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 * to you under the Apache License, Version 2.0 (the
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package org.apache.hadoop.hbase.client;

import java.io.IOException;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.NavigableSet;
import java.util.TreeMap;
import java.util.TreeSet;

import org.apache.hadoop.hbase.HConstants;
import org.apache.yetus.audience.InterfaceAudience;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import org.apache.hadoop.hbase.client.metrics.ScanMetrics;
import org.apache.hadoop.hbase.filter.Filter;
import org.apache.hadoop.hbase.filter.IncompatibleFilterException;
import org.apache.hadoop.hbase.io.TimeRange;
import org.apache.hadoop.hbase.security.access.Permission;
import org.apache.hadoop.hbase.security.visibility.Authorizations;
import org.apache.hadoop.hbase.shaded.protobuf.ProtobufUtil;
import org.apache.hadoop.hbase.util.Bytes;

/**
 * Used to perform Scan operations.
 * 

* All operations are identical to {@link Get} with the exception of instantiation. Rather than * specifying a single row, an optional startRow and stopRow may be defined. If rows are not * specified, the Scanner will iterate over all rows. *

* To get all columns from all rows of a Table, create an instance with no constraints; use the * {@link #Scan()} constructor. To constrain the scan to specific column families, call * {@link #addFamily(byte[]) addFamily} for each family to retrieve on your Scan instance. *

* To get specific columns, call {@link #addColumn(byte[], byte[]) addColumn} for each column to * retrieve. *

* To only retrieve columns within a specific range of version timestamps, call * {@link #setTimeRange(long, long) setTimeRange}. *

* To only retrieve columns with a specific timestamp, call {@link #setTimestamp(long) setTimestamp} * . *

* To limit the number of versions of each column to be returned, call {@link #setMaxVersions(int) * setMaxVersions}. *

* To limit the maximum number of values returned for each call to next(), call * {@link #setBatch(int) setBatch}. *

* To add a filter, call {@link #setFilter(org.apache.hadoop.hbase.filter.Filter) setFilter}. *

* For small scan, it is deprecated in 2.0.0. Now we have a {@link #setLimit(int)} method in Scan * object which is used to tell RS how many rows we want. If the rows return reaches the limit, the * RS will close the RegionScanner automatically. And we will also fetch data when openScanner in * the new implementation, this means we can also finish a scan operation in one rpc call. And we * have also introduced a {@link #setReadType(ReadType)} method. You can use this method to tell RS * to use pread explicitly. *

* Expert: To explicitly disable server-side block caching for this scan, execute * {@link #setCacheBlocks(boolean)}. *

