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|
// SPDX-License-Identifier: GPL-2.0-or-later
/*
* INET An implementation of the TCP Authentication Option (TCP-AO).
* See RFC5925.
*
* Authors: Dmitry Safonov <dima@arista.com>
* Francesco Ruggeri <fruggeri@arista.com>
* Salam Noureddine <noureddine@arista.com>
*/
#define pr_fmt(fmt) "TCP: " fmt
#include <crypto/hash.h>
#include <linux/inetdevice.h>
#include <linux/tcp.h>
#include <net/tcp.h>
#include <net/ipv6.h>
int tcp_ao_calc_traffic_key(struct tcp_ao_key *mkt, u8 *key, void *ctx,
unsigned int len, struct tcp_sigpool *hp)
{
struct scatterlist sg;
int ret;
if (crypto_ahash_setkey(crypto_ahash_reqtfm(hp->req),
mkt->key, mkt->keylen))
goto clear_hash;
ret = crypto_ahash_init(hp->req);
if (ret)
goto clear_hash;
sg_init_one(&sg, ctx, len);
ahash_request_set_crypt(hp->req, &sg, key, len);
crypto_ahash_update(hp->req);
ret = crypto_ahash_final(hp->req);
if (ret)
goto clear_hash;
return 0;
clear_hash:
memset(key, 0, tcp_ao_digest_size(mkt));
return 1;
}
/* Optimized version of tcp_ao_do_lookup(): only for sockets for which
* it's known that the keys in ao_info are matching peer's
* family/address/VRF/etc.
*/
struct tcp_ao_key *tcp_ao_established_key(struct tcp_ao_info *ao,
int sndid, int rcvid)
{
struct tcp_ao_key *key;
hlist_for_each_entry_rcu(key, &ao->head, node) {
if ((sndid >= 0 && key->sndid != sndid) ||
(rcvid >= 0 && key->rcvid != rcvid))
continue;
return key;
}
return NULL;
}
static int ipv4_prefix_cmp(const struct in_addr *addr1,
const struct in_addr *addr2,
unsigned int prefixlen)
{
__be32 mask = inet_make_mask(prefixlen);
__be32 a1 = addr1->s_addr & mask;
__be32 a2 = addr2->s_addr & mask;
if (a1 == a2)
return 0;
return memcmp(&a1, &a2, sizeof(a1));
}
static int __tcp_ao_key_cmp(const struct tcp_ao_key *key,
const union tcp_ao_addr *addr, u8 prefixlen,
int family, int sndid, int rcvid)
{
if (sndid >= 0 && key->sndid != sndid)
return (key->sndid > sndid) ? 1 : -1;
if (rcvid >= 0 && key->rcvid != rcvid)
return (key->rcvid > rcvid) ? 1 : -1;
if (family == AF_UNSPEC)
return 0;
if (key->family != family)
return (key->family > family) ? 1 : -1;
if (family == AF_INET) {
if (ntohl(key->addr.a4.s_addr) == INADDR_ANY)
return 0;
if (ntohl(addr->a4.s_addr) == INADDR_ANY)
return 0;
return ipv4_prefix_cmp(&key->addr.a4, &addr->a4, prefixlen);
#if IS_ENABLED(CONFIG_IPV6)
} else {
if (ipv6_addr_any(&key->addr.a6) || ipv6_addr_any(&addr->a6))
return 0;
if (ipv6_prefix_equal(&key->addr.a6, &addr->a6, prefixlen))
return 0;
return memcmp(&key->addr.a6, &addr->a6, sizeof(addr->a6));
#endif
}
return -1;
}
static int tcp_ao_key_cmp(const struct tcp_ao_key *key,
const union tcp_ao_addr *addr, u8 prefixlen,
int family, int sndid, int rcvid)
{
#if IS_ENABLED(CONFIG_IPV6)
if (family == AF_INET6 && ipv6_addr_v4mapped(&addr->a6)) {
__be32 addr4 = addr->a6.s6_addr32[3];
return __tcp_ao_key_cmp(key, (union tcp_ao_addr *)&addr4,
prefixlen, AF_INET, sndid, rcvid);
}
#endif
return __tcp_ao_key_cmp(key, addr, prefixlen, family, sndid, rcvid);
}
static struct tcp_ao_key *__tcp_ao_do_lookup(const struct sock *sk,
const union tcp_ao_addr *addr, int family, u8 prefix,
int sndid, int rcvid)
{
struct tcp_ao_key *key;
struct tcp_ao_info *ao;
ao = rcu_dereference_check(tcp_sk(sk)->ao_info,
lockdep_sock_is_held(sk));
if (!ao)
return NULL;
hlist_for_each_entry_rcu(key, &ao->head, node) {
u8 prefixlen = min(prefix, key->prefixlen);
if (!tcp_ao_key_cmp(key, addr, prefixlen, family, sndid, rcvid))
return key;
}
return NULL;
}
struct tcp_ao_key *tcp_ao_do_lookup(const struct sock *sk,
const union tcp_ao_addr *addr,
int family, int sndid, int rcvid)
{
return __tcp_ao_do_lookup(sk, addr, family, U8_MAX, sndid, rcvid);
}
static struct tcp_ao_info *tcp_ao_alloc_info(gfp_t flags)
{
struct tcp_ao_info *ao;
ao = kzalloc(sizeof(*ao), flags);
if (!ao)
return NULL;
INIT_HLIST_HEAD(&ao->head);
refcount_set(&ao->refcnt, 1);
return ao;
}
static void tcp_ao_link_mkt(struct tcp_ao_info *ao, struct tcp_ao_key *mkt)
{
hlist_add_head_rcu(&mkt->node, &ao->head);
}
static struct tcp_ao_key *tcp_ao_copy_key(struct sock *sk,
struct tcp_ao_key *key)
{
struct tcp_ao_key *new_key;
new_key = sock_kmalloc(sk, tcp_ao_sizeof_key(key),
GFP_ATOMIC);
if (!new_key)
return NULL;
*new_key = *key;
INIT_HLIST_NODE(&new_key->node);
tcp_sigpool_get(new_key->tcp_sigpool_id);
return new_key;
}
static void tcp_ao_key_free_rcu(struct rcu_head *head)
{
struct tcp_ao_key *key = container_of(head, struct tcp_ao_key, rcu);
tcp_sigpool_release(key->tcp_sigpool_id);
kfree_sensitive(key);
}
void tcp_ao_destroy_sock(struct sock *sk, bool twsk)
{
struct tcp_ao_info *ao;
struct tcp_ao_key *key;
struct hlist_node *n;
if (twsk) {
ao = rcu_dereference_protected(tcp_twsk(sk)->ao_info, 1);
tcp_twsk(sk)->ao_info = NULL;
} else {
ao = rcu_dereference_protected(tcp_sk(sk)->ao_info, 1);
