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|
/* $OpenBSD: ip_ipsp.c,v 1.59 1999/12/08 06:06:43 itojun Exp $ */
/*
* The authors of this code are John Ioannidis (ji@tla.org),
* Angelos D. Keromytis (kermit@csd.uch.gr),
* Niels Provos (provos@physnet.uni-hamburg.de) and
* Niklas Hallqvist (niklas@appli.se).
*
* This code was written by John Ioannidis for BSD/OS in Athens, Greece,
* in November 1995.
*
* Ported to OpenBSD and NetBSD, with additional transforms, in December 1996,
* by Angelos D. Keromytis.
*
* Additional transforms and features in 1997 and 1998 by Angelos D. Keromytis
* and Niels Provos.
*
* Additional features in 1999 by Angelos D. Keromytis and Niklas Hallqvist.
*
* Copyright (c) 1995, 1996, 1997, 1998, 1999 by John Ioannidis,
* Angelos D. Keromytis and Niels Provos.
* Copyright (c) 1999 Niklas Hallqvist.
*
* Permission to use, copy, and modify this software without fee
* is hereby granted, provided that this entire notice is included in
* all copies of any software which is or includes a copy or
* modification of this software.
* You may use this code under the GNU public license if you so wish. Please
* contribute changes back to the authors under this freer than GPL license
* so that we may further the use of strong encryption without limitations to
* all.
*
* THIS SOFTWARE IS BEING PROVIDED "AS IS", WITHOUT ANY EXPRESS OR
* IMPLIED WARRANTY. IN PARTICULAR, NONE OF THE AUTHORS MAKES ANY
* REPRESENTATION OR WARRANTY OF ANY KIND CONCERNING THE
* MERCHANTABILITY OF THIS SOFTWARE OR ITS FITNESS FOR ANY PARTICULAR
* PURPOSE.
*/
/*
* IPSP Processing
*/
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/malloc.h>
#include <sys/mbuf.h>
#include <sys/domain.h>
#include <sys/protosw.h>
#include <sys/socket.h>
#include <sys/socketvar.h>
#include <sys/errno.h>
#include <sys/time.h>
#include <sys/kernel.h>
#include <sys/proc.h>
#include <net/if.h>
#include <net/route.h>
#include <netinet/in.h>
#include <netinet/in_systm.h>
#include <netinet/ip.h>
#include <netinet/in_pcb.h>
#include <netinet/in_var.h>
#include <netinet/ip_var.h>
#include <netinet/ip_icmp.h>
#include <net/raw_cb.h>
#include <net/pfkeyv2.h>
#include <netinet/ip_ipsp.h>
#include <netinet/ip_ah.h>
#include <netinet/ip_esp.h>
#include <dev/rndvar.h>
#ifdef DDB
#include <ddb/db_output.h>
void tdb_hashstats(void);
#endif
#ifdef ENCDEBUG
#define DPRINTF(x) if (encdebug) printf x
#else
#define DPRINTF(x)
#endif
#ifdef __GNUC__
#define INLINE static __inline
#endif
int ipsp_kern __P((int, char **, int));
u_int8_t get_sa_require __P((struct inpcb *));
int check_ipsec_policy __P((struct inpcb *, u_int32_t));
void tdb_rehash __P((void));
extern int ipsec_auth_default_level;
extern int ipsec_esp_trans_default_level;
extern int ipsec_esp_network_default_level;
extern int encdebug;
int ipsec_in_use = 0;
u_int32_t kernfs_epoch = 0;
struct expclusterlist_head expclusterlist =
TAILQ_HEAD_INITIALIZER(expclusterlist);
struct explist_head explist = TAILQ_HEAD_INITIALIZER(explist);
u_int8_t hmac_ipad_buffer[64] = {
0x36, 0x36, 0x36, 0x36, 0x36, 0x36, 0x36, 0x36,
0x36, 0x36, 0x36, 0x36, 0x36, 0x36, 0x36, 0x36,
0x36, 0x36, 0x36, 0x36, 0x36, 0x36, 0x36, 0x36,
0x36, 0x36, 0x36, 0x36, 0x36, 0x36, 0x36, 0x36,
0x36, 0x36, 0x36, 0x36, 0x36, 0x36, 0x36, 0x36,
0x36, 0x36, 0x36, 0x36, 0x36, 0x36, 0x36, 0x36,
0x36, 0x36, 0x36, 0x36, 0x36, 0x36, 0x36, 0x36,
0x36, 0x36, 0x36, 0x36, 0x36, 0x36, 0x36, 0x36 };
u_int8_t hmac_opad_buffer[64] = {
0x5C, 0x5C, 0x5C, 0x5C, 0x5C, 0x5C, 0x5C, 0x5C,
0x5C, 0x5C, 0x5C, 0x5C, 0x5C, 0x5C, 0x5C, 0x5C,
0x5C, 0x5C, 0x5C, 0x5C, 0x5C, 0x5C, 0x5C, 0x5C,
0x5C, 0x5C, 0x5C, 0x5C, 0x5C, 0x5C, 0x5C, 0x5C,
0x5C, 0x5C, 0x5C, 0x5C, 0x5C, 0x5C, 0x5C, 0x5C,
0x5C, 0x5C, 0x5C, 0x5C, 0x5C, 0x5C, 0x5C, 0x5C,
0x5C, 0x5C, 0x5C, 0x5C, 0x5C, 0x5C, 0x5C, 0x5C,
0x5C, 0x5C, 0x5C, 0x5C, 0x5C, 0x5C, 0x5C, 0x5C };
/*
* This is the proper place to define the various encapsulation transforms.
*/
struct xformsw xformsw[] = {
{ XF_IP4, 0, "IPv4 Simple Encapsulation",
ipe4_attach, ipe4_init, ipe4_zeroize,
(struct mbuf * (*)(struct mbuf *, struct tdb *, int, int))ipe4_input,
ipe4_output, },
{ XF_OLD_AH, XFT_AUTH, "Keyed Authentication, RFC 1828/1852",
ah_old_attach, ah_old_init, ah_old_zeroize,
ah_old_input, ah_old_output, },
{ XF_OLD_ESP, XFT_CONF, "Simple Encryption, RFC 1829/1851",
esp_old_attach, esp_old_init, esp_old_zeroize,
esp_old_input, esp_old_output, },
{ XF_NEW_AH, XFT_AUTH, "HMAC Authentication",
ah_new_attach, ah_new_init, ah_new_zeroize,
ah_new_input, ah_new_output, },
{ XF_NEW_ESP, XFT_CONF|XFT_AUTH,
"Encryption + Authentication + Replay Protection",
esp_new_attach, esp_new_init, esp_new_zeroize,
esp_new_input, esp_new_output, },
#ifdef TCP_SIGNATURE
{ XF_TCPSIGNATURE, XFT_AUTH, "TCP MD5 Signature Option, RFC 2385",
tcp_signature_tdb_attach, tcp_signature_tdb_init,
tcp_signature_tdb_zeroize, tcp_signature_tdb_input,
tcp_signature_tdb_output, }
#endif /* TCP_SIGNATURE */
};
struct xformsw *xformswNXFORMSW = &xformsw[sizeof(xformsw)/sizeof(xformsw[0])];
unsigned char ipseczeroes[IPSEC_ZEROES_SIZE]; /* zeroes! */
#define TDB_HASHSIZE_INIT 32
static struct tdb **tdbh = NULL, *tdb_bypass = NULL;
static u_int tdb_hashmask = TDB_HASHSIZE_INIT - 1;
static int tdb_count;
/*
* Check which transformationes are required
*/
u_int8_t
get_sa_require(struct inpcb *inp)
{
u_int8_t sareq = 0;
if (inp != NULL)
{
sareq |= inp->inp_seclevel[SL_AUTH] >= IPSEC_LEVEL_USE ?
