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04d36d748f
The introduction of a split between the reference count on rxrpc_local
objects and the usage count didn't quite go far enough. A number of kernel
work items need to make use of the socket to perform transmission. These
also need to get an active count on the local object to prevent the socket
from being closed.
Fix this by getting the active count in those places.
Also split out the raw active count get/put functions as these places tend
to hold refs on the rxrpc_local object already, so getting and putting an
extra object ref is just a waste of time.
The problem can lead to symptoms like:
BUG: kernel NULL pointer dereference, address: 0000000000000018
..
CPU: 2 PID: 818 Comm: kworker/u9:0 Not tainted 5.5.0-fscache+ #51
...
RIP: 0010:selinux_socket_sendmsg+0x5/0x13
...
Call Trace:
security_socket_sendmsg+0x2c/0x3e
sock_sendmsg+0x1a/0x46
rxrpc_send_keepalive+0x131/0x1ae
rxrpc_peer_keepalive_worker+0x219/0x34b
process_one_work+0x18e/0x271
worker_thread+0x1a3/0x247
kthread+0xe6/0xeb
ret_from_fork+0x1f/0x30
Fixes: 730c5fd42c
("rxrpc: Fix local endpoint refcounting")
Signed-off-by: David Howells <dhowells@redhat.com>
463 lines
11 KiB
C
463 lines
11 KiB
C
// SPDX-License-Identifier: GPL-2.0-or-later
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/* Peer event handling, typically ICMP messages.
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*
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* Copyright (C) 2007 Red Hat, Inc. All Rights Reserved.
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* Written by David Howells (dhowells@redhat.com)
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*/
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#include <linux/module.h>
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#include <linux/net.h>
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#include <linux/skbuff.h>
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#include <linux/errqueue.h>
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#include <linux/udp.h>
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#include <linux/in.h>
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#include <linux/in6.h>
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#include <linux/icmp.h>
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#include <net/sock.h>
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#include <net/af_rxrpc.h>
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#include <net/ip.h>
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#include "ar-internal.h"
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static void rxrpc_store_error(struct rxrpc_peer *, struct sock_exterr_skb *);
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static void rxrpc_distribute_error(struct rxrpc_peer *, int,
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enum rxrpc_call_completion);
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/*
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* Find the peer associated with an ICMP packet.
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*/
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static struct rxrpc_peer *rxrpc_lookup_peer_icmp_rcu(struct rxrpc_local *local,
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const struct sk_buff *skb,
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struct sockaddr_rxrpc *srx)
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{
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struct sock_exterr_skb *serr = SKB_EXT_ERR(skb);
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_enter("");
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memset(srx, 0, sizeof(*srx));
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srx->transport_type = local->srx.transport_type;
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srx->transport_len = local->srx.transport_len;
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srx->transport.family = local->srx.transport.family;
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/* Can we see an ICMP4 packet on an ICMP6 listening socket? and vice
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* versa?
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*/
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switch (srx->transport.family) {
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case AF_INET:
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srx->transport_len = sizeof(srx->transport.sin);
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srx->transport.family = AF_INET;
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srx->transport.sin.sin_port = serr->port;
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switch (serr->ee.ee_origin) {
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case SO_EE_ORIGIN_ICMP:
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_net("Rx ICMP");
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memcpy(&srx->transport.sin.sin_addr,
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skb_network_header(skb) + serr->addr_offset,
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sizeof(struct in_addr));
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break;
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case SO_EE_ORIGIN_ICMP6:
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_net("Rx ICMP6 on v4 sock");
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memcpy(&srx->transport.sin.sin_addr,
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skb_network_header(skb) + serr->addr_offset + 12,
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sizeof(struct in_addr));
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break;
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default:
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memcpy(&srx->transport.sin.sin_addr, &ip_hdr(skb)->saddr,
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sizeof(struct in_addr));
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break;
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}
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break;
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#ifdef CONFIG_AF_RXRPC_IPV6
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case AF_INET6:
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switch (serr->ee.ee_origin) {
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case SO_EE_ORIGIN_ICMP6:
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_net("Rx ICMP6");
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srx->transport.sin6.sin6_port = serr->port;
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memcpy(&srx->transport.sin6.sin6_addr,
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skb_network_header(skb) + serr->addr_offset,
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sizeof(struct in6_addr));
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break;
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case SO_EE_ORIGIN_ICMP:
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_net("Rx ICMP on v6 sock");
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srx->transport_len = sizeof(srx->transport.sin);
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srx->transport.family = AF_INET;
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srx->transport.sin.sin_port = serr->port;
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memcpy(&srx->transport.sin.sin_addr,
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skb_network_header(skb) + serr->addr_offset,
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sizeof(struct in_addr));
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break;
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default:
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memcpy(&srx->transport.sin6.sin6_addr,
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&ipv6_hdr(skb)->saddr,
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sizeof(struct in6_addr));
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break;
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}
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break;
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#endif
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default:
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BUG();
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}
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return rxrpc_lookup_peer_rcu(local, srx);
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}
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/*
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* Handle an MTU/fragmentation problem.
