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// SPDX-License-Identifier: GPL-2.0-or-later
/* Peer event handling, typically ICMP messages.
*
* Copyright (C) 2007 Red Hat, Inc. All Rights Reserved.
* Written by David Howells (dhowells@redhat.com)
*/
#include <linux/module.h>
#include <linux/net.h>
#include <linux/skbuff.h>
#include <linux/errqueue.h>
#include <linux/udp.h>
#include <linux/in.h>
#include <linux/in6.h>
#include <linux/icmp.h>
#include <net/sock.h>
#include <net/af_rxrpc.h>
#include <net/ip.h>
#include <net/icmp.h>
#include "ar-internal.h"
static void rxrpc_adjust_mtu(struct rxrpc_peer *, unsigned int);
static void rxrpc_store_error(struct rxrpc_peer *, struct sock_exterr_skb *);
static void rxrpc_distribute_error(struct rxrpc_peer *, int,
enum rxrpc_call_completion);
/*
* Find the peer associated with an ICMPv4 packet.
*/
static struct rxrpc_peer *rxrpc_lookup_peer_icmp_rcu(struct rxrpc_local *local,
struct sk_buff *skb,
unsigned int udp_offset,
unsigned int *info,
struct sockaddr_rxrpc *srx)
{
struct iphdr *ip, *ip0 = ip_hdr(skb);
struct icmphdr *icmp = icmp_hdr(skb);
struct udphdr *udp = (struct udphdr *)(skb->data + udp_offset);
_enter("%u,%u,%u", ip0->protocol, icmp->type, icmp->code);
switch (icmp->type) {
case ICMP_DEST_UNREACH:
*info = ntohs(icmp->un.frag.mtu);
fallthrough;
case ICMP_TIME_EXCEEDED:
case ICMP_PARAMETERPROB:
ip = (struct iphdr *)((void *)icmp + 8);
break;
default:
return NULL;
}
memset(srx, 0, sizeof(*srx));
srx->transport_type = local->srx.transport_type;
srx->transport_len = local->srx.transport_len;
srx->transport.family = local->srx.transport.family;
/* Can we see an ICMP4 packet on an ICMP6 listening socket? and vice
* versa?
*/
switch (srx->transport.family) {
case AF_INET:
srx->transport_len = sizeof(srx->transport.sin);
srx->transport.family = AF_INET;
srx->transport.sin.sin_port = udp->dest;
memcpy(&srx->transport.sin.sin_addr, &ip->daddr,
sizeof(struct in_addr));
break;
#ifdef CONFIG_AF_RXRPC_IPV6
case AF_INET6:
srx->transport_len = sizeof(srx->transport.sin);
srx->transport.family = AF_INET;
srx->transport.sin.sin_port = udp->dest;
memcpy(&srx->transport.sin.sin_addr, &ip->daddr,
sizeof(struct in_addr));
break;
#endif
default:
WARN_ON_ONCE(1);
return NULL;
}
_net("ICMP {%pISp}", &srx->transport);
return rxrpc_lookup_peer_rcu(local, srx);
}
#ifdef CONFIG_AF_RXRPC_IPV6
/*
* Find the peer associated with an ICMPv6 packet.
*/
static struct rxrpc_peer *rxrpc_lookup_peer_icmp6_rcu(struct rxrpc_local *local,
struct sk_buff *skb,
unsigned int udp_offset,
unsigned int *info,
struct sockaddr_rxrpc *srx)
{
struct icmp6hdr *icmp = icmp6_hdr(skb);
struct ipv6hdr *ip, *ip0 = ipv6_hdr(skb);
struct udphdr *udp = (struct udphdr *)(skb->data + udp_offset);
_enter("%u,%u,%u", ip0->nexthdr, icmp->icmp6_type, icmp->icmp6_code);
switch (icmp->icmp6_type) {
case ICMPV6_DEST_UNREACH:
*info = ntohl(icmp->icmp6_mtu);
fallthrough;
case ICMPV6_PKT_TOOBIG:
case ICMPV6_TIME_EXCEED:
case ICMPV6_PARAMPROB:
ip = (struct ipv6hdr *)((void *)icmp + 8);
break;
default:
return NULL;
}
memset(srx, 0, sizeof(*srx));
srx->transport_type = local->srx.transport_type;
srx->transport_len = local->srx.transport_len;
srx->transport.family = local->srx.transport.family;
/* Can we see an ICMP4 packet on an ICMP6 listening socket? and vice
* versa?
