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homa_timer.c
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homa_timer.c
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// SPDX-License-Identifier: BSD-2-Clause
/* This file handles timing-related functions for Homa, such as retries
* and timeouts.
*/
#include "homa_impl.h"
#include "homa_peer.h"
#include "homa_rpc.h"
#include "homa_skb.h"
/**
* homa_check_rpc() - Invoked for each RPC during each timer pass; does
* most of the work of checking for time-related actions such as sending
* resends, aborting RPCs for which there is no response, and sending
* requests for acks. It is separate from homa_timer because homa_timer
* got too long and deeply indented.
* @rpc: RPC to check; must be locked by the caller.
*/
void homa_check_rpc(struct homa_rpc *rpc)
{
const char *us, *them;
struct resend_header resend;
struct homa *homa = rpc->hsk->homa;
/* See if we need to request an ack for this RPC. */
if (!homa_is_client(rpc->id) && (rpc->state == RPC_OUTGOING)
&& (rpc->msgout.next_xmit_offset >= rpc->msgout.length)) {
if (rpc->done_timer_ticks == 0)
rpc->done_timer_ticks = homa->timer_ticks;
else {
/* >= comparison that handles tick wrap-around. */
if ((rpc->done_timer_ticks + homa->request_ack_ticks
- 1 - homa->timer_ticks) & 1<<31) {
struct need_ack_header h;
homa_xmit_control(NEED_ACK, &h, sizeof(h), rpc);
tt_record4("Sent NEED_ACK for RPC id %d to peer 0x%x, port %d, ticks %d",
rpc->id,
tt_addr(rpc->peer->addr),
rpc->dport, homa->timer_ticks
- rpc->done_timer_ticks);
}
}
}
if (rpc->state == RPC_INCOMING) {
if ((rpc->msgin.length - rpc->msgin.bytes_remaining)
>= rpc->msgin.granted) {
/* We've received everything that we've granted, so we
* shouldn't expect to hear anything until we grant more.
*/
rpc->silent_ticks = 0;
return;
}
if (rpc->msgin.num_bpages == 0) {
/* Waiting for buffer space, so no problem. */
rpc->silent_ticks = 0;
return;
}
} else if (!homa_is_client(rpc->id)) {
/* We're the server and we've received the input message;
* no need to worry about retries.
*/
rpc->silent_ticks = 0;
return;
}
if (rpc->state == RPC_OUTGOING) {
if (rpc->msgout.next_xmit_offset < rpc->msgout.granted) {
/* There are granted bytes that we haven't transmitted,
* so no need to be concerned; the ball is in our court.
*/
rpc->silent_ticks = 0;
return;
}
}
if (rpc->silent_ticks < homa->resend_ticks)
return;
if (rpc->silent_ticks >= homa->timeout_ticks) {
INC_METRIC(rpc_timeouts, 1);
tt_record3("RPC id %d, peer 0x%x, aborted because of timeout, state %d",
rpc->id, tt_addr(rpc->peer->addr), rpc->state);
homa_rpc_log_active_tt(homa, 0);
tt_record1("Freezing because of RPC abort (id %d)", rpc->id);
homa_freeze_peers(homa);
tt_freeze();
if (homa->verbose)
pr_notice("RPC id %llu, peer %s, aborted because of timeout, state %d\n",
rpc->id,
homa_print_ipv6_addr(&rpc->peer->addr),
rpc->state);
homa_rpc_abort(rpc, -ETIMEDOUT);
return;
}
if (((rpc->silent_ticks - homa->resend_ticks) % homa->resend_interval)
!= 0)
return;
/* Issue a resend for the bytes just after the last ones received
* (gaps in the middle were already handled by homa_gap_retry above).
*/
if (rpc->msgin.length < 0) {
/* Haven't received any data for this message; request
* retransmission of just the first packet (the sender
* will send at least one full packet, regardless of
* the length below).
*/
resend.offset = htonl(0);
resend.length = htonl(100);
} else {
homa_gap_retry(rpc);
resend.offset = htonl(rpc->msgin.recv_end);
resend.length = htonl(rpc->msgin.granted - rpc->msgin.recv_end);
if (resend.length == 0)
return;
}
resend.priority = homa->num_priorities-1;
homa_xmit_control(RESEND, &resend, sizeof(resend), rpc);
if (homa_is_client(rpc->id)) {
us = "client";
them = "server";
tt_record4("Sent RESEND for client RPC id %llu, server 0x%x:%d, offset %d",
rpc->id, tt_addr(rpc->peer->addr),
rpc->dport, rpc->msgin.recv_end);
tt_record4("length %d, granted %d, rem %d, rec_incoming %d",
rpc->msgin.length, rpc->msgin.granted,
rpc->msgin.bytes_remaining,
rpc->msgin.rec_incoming);
} else {
us = "server";
them = "client";
tt_record4("Sent RESEND for server RPC id %llu, client 0x%x:%d offset %d",
rpc->id, tt_addr(rpc->peer->addr),
rpc->dport, rpc->msgin.recv_end);
tt_record4("length %d, granted %d, rem %d, rec_incoming %d",
rpc->msgin.length, rpc->msgin.granted,
rpc->msgin.bytes_remaining,
rpc->msgin.rec_incoming);
}
if (homa->verbose)
pr_notice("Homa %s RESEND to %s %s:%d for id %llu, offset %d, length %d\n", us, them,
homa_print_ipv6_addr(&rpc->peer->addr),
rpc->dport, rpc->id, rpc->msgin.recv_end,
rpc->msgin.granted - rpc->msgin.recv_end);
}
/**
* homa_timer() - This function is invoked at regular intervals ("ticks")
* to implement retries and aborts for Homa.