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*/
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static void rxrpc_adjust_mtu(struct rxrpc_peer *peer, struct sock_exterr_skb *serr)
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{
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u32 mtu = serr->ee.ee_info;
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_net("Rx ICMP Fragmentation Needed (%d)", mtu);
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/* wind down the local interface MTU */
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if (mtu > 0 && peer->if_mtu == 65535 && mtu < peer->if_mtu) {
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peer->if_mtu = mtu;
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_net("I/F MTU %u", mtu);
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}
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if (mtu == 0) {
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/* they didn't give us a size, estimate one */
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mtu = peer->if_mtu;
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if (mtu > 1500) {
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mtu >>= 1;
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if (mtu < 1500)
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mtu = 1500;
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} else {
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mtu -= 100;
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if (mtu < peer->hdrsize)
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mtu = peer->hdrsize + 4;
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}
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}
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if (mtu < peer->mtu) {
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spin_lock_bh(&peer->lock);
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peer->mtu = mtu;
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peer->maxdata = peer->mtu - peer->hdrsize;
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spin_unlock_bh(&peer->lock);
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_net("Net MTU %u (maxdata %u)",
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peer->mtu, peer->maxdata);
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}
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}
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/*
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* Handle an error received on the local endpoint.
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*/
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void rxrpc_error_report(struct sock *sk)
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{
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struct sock_exterr_skb *serr;
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struct sockaddr_rxrpc srx;
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struct rxrpc_local *local;
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struct rxrpc_peer *peer;
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struct sk_buff *skb;
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rcu_read_lock();
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local = rcu_dereference_sk_user_data(sk);
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if (unlikely(!local)) {
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rcu_read_unlock();
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return;
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}
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_enter("%p{%d}", sk, local->debug_id);
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/* Clear the outstanding error value on the socket so that it doesn't
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* cause kernel_sendmsg() to return it later.
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*/
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sock_error(sk);
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skb = sock_dequeue_err_skb(sk);
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if (!skb) {
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rcu_read_unlock();
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_leave("UDP socket errqueue empty");
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return;
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}
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rxrpc_new_skb(skb, rxrpc_skb_received);
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serr = SKB_EXT_ERR(skb);
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if (!skb->len && serr->ee.ee_origin == SO_EE_ORIGIN_TIMESTAMPING) {
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_leave("UDP empty message");
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rcu_read_unlock();
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rxrpc_free_skb(skb, rxrpc_skb_freed);
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return;
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}
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peer = rxrpc_lookup_peer_icmp_rcu(local, skb, &srx);
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if (peer && !rxrpc_get_peer_maybe(peer))
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peer = NULL;
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if (!peer) {
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rcu_read_unlock();
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rxrpc_free_skb(skb, rxrpc_skb_freed);
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_leave(" [no peer]");
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return;
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}
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trace_rxrpc_rx_icmp(peer, &serr->ee, &srx);
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if ((serr->ee.ee_origin == SO_EE_ORIGIN_ICMP &&
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serr->ee.ee_type == ICMP_DEST_UNREACH &&
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serr->ee.ee_code == ICMP_FRAG_NEEDED)) {
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rxrpc_adjust_mtu(peer, serr);
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rcu_read_unlock();
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rxrpc_free_skb(skb, rxrpc_skb_freed);
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rxrpc_put_peer(peer);
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_leave(" [MTU update]");
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return;
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}
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rxrpc_store_error(peer, serr);
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rcu_read_unlock();
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rxrpc_free_skb(skb, rxrpc_skb_freed);
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rxrpc_put_peer(peer);
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_leave("");
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}
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/*
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* Map an error report to error codes on the peer record.
