mirror of
https://github.com/minio/minio.git
synced 2024-12-26 23:25:54 -05:00
b48bbe08b2
to track the replication transfer rate across different nodes, number of active workers in use and in-queue stats to get an idea of the current workload. This PR also adds replication metrics to the site replication status API. For site replication, prometheus metrics are no longer at the bucket level - but at the cluster level. Add prometheus metric to track credential errors since uptime
485 lines
13 KiB
Go
485 lines
13 KiB
Go
// Copyright (c) 2015-2021 MinIO, Inc.
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//
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// This file is part of MinIO Object Storage stack
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//
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// This program is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Affero General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// This program is distributed in the hope that it will be useful
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Affero General Public License for more details.
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//
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// You should have received a copy of the GNU Affero General Public License
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// along with this program. If not, see <http://www.gnu.org/licenses/>.
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package cmd
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import (
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"context"
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"sync"
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"sync/atomic"
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"time"
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"github.com/minio/minio/internal/bucket/replication"
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"github.com/rcrowley/go-metrics"
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)
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func (b *BucketReplicationStats) hasReplicationUsage() bool {
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for _, s := range b.Stats {
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if s.hasReplicationUsage() {
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return true
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}
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}
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return false
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}
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// ReplicationStats holds the global in-memory replication stats
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type ReplicationStats struct {
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// map of site deployment ID to site replication status
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// for site replication - maintain stats at global level
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srStats *SRStats
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// active worker stats
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workers *ActiveWorkerStat
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// queue stats cache
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qCache queueCache
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// mrf backlog stats
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mrfStats ReplicationMRFStats
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// for bucket replication, continue to use existing cache
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Cache map[string]*BucketReplicationStats
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mostRecentStats BucketStatsMap
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registry metrics.Registry
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sync.RWMutex // mutex for Cache
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mostRecentStatsMu sync.Mutex // mutex for mostRecentStats
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wlock sync.RWMutex // mutex for active workers
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movingAvgTicker *time.Ticker // Ticker for calculating moving averages
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wTimer *time.Ticker // ticker for calculating active workers
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qTimer *time.Ticker // ticker for calculating queue stats
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}
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func (r *ReplicationStats) trackEWMA() {
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for {
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select {
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case <-r.movingAvgTicker.C:
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r.updateMovingAvg()
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case <-GlobalContext.Done():
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return
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}
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}
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}
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func (r *ReplicationStats) updateMovingAvg() {
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r.RLock()
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for _, s := range r.Cache {
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for _, st := range s.Stats {
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st.XferRateLrg.measure.updateExponentialMovingAverage(time.Now())
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st.XferRateSml.measure.updateExponentialMovingAverage(time.Now())
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}
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}
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r.RUnlock()
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}
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// ActiveWorkers returns worker stats
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func (r *ReplicationStats) ActiveWorkers() ActiveWorkerStat {
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r.wlock.RLock()
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defer r.wlock.RUnlock()
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w := r.workers.get()
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return ActiveWorkerStat{
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Curr: w.Curr,
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Max: w.Max,
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Avg: w.Avg,
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}
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}
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func (r *ReplicationStats) collectWorkerMetrics(ctx context.Context) {
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if r == nil {
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return
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}
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for {
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select {
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case <-ctx.Done():
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return
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case <-r.wTimer.C:
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r.wlock.Lock()
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r.workers.update()
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r.wlock.Unlock()
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}
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}
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}
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func (r *ReplicationStats) collectQueueMetrics(ctx context.Context) {
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if r == nil {
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return
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}
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for {
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select {
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case <-ctx.Done():
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return
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case <-r.qTimer.C:
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r.qCache.update()
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}
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}
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}
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// Delete deletes in-memory replication statistics for a bucket.
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func (r *ReplicationStats) Delete(bucket string) {
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if r == nil {
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return
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}
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r.Lock()
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defer r.Unlock()
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delete(r.Cache, bucket)
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}
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// UpdateReplicaStat updates in-memory replica statistics with new values.
