@Override public RestChannelConsumer prepareRequest(final RestRequest request, final NodeClient client) throws IOException { RolloverRequest rolloverIndexRequest = new RolloverRequest(request.param("index"), request.param("new_index")); request.applyContentParser(rolloverIndexRequest::fromXContent); rolloverIndexRequest.dryRun(request.paramAsBoolean("dry_run", false)); rolloverIndexRequest.timeout(request.paramAsTime("timeout", rolloverIndexRequest.timeout())); rolloverIndexRequest.masterNodeTimeout(request.paramAsTime("master_timeout", rolloverIndexRequest.masterNodeTimeout())); rolloverIndexRequest.getCreateIndexRequest().waitForActiveShards( ActiveShardCount.parseString(request.param("wait_for_active_shards"))); return channel -> client.admin().indices().rolloverIndex(rolloverIndexRequest, new RestToXContentListener<>(channel)); } }
@Override public RestChannelConsumer prepareRequest(final RestRequest request, final NodeClient client) throws IOException { OpenIndexRequest openIndexRequest = new OpenIndexRequest(Strings.splitStringByCommaToArray(request.param("index"))); openIndexRequest.timeout(request.paramAsTime("timeout", openIndexRequest.timeout())); openIndexRequest.masterNodeTimeout(request.paramAsTime("master_timeout", openIndexRequest.masterNodeTimeout())); openIndexRequest.indicesOptions(IndicesOptions.fromRequest(request, openIndexRequest.indicesOptions())); String waitForActiveShards = request.param("wait_for_active_shards"); if (waitForActiveShards != null) { openIndexRequest.waitForActiveShards(ActiveShardCount.parseString(waitForActiveShards)); } return channel -> client.admin().indices().open(openIndexRequest, new RestToXContentListener<>(channel)); } }
@Override public final RestChannelConsumer prepareRequest(final RestRequest request, final NodeClient client) throws IOException { final ResizeRequest resizeRequest = new ResizeRequest(request.param("target"), request.param("index")); resizeRequest.setResizeType(getResizeType()); final String rawCopySettings = request.param("copy_settings"); final Boolean copySettings; if (rawCopySettings == null) { copySettings = resizeRequest.getCopySettings(); } else if (rawCopySettings.isEmpty()) { copySettings = true; } else { copySettings = Booleans.parseBoolean(rawCopySettings); if (copySettings == false) { throw new IllegalArgumentException("parameter [copy_settings] can not be explicitly set to [false]"); } } if (copySettings == null) { deprecationLogger.deprecated( "resize operations without copying settings is deprecated; " + "set parameter [copy_settings] to [true] for future default behavior"); } resizeRequest.setCopySettings(copySettings); request.applyContentParser(resizeRequest::fromXContent); resizeRequest.timeout(request.paramAsTime("timeout", resizeRequest.timeout())); resizeRequest.masterNodeTimeout(request.paramAsTime("master_timeout", resizeRequest.masterNodeTimeout())); resizeRequest.setWaitForActiveShards(ActiveShardCount.parseString(request.param("wait_for_active_shards"))); return channel -> client.admin().indices().resizeIndex(resizeRequest, new RestToXContentListener<>(channel)); }
@Override public RestChannelConsumer prepareRequest(final RestRequest request, final NodeClient client) throws IOException { CreateIndexRequest createIndexRequest = new CreateIndexRequest(request.param("index")); if (request.hasContent()) { createIndexRequest.source(request.content(), request.getXContentType()); } if (request.hasParam("update_all_types")) { DEPRECATION_LOGGER.deprecated("[update_all_types] is deprecated since indices may not have more than one type anymore"); } createIndexRequest.updateAllTypes(request.paramAsBoolean("update_all_types", false)); createIndexRequest.timeout(request.paramAsTime("timeout", createIndexRequest.timeout())); createIndexRequest.masterNodeTimeout(request.paramAsTime("master_timeout", createIndexRequest.masterNodeTimeout())); createIndexRequest.waitForActiveShards(ActiveShardCount.parseString(request.param("wait_for_active_shards"))); return channel -> client.admin().indices().create(createIndexRequest, new RestToXContentListener<>(channel)); } }