tcp_sk(sk)->ao_info = NULL;
}
if (!ao || !refcount_dec_and_test(&ao->refcnt))
return;
hlist_for_each_entry_safe(key, n, &ao->head, node) {
hlist_del_rcu(&key->node);
if (!twsk)
atomic_sub(tcp_ao_sizeof_key(key), &sk->sk_omem_alloc);
call_rcu(&key->rcu, tcp_ao_key_free_rcu);
}
kfree_rcu(ao, rcu);
}
void tcp_ao_time_wait(struct tcp_timewait_sock *tcptw, struct tcp_sock *tp)
{
struct tcp_ao_info *ao_info = rcu_dereference_protected(tp->ao_info, 1);
if (ao_info) {
struct tcp_ao_key *key;
struct hlist_node *n;
int omem = 0;
hlist_for_each_entry_safe(key, n, &ao_info->head, node) {
omem += tcp_ao_sizeof_key(key);
}
refcount_inc(&ao_info->refcnt);
atomic_sub(omem, &(((struct sock *)tp)->sk_omem_alloc));
rcu_assign_pointer(tcptw->ao_info, ao_info);
} else {
tcptw->ao_info = NULL;
}
}
/* 4 tuple and ISNs are expected in NBO */
static int tcp_v4_ao_calc_key(struct tcp_ao_key *mkt, u8 *key,
__be32 saddr, __be32 daddr,
__be16 sport, __be16 dport,
__be32 sisn, __be32 disn)
{
/* See RFC5926 3.1.1 */
struct kdf_input_block {
u8 counter;
u8 label[6];
struct tcp4_ao_context ctx;
__be16 outlen;
} __packed * tmp;
struct tcp_sigpool hp;
int err;
err = tcp_sigpool_start(mkt->tcp_sigpool_id, &hp);
if (err)
return err;
tmp = hp.scratch;
tmp->counter = 1;
memcpy(tmp->label, "TCP-AO", 6);
tmp->ctx.saddr = saddr;
tmp->ctx.daddr = daddr;
tmp->ctx.sport = sport;
tmp->ctx.dport = dport;
tmp->ctx.sisn = sisn;
tmp->ctx.disn = disn;
tmp->outlen = htons(tcp_ao_digest_size(mkt) * 8); /* in bits */
err = tcp_ao_calc_traffic_key(mkt, key, tmp, sizeof(*tmp), &hp);
tcp_sigpool_end(&hp);
return err;
}
int tcp_v4_ao_calc_key_sk(struct tcp_ao_key *mkt, u8 *key,
const struct sock *sk,
__be32 sisn, __be32 disn, bool send)
{
if (send)
return tcp_v4_ao_calc_key(mkt, key, sk->sk_rcv_saddr,
sk->sk_daddr, htons(sk->sk_num),
sk->sk_dport, sisn, disn);
else
return tcp_v4_ao_calc_key(mkt, key, sk->sk_daddr,
sk->sk_rcv_saddr, sk->sk_dport,
htons(sk->sk_num), disn, sisn);
}
static int tcp_ao_calc_key_sk(struct tcp_ao_key *mkt, u8 *key,
const struct sock *sk,
__be32 sisn, __be32 disn, bool send)
{
if (mkt->family == AF_INET)
return tcp_v4_ao_calc_key_sk(mkt, key, sk, sisn, disn, send);
#if IS_ENABLED(CONFIG_IPV6)
else if (mkt->family == AF_INET6)
return tcp_v6_ao_calc_key_sk(mkt, key, sk, sisn, disn, send);
#endif
else
return -EOPNOTSUPP;
}
int tcp_v4_ao_calc_key_rsk(struct tcp_ao_key *mkt, u8 *key,
struct request_sock *req)
{
struct inet_request_sock *ireq = inet_rsk(req);
return tcp_v4_ao_calc_key(mkt, key,
ireq->ir_loc_addr, ireq->ir_rmt_addr,
htons(ireq->ir_num), ireq->ir_rmt_port,
htonl(tcp_rsk(req)->snt_isn),
htonl(tcp_rsk(req)->rcv_isn));
}
static int tcp_v4_ao_calc_key_skb(struct tcp_ao_key *mkt, u8 *key,
const struct sk_buff *skb,
__be32 sisn, __be32 disn)
{
const struct iphdr *iph = ip_hdr(skb);
const struct tcphdr *th = tcp_hdr(skb);
return tcp_v4_ao_calc_key(mkt, key, iph->saddr, iph->daddr,
th->source, th->dest, sisn, disn);
}
static int tcp_ao_calc_key_skb(struct tcp_ao_key *mkt, u8 *key,
const struct sk_buff *skb,
__be32 sisn, __be32 disn, int family)
{
if (family == AF_INET)
return tcp_v4_ao_calc_key_skb(mkt, key, skb, sisn, disn);
#if IS_ENABLED(CONFIG_IPV6)
else if (family == AF_INET6)
return tcp_v6_ao_calc_key_skb(mkt, key, skb, sisn, disn);
#endif
return -EAFNOSUPPORT;
}
static int tcp_v4_ao_hash_pseudoheader(struct tcp_sigpool *hp,
__be32 daddr, __be32 saddr,
int nbytes)
{
struct tcp4_pseudohdr *bp;
struct scatterlist sg;
bp = hp->scratch;
bp->saddr = saddr;
bp->daddr = daddr;
bp->pad = 0;
bp->protocol = IPPROTO_TCP;
bp->len = cpu_to_be16(nbytes);
sg_init_one(&sg, bp, sizeof(*bp));
ahash_request_set_crypt(hp->req, &sg, NULL, sizeof(*bp));
return crypto_ahash_update(hp->req);
}
static int tcp_ao_hash_pseudoheader(unsigned short int family,
const struct sock *sk,
const struct sk_buff *skb,
struct tcp_sigpool *hp, int nbytes)
{
const struct tcphdr *th = tcp_hdr(skb);
/* TODO: Can we rely on checksum being zero to mean outbound pkt? */
if (!th->check) {
if (family == AF_INET)
return tcp_v4_ao_hash_pseudoheader(hp, sk->sk_daddr,
sk->sk_rcv_saddr, skb->len);
#if IS_ENABLED(CONFIG_IPV6)
else if (family == AF_INET6)
return tcp_v6_ao_hash_pseudoheader(hp, &sk->sk_v6_daddr,
&sk->sk_v6_rcv_saddr, skb->len);
#endif
else
return -EAFNOSUPPORT;
}
if (family == AF_INET) {
const struct iphdr *iph = ip_hdr(skb);
return tcp_v4_ao_hash_pseudoheader(hp, iph->daddr,
iph->saddr, skb->len);
#if IS_ENABLED(CONFIG_IPV6)
} else if (family == AF_INET6) {
const struct ipv6hdr *iph = ipv6_hdr(skb);
return tcp_v6_ao_hash_pseudoheader(hp, &iph->daddr,
&iph->saddr, skb->len);
#endif
}
return -EAFNOSUPPORT;
}
/* tcp_ao_hash_sne(struct tcp_sigpool *hp)
* @hp - used for hashing
* @sne - sne value
*/
static int tcp_ao_hash_sne(struct tcp_sigpool *hp, u32 sne)
{
struct scatterlist sg;
__be32 *bp;
bp = (__be32 *)hp->scratch;