NOTIFY_SATYPE_AUTH : 0;
sareq |= inp->inp_seclevel[SL_ESP_TRANS] >= IPSEC_LEVEL_USE ?
NOTIFY_SATYPE_CONF : 0;
sareq |= inp->inp_seclevel[SL_ESP_NETWORK] >= IPSEC_LEVEL_USE ?
NOTIFY_SATYPE_TUNNEL : 0;
}
else
{
sareq |= ipsec_auth_default_level >= IPSEC_LEVEL_USE ?
NOTIFY_SATYPE_AUTH : 0;
sareq |= ipsec_esp_trans_default_level >= IPSEC_LEVEL_USE ?
NOTIFY_SATYPE_CONF : 0;
sareq |= ipsec_esp_network_default_level >= IPSEC_LEVEL_USE ?
NOTIFY_SATYPE_TUNNEL : 0;
}
return (sareq);
}
/*
* Check the socket policy and request a new SA with a key management
* daemon. Sometime the inp does not contain the destination address
* in that case use dst.
*/
/* XXX Make IPv6 compliant */
int
check_ipsec_policy(struct inpcb *inp, u_int32_t daddr)
{
union sockaddr_union sunion;
struct socket *so;
struct route_enc re0, *re = &re0;
struct sockaddr_encap *dst;
u_int8_t sa_require, sa_have;
int error, i, s;
struct tdb *tdb = NULL;
if (inp == NULL || ((so = inp->inp_socket) == 0))
return (EINVAL);
/* If IPSEC is not required just use what we got */
if (!(sa_require = inp->inp_secrequire))
return 0;
s = spltdb();
if (!inp->inp_tdb)
{
bzero((caddr_t) re, sizeof(*re));
dst = (struct sockaddr_encap *) &re->re_dst;
dst->sen_family = PF_KEY;
dst->sen_len = SENT_IP4_LEN;
dst->sen_type = SENT_IP4;
dst->sen_ip_src = inp->inp_laddr;
dst->sen_ip_dst.s_addr = inp->inp_faddr.s_addr ?
inp->inp_faddr.s_addr : daddr;
dst->sen_proto = so->so_proto->pr_protocol;
switch (dst->sen_proto)
{
case IPPROTO_UDP:
case IPPROTO_TCP:
dst->sen_sport = inp->inp_lport;
dst->sen_dport = inp->inp_fport;
break;
default:
dst->sen_sport = 0;
dst->sen_dport = 0;
}
/* Try to find a flow */
rtalloc((struct route *) re);
if (re->re_rt != NULL)
{
struct sockaddr_encap *gw;
gw = (struct sockaddr_encap *) (re->re_rt->rt_gateway);
if (gw->sen_type == SENT_IPSP)
{
bzero(&sunion, sizeof(sunion));
sunion.sin.sin_family = AF_INET;
sunion.sin.sin_len = sizeof(struct sockaddr_in);
sunion.sin.sin_addr = gw->sen_ipsp_dst;
tdb = (struct tdb *) gettdb(gw->sen_ipsp_spi, &sunion,
gw->sen_ipsp_sproto);
}
RTFREE(re->re_rt);
}
} else
tdb = inp->inp_tdb;
if (tdb)
SPI_CHAIN_ATTRIB(sa_have, tdb_onext, tdb);
else
sa_have = 0;
splx(s);
/* Check if our requirements are met */
if (!(sa_require & ~sa_have))
return 0;
error = i = 0;
inp->inp_secresult = SR_WAIT;
/* If necessary try to notify keymanagement three times */
while (i < 3)
{
switch (dst->sen_type)
{
case SENT_IPSP:
DPRINTF(("ipsec: send SA request (%d), remote IPv4 address: %s, SA type: %d\n", i + 1, inet_ntoa4(dst->sen_ip_dst), sa_require));
break;
#ifdef INET6
case SENT_IPSP6:
DPRINTF(("ipsec: send SA request (%d), remote IPv6 address: %s, SA type: %d\n", i + 1, inet6_ntoa4(dst->sen_ip6_dst), sa_require));
break;
#endif /* INET6 */
default:
DPRINTF(("ipsec: unsupported protocol family %d, cannot notify kkey management\n", dst->sen_type));
return EPFNOSUPPORT;
}
/* Send notify */
/* XXX PF_KEYv2 Notify */
/*
* Wait for the keymanagement daemon to establich a new SA,
* even on error check again, perhaps some other process
* already established the necessary SA.
*/
error = tsleep((caddr_t)inp, PSOCK|PCATCH, "ipsecnotify", 30*hz);
DPRINTF(("check_ipsec: sleep %d\n", error));
if (error && error != EWOULDBLOCK)
break;
/*
* A Key Management daemon returned an apropriate SA back
* to the kernel, the kernel noted that state in the waiting
* socket.
*/
if (inp->inp_secresult == SR_SUCCESS)
return (0);
/*
* Key Management returned a permanent failure, we do not
* need to retry again. XXX - when more than one key
* management daemon is available we can not do that.
*/
if (inp->inp_secresult == SR_FAILED)
break;
i++;
}
return (error ? error : EWOULDBLOCK);
}
/*
* Add an inpcb to the list of inpcb which reference this tdb directly.