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func (r *ReplicationStats) UpdateReplicaStat(bucket string, n int64) {
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if r == nil {
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return
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}
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r.Lock()
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defer r.Unlock()
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bs, ok := r.Cache[bucket]
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if !ok {
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bs = newBucketReplicationStats()
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}
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bs.ReplicaSize += n
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bs.ReplicaCount++
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r.Cache[bucket] = bs
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r.srUpdateReplicaStat(n)
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}
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func (r *ReplicationStats) srUpdateReplicaStat(sz int64) {
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if r == nil {
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return
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}
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atomic.AddInt64(&r.srStats.ReplicaSize, sz)
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atomic.AddInt64(&r.srStats.ReplicaCount, 1)
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}
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func (r *ReplicationStats) srUpdate(sr replStat) {
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dID, err := globalSiteReplicationSys.getDeplIDForEndpoint(sr.endpoint())
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if err == nil {
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r.srStats.update(sr, dID)
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}
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}
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// Update updates in-memory replication statistics with new values.
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func (r *ReplicationStats) Update(bucket string, ri replicatedTargetInfo, status, prevStatus replication.StatusType) {
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if r == nil {
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return
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}
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var rs replStat
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switch status {
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case replication.Pending:
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if ri.OpType.IsDataReplication() && prevStatus != status {
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rs.set(ri.Arn, ri.Size, 0, status, ri.OpType, ri.endpoint, ri.secure, ri.Err)
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}
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case replication.Completed:
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if ri.OpType.IsDataReplication() {
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rs.set(ri.Arn, ri.Size, ri.Duration, status, ri.OpType, ri.endpoint, ri.secure, ri.Err)
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}
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case replication.Failed:
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if ri.OpType.IsDataReplication() && prevStatus == replication.Pending {
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rs.set(ri.Arn, ri.Size, ri.Duration, status, ri.OpType, ri.endpoint, ri.secure, ri.Err)
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}
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case replication.Replica:
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if ri.OpType == replication.ObjectReplicationType {
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rs.set(ri.Arn, ri.Size, 0, status, ri.OpType, "", false, ri.Err)
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}
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}
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// update site-replication in-memory stats
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if rs.Completed || rs.Failed {
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r.srUpdate(rs)
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}
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r.Lock()
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defer r.Unlock()
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// update bucket replication in-memory stats
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bs, ok := r.Cache[bucket]
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if !ok {
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bs = newBucketReplicationStats()
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r.Cache[bucket] = bs
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}
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b, ok := bs.Stats[ri.Arn]
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if !ok {
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b = &BucketReplicationStat{
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XferRateLrg: newXferStats(),
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XferRateSml: newXferStats(),
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}
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bs.Stats[ri.Arn] = b
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}
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switch {
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case rs.Completed:
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b.ReplicatedSize += rs.TransferSize
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b.ReplicatedCount++
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if rs.TransferDuration > 0 {
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b.Latency.update(rs.TransferSize, rs.TransferDuration)
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b.updateXferRate(rs.TransferSize, rs.TransferDuration)
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}
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case rs.Failed:
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b.FailStats.addsize(rs.TransferSize, rs.Err)
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case rs.Pending:
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}
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}
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type replStat struct {
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Arn string
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Completed bool
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Pending bool
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Failed bool
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opType replication.Type
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// transfer size
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TransferSize int64
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// transfer duration
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TransferDuration time.Duration
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Endpoint string
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Secure bool
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Err error
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}
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func (rs *replStat) endpoint() string {
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scheme := "http"
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if rs.Secure {
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scheme = "https"
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}
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return scheme + "://" + rs.Endpoint
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}
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func (rs *replStat) set(arn string, n int64, duration time.Duration, status replication.StatusType, opType replication.Type, endpoint string, secure bool, err error) {
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rs.Endpoint = endpoint
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rs.Secure = secure
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rs.TransferSize = n
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rs.Arn = arn
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rs.TransferDuration = duration
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rs.opType = opType
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switch status {
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case replication.Completed:
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rs.Completed = true
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case replication.Pending:
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rs.Pending = true
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case replication.Failed:
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rs.Failed = true
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rs.Err = err
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}
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}
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// GetAll returns replication metrics for all buckets at once.