@Override public RestChannelConsumer prepareRequest(final RestRequest request, final NodeClient client) throws IOException { ClusterHealthRequest clusterHealthRequest = clusterHealthRequest(Strings.splitStringByCommaToArray(request.param("index"))); clusterHealthRequest.local(request.paramAsBoolean("local", clusterHealthRequest.local())); clusterHealthRequest.masterNodeTimeout(request.paramAsTime("master_timeout", clusterHealthRequest.masterNodeTimeout())); clusterHealthRequest.timeout(request.paramAsTime("timeout", clusterHealthRequest.timeout())); String waitForStatus = request.param("wait_for_status"); if (waitForStatus != null) { clusterHealthRequest.waitForStatus(ClusterHealthStatus.valueOf(waitForStatus.toUpperCase(Locale.ROOT))); } clusterHealthRequest.waitForNoRelocatingShards( request.paramAsBoolean("wait_for_no_relocating_shards", clusterHealthRequest.waitForNoRelocatingShards())); clusterHealthRequest.waitForNoInitializingShards( request.paramAsBoolean("wait_for_no_initializing_shards", clusterHealthRequest.waitForNoRelocatingShards())); if (request.hasParam("wait_for_relocating_shards")) { // wait_for_relocating_shards has been removed in favor of wait_for_no_relocating_shards throw new IllegalArgumentException("wait_for_relocating_shards has been removed, " + "use wait_for_no_relocating_shards [true/false] instead"); } String waitForActiveShards = request.param("wait_for_active_shards"); if (waitForActiveShards != null) { clusterHealthRequest.waitForActiveShards(ActiveShardCount.parseString(waitForActiveShards)); } clusterHealthRequest.waitForNodes(request.param("wait_for_nodes", clusterHealthRequest.waitForNodes())); if (request.param("wait_for_events") != null) { clusterHealthRequest.waitForEvents(Priority.valueOf(request.param("wait_for_events").toUpperCase(Locale.ROOT))); } return channel -> client.admin().cluster().health(clusterHealthRequest, new RestStatusToXContentListener<>(channel)); }
@Override public RestChannelConsumer prepareRequest(final RestRequest request, final NodeClient client) throws IOException { BulkRequest bulkRequest = Requests.bulkRequest(); String defaultIndex = request.param("index"); String defaultType = request.param("type"); String defaultRouting = request.param("routing"); FetchSourceContext defaultFetchSourceContext = FetchSourceContext.parseFromRestRequest(request); String fieldsParam = request.param("fields"); if (fieldsParam != null) { DEPRECATION_LOGGER.deprecated("Deprecated field [fields] used, expected [_source] instead"); } String[] defaultFields = fieldsParam != null ? Strings.commaDelimitedListToStringArray(fieldsParam) : null; String defaultPipeline = request.param("pipeline"); String waitForActiveShards = request.param("wait_for_active_shards"); if (waitForActiveShards != null) { bulkRequest.waitForActiveShards(ActiveShardCount.parseString(waitForActiveShards)); } bulkRequest.timeout(request.paramAsTime("timeout", BulkShardRequest.DEFAULT_TIMEOUT)); bulkRequest.setRefreshPolicy(request.param("refresh")); bulkRequest.add(request.requiredContent(), defaultIndex, defaultType, defaultRouting, defaultFields, defaultFetchSourceContext, defaultPipeline, null, allowExplicitIndex, request.getXContentType()); return channel -> client.bulk(bulkRequest, new RestStatusToXContentListener<>(channel)); }
@Override public RestChannelConsumer prepareRequest(final RestRequest request, final NodeClient client) throws IOException { DeleteRequest deleteRequest = new DeleteRequest(request.param("index"), request.param("type"), request.param("id")); deleteRequest.routing(request.param("routing")); deleteRequest.parent(request.param("parent")); deleteRequest.timeout(request.paramAsTime("timeout", DeleteRequest.DEFAULT_TIMEOUT)); deleteRequest.setRefreshPolicy(request.param("refresh")); deleteRequest.version(RestActions.parseVersion(request)); deleteRequest.versionType(VersionType.fromString(request.param("version_type"), deleteRequest.versionType())); deleteRequest.setIfSeqNo(request.paramAsLong("if_seq_no", deleteRequest.ifSeqNo())); deleteRequest.setIfPrimaryTerm(request.paramAsLong("if_primary_term", deleteRequest.ifPrimaryTerm())); String waitForActiveShards = request.param("wait_for_active_shards"); if (waitForActiveShards != null) { deleteRequest.waitForActiveShards(ActiveShardCount.parseString(waitForActiveShards)); } return channel -> client.delete(deleteRequest, new RestStatusToXContentListener<>(channel)); } }