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*/
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static void rxrpc_store_error(struct rxrpc_peer *peer,
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struct sock_exterr_skb *serr)
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{
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enum rxrpc_call_completion compl = RXRPC_CALL_NETWORK_ERROR;
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struct sock_extended_err *ee;
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int err;
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_enter("");
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ee = &serr->ee;
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err = ee->ee_errno;
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switch (ee->ee_origin) {
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case SO_EE_ORIGIN_ICMP:
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switch (ee->ee_type) {
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case ICMP_DEST_UNREACH:
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switch (ee->ee_code) {
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case ICMP_NET_UNREACH:
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_net("Rx Received ICMP Network Unreachable");
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break;
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case ICMP_HOST_UNREACH:
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_net("Rx Received ICMP Host Unreachable");
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break;
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case ICMP_PORT_UNREACH:
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_net("Rx Received ICMP Port Unreachable");
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break;
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case ICMP_NET_UNKNOWN:
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_net("Rx Received ICMP Unknown Network");
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break;
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case ICMP_HOST_UNKNOWN:
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_net("Rx Received ICMP Unknown Host");
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break;
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default:
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_net("Rx Received ICMP DestUnreach code=%u",
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ee->ee_code);
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break;
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}
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break;
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case ICMP_TIME_EXCEEDED:
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_net("Rx Received ICMP TTL Exceeded");
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break;
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default:
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_proto("Rx Received ICMP error { type=%u code=%u }",
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ee->ee_type, ee->ee_code);
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break;
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}
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break;
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case SO_EE_ORIGIN_NONE:
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case SO_EE_ORIGIN_LOCAL:
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_proto("Rx Received local error { error=%d }", err);
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compl = RXRPC_CALL_LOCAL_ERROR;
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break;
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case SO_EE_ORIGIN_ICMP6:
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default:
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_proto("Rx Received error report { orig=%u }", ee->ee_origin);
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break;
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}
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rxrpc_distribute_error(peer, err, compl);
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}
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/*
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* Distribute an error that occurred on a peer.
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*/
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static void rxrpc_distribute_error(struct rxrpc_peer *peer, int error,
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enum rxrpc_call_completion compl)
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{
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struct rxrpc_call *call;
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hlist_for_each_entry_rcu(call, &peer->error_targets, error_link) {
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rxrpc_see_call(call);
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if (call->state < RXRPC_CALL_COMPLETE &&
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rxrpc_set_call_completion(call, compl, 0, -error))
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rxrpc_notify_socket(call);
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}
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}
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/*
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* Add RTT information to cache. This is called in softirq mode and has
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* exclusive access to the peer RTT data.
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*/
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void rxrpc_peer_add_rtt(struct rxrpc_call *call, enum rxrpc_rtt_rx_trace why,
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rxrpc_serial_t send_serial, rxrpc_serial_t resp_serial,
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ktime_t send_time, ktime_t resp_time)
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{
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struct rxrpc_peer *peer = call->peer;
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s64 rtt;
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u64 sum = peer->rtt_sum, avg;
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u8 cursor = peer->rtt_cursor, usage = peer->rtt_usage;
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rtt = ktime_to_ns(ktime_sub(resp_time, send_time));
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if (rtt < 0)
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return;
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spin_lock(&peer->rtt_input_lock);
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/* Replace the oldest datum in the RTT buffer */
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sum -= peer->rtt_cache[cursor];
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sum += rtt;
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peer->rtt_cache[cursor] = rtt;
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peer->rtt_cursor = (cursor + 1) & (RXRPC_RTT_CACHE_SIZE - 1);
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peer->rtt_sum = sum;
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if (usage < RXRPC_RTT_CACHE_SIZE) {
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usage++;
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peer->rtt_usage = usage;
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}
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spin_unlock(&peer->rtt_input_lock);
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/* Now recalculate the average */
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if (usage == RXRPC_RTT_CACHE_SIZE) {
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avg = sum / RXRPC_RTT_CACHE_SIZE;
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} else {
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avg = sum;
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do_div(avg, usage);
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}
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/* Don't need to update this under lock */
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peer->rtt = avg;
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trace_rxrpc_rtt_rx(call, why, send_serial, resp_serial, rtt,
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usage, avg);
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}
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/*
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* Perform keep-alive pings.