*/
/* XXX Make IPv6 compliant */
void
tdb_add_inp(struct tdb *tdb, struct inpcb *inp)
{
int s = spltdb();
if (inp->inp_tdb)
{
if (inp->inp_tdb == tdb)
{
splx(s);
return;
}
TAILQ_REMOVE(&inp->inp_tdb->tdb_inp, inp, inp_tdb_next);
}
inp->inp_tdb = tdb;
TAILQ_INSERT_TAIL(&tdb->tdb_inp, inp, inp_tdb_next);
splx(s);
DPRINTF(("tdb_add_inp: tdb: %p, inp: %p\n", tdb, inp));
}
/*
* Reserve an SPI; the SA is not valid yet though. We use SPI_LOCAL_USE as
* an error return value. It'll not be a problem that we also use that
* for demand-keying as that is manually specified.
*/
u_int32_t
reserve_spi(u_int32_t sspi, u_int32_t tspi, union sockaddr_union *src,
union sockaddr_union *dst, u_int8_t sproto, int *errval)
{
struct tdb *tdbp;
u_int32_t spi;
int nums, s;
/* Don't accept ranges only encompassing reserved SPIs. */
if (tspi < sspi || tspi <= SPI_RESERVED_MAX)
{
(*errval) = EINVAL;
return 0;
}
/* Limit the range to not include reserved areas. */
if (sspi <= SPI_RESERVED_MAX)
sspi = SPI_RESERVED_MAX + 1;
if (sspi == tspi) /* Asking for a specific SPI */
nums = 1;
else
nums = 50; /* XXX figure out some good value */
while (nums--)
{
if (sspi == tspi) /* Specific SPI asked */
spi = tspi;
else /* Range specified */
{
get_random_bytes((void *) &spi, sizeof(spi));
spi = sspi + (spi % (tspi - sspi));
}
/* Don't allocate reserved SPIs. */
if (spi == SPI_LOCAL_USE ||
(spi >= SPI_RESERVED_MIN && spi <= SPI_RESERVED_MAX))
continue;
else
spi = htonl(spi);
/* Check whether we're using this SPI already */
s = spltdb();
tdbp = gettdb(spi, dst, sproto);
splx(s);
if (tdbp != (struct tdb *) NULL)
continue;
MALLOC(tdbp, struct tdb *, sizeof(struct tdb), M_TDB, M_WAITOK);
bzero((caddr_t) tdbp, sizeof(struct tdb));
tdbp->tdb_spi = spi;
bcopy(&dst->sa, &tdbp->tdb_dst.sa, SA_LEN(&dst->sa));
bcopy(&src->sa, &tdbp->tdb_src.sa, SA_LEN(&src->sa));
tdbp->tdb_sproto = sproto;
tdbp->tdb_flags |= TDBF_INVALID; /* Mark SA as invalid for now */
tdbp->tdb_satype = SADB_SATYPE_UNSPEC;
tdbp->tdb_established = time.tv_sec;
tdbp->tdb_epoch = kernfs_epoch - 1;
puttdb(tdbp);
/* XXX Should set up a silent expiration for this */
return spi;
}
(*errval) = EEXIST;
return 0;
}
/*
* Our hashing function needs to stir things with a non-zero random multiplier
* so we cannot be DoS-attacked via choosing of the data to hash.
*/
INLINE int
tdb_hash(u_int32_t spi, union sockaddr_union *dst, u_int8_t proto)
{
static u_int32_t mult1 = 0, mult2 = 0;
u_int8_t *ptr = (u_int8_t *) dst;
int i, shift;
u_int64_t hash;
int val32 = 0;
while (mult1 == 0)
mult1 = arc4random();
while (mult2 == 0)
mult2 = arc4random();
hash = (spi ^ proto) * mult1;
for (i = 0; i < SA_LEN(&dst->sa); i++)
{
val32 = (val32 << 8) | ptr[i];
if (i % 4 == 3)
{
hash ^= val32 * mult2;
val32 = 0;
}
}
if (i % 4 != 0)
hash ^= val32 * mult2;
shift = ffs(tdb_hashmask + 1);
while ((hash & ~tdb_hashmask) != 0)
hash = (hash >> shift) ^ (hash & tdb_hashmask);
return hash;
}
/*
* An IPSP SAID is really the concatenation of the SPI found in the
* packet, the destination address of the packet and the IPsec protocol.
* When we receive an IPSP packet, we need to look up its tunnel descriptor
* block, based on the SPI in the packet and the destination address (which
* is really one of our addresses if we received the packet!
*
* Caller is responsible for setting at least spltdb().
*/
struct tdb *
gettdb(u_int32_t spi, union sockaddr_union *dst, u_int8_t proto)
{
u_int32_t hashval;
struct tdb *tdbp;
int s;
if (spi == 0 && proto == 0)
{
/* tdb_bypass; a placeholder for bypass flows, allocate on first pass */
if (tdb_bypass == NULL)
{
s = spltdb();
MALLOC(tdb_bypass, struct tdb *, sizeof(struct tdb), M_TDB, M_WAITOK);
tdb_count++;
splx(s);
bzero(tdb_bypass, sizeof(struct tdb));
tdb_bypass->tdb_satype = SADB_X_SATYPE_BYPASS;
tdb_bypass->tdb_established = time.tv_sec;
tdb_bypass->tdb_epoch = kernfs_epoch - 1;
tdb_bypass->tdb_flags = 0;
TAILQ_INIT(&tdb_bypass->tdb_bind_in);
TAILQ_INIT(&tdb_bypass->tdb_inp);
}
return tdb_bypass;
}
if (tdbh == NULL)
return (struct tdb *) NULL;
hashval = tdb_hash(spi, dst, proto);
for (tdbp = tdbh[hashval]; tdbp != NULL; tdbp = tdbp->tdb_hnext)
if ((tdbp->tdb_spi == spi) &&
!bcmp(&tdbp->tdb_dst, dst, SA_LEN(&dst->sa)) &&
(tdbp->tdb_sproto == proto))
break;
return tdbp;
}
#if DDB
void
tdb_hashstats()
{
int i, cnt, buckets[16];
struct tdb *tdbp;
if (tdbh == NULL)
{
db_printf("no tdb hash table\n");
return;
}
bzero (buckets, sizeof(buckets));
for (i = 0; i <= tdb_hashmask; i++)
{
cnt = 0;
for (tdbp = tdbh[i]; cnt < 16 && tdbp != NULL; tdbp = tdbp->tdb_hnext)
cnt++;
buckets[cnt]++;
}
db_printf("tdb cnt\t\tbucket cnt\n");
for (i = 0; i < 16; i++)
if (buckets[i] > 0)
db_printf("%d%c\t\t%d\n", i, i == 15 ? "+" : "", buckets[i]);
}
#endif /* DDB */
/*
* Caller is responsible for setting at least spltdb().
