IPSEC_PROTO_ANY, SADB_SATYPE_UNSPEC, c->spd.this.protocol
, null_proto_info, 0
, ERO_DEL_INBOUND, "delete inbound");
}
if (!kernel_ops->grp_sa)
{
if (st->st_ah.present)
{
protos[i].info = &st->st_ah;
protos[i].proto = SA_AH;
i++;
}
if (st->st_esp.present)
{
protos[i].info = &st->st_esp;
protos[i].proto = SA_ESP;
i++;
}
if (st->st_ipcomp.present)
{
protos[i].info = &st->st_ipcomp;
protos[i].proto = SA_COMP;
i++;
}
}
else if (st->st_ah.present)
{
protos[i].info = &st->st_ah;
protos[i].proto = SA_AH;
i++;
}
else if (st->st_esp.present)
{
protos[i].info = &st->st_esp;
protos[i].proto = SA_ESP;
i++;
}
else
{
impossible(); /* neither AH nor ESP in outbound SA bundle! */
}
protos[i].proto = 0;
result = TRUE;
for (i = 0; protos[i].proto; i++)
{
unsigned proto = protos[i].proto;
ipsec_spi_t spi;
const ip_address *src, *dst;
if (inbound)
{
spi = protos[i].info->our_spi;
src = &c->spd.that.host_addr;
dst = &c->spd.this.host_addr;
}
else
{
spi = protos[i].info->attrs.spi;
src = &c->spd.this.host_addr;
dst = &c->spd.that.host_addr;
}
result &= del_spi(spi, proto, src, dst);
}
return result;
}
/*
* get information about a given sa
*/
bool get_sa_info(struct state *st, bool inbound, u_int *bytes, time_t *use_time)
{
char text_said[SATOT_BUF];
struct kernel_sa sa;
struct connection *c = st->st_connection;
*use_time = UNDEFINED_TIME;
if (kernel_ops->get_sa == NULL || !st->st_esp.present)
{
return FALSE;
}
memset(&sa, 0, sizeof(sa));
sa.proto = SA_ESP;
if (inbound)
{
sa.src = &c->spd.that.host_addr;
sa.dst = &c->spd.this.host_addr;
sa.spi = st->st_esp.our_spi;
}
else
{
sa.src = &c->spd.this.host_addr;
sa.dst = &c->spd.that.host_addr;
sa.spi = st->st_esp.attrs.spi;
}
set_text_said(text_said, sa.dst, sa.spi, sa.proto);
sa.text_said = text_said;
DBG(DBG_KLIPS,
DBG_log("get %s", text_said)
)
if (!kernel_ops->get_sa(&sa, bytes))
{
return FALSE;
}
DBG(DBG_KLIPS,
DBG_log(" current: %d bytes", *bytes)
)
if (st->st_serialno == c->spd.eroute_owner)
{
DBG(DBG_KLIPS,
DBG_log("get %sbound policy with reqid %u"
, inbound? "in":"out", (u_int)c->spd.reqid + 1)
)
sa.transport_proto = c->spd.this.protocol;
sa.encapsulation = st->st_esp.attrs.encapsulation;
if (inbound)
{
sa.src_client = &c->spd.that.client;
sa.dst_client = &c->spd.this.client;
}
else
{
sa.src_client = &c->spd.this.client;
sa.dst_client = &c->spd.that.client;
}
if (!kernel_ops->get_policy(&sa, inbound, use_time))
{
return FALSE;
}
DBG(DBG_KLIPS,
DBG_log(" use_time: %T", use_time, FALSE)
)
}
return TRUE;
}
const struct kernel_ops *kernel_ops;
#endif /* KLIPS */
void init_kernel(void)
{
#ifdef KLIPS
if (no_klips)
{
kernel_ops = &noklips_kernel_ops;
return;
}
init_pfkey();
kernel_ops = &klips_kernel_ops;
#if defined(linux) && defined(KERNEL26_SUPPORT)
{
bool linux_ipsec = 0;
struct stat buf;
linux_ipsec = (stat("/proc/net/pfkey", &buf) == 0);
if (linux_ipsec)
{
plog("Using Linux 2.6 IPsec interface code");
kernel_ops = &linux_kernel_ops;
}
else
{
plog("Using KLIPS IPsec interface code");
}
}
#endif
if (kernel_ops->init)
{
kernel_ops->init();
}
/* register SA types that we can negotiate */
can_do_IPcomp = FALSE; /* until we get a response from KLIPS */
kernel_ops->pfkey_register();
if (!kernel_ops->policy_lifetime)
{
event_schedule(EVENT_SHUNT_SCAN, SHUNT_SCAN_INTERVAL, NULL);
}
#endif
}
/* Note: install_inbound_ipsec_sa is only used by the Responder.