* Note: Usage alters Scan instances. Internally, attributes are updated as the Scan runs * and if enabled, metrics accumulate in the Scan instance. Be aware this is the case when you go to * clone a Scan instance or if you go to reuse a created Scan instance; safer is create a Scan * instance per usage. */ @InterfaceAudience.Public public class Scan extends Query { private static final Logger LOG = LoggerFactory.getLogger(Scan.class); private static final String RAW_ATTR = "_raw_"; private byte[] startRow = HConstants.EMPTY_START_ROW; private boolean includeStartRow = true; private byte[] stopRow = HConstants.EMPTY_END_ROW; private boolean includeStopRow = false; private int maxVersions = 1; private int batch = -1; /** * Partial {@link Result}s are {@link Result}s must be combined to form a complete {@link Result}. * The {@link Result}s had to be returned in fragments (i.e. as partials) because the size of the * cells in the row exceeded max result size on the server. Typically partial results will be * combined client side into complete results before being delivered to the caller. However, if * this flag is set, the caller is indicating that they do not mind seeing partial results (i.e. * they understand that the results returned from the Scanner may only represent part of a * particular row). In such a case, any attempt to combine the partials into a complete result on * the client side will be skipped, and the caller will be able to see the exact results returned * from the server. */ private boolean allowPartialResults = false; private int storeLimit = -1; private int storeOffset = 0; /** * @deprecated since 1.0.0. Use {@link #setScanMetricsEnabled(boolean)} */ // Make private or remove. @Deprecated static public final String SCAN_ATTRIBUTES_METRICS_ENABLE = "scan.attributes.metrics.enable"; /** * Use {@link #getScanMetrics()} */ // Make this private or remove. @Deprecated static public final String SCAN_ATTRIBUTES_METRICS_DATA = "scan.attributes.metrics.data"; // If an application wants to use multiple scans over different tables each scan must // define this attribute with the appropriate table name by calling // scan.setAttribute(Scan.SCAN_ATTRIBUTES_TABLE_NAME, Bytes.toBytes(tableName)) static public final String SCAN_ATTRIBUTES_TABLE_NAME = "scan.attributes.table.name"; /** * -1 means no caching specified and the value of {@link HConstants#HBASE_CLIENT_SCANNER_CACHING} * (default to {@link HConstants#DEFAULT_HBASE_CLIENT_SCANNER_CACHING}) will be used */ private int caching = -1; private long maxResultSize = -1; private boolean cacheBlocks = true; private boolean reversed = false; private TimeRange tr = TimeRange.allTime(); private Map> familyMap = new TreeMap>(Bytes.BYTES_COMPARATOR); private Boolean asyncPrefetch = null; /** * Parameter name for client scanner sync/async prefetch toggle. * When using async scanner, prefetching data from the server is done at the background. * The parameter currently won't have any effect in the case that the user has set * Scan#setSmall or Scan#setReversed */ public static final String HBASE_CLIENT_SCANNER_ASYNC_PREFETCH = "hbase.client.scanner.async.prefetch"; /** * Default value of {@link #HBASE_CLIENT_SCANNER_ASYNC_PREFETCH}. */ public static final boolean DEFAULT_HBASE_CLIENT_SCANNER_ASYNC_PREFETCH = false; /** * Set it true for small scan to get better performance Small scan should use pread and big scan * can use seek + read seek + read is fast but can cause two problem (1) resource contention (2) * cause too much network io [89-fb] Using pread for non-compaction read request * https://issues.apache.org/jira/browse/HBASE-7266 On the other hand, if setting it true, we * would do openScanner,next,closeScanner in one RPC call. It means the better performance for * small scan. [HBASE-9488]. Generally, if the scan range is within one data block(64KB), it could * be considered as a small scan. */ private boolean small = false; /** * The mvcc read point to use when open a scanner. Remember to clear it after switching regions as * the mvcc is only valid within region scope. */ private long mvccReadPoint = -1L; /** * The number of rows we want for this scan. We will terminate the scan if the number of return * rows reaches this value. */ private int limit = -1; /** * Control whether to use pread at server side. */ private ReadType readType = ReadType.DEFAULT; private boolean needCursorResult = false; /** * Create a Scan operation across all rows. */ public Scan() {} /** * @deprecated use {@code new Scan().withStartRow(startRow).setFilter(filter)} instead. */ @Deprecated public Scan(byte[] startRow, Filter filter) { this(startRow); this.filter = filter; } /** * Create a Scan operation starting at the specified row. *

