fill in timing gaps in replay_stage (#14550)
* fill in timing gaps in replay_stage * add replay_stage bank_count metric * formatting * handle another gap * cleanup wait_receive_time to be more straightforward
This commit is contained in:
Jeff Washington (jwash)
GitHub
parent
e95ebcf864
commit
935dfdf0f6
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@ -111,6 +111,7 @@ pub struct ReplayStageConfig {
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#[derive(Default)]
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pub struct ReplayTiming {
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last_print: u64,
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collect_frozen_banks_elapsed: u64,
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compute_bank_stats_elapsed: u64,
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select_vote_and_reset_forks_elapsed: u64,
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start_leader_elapsed: u64,
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@ -121,11 +122,15 @@ pub struct ReplayTiming {
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generate_new_bank_forks_elapsed: u64,
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replay_active_banks_elapsed: u64,
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reset_duplicate_slots_elapsed: u64,
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wait_receive_elapsed: u64,
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heaviest_fork_failures_elapsed: u64,
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bank_count: u64,
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}
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impl ReplayTiming {
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#[allow(clippy::too_many_arguments)]
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fn update(
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&mut self,
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collect_frozen_banks_elapsed: u64,
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compute_bank_stats_elapsed: u64,
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select_vote_and_reset_forks_elapsed: u64,
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start_leader_elapsed: u64,
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@ -136,7 +141,11 @@ impl ReplayTiming {
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generate_new_bank_forks_elapsed: u64,
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replay_active_banks_elapsed: u64,
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reset_duplicate_slots_elapsed: u64,
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wait_receive_elapsed: u64,
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heaviest_fork_failures_elapsed: u64,
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bank_count: u64,
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) {
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self.collect_frozen_banks_elapsed += collect_frozen_banks_elapsed;
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self.compute_bank_stats_elapsed += compute_bank_stats_elapsed;
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self.select_vote_and_reset_forks_elapsed += select_vote_and_reset_forks_elapsed;
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self.start_leader_elapsed += start_leader_elapsed;
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@ -147,12 +156,20 @@ impl ReplayTiming {
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self.generate_new_bank_forks_elapsed += generate_new_bank_forks_elapsed;
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self.replay_active_banks_elapsed += replay_active_banks_elapsed;
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self.reset_duplicate_slots_elapsed += reset_duplicate_slots_elapsed;
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self.wait_receive_elapsed += wait_receive_elapsed;
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self.heaviest_fork_failures_elapsed += heaviest_fork_failures_elapsed;
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self.bank_count += bank_count;
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let now = timestamp();
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let elapsed_ms = now - self.last_print;
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if elapsed_ms > 1000 {
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datapoint_info!(
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"replay-loop-timing-stats",
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("total_elapsed_us", elapsed_ms * 1000, i64),
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(
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"collect_frozen_banks_elapsed",
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self.collect_frozen_banks_elapsed as i64,
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i64
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),
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(
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"compute_bank_stats_elapsed",
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self.compute_bank_stats_elapsed as i64,
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@ -195,6 +212,17 @@ impl ReplayTiming {
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self.reset_duplicate_slots_elapsed as i64,
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i64
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),
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(
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"wait_receive_elapsed",
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self.wait_receive_elapsed as i64,
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i64
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),
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(
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"heaviest_fork_failures_elapsed",
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self.heaviest_fork_failures_elapsed as i64,
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i64
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),
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("bank_count", self.bank_count as i64, i64),
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);
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*self = ReplayTiming::default();
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@ -401,6 +429,7 @@ impl ReplayStage {
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);
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select_vote_and_reset_forks_time.stop();
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let mut heaviest_fork_failures_time = Measure::start("heaviest_fork_failures_time");
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if tower.is_recent(heaviest_bank.slot()) && !heaviest_fork_failures.is_empty() {
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info!(
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"Couldn't vote on heaviest fork: {:?}, heaviest_fork_failures: {:?}",
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@ -418,6 +447,7 @@ impl ReplayStage {
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}
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}
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}
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heaviest_fork_failures_time.stop();
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let start = allocated.get();
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@ -561,7 +591,22 @@ impl ReplayStage {
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start_leader_time.stop();
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Self::report_memory(&allocated, "start_leader", start);
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let mut wait_receive_time = Measure::start("wait_receive_time");
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if !did_complete_bank {
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// only wait for the signal if we did not just process a bank; maybe there are more slots available
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let timer = Duration::from_millis(100);
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let result = ledger_signal_receiver.recv_timeout(timer);
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match result {
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Err(RecvTimeoutError::Timeout) => (),
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Err(_) => break,
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Ok(_) => trace!("blockstore signal"),
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};
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}
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wait_receive_time.stop();
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replay_timing.update(
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collect_frozen_banks_time.as_us(),
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compute_bank_stats_time.as_us(),
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select_vote_and_reset_forks_time.as_us(),
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start_leader_time.as_us(),
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@ -572,19 +617,10 @@ impl ReplayStage {
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generate_new_bank_forks_time.as_us(),
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replay_active_banks_time.as_us(),
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reset_duplicate_slots_time.as_us(),
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wait_receive_time.as_us(),
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heaviest_fork_failures_time.as_us(),
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if did_complete_bank {1} else {0},
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);
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if did_complete_bank {
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//just processed a bank, skip the signal; maybe there's more slots available
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continue;
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}
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let timer = Duration::from_millis(100);
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let result = ledger_signal_receiver.recv_timeout(timer);
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match result {
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Err(RecvTimeoutError::Timeout) => continue,
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Err(_) => break,
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Ok(_) => trace!("blockstore signal"),
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};
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}
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Ok(())
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})
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