*bp = htonl(sne);
sg_init_one(&sg, bp, sizeof(*bp));
ahash_request_set_crypt(hp->req, &sg, NULL, sizeof(*bp));
return crypto_ahash_update(hp->req);
}
static int tcp_ao_hash_header(struct tcp_sigpool *hp,
const struct tcphdr *th,
bool exclude_options, u8 *hash,
int hash_offset, int hash_len)
{
int err, len = th->doff << 2;
struct scatterlist sg;
u8 *hdr = hp->scratch;
/* We are not allowed to change tcphdr, make a local copy */
if (exclude_options) {
len = sizeof(*th) + sizeof(struct tcp_ao_hdr) + hash_len;
memcpy(hdr, th, sizeof(*th));
memcpy(hdr + sizeof(*th),
(u8 *)th + hash_offset - sizeof(struct tcp_ao_hdr),
sizeof(struct tcp_ao_hdr));
memset(hdr + sizeof(*th) + sizeof(struct tcp_ao_hdr),
0, hash_len);
((struct tcphdr *)hdr)->check = 0;
} else {
len = th->doff << 2;
memcpy(hdr, th, len);
/* zero out tcp-ao hash */
((struct tcphdr *)hdr)->check = 0;
memset(hdr + hash_offset, 0, hash_len);
}
sg_init_one(&sg, hdr, len);
ahash_request_set_crypt(hp->req, &sg, NULL, len);
err = crypto_ahash_update(hp->req);
WARN_ON_ONCE(err != 0);
return err;
}
int tcp_ao_hash_hdr(unsigned short int family, char *ao_hash,
struct tcp_ao_key *key, const u8 *tkey,
const union tcp_ao_addr *daddr,
const union tcp_ao_addr *saddr,
const struct tcphdr *th, u32 sne)
{
int tkey_len = tcp_ao_digest_size(key);
int hash_offset = ao_hash - (char *)th;
struct tcp_sigpool hp;
void *hash_buf = NULL;
hash_buf = kmalloc(tkey_len, GFP_ATOMIC);
if (!hash_buf)
goto clear_hash_noput;
if (tcp_sigpool_start(key->tcp_sigpool_id, &hp))
goto clear_hash_noput;
if (crypto_ahash_setkey(crypto_ahash_reqtfm(hp.req), tkey, tkey_len))
goto clear_hash;
if (crypto_ahash_init(hp.req))
goto clear_hash;
if (tcp_ao_hash_sne(&hp, sne))
goto clear_hash;
if (family == AF_INET) {
if (tcp_v4_ao_hash_pseudoheader(&hp, daddr->a4.s_addr,
saddr->a4.s_addr, th->doff * 4))
goto clear_hash;
#if IS_ENABLED(CONFIG_IPV6)
} else if (family == AF_INET6) {
if (tcp_v6_ao_hash_pseudoheader(&hp, &daddr->a6,
&saddr->a6, th->doff * 4))
goto clear_hash;
#endif
} else {
WARN_ON_ONCE(1);
goto clear_hash;
}
if (tcp_ao_hash_header(&hp, th, false,
ao_hash, hash_offset, tcp_ao_maclen(key)))
goto clear_hash;
ahash_request_set_crypt(hp.req, NULL, hash_buf, 0);
if (crypto_ahash_final(hp.req))
goto clear_hash;
memcpy(ao_hash, hash_buf, tcp_ao_maclen(key));
tcp_sigpool_end(&hp);
kfree(hash_buf);
return 0;
clear_hash:
tcp_sigpool_end(&hp);
clear_hash_noput:
memset(ao_hash, 0, tcp_ao_maclen(key));
kfree(hash_buf);
return 1;
}
int tcp_ao_hash_skb(unsigned short int family,
char *ao_hash, struct tcp_ao_key *key,
const struct sock *sk, const struct sk_buff *skb,
const u8 *tkey, int hash_offset, u32 sne)
{
const struct tcphdr *th = tcp_hdr(skb);
int tkey_len = tcp_ao_digest_size(key);
struct tcp_sigpool hp;
void *hash_buf = NULL;
hash_buf = kmalloc(tkey_len, GFP_ATOMIC);
if (!hash_buf)
goto clear_hash_noput;
if (tcp_sigpool_start(key->tcp_sigpool_id, &hp))
goto clear_hash_noput;
if (crypto_ahash_setkey(crypto_ahash_reqtfm(hp.req), tkey, tkey_len))
goto clear_hash;
/* For now use sha1 by default. Depends on alg in tcp_ao_key */
if (crypto_ahash_init(hp.req))
goto clear_hash;
if (tcp_ao_hash_sne(&hp, sne))
goto clear_hash;
if (tcp_ao_hash_pseudoheader(family, sk, skb, &hp, skb->len))
goto clear_hash;
if (tcp_ao_hash_header(&hp, th, false,
ao_hash, hash_offset, tcp_ao_maclen(key)))
goto clear_hash;
if (tcp_sigpool_hash_skb_data(&hp, skb, th->doff << 2))
goto clear_hash;
ahash_request_set_crypt(hp.req, NULL, hash_buf, 0);
if (crypto_ahash_final(hp.req))
goto clear_hash;
memcpy(ao_hash, hash_buf, tcp_ao_maclen(key));
tcp_sigpool_end(&hp);
kfree(hash_buf);
return 0;
clear_hash:
tcp_sigpool_end(&hp);
clear_hash_noput:
memset(ao_hash, 0, tcp_ao_maclen(key));
kfree(hash_buf);
return 1;
}
int tcp_v4_ao_hash_skb(char *ao_hash, struct tcp_ao_key *key,
const struct sock *sk, const struct sk_buff *skb,
const u8 *tkey, int hash_offset, u32 sne)
{
return tcp_ao_hash_skb(AF_INET, ao_hash, key, sk, skb,
tkey, hash_offset, sne);
}
struct tcp_ao_key *tcp_v4_ao_lookup_rsk(const struct sock *sk,
struct request_sock *req,
int sndid, int rcvid)
{
union tcp_ao_addr *addr =
(union tcp_ao_addr *)&inet_rsk(req)->ir_rmt_addr;
return tcp_ao_do_lookup(sk, addr, AF_INET, sndid, rcvid);
}
struct tcp_ao_key *tcp_v4_ao_lookup(const struct sock *sk, struct sock *addr_sk,
int sndid, int rcvid)
{
union tcp_ao_addr *addr = (union tcp_ao_addr *)&addr_sk->sk_daddr;
return tcp_ao_do_lookup(sk, addr, AF_INET, sndid, rcvid);
}
int tcp_ao_prepare_reset(const struct sock *sk, struct sk_buff *skb,
const struct tcp_ao_hdr *aoh, int l3index,
struct tcp_ao_key **key, char **traffic_key,
bool *allocated_traffic_key, u8 *keyid, u32 *sne)
{
const struct tcphdr *th = tcp_hdr(skb);
struct tcp_ao_info *ao_info;
*allocated_traffic_key = false;
/* If there's no socket - than initial sisn/disn are unknown.