* If the specified row does not exist, the Scanner will start from the next closest row after the * specified row. * @param startRow row to start scanner at or after * @deprecated use {@code new Scan().withStartRow(startRow)} instead. */ @Deprecated public Scan(byte[] startRow) { setStartRow(startRow); } /** * Create a Scan operation for the range of rows specified. * @param startRow row to start scanner at or after (inclusive) * @param stopRow row to stop scanner before (exclusive) * @deprecated use {@code new Scan().withStartRow(startRow).withStopRow(stopRow)} instead. */ @Deprecated public Scan(byte[] startRow, byte[] stopRow) { setStartRow(startRow); setStopRow(stopRow); } /** * Creates a new instance of this class while copying all values. * * @param scan The scan instance to copy from. * @throws IOException When copying the values fails. */ public Scan(Scan scan) throws IOException { startRow = scan.getStartRow(); includeStartRow = scan.includeStartRow(); stopRow = scan.getStopRow(); includeStopRow = scan.includeStopRow(); maxVersions = scan.getMaxVersions(); batch = scan.getBatch(); storeLimit = scan.getMaxResultsPerColumnFamily(); storeOffset = scan.getRowOffsetPerColumnFamily(); caching = scan.getCaching(); maxResultSize = scan.getMaxResultSize(); cacheBlocks = scan.getCacheBlocks(); filter = scan.getFilter(); // clone? loadColumnFamiliesOnDemand = scan.getLoadColumnFamiliesOnDemandValue(); consistency = scan.getConsistency(); this.setIsolationLevel(scan.getIsolationLevel()); reversed = scan.isReversed(); asyncPrefetch = scan.isAsyncPrefetch(); small = scan.isSmall(); allowPartialResults = scan.getAllowPartialResults(); tr = scan.getTimeRange(); // TimeRange is immutable Map> fams = scan.getFamilyMap(); for (Map.Entry> entry : fams.entrySet()) { byte [] fam = entry.getKey(); NavigableSet cols = entry.getValue(); if (cols != null && cols.size() > 0) { for (byte[] col : cols) { addColumn(fam, col); } } else { addFamily(fam); } } for (Map.Entry attr : scan.getAttributesMap().entrySet()) { setAttribute(attr.getKey(), attr.getValue()); } for (Map.Entry entry : scan.getColumnFamilyTimeRange().entrySet()) { TimeRange tr = entry.getValue(); setColumnFamilyTimeRange(entry.getKey(), tr.getMin(), tr.getMax()); } this.mvccReadPoint = scan.getMvccReadPoint(); this.limit = scan.getLimit(); this.needCursorResult = scan.isNeedCursorResult(); setPriority(scan.getPriority()); readType = scan.getReadType(); super.setReplicaId(scan.getReplicaId()); } /** * Builds a scan object with the same specs as get. * @param get get to model scan after */ public Scan(Get get) { this.startRow = get.getRow(); this.includeStartRow = true; this.stopRow = get.getRow(); this.includeStopRow = true; this.filter = get.getFilter(); this.cacheBlocks = get.getCacheBlocks(); this.maxVersions = get.getMaxVersions(); this.storeLimit = get.getMaxResultsPerColumnFamily(); this.storeOffset = get.getRowOffsetPerColumnFamily(); this.tr = get.getTimeRange(); this.familyMap = get.getFamilyMap(); this.asyncPrefetch = false; this.consistency = get.getConsistency(); this.setIsolationLevel(get.getIsolationLevel()); this.loadColumnFamiliesOnDemand = get.getLoadColumnFamiliesOnDemandValue(); for (Map.Entry attr : get.getAttributesMap().entrySet()) { setAttribute(attr.getKey(), attr.getValue()); } for (Map.Entry entry : get.getColumnFamilyTimeRange().entrySet()) { TimeRange tr = entry.getValue(); setColumnFamilyTimeRange(entry.getKey(), tr.getMin(), tr.getMax()); } this.mvccReadPoint = -1L; setPriority(get.getPriority()); super.setReplicaId(get.getReplicaId()); } public boolean isGetScan() { return includeStartRow && includeStopRow && ClientUtil.areScanStartRowAndStopRowEqual(this.startRow, this.stopRow); } /** * Get all columns from the specified family. *

* Overrides previous calls to addColumn for this family. * @param family family name * @return this */ public Scan addFamily(byte [] family) { familyMap.remove(family); familyMap.put(family, null); return this; } /** * Get the column from the specified family with the specified qualifier. *

* Overrides previous calls to addFamily for this family. * @param family family name * @param qualifier column qualifier * @return this */ public Scan addColumn(byte [] family, byte [] qualifier) { NavigableSet set = familyMap.get(family); if(set == null) { set = new TreeSet<>(Bytes.BYTES_COMPARATOR); familyMap.put(family, set); } if (qualifier == null) { qualifier = HConstants.EMPTY_BYTE_ARRAY; } set.add(qualifier); return this; } /** * Get versions of columns only within the specified timestamp range, * [minStamp, maxStamp). Note, default maximum versions to return is 1. If * your time range spans more than one version and you want all versions * returned, up the number of versions beyond the default. * @param minStamp minimum timestamp value, inclusive * @param maxStamp maximum timestamp value, exclusive * @see #setMaxVersions() * @see #setMaxVersions(int) * @return this */ public Scan setTimeRange(long minStamp, long maxStamp) throws IOException { tr = new TimeRange(minStamp, maxStamp); return this; } /** * Get versions of columns with the specified timestamp. Note, default maximum * versions to return is 1. If your time range spans more than one version * and you want all versions returned, up the number of versions beyond the * defaut. * @param timestamp version timestamp * @see #setMaxVersions() * @see #setMaxVersions(int) * @return this * @deprecated As of release 2.0.0, this will be removed in HBase 3.0.0. * Use {@link #setTimestamp(long)} instead */ @Deprecated public Scan setTimeStamp(long timestamp) throws IOException { return this.setTimestamp(timestamp); } /** * Get versions of columns with the specified timestamp. Note, default maximum * versions to return is 1. If your time range spans more than one version * and you want all versions returned, up the number of versions beyond the * defaut. * @param timestamp version timestamp * @see #setMaxVersions() * @see #setMaxVersions(int) * @return this */ public Scan setTimestamp(long timestamp) { try { tr = new TimeRange(timestamp, timestamp + 1); } catch(Exception e) { // This should never happen, unless integer overflow or something extremely wrong... LOG.error("TimeRange failed, likely caused by integer overflow. ", e); throw e; } return this; } @Override public Scan setColumnFamilyTimeRange(byte[] cf, long minStamp, long maxStamp) { return (Scan) super.setColumnFamilyTimeRange(cf, minStamp, maxStamp); } /** * Set the start row of the scan. *