*/
int
tdb_walk(int (*walker)(struct tdb *, void *), void *arg)
{
int i, rval = 0;
struct tdb *tdbp, *next;
if (tdbh == NULL)
return ENOENT;
for (i = 0; i <= tdb_hashmask; i++)
for (tdbp = tdbh[i]; rval == 0 && tdbp != NULL; tdbp = next)
{
next = tdbp->tdb_hnext;
rval = walker(tdbp, (void *)arg);
}
return rval;
}
struct flow *
get_flow(void)
{
struct flow *flow;
MALLOC(flow, struct flow *, sizeof(struct flow), M_TDB, M_WAITOK);
bzero(flow, sizeof(struct flow));
ipsec_in_use++;
return flow;
}
/*
* Called at splsoftclock().
*/
void
handle_expirations(void *arg)
{
struct tdb *tdb;
for (tdb = TAILQ_FIRST(&explist);
tdb && tdb->tdb_timeout <= time.tv_sec;
tdb = TAILQ_FIRST(&explist))
{
/* Hard expirations first */
if ((tdb->tdb_flags & TDBF_TIMER) &&
(tdb->tdb_exp_timeout <= time.tv_sec))
{
pfkeyv2_expire(tdb, SADB_EXT_LIFETIME_HARD);
tdb_delete(tdb, 0, 0);
continue;
}
else
if ((tdb->tdb_flags & TDBF_FIRSTUSE) &&
(tdb->tdb_first_use + tdb->tdb_exp_first_use <= time.tv_sec))
{
pfkeyv2_expire(tdb, SADB_EXT_LIFETIME_HARD);
tdb_delete(tdb, 0, 0);
continue;
}
/* Soft expirations */
if ((tdb->tdb_flags & TDBF_SOFT_TIMER) &&
(tdb->tdb_soft_timeout <= time.tv_sec))
{
pfkeyv2_expire(tdb, SADB_EXT_LIFETIME_SOFT);
tdb->tdb_flags &= ~TDBF_SOFT_TIMER;
tdb_expiration(tdb, TDBEXP_EARLY);
}
else
if ((tdb->tdb_flags & TDBF_SOFT_FIRSTUSE) &&
(tdb->tdb_first_use + tdb->tdb_soft_first_use <=
time.tv_sec))
{
pfkeyv2_expire(tdb, SADB_EXT_LIFETIME_SOFT);
tdb->tdb_flags &= ~TDBF_SOFT_FIRSTUSE;
tdb_expiration(tdb, TDBEXP_EARLY);
}
}
/* If any tdb is left on the expiration queue, set the timer. */
if (tdb)
timeout(handle_expirations, (void *) NULL,
hz * (tdb->tdb_timeout - time.tv_sec));
}
/*
* Ensure the tdb is in the right place in the expiration list.
*/
void
tdb_expiration(struct tdb *tdb, int flags)
{
u_int64_t next_timeout = 0;
struct tdb *t, *former_expirer, *next_expirer;
int will_be_first, sole_reason, early;
int s = spltdb();
/*
* If this is the local use SPI, this is an SPD entry, so don't setup any
* timers.
*/
if (ntohl(tdb->tdb_spi) == SPI_LOCAL_USE)
{
splx(s);
return;
}
/* Find the earliest expiration. */
if ((tdb->tdb_flags & TDBF_FIRSTUSE) && tdb->tdb_first_use != 0 &&
(next_timeout == 0 ||
next_timeout > tdb->tdb_first_use + tdb->tdb_exp_first_use))
next_timeout = tdb->tdb_first_use + tdb->tdb_exp_first_use;
if ((tdb->tdb_flags & TDBF_SOFT_FIRSTUSE) && tdb->tdb_first_use != 0 &&
(next_timeout == 0 ||
next_timeout > tdb->tdb_first_use + tdb->tdb_soft_first_use))
next_timeout = tdb->tdb_first_use + tdb->tdb_soft_first_use;
if ((tdb->tdb_flags & TDBF_TIMER) &&
(next_timeout == 0 || next_timeout > tdb->tdb_exp_timeout))
next_timeout = tdb->tdb_exp_timeout;
if ((tdb->tdb_flags & TDBF_SOFT_TIMER) &&
(next_timeout == 0 || next_timeout > tdb->tdb_soft_timeout))
next_timeout = tdb->tdb_soft_timeout;
/* No change? */
if (next_timeout == tdb->tdb_timeout)
{
splx(s);
return;
}
/*
* Find out some useful facts: Will our tdb be first to expire?
* Was our tdb the sole reason for the old timeout?
*/
former_expirer = TAILQ_FIRST(&expclusterlist);
next_expirer = TAILQ_NEXT(tdb, tdb_explink);
will_be_first = (next_timeout != 0 &&
(former_expirer == NULL ||
next_timeout < former_expirer->tdb_timeout));
sole_reason = (tdb == former_expirer &&
(next_expirer == NULL ||
tdb->tdb_timeout != next_expirer->tdb_timeout));
/*
* We need to untimeout if either:
* - there is an expiration pending and the new timeout is earlier than
* what already exists or
* - the existing first expiration is due to our old timeout value solely
*/
if ((former_expirer != NULL && will_be_first) || sole_reason)
untimeout(handle_expirations, (void *) NULL);
/*
* We need to timeout if we've been asked to and if either
* - our tdb has a timeout and no former expiration exist or
* - the new timeout is earlier than what already exists or
* - the existing first expiration is due to our old timeout value solely
* and another expiration is in the pipe.
*/
if ((flags & TDBEXP_TIMEOUT) &&
(will_be_first || (sole_reason && next_expirer != NULL)))
timeout(handle_expirations, (void *) NULL,
hz * ((will_be_first ? next_timeout :
next_expirer->tdb_timeout) - time.tv_sec));
/* Our old position, if any, is not relevant anymore. */
if (tdb->tdb_timeout != 0)
{
if (tdb->tdb_expnext.tqe_prev != NULL)
{
if (next_expirer && tdb->tdb_timeout == next_expirer->tdb_timeout)
TAILQ_INSERT_BEFORE(tdb, next_expirer, tdb_expnext);
TAILQ_REMOVE(&expclusterlist, tdb, tdb_expnext);
tdb->tdb_expnext.tqe_prev = NULL;
}
TAILQ_REMOVE(&explist, tdb, tdb_explink);
}
tdb->tdb_timeout = next_timeout;
if (next_timeout == 0)
{
splx(s);
return;
}
/*
* Search front-to-back if we believe we will end up early, otherwise
* back-to-front.