* The Responder will subsequently use install_ipsec_sa for the outbound.
* The Initiator uses install_ipsec_sa to install both at once.
*/
bool install_inbound_ipsec_sa(struct state *st)
{
struct connection *const c = st->st_connection;
/* If our peer has a fixed-address client, check if we already
* have a route for that client that conflicts. We will take this
* as proof that that route and the connections using it are
* obsolete and should be eliminated. Interestingly, this is
* the only case in which we can tell that a connection is obsolete.
*/
passert(c->kind == CK_PERMANENT || c->kind == CK_INSTANCE);
if (c->spd.that.has_client)
{
for (;;)
{
struct spd_route *esr;
struct connection *o = route_owner(c, &esr, NULL, NULL);
if (o == NULL)
{
break; /* nobody has a route */
}
/* note: we ignore the client addresses at this end */
if (sameaddr(&o->spd.that.host_addr, &c->spd.that.host_addr) &&
o->interface == c->interface)
{
break; /* existing route is compatible */
}
if (o->kind == CK_TEMPLATE && streq(o->name, c->name))
{
break; /* ??? is this good enough?? */
}
loglog(RC_LOG_SERIOUS, "route to peer's client conflicts with \"%s\" %s; releasing old connection to free the route"
, o->name, ip_str(&o->spd.that.host_addr));
release_connection(o, FALSE);
}
}
DBG(DBG_CONTROL, DBG_log("install_inbound_ipsec_sa() checking if we can route"));
/* check that we will be able to route and eroute */
switch (could_route(c))
{
case route_easy:
case route_nearconflict:
break;
default:
return FALSE;
}
#ifdef KLIPS
/* (attempt to) actually set up the SAs */
return setup_half_ipsec_sa(st, TRUE);
#else /* !KLIPS */
DBG(DBG_CONTROL, DBG_log("install_inbound_ipsec_sa()"));
return TRUE;
#endif /* !KLIPS */
}
/* Install a route and then a prospective shunt eroute or an SA group eroute.
* Assumption: could_route gave a go-ahead.
* Any SA Group must have already been created.
* On failure, steps will be unwound.
