/** * Returns a {@link List} of shards * * @return a {@link List} of shards */ public List<ShardRouting> getShards() { return shards(); }
/** * Checks whether we can perform a write based on the required active shard count setting. * Returns **null* if OK to proceed, or a string describing the reason to stop */ protected String checkActiveShardCount() { final ShardId shardId = primary.routingEntry().shardId(); final ActiveShardCount waitForActiveShards = request.waitForActiveShards(); if (waitForActiveShards == ActiveShardCount.NONE) { return null; // not waiting for any shards } final IndexShardRoutingTable shardRoutingTable = primary.getReplicationGroup().getRoutingTable(); if (waitForActiveShards.enoughShardsActive(shardRoutingTable)) { return null; } else { final String resolvedShards = waitForActiveShards == ActiveShardCount.ALL ? Integer.toString(shardRoutingTable.shards().size()) : waitForActiveShards.toString(); logger.trace("[{}] not enough active copies to meet shard count of [{}] (have {}, needed {}), scheduling a retry. op [{}], " + "request [{}]", shardId, waitForActiveShards, shardRoutingTable.activeShards().size(), resolvedShards, opType, request); return "Not enough active copies to meet shard count of [" + waitForActiveShards + "] (have " + shardRoutingTable.activeShards().size() + ", needed " + resolvedShards + ")."; } }
/** * Returns a {@link List} of shards * * @return a {@link List} of shards */ public List<ShardRouting> getShards() { return shards(); }
/** * Returns a {@link List} of shards * * @return a {@link List} of shards */ public List<ShardRouting> getShards() { return shards(); }
/** * Returns a {@link List} of shards * * @return a {@link List} of shards */ public List<ShardRouting> getShards() { return shards(); }
/** * Returns a {@link List} of shards * * @return a {@link List} of shards */ public List<ShardRouting> getShards() { return shards(); }
@Override public String toString() { return this.shards().toString(); }
protected List<ShardRouting> getShards(ShardId shardId, ClusterState state) { // can be null if the index is deleted / closed on us.. final IndexShardRoutingTable shardRoutingTable = state.getRoutingTable().shardRoutingTableOrNull(shardId); List<ShardRouting> shards = shardRoutingTable == null ? Collections.emptyList() : shardRoutingTable.shards(); return shards; }
/** * Checks whether we can perform a write based on the required active shard count setting. * Returns **null* if OK to proceed, or a string describing the reason to stop */ protected String checkActiveShardCount() { final ShardId shardId = primary.routingEntry().shardId(); final ActiveShardCount waitForActiveShards = request.waitForActiveShards(); if (waitForActiveShards == ActiveShardCount.NONE) { return null; // not waiting for any shards } final IndexShardRoutingTable shardRoutingTable = primary.getReplicationGroup().getRoutingTable(); if (waitForActiveShards.enoughShardsActive(shardRoutingTable)) { return null; } else { final String resolvedShards = waitForActiveShards == ActiveShardCount.ALL ? Integer.toString(shardRoutingTable.shards().size()) : waitForActiveShards.toString(); logger.trace("[{}] not enough active copies to meet shard count of [{}] (have {}, needed {}), scheduling a retry. op [{}], " + "request [{}]", shardId, waitForActiveShards, shardRoutingTable.activeShards().size(), resolvedShards, opType, request); return "Not enough active copies to meet shard count of [" + waitForActiveShards + "] (have " + shardRoutingTable.activeShards().size() + ", needed " + resolvedShards + ")."; } }
/** * Checks whether we can perform a write based on the required active shard count setting. * Returns **null* if OK to proceed, or a string describing the reason to stop */ protected String checkActiveShardCount() { final ShardId shardId = primary.routingEntry().shardId(); final ActiveShardCount waitForActiveShards = request.waitForActiveShards(); if (waitForActiveShards == ActiveShardCount.NONE) { return null; // not waiting for any shards } final IndexShardRoutingTable shardRoutingTable = primary.getReplicationGroup().getRoutingTable(); if (waitForActiveShards.enoughShardsActive(shardRoutingTable)) { return null; } else { final String resolvedShards = waitForActiveShards == ActiveShardCount.ALL ? Integer.toString(shardRoutingTable.shards().size()) : waitForActiveShards.toString(); logger.trace("[{}] not enough active copies to meet shard count of [{}] (have {}, needed {}), scheduling a retry. op [{}], " + "request [{}]", shardId, waitForActiveShards, shardRoutingTable.activeShards().size(), resolvedShards, opType, request); return "Not enough active copies to meet shard count of [" + waitForActiveShards + "] (have " + shardRoutingTable.activeShards().size() + ", needed " + resolvedShards + ")."; } }
return null; } else { final String resolvedShards = waitForActiveShards == ActiveShardCount.ALL ? Integer.toString(shardRoutingTable.shards().size()) : waitForActiveShards.toString(); logger.trace("[{}] not enough active copies to meet shard count of [{}] (have {}, needed {}), scheduling a retry. op [{}], " +