@Override public void onFailure(Exception e) { // create failures for all relevant requests for (int i = 0; i < shardRequest.locations.size(); i++) { TermVectorsRequest termVectorsRequest = shardRequest.requests.get(i); responses.set(shardRequest.locations.get(i), new MultiTermVectorsItemResponse(null, new MultiTermVectorsResponse.Failure(shardRequest.index(), termVectorsRequest.type(), termVectorsRequest.id(), e))); } if (counter.decrementAndGet() == 0) { finishHim(); } }
@Override protected MultiTermVectorsShardResponse shardOperation(MultiTermVectorsShardRequest request, ShardId shardId) { final MultiTermVectorsShardResponse response = new MultiTermVectorsShardResponse(); final IndexService indexService = indicesService.indexServiceSafe(shardId.getIndex()); final IndexShard indexShard = indexService.getShard(shardId.id()); for (int i = 0; i < request.locations.size(); i++) { TermVectorsRequest termVectorsRequest = request.requests.get(i); try { TermVectorsResponse termVectorsResponse = TermVectorsService.getTermVectors(indexShard, termVectorsRequest); response.add(request.locations.get(i), termVectorsResponse); } catch (RuntimeException e) { if (TransportActions.isShardNotAvailableException(e)) { throw e; } else { logger.debug(() -> new ParameterizedMessage("{} failed to execute multi term vectors for [{}]/[{}]", shardId, termVectorsRequest.type(), termVectorsRequest.id()), e); response.add(request.locations.get(i), new MultiTermVectorsResponse.Failure(request.index(), termVectorsRequest.type(), termVectorsRequest.id(), e)); } } } return response; }
if (!clusterState.metaData().hasConcreteIndex(termVectorsRequest.index())) { responses.set(i, new MultiTermVectorsItemResponse(null, new MultiTermVectorsResponse.Failure(termVectorsRequest.index(), termVectorsRequest.type(), termVectorsRequest.id(), new IndexNotFoundException(termVectorsRequest.index())))); continue; clusterState.getMetaData().routingRequired(concreteSingleIndex, termVectorsRequest.type())) { responses.set(i, new MultiTermVectorsItemResponse(null, new MultiTermVectorsResponse.Failure(concreteSingleIndex, termVectorsRequest.type(), termVectorsRequest.id(), new RoutingMissingException(concreteSingleIndex, termVectorsRequest.type(), termVectorsRequest.id())))); continue;
termVectorsRequest.routing(clusterState.metaData().resolveIndexRouting(termVectorsRequest.routing(), termVectorsRequest.index())); if (!clusterState.metaData().hasConcreteIndex(termVectorsRequest.index())) { responses.set(i, new MultiTermVectorsItemResponse(null, new MultiTermVectorsResponse.Failure(termVectorsRequest.index(), termVectorsRequest.type(), termVectorsRequest.id(), new IndexNotFoundException(termVectorsRequest.index())))); continue; responses.set(i, new MultiTermVectorsItemResponse(null, new MultiTermVectorsResponse.Failure(concreteSingleIndex, termVectorsRequest.type(), termVectorsRequest.id(), new IllegalArgumentException("routing is required for [" + concreteSingleIndex + "]/[" + termVectorsRequest.type() + "]/[" + termVectorsRequest.id() + "]")))); continue;
termVectorsRequest.routing(clusterState.metaData().resolveIndexRouting(termVectorsRequest.parent(), termVectorsRequest.routing(), termVectorsRequest.index())); if (!clusterState.metaData().hasConcreteIndex(termVectorsRequest.index())) { responses.set(i, new MultiTermVectorsItemResponse(null, new MultiTermVectorsResponse.Failure(termVectorsRequest.index(), termVectorsRequest.type(), termVectorsRequest.id(), new IndexNotFoundException(termVectorsRequest.index())))); continue; responses.set(i, new MultiTermVectorsItemResponse(null, new MultiTermVectorsResponse.Failure(concreteSingleIndex, termVectorsRequest.type(), termVectorsRequest.id(), new IllegalArgumentException("routing is required for [" + concreteSingleIndex + "]/[" + termVectorsRequest.type() + "]/[" + termVectorsRequest.id() + "]")))); continue;