*/
bool route_and_eroute(struct connection *c USED_BY_KLIPS,
struct spd_route *sr USED_BY_KLIPS,
struct state *st USED_BY_KLIPS)
{
#ifdef KLIPS
struct spd_route *esr;
struct spd_route *rosr;
struct connection *ero /* who, if anyone, owns our eroute? */
, *ro = route_owner(c, &rosr, &ero, &esr);
bool eroute_installed = FALSE
, firewall_notified = FALSE
, route_installed = FALSE;
struct connection *ero_top;
struct bare_shunt **bspp;
DBG(DBG_CONTROLMORE,
DBG_log("route_and_eroute with c: %s (next: %s) ero:%s esr:{%p} ro:%s rosr:{%p} and state: %lu"
, c->name
, (c->policy_next ? c->policy_next->name : "none")
, ero ? ero->name : "null"
, esr
, ro ? ro->name : "null"
, rosr
, st ? st->st_serialno : 0));
/* look along the chain of policies for one with the same name */
ero_top = ero;
#if 0
/* XXX - mcr this made sense before, and likely will make sense
* again, so I'l leaving this to remind me what is up */
if (ero!= NULL && ero->routing == RT_UNROUTED_KEYED)
ero = NULL;
for (ero2 = ero; ero2 != NULL; ero2 = ero->policy_next)
if ((ero2->kind == CK_TEMPLATE || ero2->kind==CK_SECONDARY)
&& streq(ero2->name, c->name))
break;
#endif
bspp = (ero == NULL)
? bare_shunt_ptr(&sr->this.client, &sr->that.client, sr->this.protocol)
: NULL;
/* install the eroute */
passert(bspp == NULL || ero == NULL); /* only one non-NULL */
if (bspp != NULL || ero != NULL)
{
/* We're replacing an eroute */
/* if no state provided, then install a shunt for later */
if (st == NULL)
eroute_installed = shunt_eroute(c, sr, RT_ROUTED_PROSPECTIVE
, ERO_REPLACE, "replace");
else
eroute_installed = sag_eroute(st, sr, ERO_REPLACE, "replace");
#if 0
/* XXX - MCR. I previously felt that this was a bogus check */
if (ero != NULL && ero != c && esr != sr)
{
/* By elimination, we must be eclipsing ero. Check. */
passert(ero->kind == CK_TEMPLATE && streq(ero->name, c->name));
passert(LHAS(LELEM(RT_ROUTED_PROSPECTIVE) | LELEM(RT_ROUTED_ECLIPSED)
, esr->routing));
passert(samesubnet(&esr->this.client, &sr->this.client)
&& samesubnet(&esr->that.client, &sr->that.client));
}
#endif
/* remember to free bspp iff we make it out of here alive */
}
else
{
/* we're adding an eroute */
/* if no state provided, then install a shunt for later */
if (st == NULL)
{
eroute_installed = shunt_eroute(c, sr, RT_ROUTED_PROSPECTIVE
, ERO_ADD, "add");
}
else
{
eroute_installed = sag_eroute(st, sr, ERO_ADD, "add");
}
}
/* notify the firewall of a new tunnel */
if (eroute_installed)
{
/* do we have to notify the firewall? Yes, if we are installing
* a tunnel eroute and the firewall wasn't notified
* for a previous tunnel with the same clients. Any Previous
* tunnel would have to be for our connection, so the actual
* test is simple.
*/
firewall_notified = st == NULL /* not a tunnel eroute */
|| sr->eroute_owner != SOS_NOBODY /* already notified */
|| do_command(c, sr, "up"); /* go ahead and notify */
}
/* install the route */
DBG(DBG_CONTROL,
DBG_log("route_and_eroute: firewall_notified: %s"
, firewall_notified ? "true" : "false"));
if (!firewall_notified)
{
/* we're in trouble -- don't do routing */
}
else if (ro == NULL)
{
/* a new route: no deletion required, but preparation is */
(void) do_command(c, sr, "prepare"); /* just in case; ignore failure */
route_installed = do_command(c, sr, "route");
}
else if (routed(sr->routing) || routes_agree(ro, c))
{
route_installed = TRUE; /* nothing to be done */
}
else
{
/* Some other connection must own the route
* and the route must disagree. But since could_route
* must have allowed our stealing it, we'll do so.
*
* A feature of LINUX allows us to install the new route
* before deleting the old if the nexthops differ.
* This reduces the "window of vulnerability" when packets
* might flow in the clear.
