Merge pull request #55 from ashwing/ltr_1_periodic_auditor_metrics_configs
Ltr 1 periodic auditor metrics configs
This commit is contained in:
ashwing
GitHub
commit
562face833
7 changed files with 108 additions and 98 deletions
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@ -23,6 +23,7 @@ import lombok.Value;
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import lombok.experimental.Accessors;
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import lombok.extern.slf4j.Slf4j;
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import org.apache.commons.lang3.Validate;
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import software.amazon.awssdk.services.cloudwatch.model.StandardUnit;
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import software.amazon.awssdk.services.kinesis.model.Shard;
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import software.amazon.awssdk.utils.CollectionUtils;
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import software.amazon.kinesis.common.HashKeyRangeForLease;
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@ -38,6 +39,10 @@ import software.amazon.kinesis.leases.exceptions.DependencyException;
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import software.amazon.kinesis.leases.exceptions.InvalidStateException;
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import software.amazon.kinesis.leases.exceptions.ProvisionedThroughputException;
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import software.amazon.kinesis.lifecycle.TaskResult;
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import software.amazon.kinesis.metrics.MetricsFactory;
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import software.amazon.kinesis.metrics.MetricsLevel;
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import software.amazon.kinesis.metrics.MetricsScope;
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import software.amazon.kinesis.metrics.MetricsUtil;
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import java.io.Serializable;
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import java.math.BigInteger;
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@ -47,7 +52,6 @@ import java.util.Comparator;
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import java.util.HashMap;
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import java.util.List;
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import java.util.Map;
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import java.util.Objects;
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import java.util.Optional;
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import java.util.Set;
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import java.util.concurrent.Executors;
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@ -67,13 +71,11 @@ import static software.amazon.kinesis.common.HashKeyRangeForLease.fromHashKeyRan
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@Slf4j
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class PeriodicShardSyncManager {
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private static final long INITIAL_DELAY = 60 * 1000L;
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private static final long PERIODIC_SHARD_SYNC_INTERVAL_MILLIS = 2 * 60 * 1000L;
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@VisibleForTesting
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static final BigInteger MIN_HASH_KEY = BigInteger.ZERO;
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@VisibleForTesting
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static final BigInteger MAX_HASH_KEY = new BigInteger("2").pow(128).subtract(BigInteger.ONE);
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@VisibleForTesting
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static final int CONSECUTIVE_HOLES_FOR_TRIGGERING_RECOVERY = 3;
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static final String PERIODIC_SHARD_SYNC_MANAGER = "PeriodicShardSyncManager";
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private Map<StreamIdentifier, HashRangeHoleTracker> hashRangeHoleTrackerMap = new HashMap<>();
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private final String workerId;
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@ -83,19 +85,29 @@ class PeriodicShardSyncManager {
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private final Function<StreamConfig, ShardSyncTaskManager> shardSyncTaskManagerProvider;
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private final ScheduledExecutorService shardSyncThreadPool;
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private final boolean isMultiStreamingMode;
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private final MetricsFactory metricsFactory;
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private final long leasesRecoveryAuditorExecutionFrequencyMillis;
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private final int leasesRecoveryAuditorInconsistencyConfidenceThreshold;
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private boolean isRunning;
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PeriodicShardSyncManager(String workerId, LeaderDecider leaderDecider, LeaseRefresher leaseRefresher,
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Map<StreamIdentifier, StreamConfig> currentStreamConfigMap,
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Function<StreamConfig, ShardSyncTaskManager> shardSyncTaskManagerProvider, boolean isMultiStreamingMode) {
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Function<StreamConfig, ShardSyncTaskManager> shardSyncTaskManagerProvider, boolean isMultiStreamingMode,
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MetricsFactory metricsFactory,
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long leasesRecoveryAuditorExecutionFrequencyMillis,
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int leasesRecoveryAuditorInconsistencyConfidenceThreshold) {
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this(workerId, leaderDecider, leaseRefresher, currentStreamConfigMap, shardSyncTaskManagerProvider,
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Executors.newSingleThreadScheduledExecutor(), isMultiStreamingMode);
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Executors.newSingleThreadScheduledExecutor(), isMultiStreamingMode, metricsFactory,
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leasesRecoveryAuditorExecutionFrequencyMillis, leasesRecoveryAuditorInconsistencyConfidenceThreshold);
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}
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PeriodicShardSyncManager(String workerId, LeaderDecider leaderDecider, LeaseRefresher leaseRefresher,
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Map<StreamIdentifier, StreamConfig> currentStreamConfigMap,
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Function<StreamConfig, ShardSyncTaskManager> shardSyncTaskManagerProvider,
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ScheduledExecutorService shardSyncThreadPool, boolean isMultiStreamingMode) {
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ScheduledExecutorService shardSyncThreadPool, boolean isMultiStreamingMode,