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func (r *ReplicationStats) GetAll() map[string]BucketReplicationStats {
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if r == nil {
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return map[string]BucketReplicationStats{}
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}
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r.RLock()
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bucketReplicationStats := make(map[string]BucketReplicationStats, len(r.Cache))
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for k, v := range r.Cache {
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bucketReplicationStats[k] = v.Clone()
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}
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r.RUnlock()
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for k, v := range bucketReplicationStats {
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v.QStat = r.qCache.getBucketStats(k)
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bucketReplicationStats[k] = v
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}
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return bucketReplicationStats
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}
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func (r *ReplicationStats) getSRMetricsForNode() SRMetricsSummary {
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if r == nil {
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return SRMetricsSummary{}
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}
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m := SRMetricsSummary{
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Uptime: UTCNow().Unix() - globalBootTime.Unix(),
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Queued: r.qCache.getSiteStats(),
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ActiveWorkers: r.ActiveWorkers(),
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Metrics: r.srStats.get(),
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ReplicaSize: atomic.LoadInt64(&r.srStats.ReplicaSize),
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ReplicaCount: atomic.LoadInt64(&r.srStats.ReplicaCount),
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}
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return m
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}
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// Get replication metrics for a bucket from this node since this node came up.
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func (r *ReplicationStats) Get(bucket string) BucketReplicationStats {
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if r == nil {
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return BucketReplicationStats{Stats: make(map[string]*BucketReplicationStat)}
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}
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r.RLock()
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defer r.RUnlock()
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st, ok := r.Cache[bucket]
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if !ok {
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return BucketReplicationStats{Stats: make(map[string]*BucketReplicationStat)}
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}
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return st.Clone()
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}
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// NewReplicationStats initialize in-memory replication statistics
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func NewReplicationStats(ctx context.Context, objectAPI ObjectLayer) *ReplicationStats {
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r := metrics.NewRegistry()
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rs := ReplicationStats{
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Cache: make(map[string]*BucketReplicationStats),
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qCache: newQueueCache(r),
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srStats: newSRStats(),
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movingAvgTicker: time.NewTicker(2 * time.Second),
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wTimer: time.NewTicker(2 * time.Second),
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qTimer: time.NewTicker(2 * time.Second),
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workers: newActiveWorkerStat(r),
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registry: r,
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}
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go rs.collectWorkerMetrics(ctx)
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go rs.collectQueueMetrics(ctx)
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return &rs
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}
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func (r *ReplicationStats) getAllLatest(bucketsUsage map[string]BucketUsageInfo) (bucketsReplicationStats map[string]BucketStats) {
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peerBucketStatsList := globalNotificationSys.GetClusterAllBucketStats(GlobalContext)
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bucketsReplicationStats = make(map[string]BucketStats, len(bucketsUsage))
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for bucket := range bucketsUsage {
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bucketStats := make([]BucketStats, len(peerBucketStatsList))
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for i, peerBucketStats := range peerBucketStatsList {
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bucketStat, ok := peerBucketStats.Stats[bucket]
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if !ok {
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continue
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}
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bucketStats[i] = bucketStat
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}
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bucketsReplicationStats[bucket] = r.calculateBucketReplicationStats(bucket, bucketStats)
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}
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return bucketsReplicationStats
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}
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func (r *ReplicationStats) calculateBucketReplicationStats(bucket string, bucketStats []BucketStats) (bs BucketStats) {
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if r == nil {
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bs = BucketStats{
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ReplicationStats: BucketReplicationStats{
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Stats: make(map[string]*BucketReplicationStat),
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},
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QueueStats: ReplicationQueueStats{},
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}
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return bs
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}
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var s BucketReplicationStats
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// accumulate cluster bucket stats
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stats := make(map[string]*BucketReplicationStat)
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var (
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totReplicaSize, totReplicatedSize int64
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totReplicaCount, totReplicatedCount int64
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totFailed RTimedMetrics