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*/
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static void rxrpc_peer_keepalive_dispatch(struct rxrpc_net *rxnet,
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struct list_head *collector,
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time64_t base,
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u8 cursor)
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{
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struct rxrpc_peer *peer;
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const u8 mask = ARRAY_SIZE(rxnet->peer_keepalive) - 1;
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time64_t keepalive_at;
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int slot;
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spin_lock_bh(&rxnet->peer_hash_lock);
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while (!list_empty(collector)) {
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peer = list_entry(collector->next,
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struct rxrpc_peer, keepalive_link);
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list_del_init(&peer->keepalive_link);
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if (!rxrpc_get_peer_maybe(peer))
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continue;
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if (__rxrpc_use_local(peer->local)) {
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spin_unlock_bh(&rxnet->peer_hash_lock);
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keepalive_at = peer->last_tx_at + RXRPC_KEEPALIVE_TIME;
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slot = keepalive_at - base;
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_debug("%02x peer %u t=%d {%pISp}",
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cursor, peer->debug_id, slot, &peer->srx.transport);
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if (keepalive_at <= base ||
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keepalive_at > base + RXRPC_KEEPALIVE_TIME) {
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rxrpc_send_keepalive(peer);
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slot = RXRPC_KEEPALIVE_TIME;
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}
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/* A transmission to this peer occurred since last we
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* examined it so put it into the appropriate future
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* bucket.
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*/
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slot += cursor;
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slot &= mask;
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spin_lock_bh(&rxnet->peer_hash_lock);
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list_add_tail(&peer->keepalive_link,
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&rxnet->peer_keepalive[slot & mask]);
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rxrpc_unuse_local(peer->local);
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}
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rxrpc_put_peer_locked(peer);
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}
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spin_unlock_bh(&rxnet->peer_hash_lock);
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}
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/*
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* Perform keep-alive pings with VERSION packets to keep any NAT alive.
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*/
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void rxrpc_peer_keepalive_worker(struct work_struct *work)
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{
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struct rxrpc_net *rxnet =
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container_of(work, struct rxrpc_net, peer_keepalive_work);
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const u8 mask = ARRAY_SIZE(rxnet->peer_keepalive) - 1;
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time64_t base, now, delay;
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u8 cursor, stop;
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LIST_HEAD(collector);
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now = ktime_get_seconds();
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base = rxnet->peer_keepalive_base;
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cursor = rxnet->peer_keepalive_cursor;
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_enter("%lld,%u", base - now, cursor);
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if (!rxnet->live)
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return;
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/* Remove to a temporary list all the peers that are currently lodged
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* in expired buckets plus all new peers.
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*
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* Everything in the bucket at the cursor is processed this
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* second; the bucket at cursor + 1 goes at now + 1s and so
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* on...
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*/
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spin_lock_bh(&rxnet->peer_hash_lock);
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list_splice_init(&rxnet->peer_keepalive_new, &collector);
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stop = cursor + ARRAY_SIZE(rxnet->peer_keepalive);
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while (base <= now && (s8)(cursor - stop) < 0) {
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list_splice_tail_init(&rxnet->peer_keepalive[cursor & mask],
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&collector);
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base++;
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cursor++;
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}
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base = now;
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spin_unlock_bh(&rxnet->peer_hash_lock);
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rxnet->peer_keepalive_base = base;
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rxnet->peer_keepalive_cursor = cursor;
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rxrpc_peer_keepalive_dispatch(rxnet, &collector, base, cursor);
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ASSERT(list_empty(&collector));
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/* Schedule the timer for the next occupied timeslot. */
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cursor = rxnet->peer_keepalive_cursor;
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stop = cursor + RXRPC_KEEPALIVE_TIME - 1;
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for (; (s8)(cursor - stop) < 0; cursor++) {
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if (!list_empty(&rxnet->peer_keepalive[cursor & mask]))
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break;
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base++;
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}
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now = ktime_get_seconds();
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delay = base - now;
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if (delay < 1)
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delay = 1;
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delay *= HZ;
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if (rxnet->live)
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timer_reduce(&rxnet->peer_keepalive_timer, jiffies + delay);
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_leave("");
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}
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