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MetricsFactory metricsFactory,
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long leasesRecoveryAuditorExecutionFrequencyMillis,
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int leasesRecoveryAuditorInconsistencyConfidenceThreshold) {
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Validate.notBlank(workerId, "WorkerID is required to initialize PeriodicShardSyncManager.");
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Validate.notNull(leaderDecider, "LeaderDecider is required to initialize PeriodicShardSyncManager.");
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this.workerId = workerId;
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@ -105,6 +117,9 @@ class PeriodicShardSyncManager {
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this.shardSyncTaskManagerProvider = shardSyncTaskManagerProvider;
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this.shardSyncThreadPool = shardSyncThreadPool;
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this.isMultiStreamingMode = isMultiStreamingMode;
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this.metricsFactory = metricsFactory;
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this.leasesRecoveryAuditorExecutionFrequencyMillis = leasesRecoveryAuditorExecutionFrequencyMillis;
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this.leasesRecoveryAuditorInconsistencyConfidenceThreshold = leasesRecoveryAuditorInconsistencyConfidenceThreshold;
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}
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public synchronized TaskResult start() {
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@ -116,7 +131,7 @@ class PeriodicShardSyncManager {
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log.error("Error during runShardSync.", t);
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}
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};
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shardSyncThreadPool.scheduleWithFixedDelay(periodicShardSyncer, INITIAL_DELAY, PERIODIC_SHARD_SYNC_INTERVAL_MILLIS,
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shardSyncThreadPool.scheduleWithFixedDelay(periodicShardSyncer, INITIAL_DELAY, leasesRecoveryAuditorExecutionFrequencyMillis,
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TimeUnit.MILLISECONDS);
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isRunning = true;
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@ -157,6 +172,14 @@ class PeriodicShardSyncManager {
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private void runShardSync() {
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if (leaderDecider.isLeader(workerId)) {
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log.info(String.format("WorkerId %s is leader, running the periodic shard sync task", workerId));
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final MetricsScope scope = MetricsUtil.createMetricsWithOperation(metricsFactory,
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PERIODIC_SHARD_SYNC_MANAGER);
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int numStreamsWithPartialLeases = 0;
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int numStreamsToSync = 0;
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boolean isRunSuccess = false;
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final long runStartMillis = System.currentTimeMillis();
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try {
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// Construct the stream to leases map to be used in the lease sync
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final Map<StreamIdentifier, List<Lease>> streamToLeasesMap = getStreamToLeasesMap(
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@ -166,6 +189,10 @@ class PeriodicShardSyncManager {
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for (Map.Entry<StreamIdentifier, StreamConfig> streamConfigEntry : currentStreamConfigMap.entrySet()) {
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final ShardSyncResponse shardSyncResponse = checkForShardSync(streamConfigEntry.getKey(),
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streamToLeasesMap.get(streamConfigEntry.getKey()));
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numStreamsWithPartialLeases += shardSyncResponse.isHoleDetected() ? 1 : 0;
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numStreamsToSync += shardSyncResponse.shouldDoShardSync ? 1 : 0;
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if (shardSyncResponse.shouldDoShardSync()) {
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log.info("Periodic shard syncer initiating shard sync for {} due to the reason - {} ",
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streamConfigEntry.getKey(), shardSyncResponse.reasonForDecision());
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@ -181,8 +208,14 @@ class PeriodicShardSyncManager {
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shardSyncResponse.reasonForDecision());
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}
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}
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isRunSuccess = true;
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} catch (Exception e) {
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log.error("Caught exception while running periodic shard syncer.", e);
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} finally {
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scope.addData("NumStreamsWithPartialLeases", numStreamsWithPartialLeases, StandardUnit.COUNT, MetricsLevel.SUMMARY);
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scope.addData("NumStreamsToSync", numStreamsToSync, StandardUnit.COUNT, MetricsLevel.SUMMARY);
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MetricsUtil.addSuccessAndLatency(scope, isRunSuccess, runStartMillis, MetricsLevel.SUMMARY);
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scope.end();
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}
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} else {
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log.debug("WorkerId {} is not a leader, not running the shard sync task", workerId);
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@ -214,7 +247,7 @@ class PeriodicShardSyncManager {
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if (CollectionUtils.isNullOrEmpty(leases)) {
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// If the leases is null or empty then we need to do shard sync
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log.info("No leases found for {}. Will be triggering shard sync", streamIdentifier);
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return new ShardSyncResponse(true, "No leases found for " + streamIdentifier);
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return new ShardSyncResponse(true, false, "No leases found for " + streamIdentifier);
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}
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// Check if there are any holes in the leases and return the first hole if present.