*/
switch (srx->transport.family) {
case AF_INET:
_net("Rx ICMP6 on v4 sock");
srx->transport_len = sizeof(srx->transport.sin);
srx->transport.family = AF_INET;
srx->transport.sin.sin_port = udp->dest;
memcpy(&srx->transport.sin.sin_addr,
&ip->daddr.s6_addr32[3], sizeof(struct in_addr));
break;
case AF_INET6:
_net("Rx ICMP6");
srx->transport.sin.sin_port = udp->dest;
memcpy(&srx->transport.sin6.sin6_addr, &ip->daddr,
sizeof(struct in6_addr));
break;
default:
WARN_ON_ONCE(1);
return NULL;
}
_net("ICMP {%pISp}", &srx->transport);
return rxrpc_lookup_peer_rcu(local, srx);
}
#endif /* CONFIG_AF_RXRPC_IPV6 */
/*
* Handle an error received on the local endpoint as a tunnel.
*/
void rxrpc_encap_err_rcv(struct sock *sk, struct sk_buff *skb,
unsigned int udp_offset)
{
struct sock_extended_err ee;
struct sockaddr_rxrpc srx;
struct rxrpc_local *local;
struct rxrpc_peer *peer;
unsigned int info = 0;
int err;
u8 version = ip_hdr(skb)->version;
u8 type = icmp_hdr(skb)->type;
u8 code = icmp_hdr(skb)->code;
rcu_read_lock();
local = rcu_dereference_sk_user_data(sk);
if (unlikely(!local)) {
rcu_read_unlock();
return;
}
rxrpc_new_skb(skb, rxrpc_skb_received);
switch (ip_hdr(skb)->version) {
case IPVERSION:
peer = rxrpc_lookup_peer_icmp_rcu(local, skb, udp_offset,
&info, &srx);
break;
#ifdef CONFIG_AF_RXRPC_IPV6
case 6:
peer = rxrpc_lookup_peer_icmp6_rcu(local, skb, udp_offset,
&info, &srx);
break;
#endif
default:
rcu_read_unlock();
return;
}
if (peer && !rxrpc_get_peer_maybe(peer))
peer = NULL;
if (!peer) {
rcu_read_unlock();
return;
}
memset(&ee, 0, sizeof(ee));
switch (version) {
case IPVERSION:
switch (type) {
case ICMP_DEST_UNREACH:
switch (code) {
case ICMP_FRAG_NEEDED:
rxrpc_adjust_mtu(peer, info);
rcu_read_unlock();
rxrpc_put_peer(peer);
return;
default:
break;
}
err = EHOSTUNREACH;
if (code <= NR_ICMP_UNREACH) {
/* Might want to do something different with
* non-fatal errors
*/
//harderr = icmp_err_convert[code].fatal;
err = icmp_err_convert[code].errno;
}
break;
case ICMP_TIME_EXCEEDED:
err = EHOSTUNREACH;
break;
default:
err = EPROTO;
break;
}
ee.ee_origin = SO_EE_ORIGIN_ICMP;
ee.ee_type = type;
ee.ee_code = code;
ee.ee_errno = err;
break;
#ifdef CONFIG_AF_RXRPC_IPV6
case 6:
switch (type) {
case ICMPV6_PKT_TOOBIG:
rxrpc_adjust_mtu(peer, info);
rcu_read_unlock();
rxrpc_put_peer(peer);
return;
}
icmpv6_err_convert(type, code, &err);
if (err == EACCES)
err = EHOSTUNREACH;
ee.ee_origin = SO_EE_ORIGIN_ICMP6;
ee.ee_type = type;
ee.ee_code = code;
ee.ee_errno = err;
break;
#endif
}
trace_rxrpc_rx_icmp(peer, &ee, &srx);
rxrpc_distribute_error(peer, err, RXRPC_CALL_NETWORK_ERROR);
rcu_read_unlock();
rxrpc_put_peer(peer);
}
/*
* Find the peer associated with a local error.