termVectorsRequest.routing(clusterState.metaData().resolveIndexRouting(termVectorsRequest.parent(), termVectorsRequest.routing(), termVectorsRequest.index())); if (!clusterState.metaData().hasConcreteIndex(termVectorsRequest.index())) { responses.set(i, new MultiTermVectorsItemResponse(null, new MultiTermVectorsResponse.Failure(termVectorsRequest.index(), termVectorsRequest.type(), termVectorsRequest.id(), new IndexNotFoundException(termVectorsRequest.index())))); continue; responses.set(i, new MultiTermVectorsItemResponse(null, new MultiTermVectorsResponse.Failure(concreteSingleIndex, termVectorsRequest.type(), termVectorsRequest.id(), new IllegalArgumentException("routing is required for [" + concreteSingleIndex + "]/[" + termVectorsRequest.type() + "]/[" + termVectorsRequest.id() + "]")))); continue;
if (!clusterState.metaData().hasConcreteIndex(termVectorsRequest.index())) { responses.set(i, new MultiTermVectorsItemResponse(null, new MultiTermVectorsResponse.Failure(termVectorsRequest.index(), termVectorsRequest.type(), termVectorsRequest.id(), new IndexNotFoundException(termVectorsRequest.index())))); continue; clusterState.getMetaData().routingRequired(concreteSingleIndex, termVectorsRequest.type())) { responses.set(i, new MultiTermVectorsItemResponse(null, new MultiTermVectorsResponse.Failure(concreteSingleIndex, termVectorsRequest.type(), termVectorsRequest.id(), new RoutingMissingException(concreteSingleIndex, termVectorsRequest.type(), termVectorsRequest.id())))); continue;
@Override protected MultiTermVectorsShardResponse shardOperation(MultiTermVectorsShardRequest request, ShardId shardId) { final MultiTermVectorsShardResponse response = new MultiTermVectorsShardResponse(); final IndexService indexService = indicesService.indexServiceSafe(shardId.getIndex()); final IndexShard indexShard = indexService.getShard(shardId.id()); for (int i = 0; i < request.locations.size(); i++) { TermVectorsRequest termVectorsRequest = request.requests.get(i); try { TermVectorsResponse termVectorsResponse = TermVectorsService.getTermVectors(indexShard, termVectorsRequest); response.add(request.locations.get(i), termVectorsResponse); } catch (RuntimeException e) { if (TransportActions.isShardNotAvailableException(e)) { throw e; } else { logger.debug(() -> new ParameterizedMessage("{} failed to execute multi term vectors for [{}]/[{}]", shardId, termVectorsRequest.type(), termVectorsRequest.id()), e); response.add(request.locations.get(i), new MultiTermVectorsResponse.Failure(request.index(), termVectorsRequest.type(), termVectorsRequest.id(), e)); } } } return response; } }
@Override protected MultiTermVectorsShardResponse shardOperation(MultiTermVectorsShardRequest request, ShardId shardId) { final MultiTermVectorsShardResponse response = new MultiTermVectorsShardResponse(); final IndexService indexService = indicesService.indexServiceSafe(shardId.getIndex()); final IndexShard indexShard = indexService.getShard(shardId.id()); for (int i = 0; i < request.locations.size(); i++) { TermVectorsRequest termVectorsRequest = request.requests.get(i); try { TermVectorsResponse termVectorsResponse = TermVectorsService.getTermVectors(indexShard, termVectorsRequest); response.add(request.locations.get(i), termVectorsResponse); } catch (Exception t) { if (TransportActions.isShardNotAvailableException(t)) { throw (ElasticsearchException) t; } else { logger.debug((Supplier<?>) () -> new ParameterizedMessage("{} failed to execute multi term vectors for [{}]/[{}]", shardId, termVectorsRequest.type(), termVectorsRequest.id()), t); response.add(request.locations.get(i), new MultiTermVectorsResponse.Failure(request.index(), termVectorsRequest.type(), termVectorsRequest.id(), t)); } } } return response; } }
@Override protected MultiTermVectorsShardResponse shardOperation(MultiTermVectorsShardRequest request, ShardId shardId) { final MultiTermVectorsShardResponse response = new MultiTermVectorsShardResponse(); final IndexService indexService = indicesService.indexServiceSafe(shardId.getIndex()); final IndexShard indexShard = indexService.getShard(shardId.id()); for (int i = 0; i < request.locations.size(); i++) { TermVectorsRequest termVectorsRequest = request.requests.get(i); try { TermVectorsResponse termVectorsResponse = TermVectorsService.getTermVectors(indexShard, termVectorsRequest); response.add(request.locations.get(i), termVectorsResponse); } catch (RuntimeException e) { if (TransportActions.isShardNotAvailableException(e)) { throw e; } else { logger.debug(() -> new ParameterizedMessage("{} failed to execute multi term vectors for [{}]/[{}]", shardId, termVectorsRequest.type(), termVectorsRequest.id()), e); response.add(request.locations.get(i), new MultiTermVectorsResponse.Failure(request.index(), termVectorsRequest.type(), termVectorsRequest.id(), e)); } } } return response; }
