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/*
 * Licensed to the Apache Software Foundation (ASF) under one
 * or more contributor license agreements.  See the NOTICE file
 * distributed with this work for additional information
 * regarding copyright ownership.  The ASF licenses this file
 * to you under the Apache License, Version 2.0 (the
 * "License"); you may not use this file except in compliance
 * with the License.  You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing,
 * software distributed under the License is distributed on an
 * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
 * KIND, either express or implied.  See the License for the
 * specific language governing permissions and limitations
 * under the License.
 */
package org.apache.iotdb.session;

import org.apache.iotdb.rpc.BatchExecutionException;
import org.apache.iotdb.rpc.IoTDBConnectionException;
import org.apache.iotdb.rpc.NoValidValueException;
import org.apache.iotdb.rpc.RedirectException;
import org.apache.iotdb.rpc.StatementExecutionException;
import org.apache.iotdb.service.rpc.thrift.EndPoint;
import org.apache.iotdb.service.rpc.thrift.TSAppendSchemaTemplateReq;
import org.apache.iotdb.service.rpc.thrift.TSCreateAlignedTimeseriesReq;
import org.apache.iotdb.service.rpc.thrift.TSCreateMultiTimeseriesReq;
import org.apache.iotdb.service.rpc.thrift.TSCreateSchemaTemplateReq;
import org.apache.iotdb.service.rpc.thrift.TSCreateTimeseriesReq;
import org.apache.iotdb.service.rpc.thrift.TSDeleteDataReq;
import org.apache.iotdb.service.rpc.thrift.TSDropSchemaTemplateReq;
import org.apache.iotdb.service.rpc.thrift.TSInsertRecordReq;
import org.apache.iotdb.service.rpc.thrift.TSInsertRecordsOfOneDeviceReq;
import org.apache.iotdb.service.rpc.thrift.TSInsertRecordsReq;
import org.apache.iotdb.service.rpc.thrift.TSInsertStringRecordReq;
import org.apache.iotdb.service.rpc.thrift.TSInsertStringRecordsOfOneDeviceReq;
import org.apache.iotdb.service.rpc.thrift.TSInsertStringRecordsReq;
import org.apache.iotdb.service.rpc.thrift.TSInsertTabletReq;
import org.apache.iotdb.service.rpc.thrift.TSInsertTabletsReq;
import org.apache.iotdb.service.rpc.thrift.TSOperationSyncWriteReq;
import org.apache.iotdb.service.rpc.thrift.TSProtocolVersion;
import org.apache.iotdb.service.rpc.thrift.TSPruneSchemaTemplateReq;
import org.apache.iotdb.service.rpc.thrift.TSQueryTemplateReq;
import org.apache.iotdb.service.rpc.thrift.TSQueryTemplateResp;
import org.apache.iotdb.service.rpc.thrift.TSSetSchemaTemplateReq;
import org.apache.iotdb.service.rpc.thrift.TSSetUsingTemplateReq;
import org.apache.iotdb.service.rpc.thrift.TSUnsetSchemaTemplateReq;
import org.apache.iotdb.session.template.MeasurementNode;
import org.apache.iotdb.session.template.Template;
import org.apache.iotdb.session.template.TemplateQueryType;
import org.apache.iotdb.session.util.SessionUtils;
import org.apache.iotdb.session.util.SystemStatus;
import org.apache.iotdb.session.util.ThreadUtils;
import org.apache.iotdb.session.util.Version;
import org.apache.iotdb.tsfile.exception.write.UnSupportedDataTypeException;
import org.apache.iotdb.tsfile.file.metadata.enums.CompressionType;
import org.apache.iotdb.tsfile.file.metadata.enums.TSDataType;
import org.apache.iotdb.tsfile.file.metadata.enums.TSEncoding;
import org.apache.iotdb.tsfile.utils.Binary;
import org.apache.iotdb.tsfile.utils.BitMap;
import org.apache.iotdb.tsfile.write.record.Tablet;
import org.apache.iotdb.tsfile.write.schema.IMeasurementSchema;
import org.apache.iotdb.tsfile.write.schema.MeasurementSchema;

import org.apache.thrift.TException;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;

import java.io.ByteArrayOutputStream;
import java.io.IOException;
import java.nio.ByteBuffer;
import java.time.ZoneId;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.Comparator;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Map.Entry;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.CompletionException;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.LinkedBlockingQueue;
import java.util.concurrent.ThreadPoolExecutor;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.atomic.AtomicReference;
import java.util.stream.Collectors;

@SuppressWarnings({"java:S107", "java:S1135"}) // need enough parameters, ignore todos
public class Session {

  private static final Logger logger = LoggerFactory.getLogger(Session.class);
  protected static final TSProtocolVersion protocolVersion =
      TSProtocolVersion.IOTDB_SERVICE_PROTOCOL_V3;
  public static final String MSG_UNSUPPORTED_DATA_TYPE = "Unsupported data type:";
  public static final String MSG_DONOT_ENABLE_REDIRECT =
      "Query do not enable redirect," + " please confirm the session and server conf.";
  private static final ThreadPoolExecutor OPERATION_EXECUTOR =
      new ThreadPoolExecutor(
          Config.DEFAULT_SESSION_EXECUTOR_THREAD_NUM,
          Config.DEFAULT_SESSION_EXECUTOR_THREAD_NUM,
          0,
          TimeUnit.MILLISECONDS,
          new LinkedBlockingQueue<>(Config.DEFAULT_SESSION_EXECUTOR_TASK_NUM),
          ThreadUtils.createThreadFactory("SessionExecutor", true));
  protected List nodeUrls;
  protected String username;
  protected String password;
  protected int fetchSize;
  private static final byte TYPE_NULL = -2;
  /**
   * Timeout of query can be set by users. A negative number means using the default configuration
   * of server. And value 0 will disable the function of query timeout.
   */
  private long queryTimeoutInMs = -1;

  protected boolean enableRPCCompression;
  protected int connectionTimeoutInMs;
  protected ZoneId zoneId;

  protected int thriftDefaultBufferSize;
  protected int thriftMaxFrameSize;

  protected EndPoint defaultEndPoint;
  protected SessionConnection defaultSessionConnection;
  private boolean isClosed = true;

  // Cluster version cache
  protected boolean enableCacheLeader;
  protected SessionConnection metaSessionConnection;
  protected volatile Map deviceIdToEndpoint;
  protected volatile Map endPointToSessionConnection;

  protected boolean enableQueryRedirection = false;

  // The version number of the client which used for compatibility in the server
  protected Version version;

  public Session(String host, int rpcPort) {
    this(
        host,
        rpcPort,
        Config.DEFAULT_USER,
        Config.DEFAULT_PASSWORD,
        Config.DEFAULT_FETCH_SIZE,
        null,
        Config.DEFAULT_INITIAL_BUFFER_CAPACITY,
        Config.DEFAULT_MAX_FRAME_SIZE,
        Config.DEFAULT_CACHE_LEADER_MODE,
        Config.DEFAULT_VERSION);
  }

  public Session(String host, String rpcPort, String username, String password) {
    this(
        host,
        Integer.parseInt(rpcPort),
        username,
        password,
        Config.DEFAULT_FETCH_SIZE,
        null,
        Config.DEFAULT_INITIAL_BUFFER_CAPACITY,
        Config.DEFAULT_MAX_FRAME_SIZE,
        Config.DEFAULT_CACHE_LEADER_MODE,
        Config.DEFAULT_VERSION);
  }

  public Session(String host, int rpcPort, String username, String password) {
    this(
        host,
        rpcPort,
        username,
        password,
        Config.DEFAULT_FETCH_SIZE,
        null,
        Config.DEFAULT_INITIAL_BUFFER_CAPACITY,
        Config.DEFAULT_MAX_FRAME_SIZE,
        Config.DEFAULT_CACHE_LEADER_MODE,
        Config.DEFAULT_VERSION);
  }

  public Session(String host, int rpcPort, String username, String password, int fetchSize) {
    this(
        host,
        rpcPort,
        username,
        password,
        fetchSize,
        null,
        Config.DEFAULT_INITIAL_BUFFER_CAPACITY,
        Config.DEFAULT_MAX_FRAME_SIZE,
        Config.DEFAULT_CACHE_LEADER_MODE,
        Config.DEFAULT_VERSION);
  }

  public Session(
      String host,
      int rpcPort,
      String username,
      String password,
      int fetchSize,
      long queryTimeoutInMs) {
    this(
        host,
        rpcPort,
        username,
        password,
        fetchSize,
        null,
        Config.DEFAULT_INITIAL_BUFFER_CAPACITY,
        Config.DEFAULT_MAX_FRAME_SIZE,
        Config.DEFAULT_CACHE_LEADER_MODE,
        Config.DEFAULT_VERSION);
    this.queryTimeoutInMs = queryTimeoutInMs;
  }

  public Session(String host, int rpcPort, String username, String password, ZoneId zoneId) {
    this(
        host,
        rpcPort,
        username,
        password,
        Config.DEFAULT_FETCH_SIZE,
        zoneId,
        Config.DEFAULT_INITIAL_BUFFER_CAPACITY,
        Config.DEFAULT_MAX_FRAME_SIZE,
        Config.DEFAULT_CACHE_LEADER_MODE,
        Config.DEFAULT_VERSION);
  }

  public Session(
      String host, int rpcPort, String username, String password, boolean enableCacheLeader) {
    this(
        host,
        rpcPort,
        username,
        password,
        Config.DEFAULT_FETCH_SIZE,
        null,
        Config.DEFAULT_INITIAL_BUFFER_CAPACITY,
        Config.DEFAULT_MAX_FRAME_SIZE,
        enableCacheLeader,
        Config.DEFAULT_VERSION);
  }

  public Session(
      String host,
      int rpcPort,
      String username,
      String password,
      int fetchSize,
      ZoneId zoneId,
      boolean enableCacheLeader) {
    this(
        host,
        rpcPort,
        username,
        password,
        fetchSize,
        zoneId,
        Config.DEFAULT_INITIAL_BUFFER_CAPACITY,
        Config.DEFAULT_MAX_FRAME_SIZE,
        enableCacheLeader,
        Config.DEFAULT_VERSION);
  }

  @SuppressWarnings("squid:S107")
  public Session(
      String host,
      int rpcPort,
      String username,
      String password,
      int fetchSize,
      ZoneId zoneId,
      int thriftDefaultBufferSize,
      int thriftMaxFrameSize,
      boolean enableCacheLeader,
      Version version) {
    this.defaultEndPoint = new EndPoint(host, rpcPort);
    this.username = username;
    this.password = password;
    this.fetchSize = fetchSize;
    this.zoneId = zoneId;
    this.thriftDefaultBufferSize = thriftDefaultBufferSize;
    this.thriftMaxFrameSize = thriftMaxFrameSize;
    this.enableCacheLeader = enableCacheLeader;
    this.version = version;
  }

  public Session(List nodeUrls, String username, String password) {
    this(
        nodeUrls,
        username,
        password,
        Config.DEFAULT_FETCH_SIZE,
        null,
        Config.DEFAULT_INITIAL_BUFFER_CAPACITY,
        Config.DEFAULT_MAX_FRAME_SIZE,
        Config.DEFAULT_CACHE_LEADER_MODE,
        Config.DEFAULT_VERSION);
  }