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Optional<HashRangeHole> hashRangeHoleOpt = hasHoleInLeases(streamIdentifier, leases);
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@ -227,15 +260,15 @@ class PeriodicShardSyncManager {
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.computeIfAbsent(streamIdentifier, s -> new HashRangeHoleTracker());
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final boolean hasHoleWithHighConfidence = hashRangeHoleTracker
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.hasHighConfidenceOfHoleWith(hashRangeHoleOpt.get());
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return new ShardSyncResponse(hasHoleWithHighConfidence,
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return new ShardSyncResponse(hasHoleWithHighConfidence, true,
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"Detected same hole for " + hashRangeHoleTracker.getNumConsecutiveHoles()
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+ " times. Shard sync will be initiated when threshold reaches "
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+ CONSECUTIVE_HOLES_FOR_TRIGGERING_RECOVERY);
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+ leasesRecoveryAuditorInconsistencyConfidenceThreshold);
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} else {
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// If hole is not present, clear any previous tracking for this stream and return false;
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hashRangeHoleTrackerMap.remove(streamIdentifier);
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return new ShardSyncResponse(false, "Hash Ranges are complete for " + streamIdentifier);
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return new ShardSyncResponse(false, false, "Hash Ranges are complete for " + streamIdentifier);
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}
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}
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@ -244,6 +277,7 @@ class PeriodicShardSyncManager {
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@VisibleForTesting
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static class ShardSyncResponse {
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private final boolean shouldDoShardSync;
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private final boolean isHoleDetected;
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private final String reasonForDecision;
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}
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@ -365,7 +399,7 @@ class PeriodicShardSyncManager {
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private final HashKeyRangeForLease hashRangeAtEndOfPossibleHole;
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}
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private static class HashRangeHoleTracker {
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private class HashRangeHoleTracker {
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private HashRangeHole hashRangeHole;
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@Getter
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private Integer numConsecutiveHoles;
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@ -377,7 +411,7 @@ class PeriodicShardSyncManager {
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this.hashRangeHole = hashRangeHole;
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this.numConsecutiveHoles = 1;
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}
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return numConsecutiveHoles >= CONSECUTIVE_HOLES_FOR_TRIGGERING_RECOVERY;
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return numConsecutiveHoles >= leasesRecoveryAuditorInconsistencyConfidenceThreshold;
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}
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}
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@ -113,6 +113,7 @@ public class Scheduler implements Runnable {
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private static final long MIN_WAIT_TIME_FOR_LEASE_TABLE_CHECK_MILLIS = 1 * 1000L;
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private static final long MAX_WAIT_TIME_FOR_LEASE_TABLE_CHECK_MILLIS = 30 * 1000L;
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private static final long NEW_STREAM_CHECK_INTERVAL_MILLIS = 1 * 60 * 1000L;
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private static final boolean SHOULD_DO_LEASE_SYNC_FOR_OLD_STREAMS = false;
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private static final String MULTI_STREAM_TRACKER = "MultiStreamTracker";
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private static final String ACTIVE_STREAMS_COUNT = "ActiveStreams.Count";
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private static final String PENDING_STREAMS_DELETION_COUNT = "StreamsPendingDeletion.Count";
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@ -290,7 +291,9 @@ public class Scheduler implements Runnable {
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this.schedulerInitializationBackoffTimeMillis = this.coordinatorConfig.schedulerInitializationBackoffTimeMillis();
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this.leaderElectedPeriodicShardSyncManager = new PeriodicShardSyncManager(
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leaseManagementConfig.workerIdentifier(), leaderDecider, leaseRefresher, currentStreamConfigMap,
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shardSyncTaskManagerProvider, isMultiStreamMode);
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shardSyncTaskManagerProvider, isMultiStreamMode, metricsFactory,
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leaseManagementConfig.leasesRecoveryAuditorExecutionFrequencyMillis(),
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leaseManagementConfig.leasesRecoveryAuditorInconsistencyConfidenceThreshold());
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this.leaseCleanupManager = this.leaseManagementConfig.leaseManagementFactory(leaseSerializer, isMultiStreamMode)
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.createLeaseCleanupManager(metricsFactory);
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}
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@ -489,10 +492,9 @@ public class Scheduler implements Runnable {
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}
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};
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if (formerStreamsLeasesDeletionStrategy.shouldCleanupLeasesForDeletedStreams()) {
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if (SHOULD_DO_LEASE_SYNC_FOR_OLD_STREAMS) {
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// We do lease sync for old streams, before leaving to the deletion strategy to delete leases for
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// strategy detected leases. Also, for deleted streams we expect the shard sync to remove the
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// leases.
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// strategy detected leases.
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Iterator<StreamIdentifier> currentSetOfStreamsIter = currentStreamConfigMap.keySet().iterator();
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while (currentSetOfStreamsIter.hasNext()) {
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StreamIdentifier streamIdentifier = currentSetOfStreamsIter.next();
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@ -531,13 +533,13 @@ public class Scheduler implements Runnable {
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currentStreamConfigMap.keySet().stream().forEach(streamIdentifier -> enqueueStreamLeaseDeletionOperation.accept(streamIdentifier));
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} else if (formerStreamsLeasesDeletionStrategy.leaseDeletionType() == StreamsLeasesDeletionType.PROVIDED_STREAMS_DEFERRED_DELETION) {
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Optional.ofNullable(formerStreamsLeasesDeletionStrategy.streamIdentifiers()).ifPresent(
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Optional.ofNullable(formerStreamsLeasesDeletionStrategy.streamIdentifiersForLeaseCleanup()).ifPresent(
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streamIdentifiers -> streamIdentifiers.stream().forEach(streamIdentifier -> enqueueStreamLeaseDeletionOperation.accept(streamIdentifier)));
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}
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// Now let's scan the streamIdentifiers eligible for deferred deletion and delete them.
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// Now let's scan the streamIdentifiersForLeaseCleanup eligible for deferred deletion and delete them.
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// StreamIdentifiers are eligible for deletion only when the deferment period has elapsed and
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// the streamIdentifiers are not present in the latest snapshot.
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// the streamIdentifiersForLeaseCleanup are not present in the latest snapshot.