*/
early = will_be_first || (flags & TDBEXP_EARLY);
for (t = (early ? TAILQ_FIRST(&expclusterlist) :
TAILQ_LAST(&expclusterlist, expclusterlist_head));
t != NULL && (early ? (t->tdb_timeout <= next_timeout) :
(t->tdb_timeout > next_timeout));
t = (early ? TAILQ_NEXT(t, tdb_expnext) :
TAILQ_PREV(t, expclusterlist_head, tdb_expnext)))
;
if (t == (early ? TAILQ_FIRST(&expclusterlist) : NULL))
{
/* We are to become the first expiration. */
TAILQ_INSERT_HEAD(&expclusterlist, tdb, tdb_expnext);
TAILQ_INSERT_HEAD(&explist, tdb, tdb_explink);
}
else
{
if (early)
t = (t ? TAILQ_PREV(t, expclusterlist_head, tdb_expnext) :
TAILQ_LAST(&expclusterlist, expclusterlist_head));
if (TAILQ_NEXT(t, tdb_expnext))
TAILQ_INSERT_BEFORE(TAILQ_NEXT(t, tdb_expnext), tdb, tdb_explink);
else
TAILQ_INSERT_TAIL(&explist, tdb, tdb_explink);
if (t->tdb_timeout < next_timeout)
TAILQ_INSERT_AFTER(&expclusterlist, t, tdb, tdb_expnext);
}
#ifdef DIAGNOSTIC
/*
* Check various invariants.
*/
if (tdb->tdb_expnext.tqe_prev != NULL)
{
t = TAILQ_FIRST(&expclusterlist);
if (t != tdb && t->tdb_timeout >= tdb->tdb_timeout)
panic("tdb_expiration: "
"expclusterlist first link out of order (%p, %p)",
tdb, t);
t = TAILQ_PREV(tdb, expclusterlist_head, tdb_expnext);
if (t != NULL && t->tdb_timeout >= tdb->tdb_timeout)
panic("tdb_expiration: "
"expclusterlist prev link out of order (%p, %p)",
tdb, t);
else if (t == NULL && tdb != TAILQ_FIRST(&expclusterlist))
panic("tdb_expiration: "
"expclusterlist first link out of order (%p, %p)",
tdb, TAILQ_FIRST(&expclusterlist));
t = TAILQ_NEXT(tdb, tdb_expnext);
if (t != NULL && t->tdb_timeout <= tdb->tdb_timeout)
panic("tdb_expiration: "
"expclusterlist next link out of order (%p, %p)",
tdb, t);
else if (t == NULL &&
tdb != TAILQ_LAST(&expclusterlist, expclusterlist_head))
panic("tdb_expiration: "
"expclusterlist last link out of order (%p, %p)",
tdb, TAILQ_LAST(&expclusterlist, expclusterlist_head));
t = TAILQ_LAST(&expclusterlist, expclusterlist_head);
if (t != tdb && t->tdb_timeout <= tdb->tdb_timeout)
panic("tdb_expiration: "
"expclusterlist last link out of order (%p, %p)",
tdb, t);
}
t = TAILQ_FIRST(&explist);
if (t != NULL && t->tdb_timeout > tdb->tdb_timeout)
panic("tdb_expiration: explist first link out of order (%p, %p)", tdb,
t);
t = TAILQ_PREV(tdb, explist_head, tdb_explink);
if (t != NULL && t->tdb_timeout > tdb->tdb_timeout)
panic("tdb_expiration: explist prev link out of order (%p, %p)", tdb, t);
else if (t == NULL && tdb != TAILQ_FIRST(&explist))
panic("tdb_expiration: explist first link out of order (%p, %p)", tdb,
TAILQ_FIRST(&explist));
t = TAILQ_NEXT(tdb, tdb_explink);
if (t != NULL && t->tdb_timeout < tdb->tdb_timeout)
panic("tdb_expiration: explist next link out of order (%p, %p)", tdb, t);
else if (t == NULL && tdb != TAILQ_LAST(&explist, explist_head))
panic("tdb_expiration: explist last link out of order (%p, %p)", tdb,
TAILQ_LAST(&explist, explist_head));
t = TAILQ_LAST(&explist, explist_head);
if (t != tdb && t->tdb_timeout < tdb->tdb_timeout)
panic("tdb_expiration: explist last link out of order (%p, %p)", tdb, t);
#endif
splx(s);
}
/*
* Caller is responsible for setting at least spltdb().
*/
struct flow *
find_flow(union sockaddr_union *src, union sockaddr_union *srcmask,
union sockaddr_union *dst, union sockaddr_union *dstmask,
u_int8_t proto, struct tdb *tdb)
{
struct flow *flow;
for (flow = tdb->tdb_flow; flow; flow = flow->flow_next)
if (!bcmp(&src->sa, &flow->flow_src.sa, SA_LEN(&src->sa)) &&
!bcmp(&dst->sa, &flow->flow_dst.sa, SA_LEN(&dst->sa)) &&
!bcmp(&srcmask->sa, &flow->flow_srcmask.sa, SA_LEN(&srcmask->sa)) &&
!bcmp(&dstmask->sa, &flow->flow_dstmask.sa, SA_LEN(&dstmask->sa)) &&
(proto == flow->flow_proto))
return flow;
return (struct flow *) NULL;
}
/*
* Caller is responsible for setting at least spltdb().
*/
struct flow *
find_global_flow(union sockaddr_union *src, union sockaddr_union *srcmask,
union sockaddr_union *dst, union sockaddr_union *dstmask,
u_int8_t proto)
{
struct flow *flow;
struct tdb *tdb;
int i;
if (tdbh == NULL)
return (struct flow *) NULL;
if (tdb_bypass != NULL)
if ((flow = find_flow(src, srcmask, dst, dstmask, proto, tdb_bypass))
!= (struct flow *) NULL)
return flow;
for (i = 0; i <= tdb_hashmask; i++)
{
for (tdb = tdbh[i]; tdb != NULL; tdb = tdb->tdb_hnext)
if ((flow = find_flow(src, srcmask, dst, dstmask, proto, tdb)) !=
(struct flow *) NULL)
return flow;
}
return (struct flow *) NULL;
}
/*
* Caller is responsible for spltdb().
*/
void
tdb_rehash(void)
{
struct tdb **new_tdbh, *tdbp, *tdbnp;
u_int i, old_hashmask = tdb_hashmask;
u_int32_t hashval;
tdb_hashmask = (tdb_hashmask << 1) | 1;
MALLOC(new_tdbh, struct tdb **, sizeof(struct tdb *) * (tdb_hashmask + 1),
M_TDB, M_WAITOK);
bzero(new_tdbh, sizeof(struct tdb *) * (tdb_hashmask + 1));
for (i = 0; i <= old_hashmask; i++)
for (tdbp = tdbh[i]; tdbp != NULL; tdbp = tdbnp)
{
tdbnp = tdbp->tdb_hnext;
hashval = tdb_hash(tdbp->tdb_spi, &tdbp->tdb_dst, tdbp->tdb_sproto);
tdbp->tdb_hnext = new_tdbh[hashval];
new_tdbh[hashval] = tdbp;
}
FREE(tdbh, M_TDB);
tdbh = new_tdbh;
}
void
puttdb(struct tdb *tdbp)
{
u_int32_t hashval;
int s = spltdb();
if (tdbh == NULL)
{
MALLOC(tdbh, struct tdb **, sizeof(struct tdb *) * (tdb_hashmask + 1),
M_TDB, M_WAITOK);
bzero(tdbh, sizeof(struct tdb *) * (tdb_hashmask + 1));
}
hashval = tdb_hash(tdbp->tdb_spi, &tdbp->tdb_dst, tdbp->tdb_sproto);
/*
* Rehash if this tdb would cause a bucket to have more than two items
* and if the number of tdbs exceed 10% of the bucket count. This
* number is arbitratily chosen and is just a measure to not keep rehashing
* when adding and removing tdbs which happens to always end up in the
* same bucket, which is not uncommon when doing manual keying.