  /**
   * Multiple nodeUrl,If one node down, connect to the next one
   *
   * @param nodeUrls List Multiple ip:rpcPort eg.127.0.0.1:9001
   */
  public Session(List nodeUrls, String username, String password, int fetchSize) {
    this(
        nodeUrls,
        username,
        password,
        fetchSize,
        null,
        Config.DEFAULT_INITIAL_BUFFER_CAPACITY,
        Config.DEFAULT_MAX_FRAME_SIZE,
        Config.DEFAULT_CACHE_LEADER_MODE,
        Config.DEFAULT_VERSION);
  }

  public Session(List nodeUrls, String username, String password, ZoneId zoneId) {
    this(
        nodeUrls,
        username,
        password,
        Config.DEFAULT_FETCH_SIZE,
        zoneId,
        Config.DEFAULT_INITIAL_BUFFER_CAPACITY,
        Config.DEFAULT_MAX_FRAME_SIZE,
        Config.DEFAULT_CACHE_LEADER_MODE,
        Config.DEFAULT_VERSION);
  }

  public Session(
      List nodeUrls,
      String username,
      String password,
      int fetchSize,
      ZoneId zoneId,
      int thriftDefaultBufferSize,
      int thriftMaxFrameSize,
      boolean enableCacheLeader,
      Version version) {
    this.nodeUrls = nodeUrls;
    this.username = username;
    this.password = password;
    this.fetchSize = fetchSize;
    this.zoneId = zoneId;
    this.thriftDefaultBufferSize = thriftDefaultBufferSize;
    this.thriftMaxFrameSize = thriftMaxFrameSize;
    this.enableCacheLeader = enableCacheLeader;
    this.version = version;
  }

  public void setFetchSize(int fetchSize) {
    this.fetchSize = fetchSize;
  }

  public int getFetchSize() {
    return this.fetchSize;
  }

  public Version getVersion() {
    return version;
  }

  public void setVersion(Version version) {
    this.version = version;
  }

  public synchronized void open() throws IoTDBConnectionException {
    open(false, Config.DEFAULT_CONNECTION_TIMEOUT_MS);
  }

  public synchronized void open(boolean enableRPCCompression) throws IoTDBConnectionException {
    open(enableRPCCompression, Config.DEFAULT_CONNECTION_TIMEOUT_MS);
  }

  public synchronized void open(boolean enableRPCCompression, int connectionTimeoutInMs)
      throws IoTDBConnectionException {
    if (!isClosed) {
      return;
    }

    this.enableRPCCompression = enableRPCCompression;
    this.connectionTimeoutInMs = connectionTimeoutInMs;
    defaultSessionConnection = constructSessionConnection(this, defaultEndPoint, zoneId);
    defaultSessionConnection.setEnableRedirect(enableQueryRedirection);
    metaSessionConnection = defaultSessionConnection;
    isClosed = false;
    if (enableCacheLeader || enableQueryRedirection) {
      deviceIdToEndpoint = new ConcurrentHashMap<>();
      endPointToSessionConnection = new ConcurrentHashMap<>();
      endPointToSessionConnection.put(defaultEndPoint, defaultSessionConnection);
    }
  }

  public synchronized void close() throws IoTDBConnectionException {
    if (isClosed) {
      return;
    }
    try {
      if (enableCacheLeader) {
        for (SessionConnection sessionConnection : endPointToSessionConnection.values()) {
          sessionConnection.close();
        }
      } else {
        defaultSessionConnection.close();
      }
    } finally {
      isClosed = true;
    }
  }

  public SessionConnection constructSessionConnection(
      Session session, EndPoint endpoint, ZoneId zoneId) throws IoTDBConnectionException {
    if (endpoint == null) {
      return new SessionConnection(session, zoneId);
    }
    return new SessionConnection(session, endpoint, zoneId);
  }

  public SystemStatus getSystemStatus() throws IoTDBConnectionException {
    return defaultSessionConnection.getSystemStatus();
  }

  public synchronized String getTimeZone() {
    return defaultSessionConnection.getTimeZone();
  }

  public synchronized void setTimeZone(String zoneId)
      throws StatementExecutionException, IoTDBConnectionException {
    defaultSessionConnection.setTimeZone(zoneId);
  }

  public void setStorageGroup(String storageGroup)
      throws IoTDBConnectionException, StatementExecutionException {
    try {
      metaSessionConnection.setStorageGroup(storageGroup);
    } catch (RedirectException e) {
      handleMetaRedirection(storageGroup, e);
    }
  }

  public void deleteStorageGroup(String storageGroup)
      throws IoTDBConnectionException, StatementExecutionException {
    try {
      metaSessionConnection.deleteStorageGroups(Collections.singletonList(storageGroup));
    } catch (RedirectException e) {
      handleMetaRedirection(storageGroup, e);
    }
  }

  public void deleteStorageGroups(List storageGroups)
      throws IoTDBConnectionException, StatementExecutionException {
    try {
      metaSessionConnection.deleteStorageGroups(storageGroups);
    } catch (RedirectException e) {
      handleMetaRedirection(storageGroups.toString(), e);
    }
  }

  public void createTimeseries(
      String path, TSDataType dataType, TSEncoding encoding, CompressionType compressor)
      throws IoTDBConnectionException, StatementExecutionException {
    TSCreateTimeseriesReq request =
        genTSCreateTimeseriesReq(path, dataType, encoding, compressor, null, null, null, null);
    defaultSessionConnection.createTimeseries(request);
  }

  public void createTimeseries(
      String path,
      TSDataType dataType,
      TSEncoding encoding,
      CompressionType compressor,
      Map props,
      Map tags,
      Map attributes,
      String measurementAlias)
      throws IoTDBConnectionException, StatementExecutionException {
    TSCreateTimeseriesReq request =
        genTSCreateTimeseriesReq(
            path, dataType, encoding, compressor, props, tags, attributes, measurementAlias);
    defaultSessionConnection.createTimeseries(request);
  }

  private TSCreateTimeseriesReq genTSCreateTimeseriesReq(
      String path,
      TSDataType dataType,
      TSEncoding encoding,
      CompressionType compressor,
      Map props,
      Map tags,
      Map attributes,
      String measurementAlias) {
    TSCreateTimeseriesReq request = new TSCreateTimeseriesReq();
    request.setPath(path);
    request.setDataType(dataType.ordinal());
    request.setEncoding(encoding.ordinal());
    request.setCompressor(compressor.ordinal());
    request.setProps(props);
    request.setTags(tags);
    request.setAttributes(attributes);
    request.setMeasurementAlias(measurementAlias);
    return request;
  }

  public void createAlignedTimeseries(
      String deviceId,
      List measurements,
      List dataTypes,
      List encodings,
      List compressors,
      List measurementAliasList)
      throws IoTDBConnectionException, StatementExecutionException {
    TSCreateAlignedTimeseriesReq request =
        getTSCreateAlignedTimeseriesReq(
            deviceId, measurements, dataTypes, encodings, compressors, measurementAliasList);
    defaultSessionConnection.createAlignedTimeseries(request);
  }

  private TSCreateAlignedTimeseriesReq getTSCreateAlignedTimeseriesReq(
      String prefixPath,
      List measurements,
      List dataTypes,
      List encodings,
      List compressors,
      List measurementAliasList) {
    TSCreateAlignedTimeseriesReq request = new TSCreateAlignedTimeseriesReq();
    request.setPrefixPath(prefixPath);
    request.setMeasurements(measurements);
    request.setDataTypes(dataTypes.stream().map(TSDataType::ordinal).collect(Collectors.toList()));
    request.setEncodings(encodings.stream().map(TSEncoding::ordinal).collect(Collectors.toList()));
    request.setCompressors(
        compressors.stream().map(CompressionType::ordinal).collect(Collectors.toList()));
    request.setMeasurementAlias(measurementAliasList);
    return request;
  }

  public void createMultiTimeseries(
      List paths,
      List dataTypes,
      List encodings,
      List compressors,
      List> propsList,
      List> tagsList,
      List> attributesList,
      List measurementAliasList)
      throws IoTDBConnectionException, StatementExecutionException {
    TSCreateMultiTimeseriesReq request =
        genTSCreateMultiTimeseriesReq(
            paths,
            dataTypes,
            encodings,
            compressors,
            propsList,
            tagsList,
            attributesList,
            measurementAliasList);
    defaultSessionConnection.createMultiTimeseries(request);
  }

  private TSCreateMultiTimeseriesReq genTSCreateMultiTimeseriesReq(
      List paths,
      List dataTypes,
      List encodings,
      List compressors,
      List> propsList,
      List> tagsList,
      List> attributesList,
      List measurementAliasList) {
    TSCreateMultiTimeseriesReq request = new TSCreateMultiTimeseriesReq();

    request.setPaths(paths);

    List dataTypeOrdinals = new ArrayList<>(dataTypes.size());
    for (TSDataType dataType : dataTypes) {
      dataTypeOrdinals.add(dataType.ordinal());
    }
    request.setDataTypes(dataTypeOrdinals);

    List encodingOrdinals = new ArrayList<>(dataTypes.size());
    for (TSEncoding encoding : encodings) {
      encodingOrdinals.add(encoding.ordinal());
    }
    request.setEncodings(encodingOrdinals);

    List compressionOrdinals = new ArrayList<>(paths.size());
    for (CompressionType compression : compressors) {
      compressionOrdinals.add(compression.ordinal());
    }
    request.setCompressors(compressionOrdinals);

    request.setPropsList(propsList);
    request.setTagsList(tagsList);
    request.setAttributesList(attributesList);
    request.setMeasurementAliasList(measurementAliasList);

    return request;
  }

  public boolean checkTimeseriesExists(String path)
      throws IoTDBConnectionException, StatementExecutionException {
    return defaultSessionConnection.checkTimeseriesExists(path, queryTimeoutInMs);
  }

  public void setQueryTimeout(long timeoutInMs) {
    this.queryTimeoutInMs = timeoutInMs;
  }

  public long getQueryTimeout() {
    return queryTimeoutInMs;
  }

  /**
   * execute query sql
   *
   * @param sql query statement
   * @return result set
   */
  public SessionDataSet executeQueryStatement(String sql)
      throws StatementExecutionException, IoTDBConnectionException {
    return executeStatementMayRedirect(sql, queryTimeoutInMs);
  }

  /**
   * execute query sql with explicit timeout
   *
   * @param sql query statement
   * @param timeoutInMs the timeout of this query, in milliseconds
   * @return result set
   */
  public SessionDataSet executeQueryStatement(String sql, long timeoutInMs)
      throws StatementExecutionException, IoTDBConnectionException {
    return executeStatementMayRedirect(sql, timeoutInMs);
  }

  /**
   * execute the query, may redirect query to other node.
   *
   * @param sql the query statement
   * @param timeoutInMs time in ms
   * @return data set
   * @throws StatementExecutionException statement is not right
   * @throws IoTDBConnectionException the network is not good
   */
  private SessionDataSet executeStatementMayRedirect(String sql, long timeoutInMs)
      throws StatementExecutionException, IoTDBConnectionException {
    try {
      logger.debug("{} execute sql {}", defaultSessionConnection.getEndPoint(), sql);
      return defaultSessionConnection.executeQueryStatement(sql, timeoutInMs);
    } catch (RedirectException e) {
      handleQueryRedirection(e.getEndPoint());
      if (enableQueryRedirection) {
        logger.debug(
            "{} redirect query {} to {}",
            defaultSessionConnection.getEndPoint(),
            sql,
            e.getEndPoint());
        // retry
        try {
          return defaultSessionConnection.executeQueryStatement(sql, queryTimeoutInMs);
        } catch (RedirectException redirectException) {
          logger.error("{} redirect twice", sql, redirectException);
          throw new StatementExecutionException(sql + " redirect twice, please try again.");
        }
      } else {
        throw new StatementExecutionException(MSG_DONOT_ENABLE_REDIRECT);
      }
    }
  }

  /**
   * execute non query statement
   *
   * @param sql non query statement
   */
  public void executeNonQueryStatement(String sql)
      throws IoTDBConnectionException, StatementExecutionException {
    defaultSessionConnection.executeNonQueryStatement(sql);
  }

  /**
   * query eg. select * from paths where time >= startTime and time < endTime time interval include
   * startTime and exclude endTime
   *
   * @param paths series path
   * @param startTime included
   * @param endTime excluded
   * @return data set
   * @throws StatementExecutionException statement is not right
   * @throws IoTDBConnectionException the network is not good
   */
  public SessionDataSet executeRawDataQuery(List paths, long startTime, long endTime)
      throws StatementExecutionException, IoTDBConnectionException {
    try {
      return defaultSessionConnection.executeRawDataQuery(paths, startTime, endTime);
    } catch (RedirectException e) {
      handleQueryRedirection(e.getEndPoint());
      if (enableQueryRedirection) {
        logger.debug("redirect query {} to {}", paths, e.getEndPoint());
        // retry
        try {
          return defaultSessionConnection.executeRawDataQuery(paths, startTime, endTime);
        } catch (RedirectException redirectException) {
          logger.error("Redirect twice", redirectException);
          throw new StatementExecutionException("Redirect twice, please try again.");
        }
      } else {
        throw new StatementExecutionException(MSG_DONOT_ENABLE_REDIRECT);
      }
    }
  }