* Drop the segment. RFC5925 (7.7) advises to require graceful
* restart [RFC4724]. Alternatively, the RFC5925 advises to
* save/restore traffic keys before/after reboot.
* Linux TCP-AO support provides TCP_AO_ADD_KEY and TCP_AO_REPAIR
* options to restore a socket post-reboot.
*/
if (!sk)
return -ENOTCONN;
if ((1 << sk->sk_state) & (TCPF_LISTEN | TCPF_NEW_SYN_RECV)) {
unsigned int family = READ_ONCE(sk->sk_family);
union tcp_ao_addr *addr;
__be32 disn, sisn;
if (sk->sk_state == TCP_NEW_SYN_RECV) {
struct request_sock *req = inet_reqsk(sk);
sisn = htonl(tcp_rsk(req)->rcv_isn);
disn = htonl(tcp_rsk(req)->snt_isn);
*sne = 0;
} else {
sisn = th->seq;
disn = 0;
}
if (IS_ENABLED(CONFIG_IPV6) && family == AF_INET6)
addr = (union tcp_md5_addr *)&ipv6_hdr(skb)->saddr;
else
addr = (union tcp_md5_addr *)&ip_hdr(skb)->saddr;
#if IS_ENABLED(CONFIG_IPV6)
if (family == AF_INET6 && ipv6_addr_v4mapped(&sk->sk_v6_daddr))
family = AF_INET;
#endif
sk = sk_const_to_full_sk(sk);
ao_info = rcu_dereference(tcp_sk(sk)->ao_info);
if (!ao_info)
return -ENOENT;
*key = tcp_ao_do_lookup(sk, addr, family, -1, aoh->rnext_keyid);
if (!*key)
return -ENOENT;
*traffic_key = kmalloc(tcp_ao_digest_size(*key), GFP_ATOMIC);
if (!*traffic_key)
return -ENOMEM;
*allocated_traffic_key = true;
if (tcp_ao_calc_key_skb(*key, *traffic_key, skb,
sisn, disn, family))
return -1;
*keyid = (*key)->rcvid;
} else {
struct tcp_ao_key *rnext_key;
if (sk->sk_state == TCP_TIME_WAIT)
ao_info = rcu_dereference(tcp_twsk(sk)->ao_info);
else
ao_info = rcu_dereference(tcp_sk(sk)->ao_info);
if (!ao_info)
return -ENOENT;
*key = tcp_ao_established_key(ao_info, aoh->rnext_keyid, -1);
if (!*key)
return -ENOENT;
*traffic_key = snd_other_key(*key);
rnext_key = READ_ONCE(ao_info->rnext_key);
*keyid = rnext_key->rcvid;
*sne = 0;
}
return 0;
}
int tcp_ao_transmit_skb(struct sock *sk, struct sk_buff *skb,
struct tcp_ao_key *key, struct tcphdr *th,
__u8 *hash_location)
{
struct tcp_skb_cb *tcb = TCP_SKB_CB(skb);
struct tcp_sock *tp = tcp_sk(sk);
struct tcp_ao_info *ao;
void *tkey_buf = NULL;
u8 *traffic_key;
ao = rcu_dereference_protected(tcp_sk(sk)->ao_info,
lockdep_sock_is_held(sk));
traffic_key = snd_other_key(key);
if (unlikely(tcb->tcp_flags & TCPHDR_SYN)) {
__be32 disn;
if (!(tcb->tcp_flags & TCPHDR_ACK)) {
disn = 0;
tkey_buf = kmalloc(tcp_ao_digest_size(key), GFP_ATOMIC);
if (!tkey_buf)
return -ENOMEM;
traffic_key = tkey_buf;
} else {
disn = ao->risn;
}
tp->af_specific->ao_calc_key_sk(key, traffic_key,
sk, ao->lisn, disn, true);
}
tp->af_specific->calc_ao_hash(hash_location, key, sk, skb, traffic_key,
hash_location - (u8 *)th, 0);
kfree(tkey_buf);
return 0;
}
static struct tcp_ao_key *tcp_ao_inbound_lookup(unsigned short int family,
const struct sock *sk, const struct sk_buff *skb,
int sndid, int rcvid)
{
if (family == AF_INET) {
const struct iphdr *iph = ip_hdr(skb);
return tcp_ao_do_lookup(sk, (union tcp_ao_addr *)&iph->saddr,
AF_INET, sndid, rcvid);
} else {
const struct ipv6hdr *iph = ipv6_hdr(skb);
return tcp_ao_do_lookup(sk, (union tcp_ao_addr *)&iph->saddr,
AF_INET6, sndid, rcvid);
}
}
void tcp_ao_syncookie(struct sock *sk, const struct sk_buff *skb,
struct tcp_request_sock *treq,
unsigned short int family)
{
const struct tcphdr *th = tcp_hdr(skb);
const struct tcp_ao_hdr *aoh;
struct tcp_ao_key *key;
treq->maclen = 0;
if (tcp_parse_auth_options(th, NULL, &aoh) || !aoh)
return;
key = tcp_ao_inbound_lookup(family, sk, skb, -1, aoh->keyid);
if (!key)
/* Key not found, continue without TCP-AO */
return;
treq->ao_rcv_next = aoh->keyid;
treq->ao_keyid = aoh->rnext_keyid;
treq->maclen = tcp_ao_maclen(key);
}
static int tcp_ao_cache_traffic_keys(const struct sock *sk,
struct tcp_ao_info *ao,
struct tcp_ao_key *ao_key)
{
u8 *traffic_key = snd_other_key(ao_key);
int ret;
ret = tcp_ao_calc_key_sk(ao_key, traffic_key, sk,
ao->lisn, ao->risn, true);
if (ret)
return ret;
traffic_key = rcv_other_key(ao_key);
ret = tcp_ao_calc_key_sk(ao_key, traffic_key, sk,
ao->lisn, ao->risn, false);
return ret;
}
void tcp_ao_connect_init(struct sock *sk)
{
struct tcp_sock *tp = tcp_sk(sk);
struct tcp_ao_info *ao_info;
union tcp_ao_addr *addr;
struct tcp_ao_key *key;
int family;
ao_info = rcu_dereference_protected(tp->ao_info,
lockdep_sock_is_held(sk));
if (!ao_info)
return;
/* Remove all keys that don't match the peer */
family = sk->sk_family;
if (family == AF_INET)
addr = (union tcp_ao_addr *)&sk->sk_daddr;
#if IS_ENABLED(CONFIG_IPV6)
else if (family == AF_INET6)
addr = (union tcp_ao_addr *)&sk->sk_v6_daddr;
#endif
else
return;
hlist_for_each_entry_rcu(key, &ao_info->head, node) {
if (!tcp_ao_key_cmp(key, addr, key->prefixlen, family, -1, -1))
continue;
if (key == ao_info->current_key)
ao_info->current_key = NULL;
if (key == ao_info->rnext_key)
ao_info->rnext_key = NULL;
hlist_del_rcu(&key->node);
atomic_sub(tcp_ao_sizeof_key(key), &sk->sk_omem_alloc);
call_rcu(&key->rcu, tcp_ao_key_free_rcu);
}
key = tp->af_specific->ao_lookup(sk, sk, -1, -1);
if (key) {
/* if current_key or rnext_key were not provided,
* use the first key matching the peer
*/
if (!ao_info->current_key)
ao_info->current_key = key;
if (!ao_info->rnext_key)
ao_info->rnext_key = key;
tp->tcp_header_len += tcp_ao_len(key);
ao_info->lisn = htonl(tp->write_seq);
} else {
/* Can't happen: tcp_connect() verifies that there's
* at least one tcp-ao key that matches the remote peer.