*/
if (tdbh[hashval] != NULL && tdbh[hashval]->tdb_hnext != NULL &&
tdb_count * 10 > tdb_hashmask + 1)
{
tdb_rehash();
hashval = tdb_hash(tdbp->tdb_spi, &tdbp->tdb_dst, tdbp->tdb_sproto);
}
tdbp->tdb_hnext = tdbh[hashval];
tdbh[hashval] = tdbp;
tdb_count++;
splx(s);
}
/*
* Caller is responsible for setting at least spltdb().
*/
void
put_flow(struct flow *flow, struct tdb *tdb)
{
flow->flow_next = tdb->tdb_flow;
flow->flow_prev = (struct flow *) NULL;
tdb->tdb_flow = flow;
flow->flow_sa = tdb;
if (flow->flow_next)
flow->flow_next->flow_prev = flow;
}
/*
* Caller is responsible for setting at least spltdb().
*/
void
delete_flow(struct flow *flow, struct tdb *tdb)
{
if (tdb)
{
if (tdb->tdb_flow == flow)
{
tdb->tdb_flow = flow->flow_next;
if (tdb->tdb_flow)
tdb->tdb_flow->flow_prev = (struct flow *) NULL;
}
else
{
flow->flow_prev->flow_next = flow->flow_next;
if (flow->flow_next)
flow->flow_next->flow_prev = flow->flow_prev;
}
}
ipsec_in_use--;
FREE(flow, M_TDB);
}
void
tdb_delete(struct tdb *tdbp, int delchain, int expflags)
{
struct tdb *tdbpp;
struct inpcb *inp;
u_int32_t hashval = tdbp->tdb_sproto + tdbp->tdb_spi;
int s;
/* When deleting the bypass tdb, skip the hash table code. */
if (tdbp == tdb_bypass && tdbp != NULL)
{
s = spltdb();
delchain = 0;
goto skip_hash;
}
if (tdbh == NULL)
return;
hashval = tdb_hash(tdbp->tdb_spi, &tdbp->tdb_dst, tdbp->tdb_sproto);
s = spltdb();
if (tdbh[hashval] == tdbp)
{
tdbpp = tdbp;
tdbh[hashval] = tdbp->tdb_hnext;
}
else
for (tdbpp = tdbh[hashval]; tdbpp != NULL; tdbpp = tdbpp->tdb_hnext)
if (tdbpp->tdb_hnext == tdbp)
{
tdbpp->tdb_hnext = tdbp->tdb_hnext;
tdbpp = tdbp;
}
skip_hash:
/*
* If there was something before us in the chain pointing to us,
* make it point nowhere
*/
if ((tdbp->tdb_inext) &&
(tdbp->tdb_inext->tdb_onext == tdbp))
tdbp->tdb_inext->tdb_onext = NULL;
/*
* If there was something after us in the chain pointing to us,
* make it point nowhere
*/
if ((tdbp->tdb_onext) &&
(tdbp->tdb_onext->tdb_inext == tdbp))
tdbp->tdb_onext->tdb_inext = NULL;
tdbpp = tdbp->tdb_onext;
if (tdbp->tdb_xform)
(*(tdbp->tdb_xform->xf_zeroize))(tdbp);
while (tdbp->tdb_flow)
{
/* Delete the flow and the routing entry that goes with it. */
struct sockaddr_encap encapdst, encapnetmask;
bzero(&encapdst, sizeof(struct sockaddr_encap));
bzero(&encapnetmask, sizeof(struct sockaddr_encap));
encapdst.sen_family = PF_KEY;
encapnetmask.sen_family = PF_KEY;
switch (tdbp->tdb_flow->flow_src.sa.sa_family)
{
case AF_INET:
encapdst.sen_len = SENT_IP4_LEN;
encapdst.sen_type = SENT_IP4;
encapdst.sen_ip_src = tdbp->tdb_flow->flow_src.sin.sin_addr;
encapdst.sen_ip_dst = tdbp->tdb_flow->flow_dst.sin.sin_addr;
encapdst.sen_proto = tdbp->tdb_flow->flow_proto;
encapdst.sen_sport = tdbp->tdb_flow->flow_src.sin.sin_port;
encapdst.sen_dport = tdbp->tdb_flow->flow_dst.sin.sin_port;
encapnetmask.sen_ip_src = tdbp->tdb_flow->flow_srcmask.sin.sin_addr;
encapnetmask.sen_ip_dst = tdbp->tdb_flow->flow_dstmask.sin.sin_addr;
/* Mask transport protocol and ports if applicable */
if (tdbp->tdb_flow->flow_proto)
{
encapnetmask.sen_proto = 0xff;
if (tdbp->tdb_flow->flow_src.sin.sin_port)
encapnetmask.sen_sport = 0xffff;
if (tdbp->tdb_flow->flow_dst.sin.sin_port)
encapnetmask.sen_dport = 0xffff;
}
break;
#if INET6
case AF_INET6:
encapdst.sen_len = SENT_IP6_LEN;
encapdst.sen_type = SENT_IP6;
encapdst.sen_ip6_src = tdbp->tdb_flow->flow_src.sin6.sin6_addr;
encapdst.sen_ip6_dst = tdbp->tdb_flow->flow_dst.sin6.sin6_addr;
encapdst.sen_ip6_proto = tdbp->tdb_flow->flow_proto;
encapdst.sen_ip6_sport = tdbp->tdb_flow->flow_src.sin6.sin6_port;
encapdst.sen_ip6_dport = tdbp->tdb_flow->flow_dst.sin6.sin6_port;
encapnetmask.sen_ip6_src = tdbp->tdb_flow->flow_srcmask.sin6.sin6_addr;
encapnetmask.sen_ip6_dst = tdbp->tdb_flow->flow_dstmask.sin6.sin6_addr;
/* Mask transport protocol and ports if applicable */
if (tdbp->tdb_flow->flow_proto)
{
encapnetmask.sen_ip6_proto = 0xff;
if (tdbp->tdb_flow->flow_src.sin6.sin6_port)
encapnetmask.sen_ip6_sport = 0xffff;
if (tdbp->tdb_flow->flow_dst.sin6.sin6_port)
encapnetmask.sen_ip6_dport = 0xffff;
}
break;
#endif /* INET6 */