*/
static struct rxrpc_peer *rxrpc_lookup_peer_local_rcu(struct rxrpc_local *local,
const struct sk_buff *skb,
struct sockaddr_rxrpc *srx)
{
struct sock_exterr_skb *serr = SKB_EXT_ERR(skb);
_enter("");
memset(srx, 0, sizeof(*srx));
srx->transport_type = local->srx.transport_type;
srx->transport_len = local->srx.transport_len;
srx->transport.family = local->srx.transport.family;
switch (srx->transport.family) {
case AF_INET:
srx->transport_len = sizeof(srx->transport.sin);
srx->transport.family = AF_INET;
srx->transport.sin.sin_port = serr->port;
switch (serr->ee.ee_origin) {
case SO_EE_ORIGIN_ICMP:
_net("Rx ICMP");
memcpy(&srx->transport.sin.sin_addr,
skb_network_header(skb) + serr->addr_offset,
sizeof(struct in_addr));
break;
case SO_EE_ORIGIN_ICMP6:
_net("Rx ICMP6 on v4 sock");
memcpy(&srx->transport.sin.sin_addr,
skb_network_header(skb) + serr->addr_offset + 12,
sizeof(struct in_addr));
break;
default:
memcpy(&srx->transport.sin.sin_addr, &ip_hdr(skb)->saddr,
sizeof(struct in_addr));
break;
}
break;
#ifdef CONFIG_AF_RXRPC_IPV6
case AF_INET6:
switch (serr->ee.ee_origin) {
case SO_EE_ORIGIN_ICMP6:
_net("Rx ICMP6");
srx->transport.sin6.sin6_port = serr->port;
memcpy(&srx->transport.sin6.sin6_addr,
skb_network_header(skb) + serr->addr_offset,
sizeof(struct in6_addr));
break;
case SO_EE_ORIGIN_ICMP:
_net("Rx ICMP on v6 sock");
srx->transport_len = sizeof(srx->transport.sin);
srx->transport.family = AF_INET;
srx->transport.sin.sin_port = serr->port;
memcpy(&srx->transport.sin.sin_addr,
skb_network_header(skb) + serr->addr_offset,
sizeof(struct in_addr));
break;
default:
memcpy(&srx->transport.sin6.sin6_addr,
&ipv6_hdr(skb)->saddr,
sizeof(struct in6_addr));
break;
}
break;
#endif
default:
BUG();
}
return rxrpc_lookup_peer_rcu(local, srx);
}
/*
* Handle an MTU/fragmentation problem.
*/
static void rxrpc_adjust_mtu(struct rxrpc_peer *peer, unsigned int mtu)
{
_net("Rx ICMP Fragmentation Needed (%d)", mtu);
/* wind down the local interface MTU */
if (mtu > 0 && peer->if_mtu == 65535 && mtu < peer->if_mtu) {
peer->if_mtu = mtu;
_net("I/F MTU %u", mtu);
}
if (mtu == 0) {
/* they didn't give us a size, estimate one */
mtu = peer->if_mtu;
if (mtu > 1500) {
mtu >>= 1;
if (mtu < 1500)
mtu = 1500;
} else {
mtu -= 100;
if (mtu < peer->hdrsize)
mtu = peer->hdrsize + 4;
}
}
if (mtu < peer->mtu) {
spin_lock_bh(&peer->lock);
peer->mtu = mtu;
peer->maxdata = peer->mtu - peer->hdrsize;
spin_unlock_bh(&peer->lock);
_net("Net MTU %u (maxdata %u)",
peer->mtu, peer->maxdata);
}
}
/*
* Handle an error received on the local endpoint.