*/
if (sameaddr(&sr->this.host_nexthop, &esr->this.host_nexthop))
{
(void) do_command(ro, sr, "unroute");
route_installed = do_command(c, sr, "route");
}
else
{
route_installed = do_command(c, sr, "route");
(void) do_command(ro, sr, "unroute");
}
/* record unrouting */
if (route_installed)
{
do {
passert(!erouted(rosr->routing));
rosr->routing = RT_UNROUTED;
/* no need to keep old value */
ro = route_owner(c, &rosr, NULL, NULL);
} while (ro != NULL);
}
}
/* all done -- clean up */
if (route_installed)
{
/* Success! */
if (bspp != NULL)
{
free_bare_shunt(bspp);
}
else if (ero != NULL && ero != c)
{
/* check if ero is an ancestor of c. */
struct connection *ero2;
for (ero2 = c; ero2 != NULL && ero2 != c; ero2 = ero2->policy_next)
;
if (ero2 == NULL)
{
/* By elimination, we must be eclipsing ero. Checked above. */
if (ero->spd.routing != RT_ROUTED_ECLIPSED)
{
ero->spd.routing = RT_ROUTED_ECLIPSED;
eclipse_count++;
}
}
}
if (st == NULL)
{
passert(sr->eroute_owner == SOS_NOBODY);
sr->routing = RT_ROUTED_PROSPECTIVE;
}
else
{
char cib[CONN_INST_BUF];
sr->routing = RT_ROUTED_TUNNEL;
DBG(DBG_CONTROL,
DBG_log("route_and_eroute: instance \"%s\"%s, setting eroute_owner {spd=%p,sr=%p} to #%ld (was #%ld) (newest_ipsec_sa=#%ld)"
, st->st_connection->name
, (fmt_conn_instance(st->st_connection, cib), cib)
, &st->st_connection->spd, sr
, st->st_serialno
, sr->eroute_owner
, st->st_connection->newest_ipsec_sa));
sr->eroute_owner = st->st_serialno;
}
return TRUE;
}
else
{
/* Failure! Unwind our work. */
if (firewall_notified && sr->eroute_owner == SOS_NOBODY)
(void) do_command(c, sr, "down");
if (eroute_installed)
{
/* Restore original eroute, if we can.
* Since there is nothing much to be done if the restoration
* fails, ignore success or failure.
*/
if (bspp != NULL)
{
/* Restore old bare_shunt.
* I don't think that this case is very likely.
* Normally a bare shunt would have been assigned
* to a connection before we've gotten this far.
*/
struct bare_shunt *bs = *bspp;
(void) raw_eroute(&bs->said.dst /* should be useless */
, &bs->ours
, &bs->said.dst /* should be useless */
, &bs->his
, bs->said.spi /* network order */
, SA_INT
, SADB_X_SATYPE_INT
, 0
, null_proto_info
, SHUNT_PATIENCE
, ERO_REPLACE, "restore");
}
else if (ero != NULL)
{
/* restore ero's former glory */
if (esr->eroute_owner == SOS_NOBODY)
{
/* note: normal or eclipse case */
(void) shunt_eroute(ero, esr
, esr->routing, ERO_REPLACE, "restore");
}
else
{
/* Try to find state that owned eroute.
* Don't do anything if it cannot be found.
* This case isn't likely since we don't run
* the updown script when replacing a SA group
* with its successor (for the same conn).
*/
struct state *ost = state_with_serialno(esr->eroute_owner);
if (ost != NULL)
(void) sag_eroute(ost, esr, ERO_REPLACE, "restore");
}
}
else
{
/* there was no previous eroute: delete whatever we installed */
if (st == NULL)
{
(void) shunt_eroute(c, sr, sr->routing, ERO_DELETE, "delete");
}
else
{
(void) sag_eroute(st, sr, ERO_DELETE, "delete");
}
}
}
return FALSE;
}
#else /* !KLIPS */
return TRUE;
#endif /* !KLIPS */
}
bool install_ipsec_sa(struct state *st, bool inbound_also USED_BY_KLIPS)
{
#ifdef KLIPS
struct spd_route *sr;
DBG(DBG_CONTROL, DBG_log("install_ipsec_sa() for #%ld: %s"
, st->st_serialno
, inbound_also?