* If the specified row does not exist, the Scanner will start from the next closest row after the * specified row. * @param startRow row to start scanner at or after * @return this * @throws IllegalArgumentException if startRow does not meet criteria for a row key (when length * exceeds {@link HConstants#MAX_ROW_LENGTH}) * @deprecated use {@link #withStartRow(byte[])} instead. This method may change the inclusive of * the stop row to keep compatible with the old behavior. */ @Deprecated public Scan setStartRow(byte[] startRow) { withStartRow(startRow); if (ClientUtil.areScanStartRowAndStopRowEqual(this.startRow, this.stopRow)) { // for keeping the old behavior that a scan with the same start and stop row is a get scan. this.includeStopRow = true; } return this; } /** * Set the start row of the scan. *

* If the specified row does not exist, the Scanner will start from the next closest row after the * specified row. * @param startRow row to start scanner at or after * @return this * @throws IllegalArgumentException if startRow does not meet criteria for a row key (when length * exceeds {@link HConstants#MAX_ROW_LENGTH}) */ public Scan withStartRow(byte[] startRow) { return withStartRow(startRow, true); } /** * Set the start row of the scan. *

* If the specified row does not exist, or the {@code inclusive} is {@code false}, the Scanner * will start from the next closest row after the specified row. * @param startRow row to start scanner at or after * @param inclusive whether we should include the start row when scan * @return this * @throws IllegalArgumentException if startRow does not meet criteria for a row key (when length * exceeds {@link HConstants#MAX_ROW_LENGTH}) */ public Scan withStartRow(byte[] startRow, boolean inclusive) { if (Bytes.len(startRow) > HConstants.MAX_ROW_LENGTH) { throw new IllegalArgumentException("startRow's length must be less than or equal to " + HConstants.MAX_ROW_LENGTH + " to meet the criteria" + " for a row key."); } this.startRow = startRow; this.includeStartRow = inclusive; return this; } /** * Set the stop row of the scan. *

* The scan will include rows that are lexicographically less than the provided stopRow. *

* Note: When doing a filter for a rowKey Prefix use * {@link #setRowPrefixFilter(byte[])}. The 'trailing 0' will not yield the desired result. *

* @param stopRow row to end at (exclusive) * @return this * @throws IllegalArgumentException if stopRow does not meet criteria for a row key (when length * exceeds {@link HConstants#MAX_ROW_LENGTH}) * @deprecated use {@link #withStopRow(byte[])} instead. This method may change the inclusive of * the stop row to keep compatible with the old behavior. */ @Deprecated public Scan setStopRow(byte[] stopRow) { withStopRow(stopRow); if (ClientUtil.areScanStartRowAndStopRowEqual(this.startRow, this.stopRow)) { // for keeping the old behavior that a scan with the same start and stop row is a get scan. this.includeStopRow = true; } return this; } /** * Set the stop row of the scan. *

* The scan will include rows that are lexicographically less than the provided stopRow. *

* Note: When doing a filter for a rowKey Prefix use * {@link #setRowPrefixFilter(byte[])}. The 'trailing 0' will not yield the desired result. *

* @param stopRow row to end at (exclusive) * @return this * @throws IllegalArgumentException if stopRow does not meet criteria for a row key (when length * exceeds {@link HConstants#MAX_ROW_LENGTH}) */ public Scan withStopRow(byte[] stopRow) { return withStopRow(stopRow, false); } /** * Set the stop row of the scan. *