*/
void rxrpc_error_report(struct sock *sk)
{
struct sock_exterr_skb *serr;
struct sockaddr_rxrpc srx;
struct rxrpc_local *local;
struct rxrpc_peer *peer = NULL;
struct sk_buff *skb;
rcu_read_lock();
local = rcu_dereference_sk_user_data(sk);
if (unlikely(!local)) {
rcu_read_unlock();
return;
}
_enter("%p{%d}", sk, local->debug_id);
/* Clear the outstanding error value on the socket so that it doesn't
* cause kernel_sendmsg() to return it later.
*/
sock_error(sk);
skb = sock_dequeue_err_skb(sk);
if (!skb) {
rcu_read_unlock();
_leave("UDP socket errqueue empty");
return;
}
rxrpc_new_skb(skb, rxrpc_skb_received);
serr = SKB_EXT_ERR(skb);
if (serr->ee.ee_origin == SO_EE_ORIGIN_LOCAL) {
peer = rxrpc_lookup_peer_local_rcu(local, skb, &srx);
if (peer && !rxrpc_get_peer_maybe(peer))
peer = NULL;
if (peer) {
trace_rxrpc_rx_icmp(peer, &serr->ee, &srx);
rxrpc_store_error(peer, serr);
}
}
rcu_read_unlock();
rxrpc_free_skb(skb, rxrpc_skb_freed);
rxrpc_put_peer(peer);
_leave("");
}
/*
* Map an error report to error codes on the peer record.
*/
static void rxrpc_store_error(struct rxrpc_peer *peer,
struct sock_exterr_skb *serr)
{
enum rxrpc_call_completion compl = RXRPC_CALL_NETWORK_ERROR;
struct sock_extended_err *ee;
int err;
_enter("");
ee = &serr->ee;
err = ee->ee_errno;
switch (ee->ee_origin) {
case SO_EE_ORIGIN_ICMP:
switch (ee->ee_type) {
case ICMP_DEST_UNREACH:
switch (ee->ee_code) {
case ICMP_NET_UNREACH:
_net("Rx Received ICMP Network Unreachable");
break;
case ICMP_HOST_UNREACH:
_net("Rx Received ICMP Host Unreachable");
break;
case ICMP_PORT_UNREACH:
_net("Rx Received ICMP Port Unreachable");
break;
case ICMP_NET_UNKNOWN:
_net("Rx Received ICMP Unknown Network");
break;
case ICMP_HOST_UNKNOWN:
_net("Rx Received ICMP Unknown Host");
break;
default:
_net("Rx Received ICMP DestUnreach code=%u",
ee->ee_code);
break;
}
break;
case ICMP_TIME_EXCEEDED:
_net("Rx Received ICMP TTL Exceeded");
break;
default:
_proto("Rx Received ICMP error { type=%u code=%u }",
ee->ee_type, ee->ee_code);
break;
}
break;
case SO_EE_ORIGIN_NONE:
case SO_EE_ORIGIN_LOCAL:
_proto("Rx Received local error { error=%d }", err);
compl = RXRPC_CALL_LOCAL_ERROR;
break;
case SO_EE_ORIGIN_ICMP6:
if (err == EACCES)
err = EHOSTUNREACH;
fallthrough;
default:
_proto("Rx Received error report { orig=%u }", ee->ee_origin);
break;
}
rxrpc_distribute_error(peer, err, compl);
}
/*
* Distribute an error that occurred on a peer.
*/
static void rxrpc_distribute_error(struct rxrpc_peer *peer, int error,
enum rxrpc_call_completion compl)
{
struct rxrpc_call *call;
hlist_for_each_entry_rcu(call, &peer->error_targets, error_link) {
rxrpc_see_call(call);
rxrpc_set_call_completion(call, compl, 0, -error);
}
}
/*
* Perform keep-alive pings.