@Override public RestChannelConsumer prepareRequest(final RestRequest request, final NodeClient client) throws IOException { IndexRequest indexRequest = new IndexRequest(request.param("index"), request.param("type"), request.param("id")); indexRequest.routing(request.param("routing")); indexRequest.parent(request.param("parent")); indexRequest.setPipeline(request.param("pipeline")); indexRequest.source(request.requiredContent(), request.getXContentType()); indexRequest.timeout(request.paramAsTime("timeout", IndexRequest.DEFAULT_TIMEOUT)); indexRequest.setRefreshPolicy(request.param("refresh")); indexRequest.version(RestActions.parseVersion(request)); indexRequest.versionType(VersionType.fromString(request.param("version_type"), indexRequest.versionType())); indexRequest.setIfSeqNo(request.paramAsLong("if_seq_no", indexRequest.ifSeqNo())); indexRequest.setIfPrimaryTerm(request.paramAsLong("if_primary_term", indexRequest.ifPrimaryTerm())); String sOpType = request.param("op_type"); String waitForActiveShards = request.param("wait_for_active_shards"); if (waitForActiveShards != null) { indexRequest.waitForActiveShards(ActiveShardCount.parseString(waitForActiveShards)); } if (sOpType != null) { indexRequest.opType(sOpType); } return channel -> client.index(indexRequest, new RestStatusToXContentListener<>(channel, r -> r.getLocation(indexRequest.routing()))); }
String waitForActiveShards = request.param("wait_for_active_shards"); if (waitForActiveShards != null) { updateRequest.waitForActiveShards(ActiveShardCount.parseString(waitForActiveShards));
@Override public RestChannelConsumer prepareRequest(final RestRequest request, final NodeClient client) throws IOException { RolloverRequest rolloverIndexRequest = new RolloverRequest(request.param("index"), request.param("new_index")); request.applyContentParser(parser -> RolloverRequest.PARSER.parse(parser, rolloverIndexRequest, null)); rolloverIndexRequest.dryRun(request.paramAsBoolean("dry_run", false)); rolloverIndexRequest.timeout(request.paramAsTime("timeout", rolloverIndexRequest.timeout())); rolloverIndexRequest.masterNodeTimeout(request.paramAsTime("master_timeout", rolloverIndexRequest.masterNodeTimeout())); rolloverIndexRequest.setWaitForActiveShards(ActiveShardCount.parseString(request.param("wait_for_active_shards"))); return channel -> client.admin().indices().rolloverIndex(rolloverIndexRequest, new RestToXContentListener<>(channel)); } }
@Override public RestChannelConsumer prepareRequest(final RestRequest request, final NodeClient client) throws IOException { OpenIndexRequest openIndexRequest = new OpenIndexRequest(Strings.splitStringByCommaToArray(request.param("index"))); openIndexRequest.timeout(request.paramAsTime("timeout", openIndexRequest.timeout())); openIndexRequest.masterNodeTimeout(request.paramAsTime("master_timeout", openIndexRequest.masterNodeTimeout())); openIndexRequest.indicesOptions(IndicesOptions.fromRequest(request, openIndexRequest.indicesOptions())); String waitForActiveShards = request.param("wait_for_active_shards"); if (waitForActiveShards != null) { openIndexRequest.waitForActiveShards(ActiveShardCount.parseString(waitForActiveShards)); } return channel -> client.admin().indices().open(openIndexRequest, new RestToXContentListener<>(channel)); } }