* The scan will include rows that are lexicographically less than (or equal to if * {@code inclusive} is {@code true}) the provided stopRow. * @param stopRow row to end at * @param inclusive whether we should include the stop row when scan * @return this * @throws IllegalArgumentException if stopRow does not meet criteria for a row key (when length * exceeds {@link HConstants#MAX_ROW_LENGTH}) */ public Scan withStopRow(byte[] stopRow, boolean inclusive) { if (Bytes.len(stopRow) > HConstants.MAX_ROW_LENGTH) { throw new IllegalArgumentException("stopRow's length must be less than or equal to " + HConstants.MAX_ROW_LENGTH + " to meet the criteria" + " for a row key."); } this.stopRow = stopRow; this.includeStopRow = inclusive; return this; } /** *

Set a filter (using stopRow and startRow) so the result set only contains rows where the * rowKey starts with the specified prefix.

*

This is a utility method that converts the desired rowPrefix into the appropriate values * for the startRow and stopRow to achieve the desired result.

*

This can safely be used in combination with setFilter.

*

NOTE: Doing a {@link #setStartRow(byte[])} and/or {@link #setStopRow(byte[])} * after this method will yield undefined results.

* @param rowPrefix the prefix all rows must start with. (Set null to remove the filter.) * @return this */ public Scan setRowPrefixFilter(byte[] rowPrefix) { if (rowPrefix == null) { setStartRow(HConstants.EMPTY_START_ROW); setStopRow(HConstants.EMPTY_END_ROW); } else { this.setStartRow(rowPrefix); this.setStopRow(calculateTheClosestNextRowKeyForPrefix(rowPrefix)); } return this; } /** *

When scanning for a prefix the scan should stop immediately after the the last row that * has the specified prefix. This method calculates the closest next rowKey immediately following * the given rowKeyPrefix.

*

IMPORTANT: This converts a rowKeyPrefix into a rowKey.

*

If the prefix is an 'ASCII' string put into a byte[] then this is easy because you can * simply increment the last byte of the array. * But if your application uses real binary rowids you may run into the scenario that your * prefix is something like:

*    { 0x12, 0x23, 0xFF, 0xFF }
* Then this stopRow needs to be fed into the actual scan
*    { 0x12, 0x24 } (Notice that it is shorter now)
* This method calculates the correct stop row value for this usecase. * * @param rowKeyPrefix the rowKeyPrefix. * @return the closest next rowKey immediately following the given rowKeyPrefix. */ private byte[] calculateTheClosestNextRowKeyForPrefix(byte[] rowKeyPrefix) { // Essentially we are treating it like an 'unsigned very very long' and doing +1 manually. // Search for the place where the trailing 0xFFs start int offset = rowKeyPrefix.length; while (offset > 0) { if (rowKeyPrefix[offset - 1] != (byte) 0xFF) { break; } offset--; } if (offset == 0) { // We got an 0xFFFF... (only FFs) stopRow value which is // the last possible prefix before the end of the table. // So set it to stop at the 'end of the table' return HConstants.EMPTY_END_ROW; } // Copy the right length of the original byte[] newStopRow = Arrays.copyOfRange(rowKeyPrefix, 0, offset); // And increment the last one newStopRow[newStopRow.length - 1]++; return newStopRow; } /** * Get all available versions. * @return this * @deprecated It is easy to misunderstand with column family's max versions, so use * {@link #readAllVersions()} instead. */ @Deprecated public Scan setMaxVersions() { return readAllVersions(); } /** * Get up to the specified number of versions of each column. * @param maxVersions maximum versions for each column * @return this * @deprecated It is easy to misunderstand with column family's max versions, so use * {@link #readVersions(int)} instead. */ @Deprecated public Scan setMaxVersions(int maxVersions) { return readVersions(maxVersions); } /** * Get all available versions. * @return this */ public Scan readAllVersions() { this.maxVersions = Integer.MAX_VALUE; return this; } /** * Get up to the specified number of versions of each column. * @param versions specified number of versions for each column * @return this */ public Scan readVersions(int versions) { this.maxVersions = versions; return this; } /** * Set the maximum number of cells to return for each call to next(). Callers should be aware * that this is not equivalent to calling {@link #setAllowPartialResults(boolean)}. * If you don't allow partial results, the number of cells in each Result must equal to your * batch setting unless it is the last Result for current row. So this method is helpful in paging * queries. If you just want to prevent OOM at client, use setAllowPartialResults(true) is better. * @param batch the maximum number of values * @see Result#mayHaveMoreCellsInRow() */ public Scan setBatch(int batch) { if (this.hasFilter() && this.filter.hasFilterRow()) { throw new IncompatibleFilterException( "Cannot set batch on a scan using a filter" + " that returns true for filter.hasFilterRow"); } this.batch = batch; return this; } /** * Set the maximum number of values to return per row per Column Family * @param limit the maximum number of values returned / row / CF */ public Scan setMaxResultsPerColumnFamily(int limit) { this.storeLimit = limit; return this; } /** * Set offset for the row per Column Family. * @param offset is the number of kvs that will be skipped. */ public Scan setRowOffsetPerColumnFamily(int offset) { this.storeOffset = offset; return this; } /** * Set the number of rows for caching that will be passed to scanners. * If not set, the Configuration setting {@link HConstants#HBASE_CLIENT_SCANNER_CACHING} will * apply. * Higher caching values will enable faster scanners but will use more memory. * @param caching the number of rows for caching */ public Scan setCaching(int caching) { this.caching = caching; return this; } /** * @return the maximum result size in bytes. See {@link #setMaxResultSize(long)} */ public long getMaxResultSize() { return maxResultSize; } /** * Set the maximum result size. The default is -1; this means that no specific * maximum result size will be set for this scan, and the global configured * value will be used instead. (Defaults to unlimited). * * @param maxResultSize The maximum result size in bytes. */ public Scan setMaxResultSize(long maxResultSize) { this.maxResultSize = maxResultSize; return this; } @Override public Scan setFilter(Filter filter) { super.setFilter(filter); return this; } /** * Setting the familyMap * @param familyMap map of family to qualifier * @return this */ public Scan setFamilyMap(Map> familyMap) { this.familyMap = familyMap; return this; } /** * Getting the familyMap * @return familyMap */ public Map> getFamilyMap() { return this.familyMap; } /** * @return the number of families in familyMap */ public int numFamilies() { if(hasFamilies()) { return this.familyMap.size(); } return 0; } /** * @return true if familyMap is non empty, false otherwise */ public boolean hasFamilies() { return !this.familyMap.isEmpty(); } /** * @return the keys of the familyMap */ public byte[][] getFamilies() { if(hasFamilies()) { return this.familyMap.keySet().toArray(new byte[0][0]); } return null; } /** * @return the startrow */ public byte [] getStartRow() { return this.startRow; } /** * @return if we should include start row when scan */ public boolean includeStartRow() { return includeStartRow; } /** * @return the stoprow */ public byte[] getStopRow() { return this.stopRow; } /** * @return if we should include stop row when scan */ public boolean includeStopRow() { return includeStopRow; } /** * @return the max number of versions to fetch */ public int getMaxVersions() { return this.maxVersions; } /** * @return maximum number of values to return for a single call to next() */ public int getBatch() { return this.batch; } /** * @return maximum number of values to return per row per CF */ public int getMaxResultsPerColumnFamily() { return this.storeLimit; } /** * Method for retrieving the scan's offset per row per column * family (#kvs to be skipped) * @return row offset */ public int getRowOffsetPerColumnFamily() { return this.storeOffset; } /** * @return caching the number of rows fetched when calling next on a scanner */ public int getCaching() { return this.caching; } /** * @return TimeRange */ public TimeRange getTimeRange() { return this.tr; } /** * @return RowFilter */ @Override public Filter getFilter() { return filter; } /** * @return true is a filter has been specified, false if not */ public boolean hasFilter() { return filter != null; } /** * Set whether blocks should be cached for this Scan. *

* This is true by default. When true, default settings of the table and * family are used (this will never override caching blocks if the block * cache is disabled for that family or entirely). * * @param cacheBlocks if false, default settings are overridden and blocks * will not be cached */ public Scan setCacheBlocks(boolean cacheBlocks) { this.cacheBlocks = cacheBlocks; return this; } /** * Get whether blocks should be cached for this Scan. * @return true if default caching should be used, false if blocks should not * be cached */ public boolean getCacheBlocks() { return cacheBlocks; } /** * Set whether this scan is a reversed one *