  /**
   * query e.g. select last data from paths where time >= lastTime
   *
   * @param paths timeSeries eg. root.ln.d1.s1,root.ln.d1.s2
   * @param LastTime get the last data, whose timestamp is greater than or equal LastTime e.g.
   *     1621326244168
   */
  public SessionDataSet executeLastDataQuery(List paths, long LastTime)
      throws StatementExecutionException, IoTDBConnectionException {
    try {
      return defaultSessionConnection.executeLastDataQuery(paths, LastTime);
    } catch (RedirectException e) {
      handleQueryRedirection(e.getEndPoint());
      if (enableQueryRedirection) {
        // retry
        try {
          return defaultSessionConnection.executeLastDataQuery(paths, LastTime);
        } catch (RedirectException redirectException) {
          logger.error("redirect twice", redirectException);
          throw new StatementExecutionException("redirect twice, please try again.");
        }
      } else {
        throw new StatementExecutionException(MSG_DONOT_ENABLE_REDIRECT);
      }
    }
  }

  /**
   * query eg. select last status from root.ln.wf01.wt01;  +  = 
   *
   * @param paths timeSeries. eg.root.ln.d1.s1,root.ln.d1.s2
   */
  public SessionDataSet executeLastDataQuery(List paths)
      throws StatementExecutionException, IoTDBConnectionException {
    long time = 0L;
    return executeLastDataQuery(paths, time);
  }

  /**
   * insert data in one row, if you want to improve your performance, please use insertRecords
   * method or insertTablet method
   *
   * @see Session#insertRecords(List, List, List, List, List)
   * @see Session#insertTablet(Tablet)
   */
  public void insertRecord(
      String deviceId,
      long time,
      List measurements,
      List types,
      Object... values)
      throws IoTDBConnectionException, StatementExecutionException {
    TSInsertRecordReq request;
    try {
      request =
          filterAndGenTSInsertRecordReq(
              deviceId, time, measurements, types, Arrays.asList(values), false);
    } catch (NoValidValueException e) {
      logger.warn(
          "All values are null and this submission is ignored,deviceId is [{}],time is [{}],measurements is [{}]",
          deviceId,
          time,
          measurements.toString());
      return;
    }

    insertRecord(deviceId, request);
  }

  private void insertRecord(String prefixPath, TSInsertRecordReq request)
      throws IoTDBConnectionException, StatementExecutionException {
    try {
      getSessionConnection(prefixPath).insertRecord(request);
    } catch (RedirectException e) {
      handleRedirection(prefixPath, e.getEndPoint());
    }
  }

  private void insertRecord(String deviceId, TSInsertStringRecordReq request)
      throws IoTDBConnectionException, StatementExecutionException {
    try {
      getSessionConnection(deviceId).insertRecord(request);
    } catch (RedirectException e) {
      handleRedirection(deviceId, e.getEndPoint());
    }
  }

  private SessionConnection getSessionConnection(String deviceId) {
    EndPoint endPoint;
    if (enableCacheLeader
        && !deviceIdToEndpoint.isEmpty()
        && (endPoint = deviceIdToEndpoint.get(deviceId)) != null) {
      return endPointToSessionConnection.get(endPoint);
    } else {
      return defaultSessionConnection;
    }
  }

  public String getTimestampPrecision() throws TException {
    return defaultSessionConnection.getClient().getProperties().getTimestampPrecision();
  }

  // TODO https://issues.apache.org/jira/browse/IOTDB-1399
  private void removeBrokenSessionConnection(SessionConnection sessionConnection) {
    // remove the cached broken leader session
    if (enableCacheLeader) {
      EndPoint endPoint = null;
      for (Iterator> it =
              endPointToSessionConnection.entrySet().iterator();
          it.hasNext(); ) {
        Map.Entry entry = it.next();
        if (entry.getValue().equals(sessionConnection)) {
          endPoint = entry.getKey();
          it.remove();
          break;
        }
      }

      for (Iterator> it = deviceIdToEndpoint.entrySet().iterator();
          it.hasNext(); ) {
        Map.Entry entry = it.next();
        if (entry.getValue().equals(endPoint)) {
          it.remove();
        }
      }
    }
  }

  private void handleMetaRedirection(String storageGroup, RedirectException e)
      throws IoTDBConnectionException {
    if (enableCacheLeader) {
      logger.debug("storageGroup[{}]:{}", storageGroup, e.getMessage());
      AtomicReference exceptionReference = new AtomicReference<>();
      SessionConnection connection =
          endPointToSessionConnection.computeIfAbsent(
              e.getEndPoint(),
              k -> {
                try {
                  return constructSessionConnection(this, e.getEndPoint(), zoneId);
                } catch (IoTDBConnectionException ex) {
                  exceptionReference.set(ex);
                  return null;
                }
              });
      if (connection == null) {
        throw new IoTDBConnectionException(exceptionReference.get());
      }
      metaSessionConnection = connection;
    }
  }

  private void handleRedirection(String deviceId, EndPoint endpoint)
      throws IoTDBConnectionException {
    if (enableCacheLeader) {
      AtomicReference exceptionReference = new AtomicReference<>();
      deviceIdToEndpoint.put(deviceId, endpoint);
      SessionConnection connection =
          endPointToSessionConnection.computeIfAbsent(
              endpoint,
              k -> {
                try {
                  return constructSessionConnection(this, endpoint, zoneId);
                } catch (IoTDBConnectionException ex) {
                  exceptionReference.set(ex);
                  return null;
                }
              });
      if (connection == null) {
        deviceIdToEndpoint.remove(deviceId);
        throw new IoTDBConnectionException(exceptionReference.get());
      }
    }
  }

  private void handleQueryRedirection(EndPoint endPoint) throws IoTDBConnectionException {
    if (enableQueryRedirection) {
      AtomicReference exceptionReference = new AtomicReference<>();
      SessionConnection connection =
          endPointToSessionConnection.computeIfAbsent(
              endPoint,
              k -> {
                try {
                  SessionConnection sessionConnection =
                      constructSessionConnection(this, endPoint, zoneId);
                  sessionConnection.setEnableRedirect(enableQueryRedirection);
                  return sessionConnection;
                } catch (IoTDBConnectionException ex) {
                  exceptionReference.set(ex);
                  return null;
                }
              });
      if (connection == null) {
        throw new IoTDBConnectionException(exceptionReference.get());
      }
      defaultSessionConnection = connection;
    }
  }

  /**
   * insert data in one row, if you want improve your performance, please use insertRecords method
   * or insertTablet method
   *
   * @see Session#insertRecords(List, List, List, List, List)
   * @see Session#insertTablet(Tablet)
   */
  public void insertRecord(
      String deviceId,
      long time,
      List measurements,
      List types,
      List values)
      throws IoTDBConnectionException, StatementExecutionException {
    // not vector by default
    TSInsertRecordReq request;
    try {
      request = filterAndGenTSInsertRecordReq(deviceId, time, measurements, types, values, false);
    } catch (NoValidValueException e) {
      logger.warn(
          "All values are null and this submission is ignored,deviceId is [{}],time is [{}],measurements is [{}]",
          deviceId,
          time,
          measurements.toString());
      return;
    }

    insertRecord(deviceId, request);
  }

  /**
   * insert aligned data in one row, if you want improve your performance, please use
   * insertAlignedRecords method or insertTablet method.
   *
   * @see Session#insertAlignedRecords(List, List, List, List, List)
   * @see Session#insertTablet(Tablet)
   */
  public void insertAlignedRecord(
      String deviceId,
      long time,
      List measurements,
      List types,
      List values)
      throws IoTDBConnectionException, StatementExecutionException {
    TSInsertRecordReq request;
    try {
      request = filterAndGenTSInsertRecordReq(deviceId, time, measurements, types, values, true);
    } catch (NoValidValueException e) {
      logger.warn(
          "All values are null and this submission is ignored,deviceId is [{}],time is [{}],measurements is [{}]",
          deviceId,
          time,
          measurements.toString());
      return;
    }
    insertRecord(deviceId, request);
  }

  private TSInsertRecordReq filterAndGenTSInsertRecordReq(
      String prefixPath,
      long time,
      List measurements,
      List types,
      List values,
      boolean isAligned)
      throws IoTDBConnectionException {
    if (hasNull(values)) {
      measurements = new ArrayList<>(measurements);
      values = new ArrayList<>(values);
      types = new ArrayList<>(types);
      boolean isAllValuesNull =
          filterNullValueAndMeasurement(prefixPath, measurements, types, values);
      if (isAllValuesNull) {
        throw new NoValidValueException("All inserted data is null.");
      }
    }
    return genTSInsertRecordReq(prefixPath, time, measurements, types, values, isAligned);
  }

  private TSInsertRecordReq genTSInsertRecordReq(
      String prefixPath,
      long time,
      List measurements,
      List types,
      List values,
      boolean isAligned)
      throws IoTDBConnectionException {
    TSInsertRecordReq request = new TSInsertRecordReq();
    request.setPrefixPath(prefixPath);
    request.setTimestamp(time);
    request.setMeasurements(measurements);
    ByteBuffer buffer = SessionUtils.getValueBuffer(types, values);
    request.setValues(buffer);
    request.setIsAligned(isAligned);
    return request;
  }

  /**
   * insert data in one row, if you want improve your performance, please use insertRecords method
   * or insertTablet method
   *
   * @see Session#insertRecords(List, List, List, List, List)
   * @see Session#insertTablet(Tablet)
   */
  public void insertRecord(
      String deviceId, long time, List measurements, List values)
      throws IoTDBConnectionException, StatementExecutionException {
    TSInsertStringRecordReq request;
    try {
      request = filterAndGenTSInsertStringRecordReq(deviceId, time, measurements, values, false);
    } catch (NoValidValueException e) {
      logger.warn(
          "All values are null and this submission is ignored,deviceId is [{}],time is [{}],measurements is [{}]",
          deviceId,
          time,
          measurements.toString());
      return;
    }
    insertRecord(deviceId, request);
  }

  /**
   * insert aligned data in one row, if you want improve your performance, please use
   * insertAlignedRecords method or insertTablet method.
   *
   * @see Session#insertAlignedRecords(List, List, List, List, List)
   * @see Session#insertTablet(Tablet)
   */
  public void insertAlignedRecord(
      String deviceId, long time, List measurements, List values)
      throws IoTDBConnectionException, StatementExecutionException {
    TSInsertStringRecordReq request;
    try {
      request = filterAndGenTSInsertStringRecordReq(deviceId, time, measurements, values, true);
    } catch (NoValidValueException e) {
      logger.warn(
          "All values are null and this submission is ignored,deviceId is [{}],time is [{}],measurements is [{}]",
          deviceId,
          time,
          measurements.toString());
      return;
    }
    insertRecord(deviceId, request);
  }

  private TSInsertStringRecordReq filterAndGenTSInsertStringRecordReq(
      String prefixPath,
      long time,
      List measurements,
      List values,
      boolean isAligned) {
    if (hasNull(values)) {
      measurements = new ArrayList<>(measurements);
      values = new ArrayList<>(values);
      boolean isAllValueNull =
          filterNullValueAndMeasurementWithStringType(values, prefixPath, measurements);
      if (isAllValueNull) {
        throw new NoValidValueException("All inserted data is null.");
      }
    }
    return genTSInsertStringRecordReq(prefixPath, time, measurements, values, isAligned);
  }

  private TSInsertStringRecordReq genTSInsertStringRecordReq(
      String prefixPath,
      long time,
      List measurements,
      List values,
      boolean isAligned) {
    TSInsertStringRecordReq request = new TSInsertStringRecordReq();
    request.setPrefixPath(prefixPath);
    request.setTimestamp(time);
    request.setMeasurements(measurements);
    request.setValues(values);
    request.setIsAligned(isAligned);
    return request;
  }

  /**
   * Insert multiple rows, which can reduce the overhead of network. This method is just like jdbc
   * executeBatch, we pack some insert request in batch and send them to server. If you want improve
   * your performance, please see insertTablet method
   *
   * 