@Override protected MultiTermVectorsShardResponse shardOperation(MultiTermVectorsShardRequest request, ShardId shardId) { MultiTermVectorsShardResponse response = new MultiTermVectorsShardResponse(); for (int i = 0; i < request.locations.size(); i++) { TermVectorsRequest termVectorsRequest = request.requests.get(i); try { IndexService indexService = indicesService.indexServiceSafe(request.index()); IndexShard indexShard = indexService.shardSafe(shardId.id()); TermVectorsResponse termVectorsResponse = indexShard.termVectorsService().getTermVectors(termVectorsRequest, shardId.getIndex()); termVectorsResponse.updateTookInMillis(termVectorsRequest.startTime()); response.add(request.locations.get(i), termVectorsResponse); } catch (Throwable t) { if (TransportActions.isShardNotAvailableException(t)) { throw (ElasticsearchException) t; } else { logger.debug("{} failed to execute multi term vectors for [{}]/[{}]", t, shardId, termVectorsRequest.type(), termVectorsRequest.id()); response.add(request.locations.get(i), new MultiTermVectorsResponse.Failure(request.index(), termVectorsRequest.type(), termVectorsRequest.id(), t)); } } } return response; } }
@Override public void onFailure(Throwable e) { // create failures for all relevant requests for (int i = 0; i < shardRequest.locations.size(); i++) { TermVectorsRequest termVectorsRequest = shardRequest.requests.get(i); responses.set(shardRequest.locations.get(i), new MultiTermVectorsItemResponse(null, new MultiTermVectorsResponse.Failure(shardRequest.index(), termVectorsRequest.type(), termVectorsRequest.id(), e))); } if (counter.decrementAndGet() == 0) { finishHim(); } }
@Override public void onFailure(Exception e) { // create failures for all relevant requests for (int i = 0; i < shardRequest.locations.size(); i++) { TermVectorsRequest termVectorsRequest = shardRequest.requests.get(i); responses.set(shardRequest.locations.get(i), new MultiTermVectorsItemResponse(null, new MultiTermVectorsResponse.Failure(shardRequest.index(), termVectorsRequest.type(), termVectorsRequest.id(), e))); } if (counter.decrementAndGet() == 0) { finishHim(); } }
@Override public void onFailure(Exception e) { // create failures for all relevant requests for (int i = 0; i < shardRequest.locations.size(); i++) { TermVectorsRequest termVectorsRequest = shardRequest.requests.get(i); responses.set(shardRequest.locations.get(i), new MultiTermVectorsItemResponse(null, new MultiTermVectorsResponse.Failure(shardRequest.index(), termVectorsRequest.type(), termVectorsRequest.id(), e))); } if (counter.decrementAndGet() == 0) { finishHim(); } }
@Override public void onFailure(Exception e) { // create failures for all relevant requests for (int i = 0; i < shardRequest.locations.size(); i++) { TermVectorsRequest termVectorsRequest = shardRequest.requests.get(i); responses.set(shardRequest.locations.get(i), new MultiTermVectorsItemResponse(null, new MultiTermVectorsResponse.Failure(shardRequest.index(), termVectorsRequest.type(), termVectorsRequest.id(), e))); } if (counter.decrementAndGet() == 0) { finishHim(); } }
public static Failure readFailure(StreamInput in) throws IOException { Failure failure = new Failure(); failure.readFrom(in); return failure; }
public static Failure readFailure(StreamInput in) throws IOException { Failure failure = new Failure(); failure.readFrom(in); return failure; }
public static Failure readFailure(StreamInput in) throws IOException { Failure failure = new Failure(); failure.readFrom(in); return failure; }
public static Failure readFailure(StreamInput in) throws IOException { Failure failure = new Failure(); failure.readFrom(in); return failure; }
public static Failure readFailure(StreamInput in) throws IOException { Failure failure = new Failure(); failure.readFrom(in); return failure; }