default:
#ifdef DIAGNOSTIC
panic("tdb_delete(): SA %s/%08x/%d has flow of unknown type %d", ipsp_address(tdbp->tdb_dst), ntohl(tdbp->tdb_spi), tdbp->tdb_sproto, tdbp->tdb_flow->flow_src.sa.sa_family);
#endif /* DIAGNOSTIC */
delete_flow(tdbp->tdb_flow, tdbp);
continue;
}
/* Always the same type for address and netmask */
encapnetmask.sen_len = encapdst.sen_len;
encapnetmask.sen_type = encapdst.sen_type;
rtrequest(RTM_DELETE, (struct sockaddr *) &encapdst,
(struct sockaddr *) 0,
(struct sockaddr *) &encapnetmask,
0, (struct rtentry **) 0);
delete_flow(tdbp->tdb_flow, tdbp);
}
/* Cleanup SA-Bindings */
for (tdbpp = TAILQ_FIRST(&tdbp->tdb_bind_in); tdbpp;
tdbpp = TAILQ_FIRST(&tdbp->tdb_bind_in))
{
TAILQ_REMOVE(&tdbpp->tdb_bind_in, tdbpp, tdb_bind_in_next);
tdbpp->tdb_bind_out = NULL;
}
/* Cleanup inp references */
for (inp = TAILQ_FIRST(&tdbp->tdb_inp); inp;
inp = TAILQ_FIRST(&tdbp->tdb_inp))
{
TAILQ_REMOVE(&tdbp->tdb_inp, inp, inp_tdb_next);
inp->inp_tdb = NULL;
}
if (tdbp->tdb_bind_out)
TAILQ_REMOVE(&tdbp->tdb_bind_out->tdb_bind_in, tdbp, tdb_bind_in_next);
/* Remove us from the expiration lists. */
if (tdbp->tdb_timeout != 0)
{
tdbp->tdb_flags &= ~(TDBF_FIRSTUSE | TDBF_SOFT_FIRSTUSE | TDBF_TIMER |
TDBF_SOFT_TIMER);
tdb_expiration(tdbp, expflags);
}
if (tdbp->tdb_srcid)
FREE(tdbp->tdb_srcid, M_XDATA);
if (tdbp->tdb_dstid)
FREE(tdbp->tdb_dstid, M_XDATA);
/* If we're deleting the bypass tdb, reset the variable. */
if (tdbp == tdb_bypass)
tdb_bypass = NULL;
FREE(tdbp, M_TDB);
tdb_count--;
if (delchain && tdbpp)
tdb_delete(tdbpp, delchain, expflags);
splx(s);
}
int
tdb_init(struct tdb *tdbp, u_int16_t alg, struct ipsecinit *ii)
{
struct xformsw *xsp;
/* Record establishment time */
tdbp->tdb_established = time.tv_sec;
tdbp->tdb_epoch = kernfs_epoch - 1;
/* Init Incoming SA-Binding Queues */
TAILQ_INIT(&tdbp->tdb_bind_in);
TAILQ_INIT(&tdbp->tdb_inp);
for (xsp = xformsw; xsp < xformswNXFORMSW; xsp++)
if (xsp->xf_type == alg)
return (*(xsp->xf_init))(tdbp, xsp, ii);
DPRINTF(("tdb_init(): no alg %d for spi %08x, addr %s, proto %d\n",
alg, ntohl(tdbp->tdb_spi), ipsp_address(tdbp->tdb_dst),
tdbp->tdb_sproto));
return EINVAL;
}
/*
* Used by kernfs
*/
int
ipsp_kern(int off, char **bufp, int len)
{
static char buffer[IPSEC_KERNFS_BUFSIZE];
struct flow *flow;
struct tdb *tdb, *tdbp;
int l, i, s;
if (off == 0)
kernfs_epoch++;
if (bufp == NULL || tdbh == NULL)
return 0;
bzero(buffer, IPSEC_KERNFS_BUFSIZE);
*bufp = buffer;
for (i = 0; i <= tdb_hashmask; i++)
{
s = spltdb();
for (tdb = tdbh[i]; tdb; tdb = tdb->tdb_hnext)
if (tdb->tdb_epoch != kernfs_epoch)
{
tdb->tdb_epoch = kernfs_epoch;
l = sprintf(buffer,
"SPI = %08x, Destination = %s, Sproto = %u\n",
ntohl(tdb->tdb_spi),
ipsp_address(tdb->tdb_dst), tdb->tdb_sproto);
l += sprintf(buffer + l, "\tEstablished %d seconds ago\n",
time.tv_sec - tdb->tdb_established);
l += sprintf(buffer + l, "\tSource = %s",
ipsp_address(tdb->tdb_src));
if (tdb->tdb_proxy.sa.sa_family)
l += sprintf(buffer + l, ", Proxy = %s\n",
ipsp_address(tdb->tdb_proxy));
else
l += sprintf(buffer + l, "\n");
l += sprintf(buffer + l, "\tFlags (%08x) = <", tdb->tdb_flags);
if ((tdb->tdb_flags & ~(TDBF_TIMER | TDBF_BYTES |
TDBF_ALLOCATIONS | TDBF_FIRSTUSE |
TDBF_SOFT_TIMER | TDBF_SOFT_BYTES |
TDBF_SOFT_FIRSTUSE |
TDBF_SOFT_ALLOCATIONS)) == 0)
l += sprintf(buffer + l, "none>\n");
else
{
/* We can reuse variable 'i' here, since we're not looping */
i = 0;
if (tdb->tdb_flags & TDBF_UNIQUE)
{
if (i)
l += sprintf(buffer + l, ", ");
else
i = 1;
l += sprintf(buffer + l, "unique");
i = 1;
}
if (tdb->tdb_flags & TDBF_INVALID)
{
if (i)
l += sprintf(buffer + l, ", ");
else
i = 1;
l += sprintf(buffer + l, "invalid");
}
if (tdb->tdb_flags & TDBF_HALFIV)
{
if (i)
l += sprintf(buffer + l, ", ");
else
i = 1;
l += sprintf(buffer + l, "halfiv");
}
if (tdb->tdb_flags & TDBF_PFS)
{
if (i)
l += sprintf(buffer + l, ", ");
else
i = 1;
l += sprintf(buffer + l, "pfs");
}
if (tdb->tdb_flags & TDBF_TUNNELING)
{
if (i)
l += sprintf(buffer + l, ", ");
else
i = 1;
l += sprintf(buffer + l, "tunneling");
}
l += sprintf(buffer + l, ">\n");
}
if (tdb->tdb_xform)