Each row is independent, which could have different deviceId, time, number of measurements * * @see Session#insertTablet(Tablet) */ public void insertRecords( List deviceIds, List times, List> measurementsList, List> valuesList) throws IoTDBConnectionException, StatementExecutionException { int len = deviceIds.size(); if (len != times.size() || len != measurementsList.size() || len != valuesList.size()) { throw new IllegalArgumentException( "deviceIds, times, measurementsList and valuesList's size should be equal"); } if (enableCacheLeader) { insertStringRecordsWithLeaderCache(deviceIds, times, measurementsList, valuesList, false); } else { TSInsertStringRecordsReq request; try { request = filterAndGenTSInsertStringRecordsReq( deviceIds, times, measurementsList, valuesList, false); } catch (NoValidValueException e) { logger.warn( "All values are null and this submission is ignored,deviceIds are [{}],times are [{}],measurements are [{}]", deviceIds.toString(), times.toString(), measurementsList.toString()); return; } try { defaultSessionConnection.insertRecords(request); } catch (RedirectException e) { Map deviceEndPointMap = e.getDeviceEndPointMap(); for (Map.Entry deviceEndPointEntry : deviceEndPointMap.entrySet()) { handleRedirection(deviceEndPointEntry.getKey(), deviceEndPointEntry.getValue()); } } } } /** * When the value is null,filter this,don't use this measurement. * * @param times * @param measurementsList * @param valuesList * @param typesList */ private void filterNullValueAndMeasurement( List deviceIds, List times, List> measurementsList, List> valuesList, List> typesList) { for (int i = valuesList.size() - 1; i >= 0; i--) { List values = valuesList.get(i); List measurements = measurementsList.get(i); List types = typesList.get(i); boolean isAllValuesNull = filterNullValueAndMeasurement(deviceIds.get(i), measurements, types, values); if (isAllValuesNull) { valuesList.remove(i); measurementsList.remove(i); deviceIds.remove(i); times.remove(i); typesList.remove(i); } } if (valuesList.size() == 0) { throw new NoValidValueException("All inserted data is null."); } } /** * Filter the null value of list。 * * @param deviceId * @param times * @param measurementsList * @param typesList * @param valuesList */ private void filterNullValueAndMeasurementOfOneDevice( String deviceId, List times, List> measurementsList, List> typesList, List> valuesList) { for (int i = valuesList.size() - 1; i >= 0; i--) { List values = valuesList.get(i); List measurements = measurementsList.get(i); List types = typesList.get(i); boolean isAllValuesNull = filterNullValueAndMeasurement(deviceId, measurements, types, values); if (isAllValuesNull) { valuesList.remove(i); measurementsList.remove(i); typesList.remove(i); times.remove(i); } } if (valuesList.size() == 0) { throw new NoValidValueException("All inserted data is null."); } } /** * Filter the null value of list。 * * @param times * @param deviceId * @param measurementsList * @param valuesList */ private void filterNullValueAndMeasurementWithStringTypeOfOneDevice( List times, String deviceId, List> measurementsList, List> valuesList) { for (int i = valuesList.size() - 1; i >= 0; i--) { List values = valuesList.get(i); List measurements = measurementsList.get(i); boolean isAllValuesNull = filterNullValueAndMeasurementWithStringType(values, deviceId, measurements); if (isAllValuesNull) { valuesList.remove(i); measurementsList.remove(i); times.remove(i); } } if (valuesList.size() == 0) { throw new NoValidValueException("All inserted data is null."); } } /** * Filter the null object of list。 * * @param deviceId * @param measurementsList * @param types * @param valuesList * @return true:all value is null;false:not all null value is null. */ private boolean filterNullValueAndMeasurement( String deviceId, List measurementsList, List types, List valuesList) { Map nullMap = new HashMap<>(); for (int i = valuesList.size() - 1; i >= 0; i--) { if (valuesList.get(i) == null) { nullMap.put(measurementsList.get(i), valuesList.get(i)); valuesList.remove(i); measurementsList.remove(i); types.remove(i); } } if (valuesList.size() == 0) { logger.info("All values of the {} are null,null values are {}", deviceId, nullMap.toString()); return true; } else { logger.info("Some values of {} are null,null values are {}", deviceId, nullMap.toString()); } return false; } /** * Filter the null object of list。 * * @param prefixPaths devices path。 * @param times * @param measurementsList * @param valuesList * @return true:all values of valuesList are null;false:Not all values of valuesList are null. */ private void filterNullValueAndMeasurementWithStringType( List prefixPaths, List times, List> measurementsList, List> valuesList) { for (int i = valuesList.size() - 1; i >= 0; i--) { List values = valuesList.get(i); List measurements = measurementsList.get(i); boolean isAllValueNull = filterNullValueAndMeasurementWithStringType(values, prefixPaths.get(i), measurements); if (isAllValueNull) { valuesList.remove(i); measurementsList.remove(i); times.remove(i); prefixPaths.remove(i); } } if (valuesList.size() == 0) { throw new NoValidValueException("All inserted data is null."); } } /** * When the value is null,filter this,don't use this measurement. * * @param valuesList * @param measurementsList * @return true:all value is null;false:not all null value is null. */ private boolean filterNullValueAndMeasurementWithStringType( List valuesList, String deviceId, List measurementsList) { Map nullMap = new HashMap<>(); for (int i = valuesList.size() - 1; i >= 0; i--) { if (valuesList.get(i) == null) { nullMap.put(measurementsList.get(i), valuesList.get(i)); valuesList.remove(i); measurementsList.remove(i); } } if (valuesList.size() == 0) { logger.info("All values of the {} are null,null values are {}", deviceId, nullMap.toString()); return true; } else { logger.info("Some values of {} are null,null values are {}", deviceId, nullMap.toString()); } return false; } private boolean hasNull(List valuesList) { boolean haveNull = false; for (int i1 = 0; i1 < valuesList.size(); i1++) { Object o = valuesList.get(i1); if (o instanceof List) { List o1 = (List) o; if (hasNull(o1)) { haveNull = true; break; } } else { if (o == null) { haveNull = true; break; } } } return haveNull; } /** * Insert aligned multiple rows, which can reduce the overhead of network. This method is just * like jdbc executeBatch, we pack some insert request in batch and send them to server. If you * want improve your performance, please see insertTablet method * *

Each row is independent, which could have different prefixPath, time, number of * subMeasurements * * @see Session#insertTablet(Tablet) */ public void insertAlignedRecords( List deviceIds, List times, List> measurementsList, List> valuesList) throws IoTDBConnectionException, StatementExecutionException { int len = deviceIds.size(); if (len != times.size() || len != measurementsList.size() || len != valuesList.size()) { throw new IllegalArgumentException( "prefixPaths, times, subMeasurementsList and valuesList's size should be equal"); } if (enableCacheLeader) { insertStringRecordsWithLeaderCache(deviceIds, times, measurementsList, valuesList, true); } else { TSInsertStringRecordsReq request; try { request = filterAndGenTSInsertStringRecordsReq( deviceIds, times, measurementsList, valuesList, true); } catch (NoValidValueException e) { logger.warn( "All values are null and this submission is ignored,deviceIds are [{}],times are [{}],measurements are [{}]", deviceIds.toString(), times.toString(), measurementsList.toString()); return; } try { defaultSessionConnection.insertRecords(request); } catch (RedirectException e) { Map deviceEndPointMap = e.getDeviceEndPointMap(); for (Map.Entry deviceEndPointEntry : deviceEndPointMap.entrySet()) { handleRedirection(deviceEndPointEntry.getKey(), deviceEndPointEntry.getValue()); } } } } private void insertStringRecordsWithLeaderCache( List deviceIds, List times, List> measurementsList, List> valuesList, boolean isAligned) throws IoTDBConnectionException, StatementExecutionException { Map recordsGroup = new HashMap<>(); for (int i = 0; i < deviceIds.size(); i++) { final SessionConnection connection = getSessionConnection(deviceIds.get(i)); TSInsertStringRecordsReq request = recordsGroup.computeIfAbsent(connection, k -> new TSInsertStringRecordsReq()); request.setIsAligned(isAligned); try { filterAndUpdateTSInsertStringRecordsReq( request, deviceIds.get(i), times.get(i), measurementsList.get(i), valuesList.get(i)); } catch (NoValidValueException e) { logger.warn( "All values are null and this submission is ignored,deviceId is [{}],time is [{}],measurements is [{}]", deviceIds.get(i), times.get(i), measurementsList.get(i).toString()); continue; } } insertByGroup(recordsGroup, SessionConnection::insertRecords); } private TSInsertStringRecordsReq filterAndGenTSInsertStringRecordsReq( List prefixPaths, List time, List> measurements, List> values, boolean isAligned) { if (hasNull(values)) { values = changeToArrayListWithStringType(values); measurements = changeToArrayListWithStringType(measurements); prefixPaths = new ArrayList<>(prefixPaths); time = new ArrayList<>(time); filterNullValueAndMeasurementWithStringType(prefixPaths, time, measurements, values); } return genTSInsertStringRecordsReq(prefixPaths, time, measurements, values, isAligned); } private List> changeToArrayListWithStringType(List> values) { if (!(values instanceof ArrayList)) { values = new ArrayList<>(values); } for (int i = 0; i < values.size(); i++) { List currentValue = values.get(i); if (!(currentValue instanceof ArrayList)) { values.set(i, new ArrayList<>(currentValue)); } } return values; } private List> changeToArrayList(List> values) { if (!(values instanceof ArrayList)) { values = new ArrayList<>(values); } for (int i = 0; i < values.size(); i++) { List currentValue = values.get(i); if (!(currentValue instanceof ArrayList)) { values.set(i, new ArrayList<>(currentValue)); } } return values; } private List> changeToArrayListWithTSDataType(List> values) { if (!(values instanceof ArrayList)) { values = new ArrayList<>(values); } for (int i = 0; i < values.size(); i++) { List currentValue = values.get(i); if (!(currentValue instanceof ArrayList)) { values.set(i, new ArrayList<>(currentValue)); } } return values; } private TSInsertStringRecordsReq genTSInsertStringRecordsReq( List prefixPaths, List time, List> measurements, List> values, boolean isAligned) { TSInsertStringRecordsReq request = new TSInsertStringRecordsReq(); request.setPrefixPaths(prefixPaths); request.setTimestamps(time); request.setMeasurementsList(measurements); request.setValuesList(values); request.setIsAligned(isAligned); return request; } private void filterAndUpdateTSInsertStringRecordsReq( TSInsertStringRecordsReq request, String deviceId, long time, List measurements, List values) { if (hasNull(values)) { measurements = new ArrayList<>(measurements); values = new ArrayList<>(values); boolean isAllValueNull = filterNullValueAndMeasurementWithStringType(values, deviceId, measurements); if (isAllValueNull) { throw new NoValidValueException("All inserted data is null."); } } updateTSInsertStringRecordsReq(request, deviceId, time, measurements, values); } private void updateTSInsertStringRecordsReq( TSInsertStringRecordsReq request, String deviceId, long time, List measurements, List values) { request.addToPrefixPaths(deviceId); request.addToTimestamps(time); request.addToMeasurementsList(measurements); request.addToValuesList(values); } /** * Insert multiple rows, which can reduce the overhead of network. This method is just like jdbc * executeBatch, we pack some insert request in batch and send them to server. If you want improve * your performance, please see insertTablet method * *

Each row is independent, which could have different deviceId, time, number of measurements * * @see Session#insertTablet(Tablet) */ public void insertRecords( List deviceIds, List times, List> measurementsList, List> typesList, List> valuesList) throws IoTDBConnectionException, StatementExecutionException { int len = deviceIds.size(); if (len != times.size() || len != measurementsList.size() || len != valuesList.size()) { throw new IllegalArgumentException( "deviceIds, times, measurementsList and valuesList's size should be equal"); } if (enableCacheLeader) { insertRecordsWithLeaderCache( deviceIds, times, measurementsList, typesList, valuesList, false); } else { TSInsertRecordsReq request; try { request = filterAndGenTSInsertRecordsReq( deviceIds, times, measurementsList, typesList, valuesList, false); } catch (NoValidValueException e) { logger.warn( "All values are null and this submission is ignored,deviceIds are [{}],times are [{}],measurements are [{}]", deviceIds.toString(), times.toString(), measurementsList.toString()); return; } try { defaultSessionConnection.insertRecords(request); } catch (RedirectException e) { Map deviceEndPointMap = e.getDeviceEndPointMap(); for (Map.Entry deviceEndPointEntry : deviceEndPointMap.entrySet()) { handleRedirection(deviceEndPointEntry.getKey(), deviceEndPointEntry.getValue()); } } } } /** * Insert aligned multiple rows, which can reduce the overhead of network. This method is just * like jdbc executeBatch, we pack some insert request in batch and send them to server. If you * want improve your performance, please see insertTablet method * *