@Override public RestChannelConsumer prepareRequest(final RestRequest request, final NodeClient client) throws IOException { RolloverRequest rolloverIndexRequest = new RolloverRequest(request.param("index"), request.param("new_index")); request.applyContentParser(rolloverIndexRequest::fromXContent); rolloverIndexRequest.dryRun(request.paramAsBoolean("dry_run", false)); rolloverIndexRequest.timeout(request.paramAsTime("timeout", rolloverIndexRequest.timeout())); rolloverIndexRequest.masterNodeTimeout(request.paramAsTime("master_timeout", rolloverIndexRequest.masterNodeTimeout())); rolloverIndexRequest.getCreateIndexRequest().waitForActiveShards( ActiveShardCount.parseString(request.param("wait_for_active_shards"))); return channel -> client.admin().indices().rolloverIndex(rolloverIndexRequest, new RestToXContentListener<>(channel)); } }
@Override public RestChannelConsumer prepareRequest(final RestRequest request, final NodeClient client) throws IOException { OpenIndexRequest openIndexRequest = new OpenIndexRequest(Strings.splitStringByCommaToArray(request.param("index"))); openIndexRequest.timeout(request.paramAsTime("timeout", openIndexRequest.timeout())); openIndexRequest.masterNodeTimeout(request.paramAsTime("master_timeout", openIndexRequest.masterNodeTimeout())); openIndexRequest.indicesOptions(IndicesOptions.fromRequest(request, openIndexRequest.indicesOptions())); String waitForActiveShards = request.param("wait_for_active_shards"); if (waitForActiveShards != null) { openIndexRequest.waitForActiveShards(ActiveShardCount.parseString(waitForActiveShards)); } return channel -> client.admin().indices().open(openIndexRequest, new RestToXContentListener<>(channel)); } }
@Override public RestChannelConsumer prepareRequest(final RestRequest request, final NodeClient client) throws IOException { RolloverRequest rolloverIndexRequest = new RolloverRequest(request.param("index"), request.param("new_index")); request.applyContentParser(rolloverIndexRequest::fromXContent); rolloverIndexRequest.dryRun(request.paramAsBoolean("dry_run", false)); rolloverIndexRequest.timeout(request.paramAsTime("timeout", rolloverIndexRequest.timeout())); rolloverIndexRequest.masterNodeTimeout(request.paramAsTime("master_timeout", rolloverIndexRequest.masterNodeTimeout())); rolloverIndexRequest.getCreateIndexRequest().waitForActiveShards( ActiveShardCount.parseString(request.param("wait_for_active_shards"))); return channel -> client.admin().indices().rolloverIndex(rolloverIndexRequest, new RestToXContentListener<>(channel)); } }
@Override public RestChannelConsumer prepareRequest(final RestRequest request, final NodeClient client) throws IOException { CreateIndexRequest createIndexRequest = new CreateIndexRequest(request.param("index")); if (request.hasContent()) { createIndexRequest.source(request.content(), request.getXContentType()); } createIndexRequest.updateAllTypes(request.paramAsBoolean("update_all_types", false)); createIndexRequest.timeout(request.paramAsTime("timeout", createIndexRequest.timeout())); createIndexRequest.masterNodeTimeout(request.paramAsTime("master_timeout", createIndexRequest.masterNodeTimeout())); createIndexRequest.waitForActiveShards(ActiveShardCount.parseString(request.param("wait_for_active_shards"))); return channel -> client.admin().indices().create(createIndexRequest, new AcknowledgedRestListener<CreateIndexResponse>(channel) { @Override public void addCustomFields(XContentBuilder builder, CreateIndexResponse response) throws IOException { response.addCustomFields(builder); } }); } }
@Override public RestChannelConsumer prepareRequest(final RestRequest request, final NodeClient client) throws IOException { CreateIndexRequest createIndexRequest = new CreateIndexRequest(request.param("index")); if (request.hasContent()) { createIndexRequest.source(request.content(), request.getXContentType()); } if (request.hasParam("update_all_types")) { DEPRECATION_LOGGER.deprecated("[update_all_types] is deprecated since indices may not have more than one type anymore"); } createIndexRequest.updateAllTypes(request.paramAsBoolean("update_all_types", false)); createIndexRequest.timeout(request.paramAsTime("timeout", createIndexRequest.timeout())); createIndexRequest.masterNodeTimeout(request.paramAsTime("master_timeout", createIndexRequest.masterNodeTimeout())); createIndexRequest.waitForActiveShards(ActiveShardCount.parseString(request.param("wait_for_active_shards"))); return channel -> client.admin().indices().create(createIndexRequest, new RestToXContentListener<>(channel)); } }