* @homa: Overall data about the Homa protocol implementation.
*/
void homa_timer(struct homa *homa)
{
struct homa_socktab_scan scan;
struct homa_sock *hsk;
struct homa_rpc *rpc;
cycles_t start, end;
int rpc_count = 0;
int total_rpcs = 0;
int total_incoming_rpcs = 0;
int sum_incoming = 0;
int sum_incoming_rec = 0;
static __u64 prev_grant_count;
static int zero_count;
int core;
__u64 total_grants;
start = get_cycles();
homa->timer_ticks++;
total_grants = 0;
for (core = 0; core < nr_cpu_ids; core++) {
struct homa_metrics *m = homa_metrics_per_cpu();
total_grants += m->packets_sent[GRANT-DATA];
}
tt_record4("homa_timer found total_incoming %d, num_grantable_rpcs %d, num_active_rpcs %d, new grants %d",
atomic_read(&homa->total_incoming),
homa->num_grantable_rpcs,
homa->num_active_rpcs,
total_grants - prev_grant_count);
if ((total_grants == prev_grant_count)
&& (homa->num_grantable_rpcs > 20)) {
zero_count++;
if ((zero_count > 3) && !tt_frozen && 0) {
pr_err("%s found no grants going out\n", __func__);
homa_rpc_log_active_tt(homa, 0);
tt_record("freezing because no grants are going out");
homa_freeze_peers(homa);
tt_freeze();
}
} else
zero_count = 0;
prev_grant_count = total_grants;
/* Scan all existing RPCs in all sockets. The rcu_read_lock
* below prevents sockets from being deleted during the scan.
*/
rcu_read_lock();
for (hsk = homa_socktab_start_scan(homa->port_map, &scan);
hsk != NULL; hsk = homa_socktab_next(&scan)) {
while (hsk->dead_skbs >= homa->dead_buffs_limit) {
/* If we get here, it means that homa_wait_for_message
* isn't keeping up with RPC reaping, so we'll help
* out. See reap.txt for more info.
*/
uint64_t start = get_cycles();
tt_record("homa_timer calling homa_rpc_reap");
if (homa_rpc_reap(hsk, hsk->homa->reap_limit) == 0)
break;
INC_METRIC(timer_reap_cycles, get_cycles() - start);
}
if (list_empty(&hsk->active_rpcs) || hsk->shutdown)
continue;
if (!homa_protect_rpcs(hsk))
continue;
list_for_each_entry_rcu(rpc, &hsk->active_rpcs, active_links) {
total_rpcs++;
homa_rpc_lock(rpc, "homa_timer");
if (rpc->state == RPC_IN_SERVICE) {
rpc->silent_ticks = 0;
homa_rpc_unlock(rpc);
continue;
} else if (rpc->state == RPC_INCOMING) {
total_incoming_rpcs += 1;
sum_incoming_rec += rpc->msgin.rec_incoming;
sum_incoming += rpc->msgin.granted
- (rpc->msgin.length
- rpc->msgin.bytes_remaining);
}
rpc->silent_ticks++;
homa_check_rpc(rpc);
homa_rpc_unlock(rpc);
rpc_count++;
if (rpc_count >= 10) {
/* Give other kernel threads a chance to run
* on this core. Must release the RCU read lock
* while doing this.
*/
rcu_read_unlock();
schedule();
rcu_read_lock();
rpc_count = 0;
}
}
homa_unprotect_rpcs(hsk);
}
rcu_read_unlock();
tt_record4("homa_timer found %d incoming RPCs, incoming sum %d, rec_sum %d, homa->total_incoming %d",
total_incoming_rpcs, sum_incoming, sum_incoming_rec,
atomic_read(&homa->total_incoming));
// if (total_rpcs > 0)
// tt_record1("homa_timer finished scanning %d RPCs", total_rpcs);
homa_skb_release_pages(homa);
end = get_cycles();
INC_METRIC(timer_cycles, end-start);
}