*/
WARN_ON_ONCE(1);
rcu_assign_pointer(tp->ao_info, NULL);
kfree(ao_info);
}
}
void tcp_ao_established(struct sock *sk)
{
struct tcp_ao_info *ao;
struct tcp_ao_key *key;
ao = rcu_dereference_protected(tcp_sk(sk)->ao_info,
lockdep_sock_is_held(sk));
if (!ao)
return;
hlist_for_each_entry_rcu(key, &ao->head, node)
tcp_ao_cache_traffic_keys(sk, ao, key);
}
void tcp_ao_finish_connect(struct sock *sk, struct sk_buff *skb)
{
struct tcp_ao_info *ao;
struct tcp_ao_key *key;
ao = rcu_dereference_protected(tcp_sk(sk)->ao_info,
lockdep_sock_is_held(sk));
if (!ao)
return;
WRITE_ONCE(ao->risn, tcp_hdr(skb)->seq);
hlist_for_each_entry_rcu(key, &ao->head, node)
tcp_ao_cache_traffic_keys(sk, ao, key);
}
int tcp_ao_copy_all_matching(const struct sock *sk, struct sock *newsk,
struct request_sock *req, struct sk_buff *skb,
int family)
{
struct tcp_ao_key *key, *new_key, *first_key;
struct tcp_ao_info *new_ao, *ao;
struct hlist_node *key_head;
union tcp_ao_addr *addr;
bool match = false;
int ret = -ENOMEM;
ao = rcu_dereference(tcp_sk(sk)->ao_info);
if (!ao)
return 0;
/* New socket without TCP-AO on it */
if (!tcp_rsk_used_ao(req))
return 0;
new_ao = tcp_ao_alloc_info(GFP_ATOMIC);
if (!new_ao)
return -ENOMEM;
new_ao->lisn = htonl(tcp_rsk(req)->snt_isn);
new_ao->risn = htonl(tcp_rsk(req)->rcv_isn);
new_ao->ao_required = ao->ao_required;
if (family == AF_INET) {
addr = (union tcp_ao_addr *)&newsk->sk_daddr;
#if IS_ENABLED(CONFIG_IPV6)
} else if (family == AF_INET6) {
addr = (union tcp_ao_addr *)&newsk->sk_v6_daddr;
#endif
} else {
ret = -EAFNOSUPPORT;
goto free_ao;
}
hlist_for_each_entry_rcu(key, &ao->head, node) {
if (tcp_ao_key_cmp(key, addr, key->prefixlen, family, -1, -1))
continue;
new_key = tcp_ao_copy_key(newsk, key);
if (!new_key)
goto free_and_exit;
tcp_ao_cache_traffic_keys(newsk, new_ao, new_key);
tcp_ao_link_mkt(new_ao, new_key);
match = true;
}
if (!match) {
/* RFC5925 (7.4.1) specifies that the TCP-AO status
* of a connection is determined on the initial SYN.
* At this point the connection was TCP-AO enabled, so
* it can't switch to being unsigned if peer's key
* disappears on the listening socket.
*/
ret = -EKEYREJECTED;
goto free_and_exit;
}
key_head = rcu_dereference(hlist_first_rcu(&new_ao->head));
first_key = hlist_entry_safe(key_head, struct tcp_ao_key, node);
key = tcp_ao_established_key(new_ao, tcp_rsk(req)->ao_keyid, -1);
if (key)
new_ao->current_key = key;
else
new_ao->current_key = first_key;
/* set rnext_key */
key = tcp_ao_established_key(new_ao, -1, tcp_rsk(req)->ao_rcv_next);
if (key)
new_ao->rnext_key = key;
else
new_ao->rnext_key = first_key;
sk_gso_disable(newsk);
rcu_assign_pointer(tcp_sk(newsk)->ao_info, new_ao);
return 0;
free_and_exit:
hlist_for_each_entry_safe(key, key_head, &new_ao->head, node) {
hlist_del(&key->node);
tcp_sigpool_release(key->tcp_sigpool_id);
atomic_sub(tcp_ao_sizeof_key(key), &newsk->sk_omem_alloc);
kfree_sensitive(key);
}
free_ao:
kfree(new_ao);
return ret;
}
static bool tcp_ao_can_set_current_rnext(struct sock *sk)
{
/* There aren't current/rnext keys on TCP_LISTEN sockets */
if (sk->sk_state == TCP_LISTEN)
return false;
return true;
}
static int tcp_ao_verify_ipv4(struct sock *sk, struct tcp_ao_add *cmd,
union tcp_ao_addr **addr)
{
struct sockaddr_in *sin = (struct sockaddr_in *)&cmd->addr;
struct inet_sock *inet = inet_sk(sk);
if (sin->sin_family != AF_INET)
return -EINVAL;
/* Currently matching is not performed on port (or port ranges) */
if (sin->sin_port != 0)
return -EINVAL;
/* Check prefix and trailing 0's in addr */
if (cmd->prefix != 0) {
__be32 mask;
if (ntohl(sin->sin_addr.s_addr) == INADDR_ANY)
return -EINVAL;
if (cmd->prefix > 32)
return -EINVAL;
mask = inet_make_mask(cmd->prefix);
if (sin->sin_addr.s_addr & ~mask)
return -EINVAL;
/* Check that MKT address is consistent with socket */
if (ntohl(inet->inet_daddr) != INADDR_ANY &&
(inet->inet_daddr & mask) != sin->sin_addr.s_addr)
return -EINVAL;
} else {
if (ntohl(sin->sin_addr.s_addr) != INADDR_ANY)
return -EINVAL;
}
*addr = (union tcp_ao_addr *)&sin->sin_addr;
return 0;
}
static int tcp_ao_parse_crypto(struct tcp_ao_add *cmd, struct tcp_ao_key *key)
{
unsigned int syn_tcp_option_space;
bool is_kdf_aes_128_cmac = false;
struct crypto_ahash *tfm;
struct tcp_sigpool hp;
void *tmp_key = NULL;
int err;
/* RFC5926, 3.1.1.2. KDF_AES_128_CMAC */
if (!strcmp("cmac(aes128)", cmd->alg_name)) {
strscpy(cmd->alg_name, "cmac(aes)", sizeof(cmd->alg_name));
is_kdf_aes_128_cmac = (cmd->keylen != 16);
tmp_key = kmalloc(cmd->keylen, GFP_KERNEL);
if (!tmp_key)
return -ENOMEM;
}
key->maclen = cmd->maclen ?: 12; /* 12 is the default in RFC5925 */
/* Check: maclen + tcp-ao header <= (MAX_TCP_OPTION_SPACE - mss
* - tstamp - wscale - sackperm),
* see tcp_syn_options(), tcp_synack_options(), commit 33ad798c924b.