@Override public RestChannelConsumer prepareRequest(final RestRequest request, final NodeClient client) throws IOException { CreateIndexRequest createIndexRequest = new CreateIndexRequest(request.param("index")); if (request.hasContent()) { createIndexRequest.source(request.content(), request.getXContentType()); } if (request.hasParam("update_all_types")) { DEPRECATION_LOGGER.deprecated("[update_all_types] is deprecated since indices may not have more than one type anymore"); } createIndexRequest.updateAllTypes(request.paramAsBoolean("update_all_types", false)); createIndexRequest.timeout(request.paramAsTime("timeout", createIndexRequest.timeout())); createIndexRequest.masterNodeTimeout(request.paramAsTime("master_timeout", createIndexRequest.masterNodeTimeout())); createIndexRequest.waitForActiveShards(ActiveShardCount.parseString(request.param("wait_for_active_shards"))); return channel -> client.admin().indices().create(createIndexRequest, new RestToXContentListener<>(channel)); } }
@Override public RestChannelConsumer prepareRequest(final RestRequest request, final NodeClient client) throws IOException { DeleteRequest deleteRequest = new DeleteRequest(request.param("index"), request.param("type"), request.param("id")); deleteRequest.routing(request.param("routing")); deleteRequest.parent(request.param("parent")); // order is important, set it after routing, so it will set the routing deleteRequest.timeout(request.paramAsTime("timeout", DeleteRequest.DEFAULT_TIMEOUT)); deleteRequest.setRefreshPolicy(request.param("refresh")); deleteRequest.version(RestActions.parseVersion(request)); deleteRequest.versionType(VersionType.fromString(request.param("version_type"), deleteRequest.versionType())); String waitForActiveShards = request.param("wait_for_active_shards"); if (waitForActiveShards != null) { deleteRequest.waitForActiveShards(ActiveShardCount.parseString(waitForActiveShards)); } return channel -> client.delete(deleteRequest, new RestStatusToXContentListener<>(channel)); } }
@Override public RestChannelConsumer prepareRequest(final RestRequest request, final NodeClient client) throws IOException { DeleteRequest deleteRequest = new DeleteRequest(request.param("index"), request.param("type"), request.param("id")); deleteRequest.routing(request.param("routing")); deleteRequest.parent(request.param("parent")); deleteRequest.timeout(request.paramAsTime("timeout", DeleteRequest.DEFAULT_TIMEOUT)); deleteRequest.setRefreshPolicy(request.param("refresh")); deleteRequest.version(RestActions.parseVersion(request)); deleteRequest.versionType(VersionType.fromString(request.param("version_type"), deleteRequest.versionType())); String waitForActiveShards = request.param("wait_for_active_shards"); if (waitForActiveShards != null) { deleteRequest.waitForActiveShards(ActiveShardCount.parseString(waitForActiveShards)); } return channel -> client.delete(deleteRequest, new RestStatusToXContentListener<>(channel)); } }
@Override public RestChannelConsumer prepareRequest(final RestRequest request, final NodeClient client) throws IOException { DeleteRequest deleteRequest = new DeleteRequest(request.param("index"), request.param("type"), request.param("id")); deleteRequest.routing(request.param("routing")); deleteRequest.parent(request.param("parent")); deleteRequest.timeout(request.paramAsTime("timeout", DeleteRequest.DEFAULT_TIMEOUT)); deleteRequest.setRefreshPolicy(request.param("refresh")); deleteRequest.version(RestActions.parseVersion(request)); deleteRequest.versionType(VersionType.fromString(request.param("version_type"), deleteRequest.versionType())); String waitForActiveShards = request.param("wait_for_active_shards"); if (waitForActiveShards != null) { deleteRequest.waitForActiveShards(ActiveShardCount.parseString(waitForActiveShards)); } return channel -> client.delete(deleteRequest, new RestStatusToXContentListener<>(channel)); } }