Each row is independent, which could have different prefixPath, time, number of * subMeasurements * * @see Session#insertTablet(Tablet) */ public void insertAlignedRecords( List deviceIds, List times, List> measurementsList, List> typesList, List> valuesList) throws IoTDBConnectionException, StatementExecutionException { int len = deviceIds.size(); if (len != times.size() || len != measurementsList.size() || len != valuesList.size()) { throw new IllegalArgumentException( "prefixPaths, times, subMeasurementsList and valuesList's size should be equal"); } if (enableCacheLeader) { insertRecordsWithLeaderCache(deviceIds, times, measurementsList, typesList, valuesList, true); } else { TSInsertRecordsReq request; try { request = filterAndGenTSInsertRecordsReq( deviceIds, times, measurementsList, typesList, valuesList, true); } catch (NoValidValueException e) { logger.warn( "All values are null and this submission is ignored,deviceIds are [{}],times are [{}],measurements are [{}]", deviceIds.toString(), times.toString(), measurementsList.toString()); return; } try { defaultSessionConnection.insertRecords(request); } catch (RedirectException e) { Map deviceEndPointMap = e.getDeviceEndPointMap(); for (Map.Entry deviceEndPointEntry : deviceEndPointMap.entrySet()) { handleRedirection(deviceEndPointEntry.getKey(), deviceEndPointEntry.getValue()); } } } } /** * Insert multiple rows, which can reduce the overhead of network. This method is just like jdbc * executeBatch, we pack some insert request in batch and send them to server. If you want improve * your performance, please see insertTablet method * *

Each row could have same deviceId but different time, number of measurements * * @see Session#insertTablet(Tablet) */ public void insertRecordsOfOneDevice( String deviceId, List times, List> measurementsList, List> typesList, List> valuesList) throws IoTDBConnectionException, StatementExecutionException { insertRecordsOfOneDevice(deviceId, times, measurementsList, typesList, valuesList, false); } /** * Insert multiple rows, which can reduce the overhead of network. This method is just like jdbc * executeBatch, we pack some insert request in batch and send them to server. If you want improve * your performance, please see insertTablet method * *

Each row could have same deviceId but different time, number of measurements * * @param haveSorted deprecated, whether the times have been sorted * @see Session#insertTablet(Tablet) */ public void insertRecordsOfOneDevice( String deviceId, List times, List> measurementsList, List> typesList, List> valuesList, boolean haveSorted) throws IoTDBConnectionException, StatementExecutionException { int len = times.size(); if (len != measurementsList.size() || len != valuesList.size()) { throw new IllegalArgumentException( "times, measurementsList and valuesList's size should be equal"); } TSInsertRecordsOfOneDeviceReq request; try { request = filterAndGenTSInsertRecordsOfOneDeviceReq( deviceId, times, measurementsList, typesList, valuesList, haveSorted, false); } catch (NoValidValueException e) { logger.warn( "All values are null and this submission is ignored,deviceId is [{}],times are [{}],measurements are [{}]", deviceId, times.toString(), measurementsList.toString()); return; } try { getSessionConnection(deviceId).insertRecordsOfOneDevice(request); } catch (RedirectException e) { handleRedirection(deviceId, e.getEndPoint()); } } /** * Insert multiple rows with String format data, which can reduce the overhead of network. This * method is just like jdbc executeBatch, we pack some insert request in batch and send them to * server. If you want improve your performance, please see insertTablet method * *

Each row could have same deviceId but different time, number of measurements, number of * values as String * * @param haveSorted deprecated, whether the times have been sorted */ public void insertStringRecordsOfOneDevice( String deviceId, List times, List> measurementsList, List> valuesList, boolean haveSorted) throws IoTDBConnectionException, StatementExecutionException { int len = times.size(); if (len != measurementsList.size() || len != valuesList.size()) { throw new IllegalArgumentException( "times, measurementsList and valuesList's size should be equal"); } TSInsertStringRecordsOfOneDeviceReq req; try { req = filterAndGenTSInsertStringRecordsOfOneDeviceReq( deviceId, times, measurementsList, valuesList, haveSorted, false); } catch (NoValidValueException e) { logger.warn( "All values are null and this submission is ignored,deviceId is [{}],times are [{}],measurements are [{}]", deviceId, times.toString(), measurementsList.toString()); return; } try { getSessionConnection(deviceId).insertStringRecordsOfOneDevice(req); } catch (RedirectException e) { handleRedirection(deviceId, e.getEndPoint()); } } /** * Insert multiple rows with String format data, which can reduce the overhead of network. This * method is just like jdbc executeBatch, we pack some insert request in batch and send them to * server. If you want improve your performance, please see insertTablet method * *

Each row could have same deviceId but different time, number of measurements, number of * values as String */ public void insertStringRecordsOfOneDevice( String deviceId, List times, List> measurementsList, List> valuesList) throws IoTDBConnectionException, StatementExecutionException { insertStringRecordsOfOneDevice(deviceId, times, measurementsList, valuesList, false); } /** * Insert aligned multiple rows, which can reduce the overhead of network. This method is just * like jdbc executeBatch, we pack some insert request in batch and send them to server. If you * want improve your performance, please see insertTablet method * *

Each row could have same prefixPath but different time, number of measurements * * @see Session#insertTablet(Tablet) */ public void insertAlignedRecordsOfOneDevice( String deviceId, List times, List> measurementsList, List> typesList, List> valuesList) throws IoTDBConnectionException, StatementExecutionException { insertAlignedRecordsOfOneDevice( deviceId, times, measurementsList, typesList, valuesList, false); } /** * Insert aligned multiple rows, which can reduce the overhead of network. This method is just * like jdbc executeBatch, we pack some insert request in batch and send them to server. If you * want improve your performance, please see insertTablet method * *

Each row could have same prefixPath but different time, number of measurements * * @param haveSorted deprecated, whether the times have been sorted * @see Session#insertTablet(Tablet) */ public void insertAlignedRecordsOfOneDevice( String deviceId, List times, List> measurementsList, List> typesList, List> valuesList, boolean haveSorted) throws IoTDBConnectionException, StatementExecutionException { int len = times.size(); if (len != measurementsList.size() || len != valuesList.size()) { throw new IllegalArgumentException( "times, subMeasurementsList and valuesList's size should be equal"); } TSInsertRecordsOfOneDeviceReq request; try { request = filterAndGenTSInsertRecordsOfOneDeviceReq( deviceId, times, measurementsList, typesList, valuesList, haveSorted, true); } catch (NoValidValueException e) { logger.warn( "All values are null and this submission is ignored,deviceId is [{}],times are [{}],measurements are [{}]", deviceId, times.toString(), measurementsList.toString()); return; } try { getSessionConnection(deviceId).insertRecordsOfOneDevice(request); } catch (RedirectException e) { handleRedirection(deviceId, e.getEndPoint()); } } /** * Insert multiple rows with String format data, which can reduce the overhead of network. This * method is just like jdbc executeBatch, we pack some insert request in batch and send them to * server. If you want improve your performance, please see insertTablet method * *

Each row could have same deviceId but different time, number of measurements, number of * values as String * * @param haveSorted deprecated, whether the times have been sorted */ public void insertAlignedStringRecordsOfOneDevice( String deviceId, List times, List> measurementsList, List> valuesList, boolean haveSorted) throws IoTDBConnectionException, StatementExecutionException { int len = times.size(); if (len != measurementsList.size() || len != valuesList.size()) { throw new IllegalArgumentException( "times, measurementsList and valuesList's size should be equal"); } TSInsertStringRecordsOfOneDeviceReq req; try { req = filterAndGenTSInsertStringRecordsOfOneDeviceReq( deviceId, times, measurementsList, valuesList, haveSorted, true); } catch (NoValidValueException e) { logger.warn( "All values are null and this submission is ignored,deviceId is [{}],times are [{}],measurements are [{}]", deviceId, times.toString(), measurementsList.toString()); return; } try { getSessionConnection(deviceId).insertStringRecordsOfOneDevice(req); } catch (RedirectException e) { handleRedirection(deviceId, e.getEndPoint()); } } /** * Insert aligned multiple rows with String format data, which can reduce the overhead of network. * This method is just like jdbc executeBatch, we pack some insert request in batch and send them * to server. If you want improve your performance, please see insertTablet method * *

Each row could have same prefixPath but different time, number of measurements, number of * values as String * * @see Session#insertTablet(Tablet) */ public void insertAlignedStringRecordsOfOneDevice( String deviceId, List times, List> measurementsList, List> valuesList) throws IoTDBConnectionException, StatementExecutionException { insertAlignedStringRecordsOfOneDevice(deviceId, times, measurementsList, valuesList, false); } private TSInsertRecordsOfOneDeviceReq filterAndGenTSInsertRecordsOfOneDeviceReq( String prefixPath, List times, List> measurementsList, List> typesList, List> valuesList, boolean haveSorted, boolean isAligned) throws IoTDBConnectionException, BatchExecutionException { if (hasNull(valuesList)) { measurementsList = changeToArrayListWithStringType(measurementsList); valuesList = changeToArrayList(valuesList); typesList = changeToArrayListWithTSDataType(typesList); times = new ArrayList<>(times); filterNullValueAndMeasurementOfOneDevice( prefixPath, times, measurementsList, typesList, valuesList); } return genTSInsertRecordsOfOneDeviceReq( prefixPath, times, measurementsList, typesList, valuesList, haveSorted, isAligned); } private TSInsertRecordsOfOneDeviceReq genTSInsertRecordsOfOneDeviceReq( String prefixPath, List times, List> measurementsList, List> typesList, List> valuesList, boolean haveSorted, boolean isAligned) throws IoTDBConnectionException, BatchExecutionException { // check params size int len = times.size(); if (len != measurementsList.size() || len != valuesList.size()) { throw new IllegalArgumentException( "times, measurementsList and valuesList's size should be equal"); } if (!checkSorted(times)) { // sort Integer[] index = new Integer[times.size()]; for (int i = 0; i < times.size(); i++) { index[i] = i; } Arrays.sort(index, Comparator.comparingLong(times::get)); times.sort(Long::compareTo); // sort measurementList measurementsList = sortList(measurementsList, index); // sort typesList typesList = sortList(typesList, index); // sort values valuesList = sortList(valuesList, index); } TSInsertRecordsOfOneDeviceReq request = new TSInsertRecordsOfOneDeviceReq(); request.setPrefixPath(prefixPath); request.setTimestamps(times); request.setMeasurementsList(measurementsList); List buffersList = objectValuesListToByteBufferList(valuesList, typesList); request.setValuesList(buffersList); request.setIsAligned(isAligned); return request; } private TSInsertStringRecordsOfOneDeviceReq filterAndGenTSInsertStringRecordsOfOneDeviceReq( String prefixPath, List times, List> measurementsList, List> valuesList, boolean haveSorted, boolean isAligned) { if (hasNull(valuesList)) { measurementsList = changeToArrayListWithStringType(measurementsList); valuesList = changeToArrayListWithStringType(valuesList); times = new ArrayList<>(times); filterNullValueAndMeasurementWithStringTypeOfOneDevice( times, prefixPath, measurementsList, valuesList); } return genTSInsertStringRecordsOfOneDeviceReq( prefixPath, times, measurementsList, valuesList, haveSorted, isAligned); } private TSInsertStringRecordsOfOneDeviceReq genTSInsertStringRecordsOfOneDeviceReq( String prefixPath, List times, List> measurementsList, List> valuesList, boolean haveSorted, boolean isAligned) { // check params size int len = times.size(); if (len != measurementsList.size() || len != valuesList.size()) { throw new IllegalArgumentException( "times, measurementsList and valuesList's size should be equal"); } if (!checkSorted(times)) { Integer[] index = new Integer[times.size()]; for (int i = 0; i < index.length; i++) { index[i] = i; } Arrays.sort(index, Comparator.comparingLong(times::get)); times.sort(Long::compareTo); // sort measurementsList measurementsList = sortList(measurementsList, index); // sort valuesList valuesList = sortList(valuesList, index); } TSInsertStringRecordsOfOneDeviceReq req = new TSInsertStringRecordsOfOneDeviceReq(); req.setPrefixPath(prefixPath); req.setTimestamps(times); req.setMeasurementsList(measurementsList); req.setValuesList(valuesList); req.setIsAligned(isAligned); return req; } /** * Sort the input source list. * *