*
* In order to allow D-SACK with TCP-AO, the header size should be:
* (MAX_TCP_OPTION_SPACE - TCPOLEN_TSTAMP_ALIGNED
* - TCPOLEN_SACK_BASE_ALIGNED
* - 2 * TCPOLEN_SACK_PERBLOCK) = 8 (maclen = 4),
* see tcp_established_options().
*
* RFC5925, 2.2:
* Typical MACs are 96-128 bits (12-16 bytes), but any length
* that fits in the header of the segment being authenticated
* is allowed.
*
* RFC5925, 7.6:
* TCP-AO continues to consume 16 bytes in non-SYN segments,
* leaving a total of 24 bytes for other options, of which
* the timestamp consumes 10. This leaves 14 bytes, of which 10
* are used for a single SACK block. When two SACK blocks are used,
* such as to handle D-SACK, a smaller TCP-AO MAC would be required
* to make room for the additional SACK block (i.e., to leave 18
* bytes for the D-SACK variant of the SACK option) [RFC2883].
* Note that D-SACK is not supportable in TCP MD5 in the presence
* of timestamps, because TCP MD5’s MAC length is fixed and too
* large to leave sufficient option space.
*/
syn_tcp_option_space = MAX_TCP_OPTION_SPACE;
syn_tcp_option_space -= TCPOLEN_TSTAMP_ALIGNED;
syn_tcp_option_space -= TCPOLEN_WSCALE_ALIGNED;
syn_tcp_option_space -= TCPOLEN_SACKPERM_ALIGNED;
if (tcp_ao_len(key) > syn_tcp_option_space) {
err = -EMSGSIZE;
goto err_kfree;
}
key->keylen = cmd->keylen;
memcpy(key->key, cmd->key, cmd->keylen);
err = tcp_sigpool_start(key->tcp_sigpool_id, &hp);
if (err)
goto err_kfree;
tfm = crypto_ahash_reqtfm(hp.req);
if (is_kdf_aes_128_cmac) {
void *scratch = hp.scratch;
struct scatterlist sg;
memcpy(tmp_key, cmd->key, cmd->keylen);
sg_init_one(&sg, tmp_key, cmd->keylen);
/* Using zero-key of 16 bytes as described in RFC5926 */
memset(scratch, 0, 16);
err = crypto_ahash_setkey(tfm, scratch, 16);
if (err)
goto err_pool_end;
err = crypto_ahash_init(hp.req);
if (err)
goto err_pool_end;
ahash_request_set_crypt(hp.req, &sg, key->key, cmd->keylen);
err = crypto_ahash_update(hp.req);
if (err)
goto err_pool_end;
err |= crypto_ahash_final(hp.req);
if (err)
goto err_pool_end;
key->keylen = 16;
}
err = crypto_ahash_setkey(tfm, key->key, key->keylen);
if (err)
goto err_pool_end;
tcp_sigpool_end(&hp);
kfree_sensitive(tmp_key);
if (tcp_ao_maclen(key) > key->digest_size)
return -EINVAL;
return 0;
err_pool_end:
tcp_sigpool_end(&hp);
err_kfree:
kfree_sensitive(tmp_key);
return err;
}
#if IS_ENABLED(CONFIG_IPV6)
static int tcp_ao_verify_ipv6(struct sock *sk, struct tcp_ao_add *cmd,
union tcp_ao_addr **paddr,
unsigned short int *family)
{
struct sockaddr_in6 *sin6 = (struct sockaddr_in6 *)&cmd->addr;
struct in6_addr *addr = &sin6->sin6_addr;
u8 prefix = cmd->prefix;
if (sin6->sin6_family != AF_INET6)
return -EINVAL;
/* Currently matching is not performed on port (or port ranges) */
if (sin6->sin6_port != 0)
return -EINVAL;
/* Check prefix and trailing 0's in addr */
if (cmd->prefix != 0 && ipv6_addr_v4mapped(addr)) {
__be32 addr4 = addr->s6_addr32[3];
__be32 mask;
if (prefix > 32 || ntohl(addr4) == INADDR_ANY)
return -EINVAL;
mask = inet_make_mask(prefix);
if (addr4 & ~mask)
return -EINVAL;
/* Check that MKT address is consistent with socket */
if (!ipv6_addr_any(&sk->sk_v6_daddr)) {
__be32 daddr4 = sk->sk_v6_daddr.s6_addr32[3];
if (!ipv6_addr_v4mapped(&sk->sk_v6_daddr))
return -EINVAL;
if ((daddr4 & mask) != addr4)
return -EINVAL;
}
*paddr = (union tcp_ao_addr *)&addr->s6_addr32[3];
*family = AF_INET;
return 0;
} else if (cmd->prefix != 0) {
struct in6_addr pfx;
if (ipv6_addr_any(addr) || prefix > 128)
return -EINVAL;
ipv6_addr_prefix(&pfx, addr, prefix);
if (ipv6_addr_cmp(&pfx, addr))
return -EINVAL;
/* Check that MKT address is consistent with socket */
if (!ipv6_addr_any(&sk->sk_v6_daddr) &&
!ipv6_prefix_equal(&sk->sk_v6_daddr, addr, prefix))
return -EINVAL;
} else {
if (!ipv6_addr_any(addr))
return -EINVAL;
}
*paddr = (union tcp_ao_addr *)addr;
return 0;
}
#else
static int tcp_ao_verify_ipv6(struct sock *sk, struct tcp_ao_add *cmd,
union tcp_ao_addr **paddr,
unsigned short int *family)
{
return -EOPNOTSUPP;
}
#endif
static struct tcp_ao_info *setsockopt_ao_info(struct sock *sk)
{
if (sk_fullsock(sk)) {
return rcu_dereference_protected(tcp_sk(sk)->ao_info,
lockdep_sock_is_held(sk));
} else if (sk->sk_state == TCP_TIME_WAIT) {
return rcu_dereference_protected(tcp_twsk(sk)->ao_info,
lockdep_sock_is_held(sk));
}
return ERR_PTR(-ESOCKTNOSUPPORT);
}
#define TCP_AO_KEYF_ALL (0)
static struct tcp_ao_key *tcp_ao_key_alloc(struct sock *sk,
struct tcp_ao_add *cmd)
{
const char *algo = cmd->alg_name;
unsigned int digest_size;
struct crypto_ahash *tfm;
struct tcp_ao_key *key;
struct tcp_sigpool hp;
int err, pool_id;
size_t size;
/* Force null-termination of alg_name */
cmd->alg_name[ARRAY_SIZE(cmd->alg_name) - 1] = '\0';
/* RFC5926, 3.1.1.2. KDF_AES_128_CMAC */
if (!strcmp("cmac(aes128)", algo))
algo = "cmac(aes)";
/* Full TCP header (th->doff << 2) should fit into scratch area,
* see tcp_ao_hash_header().