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final Map<Boolean, Set<StreamIdentifier>> staleStreamIdDeletionDecisionMap = staleStreamDeletionMap.keySet().stream().collect(Collectors
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.partitioningBy(streamIdentifier -> newStreamConfigMap.containsKey(streamIdentifier), Collectors.toSet()));
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final Set<StreamIdentifier> staleStreamIdsToBeDeleted = staleStreamIdDeletionDecisionMap.get(false).stream().filter(streamIdentifier ->
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@ -52,6 +52,9 @@ public class LeaseManagementConfig {
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public static final long DEFAULT_LEASE_CLEANUP_INTERVAL_MILLIS = Duration.ofMinutes(1).toMillis();
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public static final long DEFAULT_COMPLETED_LEASE_CLEANUP_INTERVAL_MILLIS = Duration.ofMinutes(5).toMillis();
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public static final long DEFAULT_GARBAGE_LEASE_CLEANUP_INTERVAL_MILLIS = Duration.ofMinutes(30).toMillis();
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public static final long DEFAULT_PERIODIC_SHARD_SYNC_INTERVAL_MILLIS = 2 * 60 * 1000L;
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public static final int DEFAULT_CONSECUTIVE_HOLES_FOR_TRIGGERING_LEASE_RECOVERY = 3;
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public static final LeaseCleanupConfig DEFAULT_LEASE_CLEANUP_CONFIG = LeaseCleanupConfig.builder()
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.leaseCleanupIntervalMillis(DEFAULT_LEASE_CLEANUP_INTERVAL_MILLIS)
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@ -195,6 +198,20 @@ public class LeaseManagementConfig {
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private BillingMode billingMode = BillingMode.PROVISIONED;
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/**
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* Frequency (in millis) of the auditor job to scan for partial leases in the lease table.
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* If the auditor detects any hole in the leases for a stream, then it would trigger shard sync based on
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* {@link #leasesRecoveryAuditorInconsistencyConfidenceThreshold}
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*/
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private long leasesRecoveryAuditorExecutionFrequencyMillis = DEFAULT_PERIODIC_SHARD_SYNC_INTERVAL_MILLIS;
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/**
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* Confidence threshold for the periodic auditor job to determine if leases for a stream in the lease table
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* is inconsistent. If the auditor finds same set of inconsistencies consecutively for a stream for this many times,
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* then it would trigger a shard sync.
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*/
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private int leasesRecoveryAuditorInconsistencyConfidenceThreshold = DEFAULT_CONSECUTIVE_HOLES_FOR_TRIGGERING_LEASE_RECOVERY;
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/**
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* The initial position for getting records from Kinesis streams.
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*
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@ -29,7 +29,7 @@ public interface FormerStreamsLeasesDeletionStrategy {
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* StreamIdentifiers for which leases needs to be cleaned up in the lease table.
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* @return
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*/
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List<StreamIdentifier> streamIdentifiers();
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List<StreamIdentifier> streamIdentifiersForLeaseCleanup();
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/**
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* Duration to wait before deleting the leases for this stream.
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@ -43,12 +43,6 @@ public interface FormerStreamsLeasesDeletionStrategy {
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*/
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StreamsLeasesDeletionType leaseDeletionType();
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/**
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* Should the leases be cleaned up for deleted streams
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* @return true if leases be cleaned up for deleted streams; false otherwise.
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*/
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boolean shouldCleanupLeasesForDeletedStreams();
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/**
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* StreamsLeasesDeletionType identifying the different lease cleanup strategies.
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*/
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@ -64,7 +58,7 @@ public interface FormerStreamsLeasesDeletionStrategy {
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final class NoLeaseDeletionStrategy implements FormerStreamsLeasesDeletionStrategy {
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@Override
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public final List<StreamIdentifier> streamIdentifiers() {
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public final List<StreamIdentifier> streamIdentifiersForLeaseCleanup() {
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throw new UnsupportedOperationException("StreamIdentifiers not required");
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}
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@ -77,37 +71,6 @@ public interface FormerStreamsLeasesDeletionStrategy {
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public final StreamsLeasesDeletionType leaseDeletionType() {
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return StreamsLeasesDeletionType.NO_STREAMS_LEASES_DELETION;
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}
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@Override
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public final boolean shouldCleanupLeasesForDeletedStreams() {
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return false;
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}
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}
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/**
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* Strategy for not cleaning up leases for former streams.
