mirror of
https://github.com/AuxXxilium/linux_dsm_epyc7002.git
synced 2024-12-22 10:58:18 +07:00
f4d15fb6f9
Provide a couple of functions to allow cleaner handling of signals in a kernel service. They are: (1) rxrpc_kernel_get_rtt() This allows the kernel service to find out the RTT time for a call, so as to better judge how large a timeout to employ. Note, though, that whilst this returns a value in nanoseconds, the timeouts can only actually be in jiffies. (2) rxrpc_kernel_check_life() This returns a number that is updated when ACKs are received from the peer (notably including PING RESPONSE ACKs which we can elicit by sending PING ACKs to see if the call still exists on the server). The caller should compare the numbers of two calls to see if the call is still alive. These can be used to provide an extending timeout rather than returning immediately in the case that a signal occurs that would otherwise abort an RPC operation. The timeout would be extended if the server is still responsive and the call is still apparently alive on the server. For most operations this isn't that necessary - but for FS.StoreData it is: OpenAFS writes the data to storage as it comes in without making a backup, so if we immediately abort it when partially complete on a CTRL+C, say, we have no idea of the state of the file after the abort. Signed-off-by: David Howells <dhowells@redhat.com>
427 lines
10 KiB
C
427 lines
10 KiB
C
/* RxRPC remote transport endpoint record management
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*
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* Copyright (C) 2007, 2016 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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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version
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* 2 of the License, or (at your option) any later version.
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*/
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#define pr_fmt(fmt) KBUILD_MODNAME ": " fmt
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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/udp.h>
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#include <linux/in.h>
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#include <linux/in6.h>
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#include <linux/slab.h>
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#include <linux/hashtable.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 <net/route.h>
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#include <net/ip6_route.h>
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#include "ar-internal.h"
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/*
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* Hash a peer key.
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*/
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static unsigned long rxrpc_peer_hash_key(struct rxrpc_local *local,
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const struct sockaddr_rxrpc *srx)
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{
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const u16 *p;
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unsigned int i, size;
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unsigned long hash_key;
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_enter("");
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hash_key = (unsigned long)local / __alignof__(*local);
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hash_key += srx->transport_type;
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hash_key += srx->transport_len;
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hash_key += srx->transport.family;
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switch (srx->transport.family) {
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case AF_INET:
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hash_key += (u16 __force)srx->transport.sin.sin_port;
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size = sizeof(srx->transport.sin.sin_addr);
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p = (u16 *)&srx->transport.sin.sin_addr;
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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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hash_key += (u16 __force)srx->transport.sin.sin_port;
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size = sizeof(srx->transport.sin6.sin6_addr);
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p = (u16 *)&srx->transport.sin6.sin6_addr;
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break;
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#endif
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default:
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WARN(1, "AF_RXRPC: Unsupported transport address family\n");
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return 0;
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}
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/* Step through the peer address in 16-bit portions for speed */
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for (i = 0; i < size; i += sizeof(*p), p++)
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hash_key += *p;
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_leave(" 0x%lx", hash_key);
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return hash_key;
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}
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/*
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* Compare a peer to a key. Return -ve, 0 or +ve to indicate less than, same
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* or greater than.
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*
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* Unfortunately, the primitives in linux/hashtable.h don't allow for sorted
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* buckets and mid-bucket insertion, so we don't make full use of this
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* information at this point.
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*/
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static long rxrpc_peer_cmp_key(const struct rxrpc_peer *peer,
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struct rxrpc_local *local,
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const struct sockaddr_rxrpc *srx,
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unsigned long hash_key)
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{
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long diff;
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diff = ((peer->hash_key - hash_key) ?:
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((unsigned long)peer->local - (unsigned long)local) ?:
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(peer->srx.transport_type - srx->transport_type) ?:
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(peer->srx.transport_len - srx->transport_len) ?:
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(peer->srx.transport.family - srx->transport.family));
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if (diff != 0)
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return diff;
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switch (srx->transport.family) {
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case AF_INET:
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return ((u16 __force)peer->srx.transport.sin.sin_port -
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(u16 __force)srx->transport.sin.sin_port) ?:
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memcmp(&peer->srx.transport.sin.sin_addr,
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&srx->transport.sin.sin_addr,
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sizeof(struct in_addr));
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#ifdef CONFIG_AF_RXRPC_IPV6
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case AF_INET6:
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return ((u16 __force)peer->srx.transport.sin6.sin6_port -
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(u16 __force)srx->transport.sin6.sin6_port) ?:
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memcmp(&peer->srx.transport.sin6.sin6_addr,
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&srx->transport.sin6.sin6_addr,
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sizeof(struct in6_addr));
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#endif
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default:
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BUG();
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}
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}
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/*
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* Look up a remote transport endpoint for the specified address using RCU.