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tq InQueueMetric
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)
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for _, bucketStat := range bucketStats {
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totReplicaSize += bucketStat.ReplicationStats.ReplicaSize
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totReplicaCount += bucketStat.ReplicationStats.ReplicaCount
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for _, q := range bucketStat.QueueStats.Nodes {
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tq = tq.merge(q.QStats)
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}
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for arn, stat := range bucketStat.ReplicationStats.Stats {
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oldst := stats[arn]
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if oldst == nil {
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oldst = &BucketReplicationStat{
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XferRateLrg: newXferStats(),
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XferRateSml: newXferStats(),
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}
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}
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fstats := stat.FailStats.merge(oldst.FailStats)
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lrg := oldst.XferRateLrg.merge(*stat.XferRateLrg)
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sml := oldst.XferRateSml.merge(*stat.XferRateSml)
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stats[arn] = &BucketReplicationStat{
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Failed: fstats.toMetric(),
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FailStats: fstats,
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ReplicatedSize: stat.ReplicatedSize + oldst.ReplicatedSize,
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ReplicatedCount: stat.ReplicatedCount + oldst.ReplicatedCount,
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Latency: stat.Latency.merge(oldst.Latency),
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XferRateLrg: &lrg,
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XferRateSml: &sml,
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}
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totReplicatedSize += stat.ReplicatedSize
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totReplicatedCount += stat.ReplicatedCount
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totFailed = totFailed.merge(stat.FailStats)
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}
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}
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s = BucketReplicationStats{
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Stats: stats,
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QStat: tq,
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ReplicaSize: totReplicaSize,
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ReplicaCount: totReplicaCount,
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ReplicatedSize: totReplicatedSize,
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ReplicatedCount: totReplicatedCount,
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Failed: totFailed.toMetric(),
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}
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var qs ReplicationQueueStats
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for _, bs := range bucketStats {
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qs.Nodes = append(qs.Nodes, bs.QueueStats.Nodes...)
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}
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qs.Uptime = UTCNow().Unix() - globalBootTime.Unix()
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bs = BucketStats{
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ReplicationStats: s,
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QueueStats: qs,
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}
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r.mostRecentStatsMu.Lock()
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if len(r.mostRecentStats.Stats) == 0 {
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r.mostRecentStats = BucketStatsMap{Stats: make(map[string]BucketStats, 1), Timestamp: UTCNow()}
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}
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if len(bs.ReplicationStats.Stats) > 0 {
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r.mostRecentStats.Stats[bucket] = bs
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}
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r.mostRecentStats.Timestamp = UTCNow()
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r.mostRecentStatsMu.Unlock()
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return bs
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}
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// get the most current of in-memory replication stats and data usage info from crawler.
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func (r *ReplicationStats) getLatestReplicationStats(bucket string) (s BucketStats) {
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bucketStats := globalNotificationSys.GetClusterBucketStats(GlobalContext, bucket)
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return r.calculateBucketReplicationStats(bucket, bucketStats)
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}
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func (r *ReplicationStats) incQ(bucket string, sz int64, isDeleleRepl bool, opType replication.Type) {
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r.qCache.Lock()
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defer r.qCache.Unlock()
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v, ok := r.qCache.bucketStats[bucket]
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if !ok {
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v = newInQueueStats(r.registry, bucket)
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}
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atomic.AddInt64(&v.nowBytes, sz)
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atomic.AddInt64(&v.nowCount, 1)
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r.qCache.bucketStats[bucket] = v
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atomic.AddInt64(&r.qCache.srQueueStats.nowBytes, sz)
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atomic.AddInt64(&r.qCache.srQueueStats.nowCount, 1)
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}
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func (r *ReplicationStats) decQ(bucket string, sz int64, isDelMarker bool, opType replication.Type) {
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r.qCache.Lock()
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defer r.qCache.Unlock()
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v, ok := r.qCache.bucketStats[bucket]
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if !ok {
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v = newInQueueStats(r.registry, bucket)
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}
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atomic.AddInt64(&v.nowBytes, -1*sz)
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atomic.AddInt64(&v.nowCount, -1)
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r.qCache.bucketStats[bucket] = v
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atomic.AddInt64(&r.qCache.srQueueStats.nowBytes, -1*sz)
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atomic.AddInt64(&r.qCache.srQueueStats.nowCount, -1)
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}
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