l += sprintf(buffer + l, "\txform = <%s>\n",
tdb->tdb_xform->xf_name);
if (tdb->tdb_encalgxform)
l += sprintf(buffer + l, "\t\tEncryption = <%s>\n",
tdb->tdb_encalgxform->name);
if (tdb->tdb_authalgxform)
l += sprintf(buffer + l, "\t\tAuthentication = <%s>\n",
tdb->tdb_authalgxform->name);
if (tdb->tdb_bind_out)
l += sprintf(buffer + l,
"\tBound SA: SPI = %08x, "
"Destination = %s, Sproto = %u\n",
ntohl(tdb->tdb_bind_out->tdb_spi),
ipsp_address(tdb->tdb_bind_out->tdb_dst),
tdb->tdb_bind_out->tdb_sproto);
for (i = 0, tdbp = TAILQ_FIRST(&tdb->tdb_bind_in); tdbp;
tdbp = TAILQ_NEXT(tdbp, tdb_bind_in_next))
i++;
if (i > 0)
l += sprintf(buffer + l,
"\tReferenced by %d incoming SA%s\n",
i, i == 1 ? "" : "s");
if (tdb->tdb_onext)
l += sprintf(buffer + l,
"\tNext SA: SPI = %08x, "
"Destination = %s, Sproto = %u\n",
ntohl(tdb->tdb_onext->tdb_spi),
ipsp_address(tdb->tdb_onext->tdb_dst),
tdb->tdb_onext->tdb_sproto);
if (tdb->tdb_inext)
l += sprintf(buffer + l,
"\tPrevious SA: SPI = %08x, "
"Destination = %s, Sproto = %u\n",
ntohl(tdb->tdb_inext->tdb_spi),
ipsp_address(tdb->tdb_inext->tdb_dst),
tdb->tdb_inext->tdb_sproto);
for (i = 0, flow = tdb->tdb_flow; flow; flow = flow->flow_next)
i++;
l+= sprintf(buffer + l, "\tCurrently used by %d flows\n", i);
l += sprintf(buffer + l, "\t%u flows have used this SA\n",
tdb->tdb_cur_allocations);
l += sprintf(buffer + l, "\t%qu bytes processed by this SA\n",
tdb->tdb_cur_bytes);
l += sprintf(buffer + l, "\tExpirations:\n");
if (tdb->tdb_flags & TDBF_TIMER)
l += sprintf(buffer + l,
"\t\tHard expiration(1) in %qu seconds\n",
tdb->tdb_exp_timeout - time.tv_sec);
if (tdb->tdb_flags & TDBF_SOFT_TIMER)
l += sprintf(buffer + l,
"\t\tSoft expiration(1) in %qu seconds\n",
tdb->tdb_soft_timeout - time.tv_sec);
if (tdb->tdb_flags & TDBF_BYTES)
l += sprintf(buffer + l,
"\t\tHard expiration after %qu bytes\n",
tdb->tdb_exp_bytes);
if (tdb->tdb_flags & TDBF_SOFT_BYTES)
l += sprintf(buffer + l,
"\t\tSoft expiration after %qu bytes\n",
tdb->tdb_soft_bytes);
if (tdb->tdb_flags & TDBF_ALLOCATIONS)
l += sprintf(buffer + l,
"\t\tHard expiration after %u flows\n",
tdb->tdb_exp_allocations);
if (tdb->tdb_flags & TDBF_SOFT_ALLOCATIONS)
l += sprintf(buffer + l,
"\t\tSoft expiration after %u flows\n",
tdb->tdb_soft_allocations);
if (tdb->tdb_flags & TDBF_FIRSTUSE)
{
if (tdb->tdb_first_use)
l += sprintf(buffer + l,
"\t\tHard expiration(2) in %qu seconds\n",
(tdb->tdb_first_use +
tdb->tdb_exp_first_use) - time.tv_sec);
else
l += sprintf(buffer + l,
"\t\tHard expiration in %qu seconds "
"after first use\n",
tdb->tdb_exp_first_use);
}
if (tdb->tdb_flags & TDBF_SOFT_FIRSTUSE)
{
if (tdb->tdb_first_use)
l += sprintf(buffer + l,
"\t\tSoft expiration(2) in %qu seconds\n",
(tdb->tdb_first_use +
tdb->tdb_soft_first_use) - time.tv_sec);
else
l += sprintf(buffer + l,
"\t\tSoft expiration in %qu seconds "
"after first use\n",
tdb->tdb_soft_first_use);
}
if (!(tdb->tdb_flags &
(TDBF_TIMER | TDBF_SOFT_TIMER | TDBF_BYTES |
TDBF_SOFT_ALLOCATIONS | TDBF_ALLOCATIONS |
TDBF_SOFT_BYTES | TDBF_FIRSTUSE | TDBF_SOFT_FIRSTUSE)))
l += sprintf(buffer + l, "\t\t(none)\n");
l += sprintf(buffer + l, "\n");
splx(s);
return l;
}
splx(s);
}
return 0;
}
char *
inet_ntoa4(struct in_addr ina)
{
static char buf[4][4 * sizeof "123" + 4];
unsigned char *ucp = (unsigned char *) &ina;
static int i = 3;
i = (i + 1) % 4;
sprintf(buf[i], "%d.%d.%d.%d", ucp[0] & 0xff, ucp[1] & 0xff,
ucp[2] & 0xff, ucp[3] & 0xff);
return (buf[i]);
}
#ifdef INET6
char *
inet6_ntoa4(struct in6_addr ina)
{
static char buf[4][8 * sizeof "abcd" + 8];
unsigned char *ucp = (unsigned char *) &ina;
static int i = 3;
i = (i + 1) % 4;
sprintf(buf[i], "%02x:%02x:%02x:%02x:%02x:%02x:%02x:%02x",
ucp[0] & 0xff, ucp[1] & 0xff, ucp[2] & 0xff, ucp[3] & 0xff,
ucp[4] & 0xff, ucp[5] & 0xff, ucp[6] & 0xff, ucp[7] & 0xff);
return (buf[i]);
}
#endif /* INET6 */
char *
ipsp_address(union sockaddr_union sa)
{
switch (sa.sa.sa_family)
{
case AF_INET:
return inet_ntoa4(sa.sin.sin_addr);
#if 0 /*INET6*/
case AF_INET6:
return inet_ntoa6(sa.sin6.sin6_addr);
#endif /* INET6 */
default:
return "(unknown address family)";
}
}
|