e.g. source: [1,2,3,4,5], index:[1,0,3,2,4], return : [2,1,4,3,5] * * @param source Input list * @param index retuen order * @param Input type * @return ordered list */ private static List sortList(List source, Integer[] index) { return Arrays.stream(index).map(source::get).collect(Collectors.toList()); } private List objectValuesListToByteBufferList( List> valuesList, List> typesList) throws IoTDBConnectionException { List buffersList = new ArrayList<>(); for (int i = 0; i < valuesList.size(); i++) { ByteBuffer buffer = SessionUtils.getValueBuffer(typesList.get(i), valuesList.get(i)); buffersList.add(buffer); } return buffersList; } private void insertRecordsWithLeaderCache( List deviceIds, List times, List> measurementsList, List> typesList, List> valuesList, boolean isAligned) throws IoTDBConnectionException, StatementExecutionException { Map recordsGroup = new HashMap<>(); for (int i = 0; i < deviceIds.size(); i++) { final SessionConnection connection = getSessionConnection(deviceIds.get(i)); TSInsertRecordsReq request = recordsGroup.computeIfAbsent(connection, k -> new TSInsertRecordsReq()); request.setIsAligned(isAligned); try { filterAndUpdateTSInsertRecordsReq( request, deviceIds.get(i), times.get(i), measurementsList.get(i), typesList.get(i), valuesList.get(i)); } catch (NoValidValueException e) { logger.warn( "All values are null and this submission is ignored,deviceId is [{}],time is [{}],measurements are [{}]", deviceIds.get(i), times.get(i), measurementsList.get(i).toString()); continue; } } insertByGroup(recordsGroup, SessionConnection::insertRecords); } private TSInsertRecordsReq filterAndGenTSInsertRecordsReq( List deviceIds, List times, List> measurementsList, List> typesList, List> valuesList, boolean isAligned) throws IoTDBConnectionException { if (hasNull(valuesList)) { measurementsList = changeToArrayListWithStringType(measurementsList); valuesList = changeToArrayList(valuesList); deviceIds = new ArrayList<>(deviceIds); times = new ArrayList<>(times); typesList = changeToArrayListWithTSDataType(typesList); filterNullValueAndMeasurement(deviceIds, times, measurementsList, valuesList, typesList); } return genTSInsertRecordsReq( deviceIds, times, measurementsList, typesList, valuesList, isAligned); } private TSInsertRecordsReq genTSInsertRecordsReq( List deviceIds, List times, List> measurementsList, List> typesList, List> valuesList, boolean isAligned) throws IoTDBConnectionException { TSInsertRecordsReq request = new TSInsertRecordsReq(); request.setPrefixPaths(deviceIds); request.setTimestamps(times); request.setMeasurementsList(measurementsList); request.setIsAligned(isAligned); List buffersList = objectValuesListToByteBufferList(valuesList, typesList); request.setValuesList(buffersList); return request; } private void filterAndUpdateTSInsertRecordsReq( TSInsertRecordsReq request, String deviceId, Long time, List measurements, List types, List values) throws IoTDBConnectionException { if (hasNull(values)) { measurements = new ArrayList<>(measurements); types = new ArrayList<>(types); values = new ArrayList<>(values); boolean isAllValuesNull = filterNullValueAndMeasurement(deviceId, measurements, types, values); if (isAllValuesNull) { throw new NoValidValueException("All inserted data is null."); } } updateTSInsertRecordsReq(request, deviceId, time, measurements, types, values); } private void updateTSInsertRecordsReq( TSInsertRecordsReq request, String deviceId, Long time, List measurements, List types, List values) throws IoTDBConnectionException { request.addToPrefixPaths(deviceId); request.addToTimestamps(time); request.addToMeasurementsList(measurements); ByteBuffer buffer = SessionUtils.getValueBuffer(types, values); request.addToValuesList(buffer); } /** * insert the data of a device. For each timestamp, the number of measurements is the same. * *

a Tablet example: device1 time s1, s2, s3 1, 1, 1, 1 2, 2, 2, 2 3, 3, 3, 3 * *

times in Tablet may be not in ascending order * * @param tablet data batch */ public void insertTablet(Tablet tablet) throws StatementExecutionException, IoTDBConnectionException { insertTablet(tablet, false); } /** * insert a Tablet * * @param tablet data batch * @param sorted deprecated, whether times in Tablet are in ascending order */ public void insertTablet(Tablet tablet, boolean sorted) throws IoTDBConnectionException, StatementExecutionException { TSInsertTabletReq request = genTSInsertTabletReq(tablet, sorted, false); try { getSessionConnection(tablet.deviceId).insertTablet(request); } catch (RedirectException e) { handleRedirection(tablet.deviceId, e.getEndPoint()); } } /** * insert the aligned timeseries data of a device. For each timestamp, the number of measurements * is the same. * *

a Tablet example: device1 time s1, s2, s3 1, 1, 1, 1 2, 2, 2, 2 3, 3, 3, 3 * *

times in Tablet may be not in ascending order * * @param tablet data batch */ public void insertAlignedTablet(Tablet tablet) throws StatementExecutionException, IoTDBConnectionException { insertAlignedTablet(tablet, false); } /** * insert the aligned timeseries data of a device. * * @param tablet data batch * @param sorted deprecated, whether times in Tablet are in ascending order */ public void insertAlignedTablet(Tablet tablet, boolean sorted) throws IoTDBConnectionException, StatementExecutionException { TSInsertTabletReq request = genTSInsertTabletReq(tablet, sorted, true); try { getSessionConnection(tablet.deviceId).insertTablet(request); } catch (RedirectException e) { handleRedirection(tablet.deviceId, e.getEndPoint()); } } private TSInsertTabletReq genTSInsertTabletReq(Tablet tablet, boolean sorted, boolean isAligned) throws BatchExecutionException { if (!checkSorted(tablet)) { sortTablet(tablet); } TSInsertTabletReq request = new TSInsertTabletReq(); for (IMeasurementSchema measurementSchema : tablet.getSchemas()) { request.addToMeasurements(measurementSchema.getMeasurementId()); request.addToTypes(measurementSchema.getType().ordinal()); } request.setPrefixPath(tablet.deviceId); request.setIsAligned(isAligned); request.setTimestamps(SessionUtils.getTimeBuffer(tablet)); request.setValues(SessionUtils.getValueBuffer(tablet)); request.setSize(tablet.rowSize); return request; } /** * insert the data of several deivces. Given a deivce, for each timestamp, the number of * measurements is the same. * *

Times in each Tablet may not be in ascending order * * @param tablets data batch in multiple device */ public void insertTablets(Map tablets) throws IoTDBConnectionException, StatementExecutionException { insertTablets(tablets, false); } /** * insert the data of several devices. Given a device, for each timestamp, the number of * measurements is the same. * * @param tablets data batch in multiple device * @param sorted deprecated, whether times in each Tablet are in ascending order */ public void insertTablets(Map tablets, boolean sorted) throws IoTDBConnectionException, StatementExecutionException { if (enableCacheLeader) { insertTabletsWithLeaderCache(tablets, sorted, false); } else { TSInsertTabletsReq request = genTSInsertTabletsReq(new ArrayList<>(tablets.values()), sorted, false); try { defaultSessionConnection.insertTablets(request); } catch (RedirectException e) { Map deviceEndPointMap = e.getDeviceEndPointMap(); for (Map.Entry deviceEndPointEntry : deviceEndPointMap.entrySet()) { handleRedirection(deviceEndPointEntry.getKey(), deviceEndPointEntry.getValue()); } } } } /** * insert aligned data of several deivces. Given a deivce, for each timestamp, the number of * measurements is the same. * *