"inbound and outbound" : "outbound only"));
switch (could_route(st->st_connection))
{
case route_easy:
case route_nearconflict:
break;
default:
return FALSE;
}
/* (attempt to) actually set up the SA group */
if ((inbound_also && !setup_half_ipsec_sa(st, TRUE)) ||
!setup_half_ipsec_sa(st, FALSE))
{
return FALSE;
}
for (sr = &st->st_connection->spd; sr != NULL; sr = sr->next)
{
DBG(DBG_CONTROL, DBG_log("sr for #%ld: %s"
, st->st_serialno
, enum_name(&routing_story, sr->routing)));
/*
* if the eroute owner is not us, then make it us.
* See test co-terminal-02, pluto-rekey-01, pluto-unit-02/oppo-twice
*/
pexpect(sr->eroute_owner == SOS_NOBODY
|| sr->routing >= RT_ROUTED_TUNNEL);
if (sr->eroute_owner != st->st_serialno
&& sr->routing != RT_UNROUTED_KEYED)
{
if (!route_and_eroute(st->st_connection, sr, st))
{
delete_ipsec_sa(st, FALSE);
/* XXX go and unroute any SRs that were successfully
* routed already.
*/
return FALSE;
}
}
}
#else /* !KLIPS */
DBG(DBG_CONTROL, DBG_log("install_ipsec_sa() %s"
, inbound_also? "inbound and oubound" : "outbound only"));
switch (could_route(st->st_connection))
{
case route_easy:
case route_nearconflict:
break;
default:
return FALSE;
}
#endif /* !KLIPS */
return TRUE;
}
/* delete an IPSEC SA.
* we may not succeed, but we bull ahead anyway because
* we cannot do anything better by recognizing failure
*/
void delete_ipsec_sa(struct state *st USED_BY_KLIPS,
bool inbound_only USED_BY_KLIPS)
{
#ifdef KLIPS
if (!inbound_only)
{
/* If the state is the eroute owner, we must adjust
* the routing for the connection.
*/
struct connection *c = st->st_connection;
struct spd_route *sr;
passert(st->st_connection);
for (sr = &c->spd; sr; sr = sr->next)
{
if (sr->eroute_owner == st->st_serialno
&& sr->routing == RT_ROUTED_TUNNEL)
{
sr->eroute_owner = SOS_NOBODY;
/* Routing should become RT_ROUTED_FAILURE,
* but if POLICY_FAIL_NONE, then we just go
* right back to RT_ROUTED_PROSPECTIVE as if no
* failure happened.
*/
sr->routing = (c->policy & POLICY_FAIL_MASK) == POLICY_FAIL_NONE
? RT_ROUTED_PROSPECTIVE : RT_ROUTED_FAILURE;
(void) do_command(c, sr, "down");
if ((c->policy & POLICY_DONT_REKEY) && c->kind == CK_INSTANCE)
{
/* in this special case, even if the connection
* is still alive (due to an ISAKMP SA),
* we get rid of routing.
* Even though there is still an eroute, the c->routing
* setting will convince unroute_connection to delete it.
* unroute_connection would be upset if c->routing == RT_ROUTED_TUNNEL
*/
unroute_connection(c);
}
else
{
(void) shunt_eroute(c, sr, sr->routing, ERO_REPLACE, "replace with shunt");
}
}
}
(void) teardown_half_ipsec_sa(st, FALSE);
}
(void) teardown_half_ipsec_sa(st, TRUE);
#else /* !KLIPS */
DBG(DBG_CONTROL, DBG_log("if I knew how, I'd eroute() and teardown_ipsec_sa()"));
#endif /* !KLIPS */
}
#ifdef KLIPS
static bool update_nat_t_ipsec_esp_sa (struct state *st, bool inbound)
{
struct connection *c = st->st_connection;
char text_said[SATOT_BUF];
struct kernel_sa sa;
ip_address
src = inbound? c->spd.that.host_addr : c->spd.this.host_addr,
dst = inbound? c->spd.this.host_addr : c->spd.that.host_addr;