*/
static void rxrpc_peer_keepalive_dispatch(struct rxrpc_net *rxnet,
struct list_head *collector,
time64_t base,
u8 cursor)
{
struct rxrpc_peer *peer;
const u8 mask = ARRAY_SIZE(rxnet->peer_keepalive) - 1;
time64_t keepalive_at;
int slot;
spin_lock_bh(&rxnet->peer_hash_lock);
while (!list_empty(collector)) {
peer = list_entry(collector->next,
struct rxrpc_peer, keepalive_link);
list_del_init(&peer->keepalive_link);
if (!rxrpc_get_peer_maybe(peer))
continue;
if (__rxrpc_use_local(peer->local)) {
spin_unlock_bh(&rxnet->peer_hash_lock);
keepalive_at = peer->last_tx_at + RXRPC_KEEPALIVE_TIME;
slot = keepalive_at - base;
_debug("%02x peer %u t=%d {%pISp}",
cursor, peer->debug_id, slot, &peer->srx.transport);
if (keepalive_at <= base ||
keepalive_at > base + RXRPC_KEEPALIVE_TIME) {
rxrpc_send_keepalive(peer);
slot = RXRPC_KEEPALIVE_TIME;
}
/* A transmission to this peer occurred since last we
* examined it so put it into the appropriate future
* bucket.
*/
slot += cursor;
slot &= mask;
spin_lock_bh(&rxnet->peer_hash_lock);
list_add_tail(&peer->keepalive_link,
&rxnet->peer_keepalive[slot & mask]);
rxrpc_unuse_local(peer->local);
}
rxrpc_put_peer_locked(peer);
}
spin_unlock_bh(&rxnet->peer_hash_lock);
}
/*
* Perform keep-alive pings with VERSION packets to keep any NAT alive.
*/
void rxrpc_peer_keepalive_worker(struct work_struct *work)
{
struct rxrpc_net *rxnet =
container_of(work, struct rxrpc_net, peer_keepalive_work);
const u8 mask = ARRAY_SIZE(rxnet->peer_keepalive) - 1;
time64_t base, now, delay;
u8 cursor, stop;
LIST_HEAD(collector);
now = ktime_get_seconds();
base = rxnet->peer_keepalive_base;
cursor = rxnet->peer_keepalive_cursor;
_enter("%lld,%u", base - now, cursor);
if (!rxnet->live)
return;
/* Remove to a temporary list all the peers that are currently lodged
* in expired buckets plus all new peers.
*
* Everything in the bucket at the cursor is processed this
* second; the bucket at cursor + 1 goes at now + 1s and so
* on...
*/
spin_lock_bh(&rxnet->peer_hash_lock);
list_splice_init(&rxnet->peer_keepalive_new, &collector);
stop = cursor + ARRAY_SIZE(rxnet->peer_keepalive);
while (base <= now && (s8)(cursor - stop) < 0) {
list_splice_tail_init(&rxnet->peer_keepalive[cursor & mask],
&collector);
base++;
cursor++;
}
base = now;
spin_unlock_bh(&rxnet->peer_hash_lock);
rxnet->peer_keepalive_base = base;
rxnet->peer_keepalive_cursor = cursor;
rxrpc_peer_keepalive_dispatch(rxnet, &collector, base, cursor);
ASSERT(list_empty(&collector));
/* Schedule the timer for the next occupied timeslot. */
cursor = rxnet->peer_keepalive_cursor;
stop = cursor + RXRPC_KEEPALIVE_TIME - 1;
for (; (s8)(cursor - stop) < 0; cursor++) {
if (!list_empty(&rxnet->peer_keepalive[cursor & mask]))
break;
base++;
}
now = ktime_get_seconds();
delay = base - now;
if (delay < 1)
delay = 1;
delay *= HZ;
if (rxnet->live)
timer_reduce(&rxnet->peer_keepalive_timer, jiffies + delay);
_leave("");
}
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