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*/
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final class OnlyDeletedStreamsLeasesCleanupStrategy implements FormerStreamsLeasesDeletionStrategy {
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@Override
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public final List<StreamIdentifier> streamIdentifiers() {
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throw new UnsupportedOperationException("StreamIdentifiers not required");
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}
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@Override
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public final Duration waitPeriodToDeleteFormerStreams() {
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return Duration.ZERO;
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}
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@Override
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public final StreamsLeasesDeletionType leaseDeletionType() {
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return StreamsLeasesDeletionType.NO_STREAMS_LEASES_DELETION;
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}
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@Override
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public final boolean shouldCleanupLeasesForDeletedStreams() {
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return true;
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}
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}
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/**
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@ -117,7 +80,7 @@ public interface FormerStreamsLeasesDeletionStrategy {
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abstract class AutoDetectionAndDeferredDeletionStrategy implements FormerStreamsLeasesDeletionStrategy {
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@Override
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public final List<StreamIdentifier> streamIdentifiers() {
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public final List<StreamIdentifier> streamIdentifiersForLeaseCleanup() {
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throw new UnsupportedOperationException("StreamIdentifiers not required");
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}
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@ -125,15 +88,10 @@ public interface FormerStreamsLeasesDeletionStrategy {
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public final StreamsLeasesDeletionType leaseDeletionType() {
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return StreamsLeasesDeletionType.FORMER_STREAMS_AUTO_DETECTION_DEFERRED_DELETION;
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}
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@Override
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public boolean shouldCleanupLeasesForDeletedStreams() {
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return false;
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}
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}
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/**
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* Strategy to detect the streams for deletion through {@link #streamIdentifiers()} provided by customer at runtime
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* Strategy to detect the streams for deletion through {@link #streamIdentifiersForLeaseCleanup()} provided by customer at runtime
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* and do deferred deletion based on {@link #waitPeriodToDeleteFormerStreams()}
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*/
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abstract class ProvidedStreamsDeferredDeletionStrategy implements FormerStreamsLeasesDeletionStrategy {
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@ -142,11 +100,6 @@ public interface FormerStreamsLeasesDeletionStrategy {
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public final StreamsLeasesDeletionType leaseDeletionType() {
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return StreamsLeasesDeletionType.PROVIDED_STREAMS_DEFERRED_DELETION;
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}
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@Override
|
||||
public boolean shouldCleanupLeasesForDeletedStreams() {
|
||||
return false;
|
||||
}
|
||||
}
|
||||
|
||||
}
|
||||
|
|
|
|||
|
|
@ -38,9 +38,11 @@ public class FanOutRetrievalFactory implements RetrievalFactory {
|
|||
|
||||
private final KinesisAsyncClient kinesisClient;
|
||||
private final String defaultStreamName;
|
||||
private final String defaultConsumerName;
|
||||
private final String defaultConsumerArn;
|
||||