Times in each Tablet may not be in ascending order * * @param tablets data batch in multiple device */ public void insertAlignedTablets(Map tablets) throws IoTDBConnectionException, StatementExecutionException { insertAlignedTablets(tablets, false); } /** * insert aligned data of several devices. Given a device, for each timestamp, the number of * measurements is the same. * * @param tablets data batch in multiple device * @param sorted deprecated, whether times in each Tablet are in ascending order */ public void insertAlignedTablets(Map tablets, boolean sorted) throws IoTDBConnectionException, StatementExecutionException { if (enableCacheLeader) { insertTabletsWithLeaderCache(tablets, sorted, true); } else { TSInsertTabletsReq request = genTSInsertTabletsReq(new ArrayList<>(tablets.values()), sorted, true); try { defaultSessionConnection.insertTablets(request); } catch (RedirectException e) { Map deviceEndPointMap = e.getDeviceEndPointMap(); for (Map.Entry deviceEndPointEntry : deviceEndPointMap.entrySet()) { handleRedirection(deviceEndPointEntry.getKey(), deviceEndPointEntry.getValue()); } } } } private void insertTabletsWithLeaderCache( Map tablets, boolean sorted, boolean isAligned) throws IoTDBConnectionException, StatementExecutionException { Map tabletGroup = new HashMap<>(); for (Entry entry : tablets.entrySet()) { final SessionConnection connection = getSessionConnection(entry.getKey()); TSInsertTabletsReq request = tabletGroup.computeIfAbsent(connection, k -> new TSInsertTabletsReq()); updateTSInsertTabletsReq(request, entry.getValue(), sorted, isAligned); } insertByGroup(tabletGroup, SessionConnection::insertTablets); } private TSInsertTabletsReq genTSInsertTabletsReq( List tablets, boolean sorted, boolean isAligned) throws BatchExecutionException { TSInsertTabletsReq request = new TSInsertTabletsReq(); if (tablets.isEmpty()) { throw new BatchExecutionException("No tablet is inserting!"); } for (Tablet tablet : tablets) { updateTSInsertTabletsReq(request, tablet, sorted, isAligned); } return request; } private void updateTSInsertTabletsReq( TSInsertTabletsReq request, Tablet tablet, boolean sorted, boolean isAligned) throws BatchExecutionException { if (!checkSorted(tablet)) { sortTablet(tablet); } request.addToPrefixPaths(tablet.deviceId); List measurements = new ArrayList<>(); List dataTypes = new ArrayList<>(); request.setIsAligned(isAligned); for (IMeasurementSchema measurementSchema : tablet.getSchemas()) { measurements.add(measurementSchema.getMeasurementId()); dataTypes.add(measurementSchema.getType().ordinal()); } request.addToMeasurementsList(measurements); request.addToTypesList(dataTypes); request.addToTimestampsList(SessionUtils.getTimeBuffer(tablet)); request.addToValuesList(SessionUtils.getValueBuffer(tablet)); request.addToSizeList(tablet.rowSize); } /** * This method NOT insert data into database and the server just return after accept the request, * this method should be used to test other time cost in client */ public void testInsertTablet(Tablet tablet) throws IoTDBConnectionException, StatementExecutionException { testInsertTablet(tablet, false); } /** * This method NOT insert data into database and the server just return after accept the request, * this method should be used to test other time cost in client */ public void testInsertTablet(Tablet tablet, boolean sorted) throws IoTDBConnectionException, StatementExecutionException { TSInsertTabletReq request = genTSInsertTabletReq(tablet, sorted, false); defaultSessionConnection.testInsertTablet(request); } /** * This method NOT insert data into database and the server just return after accept the request, * this method should be used to test other time cost in client */ public void testInsertTablets(Map tablets) throws IoTDBConnectionException, StatementExecutionException { testInsertTablets(tablets, false); } /** * This method NOT insert data into database and the server just return after accept the request, * this method should be used to test other time cost in client */ public void testInsertTablets(Map tablets, boolean sorted) throws IoTDBConnectionException, StatementExecutionException { TSInsertTabletsReq request = genTSInsertTabletsReq(new ArrayList<>(tablets.values()), sorted, false); defaultSessionConnection.testInsertTablets(request); } /** * This method NOT insert data into database and the server just return after accept the request, * this method should be used to test other time cost in client */ public void testInsertRecords( List deviceIds, List times, List> measurementsList, List> valuesList) throws IoTDBConnectionException, StatementExecutionException { TSInsertStringRecordsReq request; try { request = filterAndGenTSInsertStringRecordsReq( deviceIds, times, measurementsList, valuesList, false); } catch (NoValidValueException e) { logger.warn( "All values are null and this submission is ignored,deviceIds are [{}],times are [{}],measurements are [{}]", deviceIds.toString(), times.toString(), measurementsList.toString()); return; } defaultSessionConnection.testInsertRecords(request); } /** * This method NOT insert data into database and the server just return after accept the request, * this method should be used to test other time cost in client */ public void testInsertRecords( List deviceIds, List times, List> measurementsList, List> typesList, List> valuesList) throws IoTDBConnectionException, StatementExecutionException { TSInsertRecordsReq request; try { request = filterAndGenTSInsertRecordsReq( deviceIds, times, measurementsList, typesList, valuesList, false); } catch (NoValidValueException e) { logger.warn( "All values are null and this submission is ignored,deviceIds are [{}],times are [{}],measurements are [{}]", deviceIds.toString(), times.toString(), measurementsList.toString()); return; } defaultSessionConnection.testInsertRecords(request); } /** * This method NOT insert data into database and the server just return after accept the request, * this method should be used to test other time cost in client */ public void testInsertRecord( String deviceId, long time, List measurements, List values) throws IoTDBConnectionException, StatementExecutionException { TSInsertStringRecordReq request; try { request = filterAndGenTSInsertStringRecordReq(deviceId, time, measurements, values, false); } catch (NoValidValueException e) { logger.warn( "All values are null and this submission is ignored,deviceId is [{}],time is [{}],measurements is [{}]", deviceId, time, measurements.toString()); return; } defaultSessionConnection.testInsertRecord(request); } /** * This method NOT insert data into database and the server just return after accept the request, * this method should be used to test other time cost in client */ public void testInsertRecord( String deviceId, long time, List measurements, List types, List values) throws IoTDBConnectionException, StatementExecutionException { TSInsertRecordReq request; try { request = filterAndGenTSInsertRecordReq(deviceId, time, measurements, types, values, false); } catch (NoValidValueException e) { logger.warn( "All values are null and this submission is ignored,deviceId is [{}],time is [{}],measurements is [{}]", deviceId, time, measurements.toString()); return; } defaultSessionConnection.testInsertRecord(request); } /** * delete a timeseries, including data and schema * * @param path timeseries to delete, should be a whole path */ public void deleteTimeseries(String path) throws IoTDBConnectionException, StatementExecutionException { defaultSessionConnection.deleteTimeseries(Collections.singletonList(path)); } /** * delete some timeseries, including data and schema * * @param paths timeseries to delete, should be a whole path */ public void deleteTimeseries(List paths) throws IoTDBConnectionException, StatementExecutionException { defaultSessionConnection.deleteTimeseries(paths); } /** * delete data <= time in one timeseries * * @param path data in which time series to delete * @param endTime data with time stamp less than or equal to time will be deleted */ public void deleteData(String path, long endTime) throws IoTDBConnectionException, StatementExecutionException { deleteData(Collections.singletonList(path), Long.MIN_VALUE, endTime); } /** * delete data <= time in multiple timeseries * * @param paths data in which time series to delete * @param endTime data with time stamp less than or equal to time will be deleted */ public void deleteData(List paths, long endTime) throws IoTDBConnectionException, StatementExecutionException { deleteData(paths, Long.MIN_VALUE, endTime); } /** * delete data >= startTime and data <= endTime in multiple timeseries * * @param paths data in which time series to delete * @param startTime delete range start time * @param endTime delete range end time */ public void deleteData(List paths, long startTime, long endTime) throws IoTDBConnectionException, StatementExecutionException { TSDeleteDataReq request = genTSDeleteDataReq(paths, startTime, endTime); defaultSessionConnection.deleteData(request); } private TSDeleteDataReq genTSDeleteDataReq(List paths, long startTime, long endTime) { TSDeleteDataReq request = new TSDeleteDataReq(); request.setPaths(paths); request.setStartTime(startTime); request.setEndTime(endTime); return request; } /** * check whether the batch has been sorted * * @return whether the batch has been sorted */ private boolean checkSorted(Tablet tablet) { for (int i = 1; i < tablet.rowSize; i++) { if (tablet.timestamps[i] < tablet.timestamps[i - 1]) { return false; } } return true; } private boolean checkSorted(List times) { for (int i = 1; i < times.size(); i++) { if (times.get(i) < times.get(i - 1)) { return false; } } return true; } private void checkSortedThrowable(Tablet tablet) throws BatchExecutionException { if (!checkSorted(tablet)) { throw new BatchExecutionException("Times in Tablet are not in ascending order"); } } protected void sortTablet(Tablet tablet) { /* * following part of code sort the batch data by time, * so we can insert continuous data in value list to get a better performance */ // sort to get index, and use index to sort value list Integer[] index = new Integer[tablet.rowSize]; for (int i = 0; i < tablet.rowSize; i++) { index[i] = i; } Arrays.sort(index, Comparator.comparingLong(o -> tablet.timestamps[o])); Arrays.sort(tablet.timestamps, 0, tablet.rowSize); int columnIndex = 0; for (int i = 0; i < tablet.getSchemas().size(); i++) { IMeasurementSchema schema = tablet.getSchemas().get(i); if (schema instanceof MeasurementSchema) { tablet.values[columnIndex] = sortList(tablet.values[columnIndex], schema.getType(), index); if (tablet.bitMaps != null && tablet.bitMaps[columnIndex] != null) { tablet.bitMaps[columnIndex] = sortBitMap(tablet.bitMaps[columnIndex], index); } columnIndex++; } else { int measurementSize = schema.getSubMeasurementsList().size(); for (int j = 0; j < measurementSize; j++) { tablet.values[columnIndex] = sortList( tablet.values[columnIndex], schema.getSubMeasurementsTSDataTypeList().get(j), index); if (tablet.bitMaps != null && tablet.bitMaps[columnIndex] != null) { tablet.bitMaps[columnIndex] = sortBitMap(tablet.bitMaps[columnIndex], index); } columnIndex++; } } } } /** * sort value list by index * * @param valueList value list * @param dataType data type * @param index index * @return sorted list */ private Object sortList(Object valueList, TSDataType dataType, Integer[] index) { switch (dataType) { case BOOLEAN: boolean[] boolValues = (boolean[]) valueList; boolean[] sortedValues = new boolean[boolValues.length]; for (int i = 0; i < index.length; i++) { sortedValues[i] = boolValues[index[i]]; } return sortedValues; case INT32: int[] intValues = (int[]) valueList; int[] sortedIntValues = new int[intValues.length]; for (int i = 0; i < index.length; i++) { sortedIntValues[i] = intValues[index[i]]; } return sortedIntValues; case INT64: long[] longValues = (long[]) valueList; long[] sortedLongValues = new long[longValues.length]; for (int i = 0; i < index.length; i++) { sortedLongValues[i] = longValues[index[i]]; } return sortedLongValues; case FLOAT: float[] floatValues = (float[]) valueList; float[] sortedFloatValues = new float[floatValues.length]; for (int i = 0; i < index.length; i++) { sortedFloatValues[i] = floatValues[index[i]]; } return sortedFloatValues; case DOUBLE: double[] doubleValues = (double[]) valueList; double[] sortedDoubleValues = new double[doubleValues.length]; for (int i = 0; i < index.length; i++) { sortedDoubleValues[i] = doubleValues[index[i]]; } return sortedDoubleValues; case TEXT: Binary[] binaryValues = (Binary[]) valueList; Binary[] sortedBinaryValues = new Binary[binaryValues.length]; for (int i = 0; i < index.length; i++) { sortedBinaryValues[i] = binaryValues[index[i]]; } return sortedBinaryValues; default: throw new UnSupportedDataTypeException(MSG_UNSUPPORTED_DATA_TYPE + dataType); } } /** * sort BitMap by index * * @param bitMap BitMap to be sorted * @param index index * @return sorted bitMap */ private BitMap sortBitMap(BitMap bitMap, Integer[] index) { BitMap sortedBitMap = new BitMap(bitMap.getSize()); for (int i = 0; i < index.length; i++) { if (bitMap.isMarked(index[i])) { sortedBitMap.mark(i); } } return sortedBitMap; } public void setSchemaTemplate(String templateName, String prefixPath) throws IoTDBConnectionException, StatementExecutionException { TSSetSchemaTemplateReq request = getTSSetSchemaTemplateReq(templateName, prefixPath); defaultSessionConnection.setSchemaTemplate(request); } /** * Construct Template at session and create it at server. * *

The template instance constructed within session is SUGGESTED to be a flat measurement * template, which has no internal nodes inside a template. * *

For example, template(s1, s2, s3) is a flat measurement template, while template2(GPS.x, * GPS.y, s1) is not. * *