*/
pool_id = tcp_sigpool_alloc_ahash(algo, 60);
if (pool_id < 0)
return ERR_PTR(pool_id);
err = tcp_sigpool_start(pool_id, &hp);
if (err)
goto err_free_pool;
tfm = crypto_ahash_reqtfm(hp.req);
if (crypto_ahash_alignmask(tfm) > TCP_AO_KEY_ALIGN) {
err = -EOPNOTSUPP;
goto err_pool_end;
}
digest_size = crypto_ahash_digestsize(tfm);
tcp_sigpool_end(&hp);
size = sizeof(struct tcp_ao_key) + (digest_size << 1);
key = sock_kmalloc(sk, size, GFP_KERNEL);
if (!key) {
err = -ENOMEM;
goto err_free_pool;
}
key->tcp_sigpool_id = pool_id;
key->digest_size = digest_size;
return key;
err_pool_end:
tcp_sigpool_end(&hp);
err_free_pool:
tcp_sigpool_release(pool_id);
return ERR_PTR(err);
}
static int tcp_ao_add_cmd(struct sock *sk, unsigned short int family,
sockptr_t optval, int optlen)
{
struct tcp_ao_info *ao_info;
union tcp_ao_addr *addr;
struct tcp_ao_key *key;
struct tcp_ao_add cmd;
bool first = false;
int ret;
if (optlen < sizeof(cmd))
return -EINVAL;
ret = copy_struct_from_sockptr(&cmd, sizeof(cmd), optval, optlen);
if (ret)
return ret;
if (cmd.keylen > TCP_AO_MAXKEYLEN)
return -EINVAL;
if (cmd.reserved != 0 || cmd.reserved2 != 0)
return -EINVAL;
if (family == AF_INET)
ret = tcp_ao_verify_ipv4(sk, &cmd, &addr);
else
ret = tcp_ao_verify_ipv6(sk, &cmd, &addr, &family);
if (ret)
return ret;
if (cmd.keyflags & ~TCP_AO_KEYF_ALL)
return -EINVAL;
if (cmd.set_current || cmd.set_rnext) {
if (!tcp_ao_can_set_current_rnext(sk))
return -EINVAL;
}
/* Don't allow keys for peers that have a matching TCP-MD5 key */
if (tcp_md5_do_lookup_any_l3index(sk, addr, family))
return -EKEYREJECTED;
ao_info = setsockopt_ao_info(sk);
if (IS_ERR(ao_info))
return PTR_ERR(ao_info);
if (!ao_info) {
ao_info = tcp_ao_alloc_info(GFP_KERNEL);
if (!ao_info)
return -ENOMEM;
first = true;
} else {
/* Check that neither RecvID nor SendID match any
* existing key for the peer, RFC5925 3.1:
* > The IDs of MKTs MUST NOT overlap where their
* > TCP connection identifiers overlap.
*/
if (__tcp_ao_do_lookup(sk, addr, family,
cmd.prefix, -1, cmd.rcvid))
return -EEXIST;
if (__tcp_ao_do_lookup(sk, addr, family,
cmd.prefix, cmd.sndid, -1))
return -EEXIST;
}
key = tcp_ao_key_alloc(sk, &cmd);
if (IS_ERR(key)) {
ret = PTR_ERR(key);
goto err_free_ao;
}
INIT_HLIST_NODE(&key->node);
memcpy(&key->addr, addr, (family == AF_INET) ? sizeof(struct in_addr) :
sizeof(struct in6_addr));
key->prefixlen = cmd.prefix;
key->family = family;
key->keyflags = cmd.keyflags;
key->sndid = cmd.sndid;
key->rcvid = cmd.rcvid;
ret = tcp_ao_parse_crypto(&cmd, key);
if (ret < 0)
goto err_free_sock;
/* Change this condition if we allow adding keys in states
* like close_wait, syn_sent or fin_wait...
*/
if (sk->sk_state == TCP_ESTABLISHED)
tcp_ao_cache_traffic_keys(sk, ao_info, key);
tcp_ao_link_mkt(ao_info, key);
if (first) {
sk_gso_disable(sk);
rcu_assign_pointer(tcp_sk(sk)->ao_info, ao_info);
}
if (cmd.set_current)
WRITE_ONCE(ao_info->current_key, key);
if (cmd.set_rnext)
WRITE_ONCE(ao_info->rnext_key, key);
return 0;
err_free_sock:
atomic_sub(tcp_ao_sizeof_key(key), &sk->sk_omem_alloc);
tcp_sigpool_release(key->tcp_sigpool_id);
kfree_sensitive(key);
err_free_ao:
if (first)
kfree(ao_info);
return ret;
}
static int tcp_ao_delete_key(struct sock *sk, struct tcp_ao_info *ao_info,
struct tcp_ao_key *key,
struct tcp_ao_key *new_current,
struct tcp_ao_key *new_rnext)
{
int err;
hlist_del_rcu(&key->node);
/* At this moment another CPU could have looked this key up
* while it was unlinked from the list. Wait for RCU grace period,
* after which the key is off-list and can't be looked up again;
* the rx path [just before RCU came] might have used it and set it
* as current_key (very unlikely).