private final Function<String, String> consumerArnCreator;
|
||||
|
||||
private Map<StreamIdentifier, String> implicitConsumerArnTracker = new HashMap<>();
|
||||
|
||||
@Override
|
||||
public GetRecordsRetrievalStrategy createGetRecordsRetrievalStrategy(final ShardInfo shardInfo,
|
||||
final MetricsFactory metricsFactory) {
|
||||
|
|
@ -52,15 +54,15 @@ public class FanOutRetrievalFactory implements RetrievalFactory {
|
|||
final StreamConfig streamConfig,
|
||||
final MetricsFactory metricsFactory) {
|
||||
final Optional<String> streamIdentifierStr = shardInfo.streamIdentifierSerOpt();
|
||||
final String streamName;
|
||||
if(streamIdentifierStr.isPresent()) {
|
||||
streamName = StreamIdentifier.multiStreamInstance(streamIdentifierStr.get()).streamName();
|
||||
final StreamIdentifier streamIdentifier = StreamIdentifier.multiStreamInstance(streamIdentifierStr.get());
|
||||
return new FanOutRecordsPublisher(kinesisClient, shardInfo.shardId(),
|
||||
getOrCreateConsumerArn(streamName, streamConfig.consumerArn()),
|
||||
getOrCreateConsumerArn(streamIdentifier, streamConfig.consumerArn()),
|
||||
streamIdentifierStr.get());
|
||||
} else {
|
||||
final StreamIdentifier streamIdentifier = StreamIdentifier.singleStreamInstance(defaultStreamName);
|
||||
return new FanOutRecordsPublisher(kinesisClient, shardInfo.shardId(),
|
||||
getOrCreateConsumerArn(defaultStreamName, defaultConsumerName));
|
||||
getOrCreateConsumerArn(streamIdentifier, defaultConsumerArn));
|
||||
}
|
||||
}
|
||||
|
||||
|
|
@ -69,7 +71,8 @@ public class FanOutRetrievalFactory implements RetrievalFactory {
|
|||
throw new UnsupportedOperationException("FanoutRetrievalFactory needs StreamConfig Info");
|
||||
}
|
||||
|
||||
private String getOrCreateConsumerArn(String streamName, String consumerArn) {
|
||||
return consumerArn != null ? consumerArn : consumerArnCreator.apply(streamName);
|
||||
private String getOrCreateConsumerArn(StreamIdentifier streamIdentifier, String consumerArn) {
|
||||
return consumerArn != null ? consumerArn : implicitConsumerArnTracker
|
||||
.computeIfAbsent(streamIdentifier, sId -> consumerArnCreator.apply(sId.streamName()));
|
||||
}
|
||||
}
|
||||
|
|
|
|||
|
|
@ -34,6 +34,7 @@ import software.amazon.kinesis.leases.LeaseRefresher;
|
|||
import software.amazon.kinesis.leases.MultiStreamLease;
|
||||
import software.amazon.kinesis.leases.ShardDetector;
|
||||
import software.amazon.kinesis.leases.ShardSyncTaskManager;
|
||||
import software.amazon.kinesis.metrics.NullMetricsFactory;
|
||||
import software.amazon.kinesis.retrieval.kpl.ExtendedSequenceNumber;
|
||||
|
||||
import java.math.BigInteger;
|
||||
|
|
@ -49,9 +50,9 @@ import static org.mockito.Matchers.any;
|
|||
import static org.mockito.Mockito.mock;
|
||||
import static org.mockito.Mockito.when;
|
||||
import static software.amazon.kinesis.common.HashKeyRangeForLease.deserialize;
|
||||
import static software.amazon.kinesis.coordinator.PeriodicShardSyncManager.CONSECUTIVE_HOLES_FOR_TRIGGERING_RECOVERY;
|
||||
import static software.amazon.kinesis.coordinator.PeriodicShardSyncManager.MAX_HASH_KEY;
|
||||
import static software.amazon.kinesis.coordinator.PeriodicShardSyncManager.MIN_HASH_KEY;
|
||||
import static software.amazon.kinesis.leases.LeaseManagementConfig.DEFAULT_CONSECUTIVE_HOLES_FOR_TRIGGERING_LEASE_RECOVERY;
|
||||
|
||||
@RunWith(MockitoJUnitRunner.class)
|
||||
|
||||
|
|
@ -72,7 +73,7 @@ public class PeriodicShardSyncManagerTest {
|
|||
public void setup() {
|
||||
streamIdentifier = StreamIdentifier.multiStreamInstance("123:stream:456");
|
||||
periodicShardSyncManager = new PeriodicShardSyncManager("worker", leaderDecider, leaseRefresher, currentStreamConfigMap,
|
||||
shardSyncTaskManagerProvider, true);
|
||||
shardSyncTaskManagerProvider, true, new NullMetricsFactory(), 2 * 60 * 1000, 3);
|
||||
}
|
||||
|
||||
@Test
|
||||
|
|
@ -173,7 +174,7 @@ public class PeriodicShardSyncManagerTest {
|
|||
lease.checkpoint(ExtendedSequenceNumber.TRIM_HORIZON);
|
||||
return lease;
|
||||
}).collect(Collectors.toList());
|
||||
IntStream.range(1, CONSECUTIVE_HOLES_FOR_TRIGGERING_RECOVERY).forEach(i -> Assert
|
||||
IntStream.range(1, DEFAULT_CONSECUTIVE_HOLES_FOR_TRIGGERING_LEASE_RECOVERY).forEach(i -> Assert
|
||||
.assertFalse(periodicShardSyncManager.checkForShardSync(streamIdentifier, multiStreamLeases).shouldDoShardSync()));
|
||||
}
|
||||
|
||||
|
|
@ -191,7 +192,7 @@ public class PeriodicShardSyncManagerTest {
|
|||
lease.checkpoint(ExtendedSequenceNumber.TRIM_HORIZON);
|
||||
return lease;
|
||||
}).collect(Collectors.toList());
|
||||
IntStream.range(1, CONSECUTIVE_HOLES_FOR_TRIGGERING_RECOVERY).forEach(i -> Assert
|
||||
IntStream.range(1, DEFAULT_CONSECUTIVE_HOLES_FOR_TRIGGERING_LEASE_RECOVERY).forEach(i -> Assert
|
||||