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*/
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static struct rxrpc_peer *__rxrpc_lookup_peer_rcu(
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struct rxrpc_local *local,
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const struct sockaddr_rxrpc *srx,
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unsigned long hash_key)
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{
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struct rxrpc_peer *peer;
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struct rxrpc_net *rxnet = local->rxnet;
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hash_for_each_possible_rcu(rxnet->peer_hash, peer, hash_link, hash_key) {
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if (rxrpc_peer_cmp_key(peer, local, srx, hash_key) == 0) {
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if (atomic_read(&peer->usage) == 0)
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return NULL;
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return peer;
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}
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}
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return NULL;
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}
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/*
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* Look up a remote transport endpoint for the specified address using RCU.
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*/
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struct rxrpc_peer *rxrpc_lookup_peer_rcu(struct rxrpc_local *local,
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const struct sockaddr_rxrpc *srx)
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{
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struct rxrpc_peer *peer;
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unsigned long hash_key = rxrpc_peer_hash_key(local, srx);
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peer = __rxrpc_lookup_peer_rcu(local, srx, hash_key);
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if (peer) {
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_net("PEER %d {%pISp}", peer->debug_id, &peer->srx.transport);
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_leave(" = %p {u=%d}", peer, atomic_read(&peer->usage));
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}
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return peer;
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}
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/*
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* assess the MTU size for the network interface through which this peer is
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* reached
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*/
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static void rxrpc_assess_MTU_size(struct rxrpc_peer *peer)
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{
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struct dst_entry *dst;
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struct rtable *rt;
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struct flowi fl;
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struct flowi4 *fl4 = &fl.u.ip4;
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#ifdef CONFIG_AF_RXRPC_IPV6
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struct flowi6 *fl6 = &fl.u.ip6;
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#endif
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peer->if_mtu = 1500;
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memset(&fl, 0, sizeof(fl));
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switch (peer->srx.transport.family) {
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case AF_INET:
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rt = ip_route_output_ports(
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&init_net, fl4, NULL,
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peer->srx.transport.sin.sin_addr.s_addr, 0,
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htons(7000), htons(7001), IPPROTO_UDP, 0, 0);
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if (IS_ERR(rt)) {
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_leave(" [route err %ld]", PTR_ERR(rt));
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return;
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}
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dst = &rt->dst;
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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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fl6->flowi6_iif = LOOPBACK_IFINDEX;
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fl6->flowi6_scope = RT_SCOPE_UNIVERSE;
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fl6->flowi6_proto = IPPROTO_UDP;
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memcpy(&fl6->daddr, &peer->srx.transport.sin6.sin6_addr,
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sizeof(struct in6_addr));
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fl6->fl6_dport = htons(7001);
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fl6->fl6_sport = htons(7000);
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dst = ip6_route_output(&init_net, NULL, fl6);
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if (dst->error) {
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_leave(" [route err %d]", dst->error);
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return;
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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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peer->if_mtu = dst_mtu(dst);
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dst_release(dst);
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_leave(" [if_mtu %u]", peer->if_mtu);
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}
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/*
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* Allocate a peer.
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*/
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struct rxrpc_peer *rxrpc_alloc_peer(struct rxrpc_local *local, gfp_t gfp)
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{
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struct rxrpc_peer *peer;
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_enter("");
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peer = kzalloc(sizeof(struct rxrpc_peer), gfp);
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if (peer) {
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atomic_set(&peer->usage, 1);
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peer->local = local;
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INIT_HLIST_HEAD(&peer->error_targets);
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INIT_WORK(&peer->error_distributor,
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&rxrpc_peer_error_distributor);
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peer->service_conns = RB_ROOT;
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seqlock_init(&peer->service_conn_lock);
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spin_lock_init(&peer->lock);
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peer->debug_id = atomic_inc_return(&rxrpc_debug_id);
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if (RXRPC_TX_SMSS > 2190)
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peer->cong_cwnd = 2;
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else if (RXRPC_TX_SMSS > 1095)
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peer->cong_cwnd = 3;
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else
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peer->cong_cwnd = 4;
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}
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_leave(" = %p", peer);
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return peer;
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}
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/*
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* Initialise peer record.
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*/
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static void rxrpc_init_peer(struct rxrpc_peer *peer, unsigned long hash_key)
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{
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peer->hash_key = hash_key;
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rxrpc_assess_MTU_size(peer);
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peer->mtu = peer->if_mtu;
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peer->rtt_last_req = ktime_get_real();
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switch (peer->srx.transport.family) {
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case AF_INET:
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peer->hdrsize = sizeof(struct iphdr);
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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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peer->hdrsize = sizeof(struct ipv6hdr);
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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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switch (peer->srx.transport_type) {
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case SOCK_DGRAM:
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peer->hdrsize += sizeof(struct udphdr);
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break;
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default:
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BUG();
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}
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peer->hdrsize += sizeof(struct rxrpc_wire_header);
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peer->maxdata = peer->mtu - peer->hdrsize;
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}
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/*
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* Set up a new peer.