*/
synchronize_rcu();
if (new_current)
WRITE_ONCE(ao_info->current_key, new_current);
if (new_rnext)
WRITE_ONCE(ao_info->rnext_key, new_rnext);
if (unlikely(READ_ONCE(ao_info->current_key) == key ||
READ_ONCE(ao_info->rnext_key) == key)) {
err = -EBUSY;
goto add_key;
}
atomic_sub(tcp_ao_sizeof_key(key), &sk->sk_omem_alloc);
call_rcu(&key->rcu, tcp_ao_key_free_rcu);
return 0;
add_key:
hlist_add_head_rcu(&key->node, &ao_info->head);
return err;
}
static int tcp_ao_del_cmd(struct sock *sk, unsigned short int family,
sockptr_t optval, int optlen)
{
struct tcp_ao_key *key, *new_current = NULL, *new_rnext = NULL;
struct tcp_ao_info *ao_info;
union tcp_ao_addr *addr;
struct tcp_ao_del cmd;
int addr_len;
__u8 prefix;
u16 port;
int err;
if (optlen < sizeof(cmd))
return -EINVAL;
err = copy_struct_from_sockptr(&cmd, sizeof(cmd), optval, optlen);
if (err)
return err;
if (cmd.reserved != 0 || cmd.reserved2 != 0)
return -EINVAL;
if (cmd.set_current || cmd.set_rnext) {
if (!tcp_ao_can_set_current_rnext(sk))
return -EINVAL;
}
ao_info = setsockopt_ao_info(sk);
if (IS_ERR(ao_info))
return PTR_ERR(ao_info);
if (!ao_info)
return -ENOENT;
/* For sockets in TCP_CLOSED it's possible set keys that aren't
* matching the future peer (address/VRF/etc),
* tcp_ao_connect_init() will choose a correct matching MKT
* if there's any.
*/
if (cmd.set_current) {
new_current = tcp_ao_established_key(ao_info, cmd.current_key, -1);
if (!new_current)
return -ENOENT;
}
if (cmd.set_rnext) {
new_rnext = tcp_ao_established_key(ao_info, -1, cmd.rnext);
if (!new_rnext)
return -ENOENT;
}
if (family == AF_INET) {
struct sockaddr_in *sin = (struct sockaddr_in *)&cmd.addr;
addr = (union tcp_ao_addr *)&sin->sin_addr;
addr_len = sizeof(struct in_addr);
port = ntohs(sin->sin_port);
} else {
struct sockaddr_in6 *sin6 = (struct sockaddr_in6 *)&cmd.addr;
struct in6_addr *addr6 = &sin6->sin6_addr;
if (ipv6_addr_v4mapped(addr6)) {
addr = (union tcp_ao_addr *)&addr6->s6_addr32[3];
addr_len = sizeof(struct in_addr);
family = AF_INET;
} else {
addr = (union tcp_ao_addr *)addr6;
addr_len = sizeof(struct in6_addr);
}
port = ntohs(sin6->sin6_port);
}
prefix = cmd.prefix;
/* Currently matching is not performed on port (or port ranges) */
if (port != 0)
return -EINVAL;
/* We could choose random present key here for current/rnext
* but that's less predictable. Let's be strict and don't
* allow removing a key that's in use. RFC5925 doesn't
* specify how-to coordinate key removal, but says:
* "It is presumed that an MKT affecting a particular
* connection cannot be destroyed during an active connection"
*/
hlist_for_each_entry_rcu(key, &ao_info->head, node) {
if (cmd.sndid != key->sndid ||
cmd.rcvid != key->rcvid)
continue;
if (family != key->family ||
prefix != key->prefixlen ||
memcmp(addr, &key->addr, addr_len))
continue;
if (key == new_current || key == new_rnext)
continue;
return tcp_ao_delete_key(sk, ao_info, key,
new_current, new_rnext);
}
return -ENOENT;
}
/* cmd.ao_required makes a socket TCP-AO only.
* Don't allow any md5 keys for any l3intf on the socket together with it.
* Restricting it early in setsockopt() removes a check for
* ao_info->ao_required on inbound tcp segment fast-path.
*/
static int tcp_ao_required_verify(struct sock *sk)
{
#ifdef CONFIG_TCP_MD5SIG
const struct tcp_md5sig_info *md5sig;
if (!static_branch_unlikely(&tcp_md5_needed.key))
return 0;
md5sig = rcu_dereference_check(tcp_sk(sk)->md5sig_info,
lockdep_sock_is_held(sk));
if (!md5sig)
return 0;
if (rcu_dereference_check(hlist_first_rcu(&md5sig->head),
lockdep_sock_is_held(sk)))
return 1;
#endif
return 0;
}
static int tcp_ao_info_cmd(struct sock *sk, unsigned short int family,
sockptr_t optval, int optlen)
{
struct tcp_ao_key *new_current = NULL, *new_rnext = NULL;
struct tcp_ao_info *ao_info;
struct tcp_ao_info_opt cmd;
bool first = false;
int err;
if (optlen < sizeof(cmd))
return -EINVAL;
err = copy_struct_from_sockptr(&cmd, sizeof(cmd), optval, optlen);
if (err)
return err;
if (cmd.set_current || cmd.set_rnext) {
if (!tcp_ao_can_set_current_rnext(sk))
return -EINVAL;
}
if (cmd.reserved != 0)
return -EINVAL;
ao_info = setsockopt_ao_info(sk);
if (IS_ERR(ao_info))
return PTR_ERR(ao_info);
if (!ao_info) {
ao_info = tcp_ao_alloc_info(GFP_KERNEL);
if (!ao_info)
return -ENOMEM;
first = true;
}
if (cmd.ao_required && tcp_ao_required_verify(sk))
return -EKEYREJECTED;
/* For sockets in TCP_CLOSED it's possible set keys that aren't
* matching the future peer (address/port/VRF/etc),
* tcp_ao_connect_init() will choose a correct matching MKT
* if there's any.
*/
if (cmd.set_current) {
new_current = tcp_ao_established_key(ao_info, cmd.current_key, -1);
if (!new_current) {
err = -ENOENT;
goto out;
}
}
if (cmd.set_rnext) {
new_rnext = tcp_ao_established_key(ao_info, -1, cmd.rnext);
if (!new_rnext) {
err = -ENOENT;
goto out;
}
}
ao_info->ao_required = cmd.ao_required;
if (new_current)
WRITE_ONCE(ao_info->current_key, new_current);
if (new_rnext)
WRITE_ONCE(ao_info->rnext_key, new_rnext);
if (first) {
sk_gso_disable(sk);
rcu_assign_pointer(tcp_sk(sk)->ao_info, ao_info);
}
return 0;
out:
if (first)
kfree(ao_info);
return err;
}
int tcp_parse_ao(struct sock *sk, int cmd, unsigned short int family,
sockptr_t optval, int optlen)
{
if (WARN_ON_ONCE(family != AF_INET && family != AF_INET6))
return -EAFNOSUPPORT;
switch (cmd) {
case TCP_AO_ADD_KEY:
return tcp_ao_add_cmd(sk, family, optval, optlen);
case TCP_AO_DEL_KEY:
return tcp_ao_del_cmd(sk, family, optval, optlen);
case TCP_AO_INFO:
return tcp_ao_info_cmd(sk, family, optval, optlen);
default:
WARN_ON_ONCE(1);
return -EINVAL;
}
}
int tcp_v4_parse_ao(struct sock *sk, int cmd, sockptr_t optval, int optlen)
{
return tcp_parse_ao(sk, cmd, AF_INET, optval, optlen);
}
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