.assertFalse(periodicShardSyncManager.checkForShardSync(streamIdentifier, multiStreamLeases).shouldDoShardSync()));
|
||||
Assert.assertTrue(periodicShardSyncManager.checkForShardSync(streamIdentifier, multiStreamLeases).shouldDoShardSync());
|
||||
}
|
||||
|
|
@ -214,7 +215,7 @@ public class PeriodicShardSyncManagerTest {
|
|||
}
|
||||
return lease;
|
||||
}).collect(Collectors.toList());
|
||||
IntStream.range(1, CONSECUTIVE_HOLES_FOR_TRIGGERING_RECOVERY).forEach(i -> Assert
|
||||
IntStream.range(1, DEFAULT_CONSECUTIVE_HOLES_FOR_TRIGGERING_LEASE_RECOVERY).forEach(i -> Assert
|
||||
.assertFalse(periodicShardSyncManager.checkForShardSync(streamIdentifier, multiStreamLeases).shouldDoShardSync()));
|
||||
Assert.assertTrue(periodicShardSyncManager.checkForShardSync(streamIdentifier, multiStreamLeases).shouldDoShardSync());
|
||||
}
|
||||
|
|
@ -233,7 +234,7 @@ public class PeriodicShardSyncManagerTest {
|
|||
lease.checkpoint(ExtendedSequenceNumber.SHARD_END);
|
||||
return lease;
|
||||
}).collect(Collectors.toList());
|
||||
IntStream.range(1, CONSECUTIVE_HOLES_FOR_TRIGGERING_RECOVERY).forEach(i -> Assert
|
||||
IntStream.range(1, DEFAULT_CONSECUTIVE_HOLES_FOR_TRIGGERING_LEASE_RECOVERY).forEach(i -> Assert
|
||||
.assertFalse(periodicShardSyncManager.checkForShardSync(streamIdentifier, multiStreamLeases).shouldDoShardSync()));
|
||||
Assert.assertTrue(periodicShardSyncManager.checkForShardSync(streamIdentifier, multiStreamLeases).shouldDoShardSync());
|
||||
}
|
||||
|
|
@ -252,7 +253,7 @@ public class PeriodicShardSyncManagerTest {
|
|||
lease.checkpoint(ExtendedSequenceNumber.TRIM_HORIZON);
|
||||
return lease;
|
||||
}).collect(Collectors.toList());
|
||||
IntStream.range(1, CONSECUTIVE_HOLES_FOR_TRIGGERING_RECOVERY).forEach(i -> Assert
|
||||
IntStream.range(1, DEFAULT_CONSECUTIVE_HOLES_FOR_TRIGGERING_LEASE_RECOVERY).forEach(i -> Assert
|
||||
.assertFalse(periodicShardSyncManager.checkForShardSync(streamIdentifier, multiStreamLeases).shouldDoShardSync()));
|
||||
List<Lease> multiStreamLeases2 = new ArrayList<HashKeyRangeForLease>() {{
|
||||
add(deserialize(MIN_HASH_KEY.toString(), "1"));
|
||||
|
|
@ -267,7 +268,7 @@ public class PeriodicShardSyncManagerTest {
|
|||
return lease;
|
||||
}).collect(Collectors.toList());
|
||||
// Resetting the holes
|
||||
IntStream.range(1, CONSECUTIVE_HOLES_FOR_TRIGGERING_RECOVERY).forEach(i -> Assert
|
||||
IntStream.range(1, DEFAULT_CONSECUTIVE_HOLES_FOR_TRIGGERING_LEASE_RECOVERY).forEach(i -> Assert
|
||||
.assertFalse(periodicShardSyncManager.checkForShardSync(streamIdentifier, multiStreamLeases2).shouldDoShardSync()));
|
||||
Assert.assertTrue(periodicShardSyncManager.checkForShardSync(streamIdentifier, multiStreamLeases2).shouldDoShardSync());
|
||||
}
|
||||
|
|
@ -286,7 +287,7 @@ public class PeriodicShardSyncManagerTest {
|
|||
lease.checkpoint(ExtendedSequenceNumber.TRIM_HORIZON);
|
||||
return lease;
|
||||
}).collect(Collectors.toList());
|
||||
IntStream.range(1, CONSECUTIVE_HOLES_FOR_TRIGGERING_RECOVERY).forEach(i -> Assert
|
||||
IntStream.range(1, DEFAULT_CONSECUTIVE_HOLES_FOR_TRIGGERING_LEASE_RECOVERY).forEach(i -> Assert
|
||||
.assertFalse(periodicShardSyncManager.checkForShardSync(streamIdentifier, multiStreamLeases).shouldDoShardSync()));
|
||||
List<Lease> multiStreamLeases2 = new ArrayList<HashKeyRangeForLease>() {{
|
||||
add(deserialize(MIN_HASH_KEY.toString(), "1"));
|
||||
|
|
@ -301,10 +302,10 @@ public class PeriodicShardSyncManagerTest {
|
|||
return lease;
|
||||
}).collect(Collectors.toList());
|
||||
// Resetting the holes
|
||||
IntStream.range(1, CONSECUTIVE_HOLES_FOR_TRIGGERING_RECOVERY).forEach(i -> Assert
|
||||
IntStream.range(1, DEFAULT_CONSECUTIVE_HOLES_FOR_TRIGGERING_LEASE_RECOVERY).forEach(i -> Assert
|
||||
.assertFalse(periodicShardSyncManager.checkForShardSync(streamIdentifier, multiStreamLeases2).shouldDoShardSync()));
|
||||
// Resetting the holes
|
||||
IntStream.range(1, CONSECUTIVE_HOLES_FOR_TRIGGERING_RECOVERY).forEach(i -> Assert
|
||||
IntStream.range(1, DEFAULT_CONSECUTIVE_HOLES_FOR_TRIGGERING_LEASE_RECOVERY).forEach(i -> Assert
|
||||
.assertFalse(periodicShardSyncManager.checkForShardSync(streamIdentifier, multiStreamLeases).shouldDoShardSync()));
|
||||
Assert.assertTrue(periodicShardSyncManager.checkForShardSync(streamIdentifier, multiStreamLeases).shouldDoShardSync());
|
||||
}
|
||||
|
|
@ -347,7 +348,7 @@ public class PeriodicShardSyncManagerTest {
|
|||
}).collect(Collectors.toList());
|
||||
|
||||
// Assert that shard sync should never trigger
|
||||
IntStream.range(1, CONSECUTIVE_HOLES_FOR_TRIGGERING_RECOVERY).forEach(i -> Assert
|
||||
IntStream.range(1, DEFAULT_CONSECUTIVE_HOLES_FOR_TRIGGERING_LEASE_RECOVERY).forEach(i -> Assert
|
||||
.assertFalse(periodicShardSyncManager.checkForShardSync(streamIdentifier, multiStreamLeases).shouldDoShardSync()));
|
||||