ipsec_spi_t esp_spi = inbound? st->st_esp.our_spi : st->st_esp.attrs.spi;
u_int16_t
natt_sport = inbound? c->spd.that.host_port : c->spd.this.host_port,
natt_dport = inbound? c->spd.this.host_port : c->spd.that.host_port;
set_text_said(text_said, &dst, esp_spi, SA_ESP);
memset(&sa, 0, sizeof(sa));
sa.spi = esp_spi;
sa.src = &src;
sa.dst = &dst;
sa.text_said = text_said;
sa.authalg = alg_info_esp_aa2sadb(st->st_esp.attrs.auth);
sa.natt_sport = natt_sport;
sa.natt_dport = natt_dport;
sa.transid = st->st_esp.attrs.transid;
return kernel_ops->add_sa(&sa, TRUE);
}
#endif
bool update_ipsec_sa (struct state *st USED_BY_KLIPS)
{
#ifdef KLIPS
if (IS_IPSEC_SA_ESTABLISHED(st->st_state))
{
if (st->st_esp.present && (
(!update_nat_t_ipsec_esp_sa (st, TRUE)) ||
(!update_nat_t_ipsec_esp_sa (st, FALSE))))
{
return FALSE;
}
}
else if (IS_ONLY_INBOUND_IPSEC_SA_ESTABLISHED(st->st_state))
{
if (st->st_esp.present && !update_nat_t_ipsec_esp_sa (st, FALSE))
{
return FALSE;
}
}
else
{
DBG_log("assert failed at %s:%d st_state=%d", __FILE__, __LINE__, st->st_state);
return FALSE;
}
return TRUE;
#else /* !KLIPS */
DBG(DBG_CONTROL, DBG_log("if I knew how, I'd update_ipsec_sa()"));
return TRUE;
#endif /* !KLIPS */
}
/* Check if there was traffic on given SA during the last idle_max
* seconds. If TRUE, the SA was idle and DPD exchange should be performed.
* If FALSE, DPD is not necessary. We also return TRUE for errors, as they
* could mean that the SA is broken and needs to be replace anyway.
*/
bool was_eroute_idle(struct state *st, time_t idle_max, time_t *idle_time)
{
static const char procname[] = "/proc/net/ipsec_spi";
FILE *f;
char buf[1024];
u_int bytes;
int ret = TRUE;
passert(st != NULL);
f = fopen(procname, "r");
if (f == NULL)
{
/* Can't open the file, perhaps were are on 26sec? */
time_t use_time;
if (get_sa_info(st, TRUE, &bytes, &use_time) && use_time != UNDEFINED_TIME)
{
*idle_time = time(NULL) - use_time;
ret = *idle_time >= idle_max;
}
}
else
{
while (f != NULL)
{
char *line;
char text_said[SATOT_BUF];
u_int8_t proto = 0;
ip_address dst;
ip_said said;
ipsec_spi_t spi = 0;
static const char idle[] = "idle=";
dst = st->st_connection->spd.this.host_addr; /* inbound SA */
if (st->st_ah.present)
{
proto = SA_AH;
spi = st->st_ah.our_spi;
}
if (st->st_esp.present)
{
proto = SA_ESP;
spi = st->st_esp.our_spi;
}
if (proto == 0 && spi == 0)
{
ret = TRUE;
break;
}
initsaid(&dst, spi, proto, &said);
satot(&said, 'x', text_said, SATOT_BUF);
line = fgets(buf, sizeof(buf), f);
if (line == NULL)
{
/* Reached end of list */
ret = TRUE;
break;
}
if (strneq(line, text_said, strlen(text_said)))
{
/* we found a match, now try to find idle= */
char *p = strstr(line, idle);
if (p == NULL)
{
/* SAs which haven't been used yet don't have it */
ret = TRUE; /* it didn't have traffic */
break;
}
p += sizeof(idle)-1;
if (*p == '\0')
{
ret = TRUE; /* be paranoid */
break;
}
if (sscanf(p, "%d", (int *) idle_time) <= 0)
{
ret = TRUE;
break;
}
if (*idle_time >= idle_max)
{
ret = TRUE;
break;
}
else
{
ret = FALSE;
break;
}
}
}
fclose(f);
}
return ret;
}
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