Tree-structured template, which is contrary to flat measurement template, may not be * supported in further version of IoTDB * * @see Template */ public void createSchemaTemplate(Template template) throws IOException, IoTDBConnectionException, StatementExecutionException { TSCreateSchemaTemplateReq req = new TSCreateSchemaTemplateReq(); req.setName(template.getName()); ByteArrayOutputStream baos = new ByteArrayOutputStream(); template.serialize(baos); req.setSerializedTemplate(baos.toByteArray()); baos.close(); defaultSessionConnection.createSchemaTemplate(req); } /** * Create a template with flat measurements, not tree structured. Need to specify datatype, * encoding and compressor of each measurement, and alignment of these measurements at once. * * @oaram templateName name of template to create * @param measurements flat measurements of the template, cannot contain character dot * @param dataTypes datatype of each measurement in the template * @param encodings encodings of each measurement in the template * @param compressors compression type of each measurement in the template * @param isAligned specify whether these flat measurements are aligned */ public void createSchemaTemplate( String templateName, List measurements, List dataTypes, List encodings, List compressors, boolean isAligned) throws IOException, IoTDBConnectionException, StatementExecutionException { Template temp = new Template(templateName, isAligned); int len = measurements.size(); if (len != dataTypes.size() || len != encodings.size() || len != compressors.size()) { throw new StatementExecutionException( "Different length of measurements, datatypes, encodings " + "or compressors when create schema tempalte."); } for (int idx = 0; idx < measurements.size(); idx++) { MeasurementNode mNode = new MeasurementNode( measurements.get(idx), dataTypes.get(idx), encodings.get(idx), compressors.get(idx)); temp.addToTemplate(mNode); } createSchemaTemplate(temp); } /** * Compatible for rel/0.12, this method will create an unaligned flat template as a result. Notice * that there is no aligned concept in 0.12, so only the first measurement in each nested list * matters. * * @param name name of the template * @param schemaNames it works as a virtual layer inside template in 0.12, and makes no difference * after 0.13 * @param measurements the first measurement in each nested list will constitute the final flat * template * @param dataTypes the data type of each measurement, only the first one in each nested list * matters as above * @param encodings the encoding of each measurement, only the first one in each nested list * matters as above * @param compressors the compressor of each measurement * @throws IoTDBConnectionException * @throws StatementExecutionException */ @Deprecated public void createSchemaTemplate( String name, List schemaNames, List> measurements, List> dataTypes, List> encodings, List compressors) throws IoTDBConnectionException, StatementExecutionException { List flatMeasurements = new ArrayList<>(); List flatDataTypes = new ArrayList<>(); List flatEncodings = new ArrayList<>(); for (int idx = 0; idx < measurements.size(); idx++) { flatMeasurements.add(measurements.get(idx).get(0)); flatDataTypes.add(dataTypes.get(idx).get(0)); flatEncodings.add(encodings.get(idx).get(0)); } try { createSchemaTemplate( name, flatMeasurements, flatDataTypes, flatEncodings, compressors, false); } catch (IOException e) { throw new StatementExecutionException(e.getMessage()); } } /** * @param templateName Template to add aligned measurements. * @param measurementsPath If measurements get different prefix, or the prefix already exists in * template but not aligned, throw exception. * @param dataTypes Data type of these measurements. * @param encodings Encoding of these measurements. * @param compressors CompressionType of these measurements. */ public void addAlignedMeasurementsInTemplate( String templateName, List measurementsPath, List dataTypes, List encodings, List compressors) throws IOException, IoTDBConnectionException, StatementExecutionException { TSAppendSchemaTemplateReq req = new TSAppendSchemaTemplateReq(); req.setName(templateName); req.setMeasurements(measurementsPath); req.setDataTypes(dataTypes.stream().map(TSDataType::ordinal).collect(Collectors.toList())); req.setEncodings(encodings.stream().map(TSEncoding::ordinal).collect(Collectors.toList())); req.setCompressors( compressors.stream().map(CompressionType::ordinal).collect(Collectors.toList())); req.setIsAligned(true); defaultSessionConnection.appendSchemaTemplate(req); } /** * @param templateName Template to add a single aligned measurement. * @param measurementPath If prefix of the path exists in template and not aligned, throw * exception. */ public void addAlignedMeasurementInTemplate( String templateName, String measurementPath, TSDataType dataType, TSEncoding encoding, CompressionType compressor) throws IOException, IoTDBConnectionException, StatementExecutionException { TSAppendSchemaTemplateReq req = new TSAppendSchemaTemplateReq(); req.setName(templateName); req.setMeasurements(Collections.singletonList(measurementPath)); req.setDataTypes(Collections.singletonList(dataType.ordinal())); req.setEncodings(Collections.singletonList(encoding.ordinal())); req.setCompressors(Collections.singletonList(compressor.ordinal())); req.setIsAligned(true); defaultSessionConnection.appendSchemaTemplate(req); } /** * @param templateName Template to add unaligned measurements. * @param measurementsPath If prefix of any path exist in template but aligned, throw exception. */ public void addUnalignedMeasurementsInTemplate( String templateName, List measurementsPath, List dataTypes, List encodings, List compressors) throws IOException, IoTDBConnectionException, StatementExecutionException { TSAppendSchemaTemplateReq req = new TSAppendSchemaTemplateReq(); req.setName(templateName); req.setMeasurements(measurementsPath); req.setDataTypes(dataTypes.stream().map(TSDataType::ordinal).collect(Collectors.toList())); req.setEncodings(encodings.stream().map(TSEncoding::ordinal).collect(Collectors.toList())); req.setCompressors( compressors.stream().map(CompressionType::ordinal).collect(Collectors.toList())); req.setIsAligned(false); defaultSessionConnection.appendSchemaTemplate(req); } /** * @param templateName Template to add a single unaligned measurement. * @param measurementPath If prefix of path exists in template but aligned, throw exception. */ public void addUnalignedMeasurementInTemplate( String templateName, String measurementPath, TSDataType dataType, TSEncoding encoding, CompressionType compressor) throws IOException, IoTDBConnectionException, StatementExecutionException { TSAppendSchemaTemplateReq req = new TSAppendSchemaTemplateReq(); req.setName(templateName); req.setMeasurements(Collections.singletonList(measurementPath)); req.setDataTypes(Collections.singletonList(dataType.ordinal())); req.setEncodings(Collections.singletonList(encoding.ordinal())); req.setCompressors(Collections.singletonList(compressor.ordinal())); req.setIsAligned(false); defaultSessionConnection.appendSchemaTemplate(req); } /** * @param templateName Template to prune. * @param path Remove node from template specified by the path, including its children nodes. */ public void deleteNodeInTemplate(String templateName, String path) throws IOException, IoTDBConnectionException, StatementExecutionException { TSPruneSchemaTemplateReq req = new TSPruneSchemaTemplateReq(); req.setName(templateName); req.setPath(path); defaultSessionConnection.pruneSchemaTemplate(req); } /** @return Amount of measurements in the template */ public int countMeasurementsInTemplate(String name) throws StatementExecutionException, IoTDBConnectionException { TSQueryTemplateReq req = new TSQueryTemplateReq(); req.setName(name); req.setQueryType(TemplateQueryType.COUNT_MEASUREMENTS.ordinal()); TSQueryTemplateResp resp = defaultSessionConnection.querySchemaTemplate(req); return resp.getCount(); } /** @return If the node specified by the path is a measurement. */ public boolean isMeasurementInTemplate(String templateName, String path) throws StatementExecutionException, IoTDBConnectionException { TSQueryTemplateReq req = new TSQueryTemplateReq(); req.setName(templateName); req.setQueryType(TemplateQueryType.IS_MEASUREMENT.ordinal()); req.setMeasurement(path); TSQueryTemplateResp resp = defaultSessionConnection.querySchemaTemplate(req); return resp.result; } /** @return if there is a node correspond to the path in the template. */ public boolean isPathExistInTemplate(String templateName, String path) throws StatementExecutionException, IoTDBConnectionException { TSQueryTemplateReq req = new TSQueryTemplateReq(); req.setName(templateName); req.setQueryType(TemplateQueryType.PATH_EXIST.ordinal()); req.setMeasurement(path); TSQueryTemplateResp resp = defaultSessionConnection.querySchemaTemplate(req); return resp.result; } /** @return All paths of measurements in the template. */ public List showMeasurementsInTemplate(String templateName) throws StatementExecutionException, IoTDBConnectionException { TSQueryTemplateReq req = new TSQueryTemplateReq(); req.setName(templateName); req.setQueryType(TemplateQueryType.SHOW_MEASUREMENTS.ordinal()); req.setMeasurement(""); TSQueryTemplateResp resp = defaultSessionConnection.querySchemaTemplate(req); return resp.getMeasurements(); } /** @return All paths of measurements under the pattern in the template. */ public List showMeasurementsInTemplate(String templateName, String pattern) throws StatementExecutionException, IoTDBConnectionException { TSQueryTemplateReq req = new TSQueryTemplateReq(); req.setName(templateName); req.setQueryType(TemplateQueryType.SHOW_MEASUREMENTS.ordinal()); req.setMeasurement(pattern); TSQueryTemplateResp resp = defaultSessionConnection.querySchemaTemplate(req); return resp.getMeasurements(); } /** @return All template names. */ public List showAllTemplates() throws StatementExecutionException, IoTDBConnectionException { TSQueryTemplateReq req = new TSQueryTemplateReq(); req.setName(""); req.setQueryType(TemplateQueryType.SHOW_TEMPLATES.ordinal()); TSQueryTemplateResp resp = defaultSessionConnection.querySchemaTemplate(req); return resp.getMeasurements(); } /** @return All paths have been set to designated template. */ public List showPathsTemplateSetOn(String templateName) throws StatementExecutionException, IoTDBConnectionException { TSQueryTemplateReq req = new TSQueryTemplateReq(); req.setName(templateName); req.setQueryType(TemplateQueryType.SHOW_SET_TEMPLATES.ordinal()); TSQueryTemplateResp resp = defaultSessionConnection.querySchemaTemplate(req); return resp.getMeasurements(); } /** @return All paths are using designated template. */ public List showPathsTemplateUsingOn(String templateName) throws StatementExecutionException, IoTDBConnectionException { TSQueryTemplateReq req = new TSQueryTemplateReq(); req.setName(templateName); req.setQueryType(TemplateQueryType.SHOW_USING_TEMPLATES.ordinal()); TSQueryTemplateResp resp = defaultSessionConnection.querySchemaTemplate(req); return resp.getMeasurements(); } public void unsetSchemaTemplate(String prefixPath, String templateName) throws IoTDBConnectionException, StatementExecutionException { TSUnsetSchemaTemplateReq request = getTSUnsetSchemaTemplateReq(prefixPath, templateName); defaultSessionConnection.unsetSchemaTemplate(request); } /** Set designated path using template, act like the sql-statement with same name and syntax. */ public void createTimeseriesOfTemplateOnPath(String path) throws IoTDBConnectionException, StatementExecutionException { TSSetUsingTemplateReq request = new TSSetUsingTemplateReq(); request.setDstPath(path); defaultSessionConnection.setUsingTemplate(request); } /** Inverse of {@linkplain #createTimeseriesOfTemplateOnPath}, IMPLYING data deletion. */ public void deactivateTemplateOn(String templateName, String prefixPath) throws IoTDBConnectionException, StatementExecutionException { defaultSessionConnection.deactivateTemplate(templateName, prefixPath); } public void dropSchemaTemplate(String templateName) throws IoTDBConnectionException, StatementExecutionException { TSDropSchemaTemplateReq request = getTSDropSchemaTemplateReq(templateName); defaultSessionConnection.dropSchemaTemplate(request); } private TSSetSchemaTemplateReq getTSSetSchemaTemplateReq(String templateName, String prefixPath) { TSSetSchemaTemplateReq request = new TSSetSchemaTemplateReq(); request.setTemplateName(templateName); request.setPrefixPath(prefixPath); return request; } private TSUnsetSchemaTemplateReq getTSUnsetSchemaTemplateReq( String prefixPath, String templateName) { TSUnsetSchemaTemplateReq request = new TSUnsetSchemaTemplateReq(); request.setPrefixPath(prefixPath); request.setTemplateName(templateName); return request; } private TSDropSchemaTemplateReq getTSDropSchemaTemplateReq(String templateName) { TSDropSchemaTemplateReq request = new TSDropSchemaTemplateReq(); request.setTemplateName(templateName); return request; } /** * @param recordsGroup connection to record map * @param insertConsumer insert function * @param *

    *
  • {@link TSInsertRecordsReq} *
  • {@link TSInsertStringRecordsReq} *
  • {@link TSInsertTabletsReq} *
* * @throws IoTDBConnectionException * @throws StatementExecutionException */ private void insertByGroup( Map recordsGroup, InsertConsumer insertConsumer) throws IoTDBConnectionException, StatementExecutionException { List> completableFutures = recordsGroup.entrySet().stream() .map( entry -> { SessionConnection connection = entry.getKey(); T recordsReq = entry.getValue(); return CompletableFuture.runAsync( () -> { try { insertConsumer.insert(connection, recordsReq); } catch (RedirectException e) { e.getDeviceEndPointMap() .forEach( (deviceId, endpoint) -> { try { handleRedirection(deviceId, endpoint); } catch (IoTDBConnectionException ioTDBConnectionException) { throw new CompletionException(ioTDBConnectionException); } }); } catch (StatementExecutionException e) { throw new CompletionException(e); } catch (IoTDBConnectionException e) { // remove the broken session removeBrokenSessionConnection(connection); throw new CompletionException(e); } }, OPERATION_EXECUTOR); }) .collect(Collectors.toList()); StringBuilder errMsgBuilder = new StringBuilder(); for (CompletableFuture completableFuture : completableFutures) { try { completableFuture.join(); } catch (CompletionException completionException) { Throwable cause = completionException.getCause(); if (cause instanceof IoTDBConnectionException) { throw (IoTDBConnectionException) cause; } else { errMsgBuilder.append(cause.getMessage()); } } } if (errMsgBuilder.length() > 0) { throw new StatementExecutionException(errMsgBuilder.toString()); } } /** Transmit insert record request for operation sync */ public void operationSyncTransmit(ByteBuffer buffer) throws IoTDBConnectionException, StatementExecutionException { try { TSOperationSyncWriteReq request = genTSExecuteOperationSyncReq(buffer); defaultSessionConnection.executeOperationSync(request); } catch (RedirectException e) { // ignored } } private TSOperationSyncWriteReq genTSExecuteOperationSyncReq(ByteBuffer buffer) { TSOperationSyncWriteReq request = new TSOperationSyncWriteReq(); request.setOperationSyncType((byte) 0); request.setPhysicalPlan(buffer); return request; } public boolean isEnableQueryRedirection() { return enableQueryRedirection; } public void setEnableQueryRedirection(boolean enableQueryRedirection) { this.enableQueryRedirection = enableQueryRedirection; } public boolean isEnableCacheLeader() { return enableCacheLeader; } public void setEnableCacheLeader(boolean enableCacheLeader) { this.enableCacheLeader = enableCacheLeader; } public static class Builder { private String host = Config.DEFAULT_HOST; private int rpcPort = Config.DEFAULT_PORT; private String username = Config.DEFAULT_USER; private String password = Config.DEFAULT_PASSWORD; private int fetchSize = Config.DEFAULT_FETCH_SIZE; private ZoneId zoneId = null; private int thriftDefaultBufferSize = Config.DEFAULT_INITIAL_BUFFER_CAPACITY; private int thriftMaxFrameSize = Config.DEFAULT_MAX_FRAME_SIZE; private boolean enableCacheLeader = Config.DEFAULT_CACHE_LEADER_MODE; private Version version = Config.DEFAULT_VERSION; private List nodeUrls = null; public Builder host(String host) { this.host = host; return this; } public Builder port(int port) { this.rpcPort = port; return this; } public Builder username(String username) { this.username = username; return this; } public Builder password(String password) { this.password = password; return this; } public Builder fetchSize(int fetchSize) { this.fetchSize = fetchSize; return this; } public Builder zoneId(ZoneId zoneId) { this.zoneId = zoneId; return this; } public Builder thriftDefaultBufferSize(int thriftDefaultBufferSize) { this.thriftDefaultBufferSize = thriftDefaultBufferSize; return this; } public Builder thriftMaxFrameSize(int thriftMaxFrameSize) { this.thriftMaxFrameSize = thriftMaxFrameSize; return this; } public Builder enableCacheLeader(boolean enableCacheLeader) { this.enableCacheLeader = enableCacheLeader; return this; } public Builder nodeUrls(List nodeUrls) { this.nodeUrls = nodeUrls; return this; } public Builder version(Version version) { this.version = version; return this; } public Session build() { if (nodeUrls != null && (!Config.DEFAULT_HOST.equals(host) || rpcPort != Config.DEFAULT_PORT)) { throw new IllegalArgumentException( "You should specify either nodeUrls or (host + rpcPort), but not both"); } if (nodeUrls != null) { Session newSession = new Session( nodeUrls, username, password, fetchSize, zoneId, thriftDefaultBufferSize, thriftMaxFrameSize, enableCacheLeader, version); newSession.setEnableQueryRedirection(true); return newSession; } return new Session( host, rpcPort, username, password, fetchSize, zoneId, thriftDefaultBufferSize, thriftMaxFrameSize, enableCacheLeader, version); } } }