Assert.assertFalse(periodicShardSyncManager.checkForShardSync(streamIdentifier, multiStreamLeases).shouldDoShardSync());
|
||||
|
||||
|
|
@ -395,7 +396,7 @@ public class PeriodicShardSyncManagerTest {
|
|||
}).collect(Collectors.toList());
|
||||
|
||||
// Assert that shard sync should never trigger
|
||||
IntStream.range(1, CONSECUTIVE_HOLES_FOR_TRIGGERING_RECOVERY).forEach(i -> Assert
|
||||
IntStream.range(1, DEFAULT_CONSECUTIVE_HOLES_FOR_TRIGGERING_LEASE_RECOVERY).forEach(i -> Assert
|
||||
.assertFalse(periodicShardSyncManager.checkForShardSync(streamIdentifier, multiStreamLeases).shouldDoShardSync()));
|
||||
Assert.assertTrue(periodicShardSyncManager.checkForShardSync(streamIdentifier, multiStreamLeases).shouldDoShardSync());
|
||||
|
||||
|
|
|
|||
|
|
@ -482,7 +482,7 @@ public class SchedulerTest {
|
|||
public final void testMultiStreamStaleStreamsAreNotDeletedImmediatelyProvidedListStrategy()
|
||||
throws DependencyException, ProvisionedThroughputException, InvalidStateException {
|
||||
when(multiStreamTracker.formerStreamsLeasesDeletionStrategy()).thenReturn(new ProvidedStreamsDeferredDeletionStrategy() {
|
||||
@Override public List<StreamIdentifier> streamIdentifiers() {
|
||||
@Override public List<StreamIdentifier> streamIdentifiersForLeaseCleanup() {
|
||||
return null;
|
||||
}
|
||||
|
||||
|
|
@ -497,7 +497,7 @@ public class SchedulerTest {
|
|||
public final void testMultiStreamStaleStreamsAreNotDeletedImmediatelyProvidedListStrategy2()
|
||||
throws DependencyException, ProvisionedThroughputException, InvalidStateException {
|
||||
when(multiStreamTracker.formerStreamsLeasesDeletionStrategy()).thenReturn(new ProvidedStreamsDeferredDeletionStrategy() {
|
||||
@Override public List<StreamIdentifier> streamIdentifiers() {
|
||||
@Override public List<StreamIdentifier> streamIdentifiersForLeaseCleanup() {
|
||||
return IntStream.range(1, 3).mapToObj(streamId -> StreamIdentifier.multiStreamInstance(
|
||||
Joiner.on(":").join(streamId * 111111111, "multiStreamTest-" + streamId, streamId * 12345))).collect(
|
||||
Collectors.toCollection(ArrayList::new));
|
||||
|
|
@ -555,7 +555,7 @@ public class SchedulerTest {
|
|||
public final void testMultiStreamStaleStreamsAreDeletedAfterDefermentPeriodWithProvidedListStrategy()
|
||||
throws DependencyException, ProvisionedThroughputException, InvalidStateException {
|
||||
when(multiStreamTracker.formerStreamsLeasesDeletionStrategy()).thenReturn(new ProvidedStreamsDeferredDeletionStrategy() {
|
||||
@Override public List<StreamIdentifier> streamIdentifiers() {
|
||||
@Override public List<StreamIdentifier> streamIdentifiersForLeaseCleanup() {
|
||||
return null;
|
||||
}
|
||||
|
||||
|
|
@ -575,7 +575,7 @@ public class SchedulerTest {
|
|||
public final void testMultiStreamStaleStreamsAreDeletedAfterDefermentPeriodWithProvidedListStrategy2()
|
||||
throws DependencyException, ProvisionedThroughputException, InvalidStateException {
|
||||
when(multiStreamTracker.formerStreamsLeasesDeletionStrategy()).thenReturn(new ProvidedStreamsDeferredDeletionStrategy() {
|
||||
@Override public List<StreamIdentifier> streamIdentifiers() {
|
||||
@Override public List<StreamIdentifier> streamIdentifiersForLeaseCleanup() {
|
||||
return IntStream.range(1, 3).mapToObj(streamId -> StreamIdentifier.multiStreamInstance(
|
||||
Joiner.on(":").join(streamId * 111111111, "multiStreamTest-" + streamId, streamId * 12345))).collect(
|
||||
Collectors.toCollection(ArrayList::new));
|
||||
|
|
@ -639,7 +639,7 @@ public class SchedulerTest {
|
|||
public final void testMultiStreamNewStreamsAreSyncedAndStaleStreamsAreNotDeletedImmediatelyWithProvidedListStrategy()
|
||||
throws DependencyException, ProvisionedThroughputException, InvalidStateException {
|
||||
when(multiStreamTracker.formerStreamsLeasesDeletionStrategy()).thenReturn(new ProvidedStreamsDeferredDeletionStrategy() {
|
||||
@Override public List<StreamIdentifier> streamIdentifiers() {
|
||||
@Override public List<StreamIdentifier> streamIdentifiersForLeaseCleanup() {
|
||||
return null;
|
||||
}
|
||||
|
||||
|
|
@ -654,7 +654,7 @@ public class SchedulerTest {
|
|||
public final void testMultiStreamNewStreamsAreSyncedAndStaleStreamsAreNotDeletedImmediatelyWithProvidedListStrategy2()
|
||||
throws DependencyException, ProvisionedThroughputException, InvalidStateException {
|
||||
when(multiStreamTracker.formerStreamsLeasesDeletionStrategy()).thenReturn(new ProvidedStreamsDeferredDeletionStrategy() {
|
||||
@Override public List<StreamIdentifier> streamIdentifiers() {
|
||||
@Override public List<StreamIdentifier> streamIdentifiersForLeaseCleanup() {
|
||||
return IntStream.range(1, 3)
|
||||
.mapToObj(streamId -> StreamIdentifier.multiStreamInstance(
|
||||
Joiner.on(":").join(streamId * 111111111, "multiStreamTest-" + streamId, streamId * 12345)))
|
||||
|
|
|
|||
Loading…
Reference in a new issue