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*/
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static struct rxrpc_peer *rxrpc_create_peer(struct rxrpc_local *local,
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struct sockaddr_rxrpc *srx,
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unsigned long hash_key,
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gfp_t gfp)
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{
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struct rxrpc_peer *peer;
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_enter("");
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peer = rxrpc_alloc_peer(local, gfp);
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if (peer) {
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memcpy(&peer->srx, srx, sizeof(*srx));
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rxrpc_init_peer(peer, hash_key);
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}
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_leave(" = %p", peer);
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return peer;
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}
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/*
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* Set up a new incoming peer. The address is prestored in the preallocated
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* peer.
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*/
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struct rxrpc_peer *rxrpc_lookup_incoming_peer(struct rxrpc_local *local,
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struct rxrpc_peer *prealloc)
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{
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struct rxrpc_peer *peer;
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struct rxrpc_net *rxnet = local->rxnet;
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unsigned long hash_key;
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hash_key = rxrpc_peer_hash_key(local, &prealloc->srx);
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prealloc->local = local;
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rxrpc_init_peer(prealloc, hash_key);
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spin_lock(&rxnet->peer_hash_lock);
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/* Need to check that we aren't racing with someone else */
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peer = __rxrpc_lookup_peer_rcu(local, &prealloc->srx, hash_key);
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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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peer = prealloc;
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hash_add_rcu(rxnet->peer_hash, &peer->hash_link, hash_key);
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}
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spin_unlock(&rxnet->peer_hash_lock);
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return peer;
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}
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/*
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* obtain a remote transport endpoint for the specified address
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*/
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struct rxrpc_peer *rxrpc_lookup_peer(struct rxrpc_local *local,
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struct sockaddr_rxrpc *srx, gfp_t gfp)
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{
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struct rxrpc_peer *peer, *candidate;
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struct rxrpc_net *rxnet = local->rxnet;
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unsigned long hash_key = rxrpc_peer_hash_key(local, srx);
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_enter("{%pISp}", &srx->transport);
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/* search the peer list first */
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rcu_read_lock();
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peer = __rxrpc_lookup_peer_rcu(local, srx, hash_key);
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if (peer && !rxrpc_get_peer_maybe(peer))
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peer = NULL;
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rcu_read_unlock();
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if (!peer) {
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/* The peer is not yet present in hash - create a candidate
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* for a new record and then redo the search.
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*/
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candidate = rxrpc_create_peer(local, srx, hash_key, gfp);
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if (!candidate) {
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_leave(" = NULL [nomem]");
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return NULL;
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}
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spin_lock_bh(&rxnet->peer_hash_lock);
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/* Need to check that we aren't racing with someone else */
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peer = __rxrpc_lookup_peer_rcu(local, srx, hash_key);
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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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hash_add_rcu(rxnet->peer_hash,
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&candidate->hash_link, hash_key);
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spin_unlock_bh(&rxnet->peer_hash_lock);
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if (peer)
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kfree(candidate);
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else
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peer = candidate;
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}
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_net("PEER %d {%pISp}", peer->debug_id, &peer->srx.transport);
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_leave(" = %p {u=%d}", peer, atomic_read(&peer->usage));
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return peer;
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}
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/*
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* Discard a ref on a remote peer record.
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*/
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void __rxrpc_put_peer(struct rxrpc_peer *peer)
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{
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struct rxrpc_net *rxnet = peer->local->rxnet;
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ASSERT(hlist_empty(&peer->error_targets));
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spin_lock_bh(&rxnet->peer_hash_lock);
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hash_del_rcu(&peer->hash_link);
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spin_unlock_bh(&rxnet->peer_hash_lock);
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kfree_rcu(peer, rcu);
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}
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/**
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* rxrpc_kernel_get_peer - Get the peer address of a call
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* @sock: The socket on which the call is in progress.
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* @call: The call to query
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* @_srx: Where to place the result
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*
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* Get the address of the remote peer in a call.
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*/
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void rxrpc_kernel_get_peer(struct socket *sock, struct rxrpc_call *call,
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struct sockaddr_rxrpc *_srx)
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{
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*_srx = call->peer->srx;
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}
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EXPORT_SYMBOL(rxrpc_kernel_get_peer);
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/**
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* rxrpc_kernel_get_rtt - Get a call's peer RTT
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* @sock: The socket on which the call is in progress.
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* @call: The call to query
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*
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* Get the call's peer RTT.
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*/
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u64 rxrpc_kernel_get_rtt(struct socket *sock, struct rxrpc_call *call)
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{
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return call->peer->rtt;
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}
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EXPORT_SYMBOL(rxrpc_kernel_get_rtt);
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