* This is false by default which means forward(normal) scan. * * @param reversed if true, scan will be backward order * @return this */ public Scan setReversed(boolean reversed) { this.reversed = reversed; return this; } /** * Get whether this scan is a reversed one. * @return true if backward scan, false if forward(default) scan */ public boolean isReversed() { return reversed; } /** * Setting whether the caller wants to see the partial results when server returns * less-than-expected cells. It is helpful while scanning a huge row to prevent OOM at client. * By default this value is false and the complete results will be assembled client side * before being delivered to the caller. * @param allowPartialResults * @return this * @see Result#mayHaveMoreCellsInRow() * @see #setBatch(int) */ public Scan setAllowPartialResults(final boolean allowPartialResults) { this.allowPartialResults = allowPartialResults; return this; } /** * @return true when the constructor of this scan understands that the results they will see may * only represent a partial portion of a row. The entire row would be retrieved by * subsequent calls to {@link ResultScanner#next()} */ public boolean getAllowPartialResults() { return allowPartialResults; } @Override public Scan setLoadColumnFamiliesOnDemand(boolean value) { return (Scan) super.setLoadColumnFamiliesOnDemand(value); } /** * Compile the table and column family (i.e. schema) information * into a String. Useful for parsing and aggregation by debugging, * logging, and administration tools. * @return Map */ @Override public Map getFingerprint() { Map map = new HashMap<>(); List families = new ArrayList<>(); if(this.familyMap.isEmpty()) { map.put("families", "ALL"); return map; } else { map.put("families", families); } for (Map.Entry> entry : this.familyMap.entrySet()) { families.add(Bytes.toStringBinary(entry.getKey())); } return map; } /** * Compile the details beyond the scope of getFingerprint (row, columns, * timestamps, etc.) into a Map along with the fingerprinted information. * Useful for debugging, logging, and administration tools. * @param maxCols a limit on the number of columns output prior to truncation * @return Map */ @Override public Map toMap(int maxCols) { // start with the fingerpring map and build on top of it Map map = getFingerprint(); // map from families to column list replaces fingerprint's list of families Map> familyColumns = new HashMap<>(); map.put("families", familyColumns); // add scalar information first map.put("startRow", Bytes.toStringBinary(this.startRow)); map.put("stopRow", Bytes.toStringBinary(this.stopRow)); map.put("maxVersions", this.maxVersions); map.put("batch", this.batch); map.put("caching", this.caching); map.put("maxResultSize", this.maxResultSize); map.put("cacheBlocks", this.cacheBlocks); map.put("loadColumnFamiliesOnDemand", this.loadColumnFamiliesOnDemand); List timeRange = new ArrayList<>(2); timeRange.add(this.tr.getMin()); timeRange.add(this.tr.getMax()); map.put("timeRange", timeRange); int colCount = 0; // iterate through affected families and list out up to maxCols columns for (Map.Entry> entry : this.familyMap.entrySet()) { List columns = new ArrayList<>(); familyColumns.put(Bytes.toStringBinary(entry.getKey()), columns); if(entry.getValue() == null) { colCount++; --maxCols; columns.add("ALL"); } else { colCount += entry.getValue().size(); if (maxCols <= 0) { continue; } for (byte [] column : entry.getValue()) { if (--maxCols <= 0) { continue; } columns.add(Bytes.toStringBinary(column)); } } } map.put("totalColumns", colCount); if (this.filter != null) { map.put("filter", this.filter.toString()); } // add the id if set if (getId() != null) { map.put("id", getId()); } return map; } /** * Enable/disable "raw" mode for this scan. * If "raw" is enabled the scan will return all * delete marker and deleted rows that have not * been collected, yet. * This is mostly useful for Scan on column families * that have KEEP_DELETED_ROWS enabled. * It is an error to specify any column when "raw" is set. * @param raw True/False to enable/disable "raw" mode. */ public Scan setRaw(boolean raw) { setAttribute(RAW_ATTR, Bytes.toBytes(raw)); return this; } /** * @return True if this Scan is in "raw" mode. */ public boolean isRaw() { byte[] attr = getAttribute(RAW_ATTR); return attr == null ? false : Bytes.toBoolean(attr); } /** * Set whether this scan is a small scan *

* Small scan should use pread and big scan can use seek + read seek + read is fast but can cause * two problem (1) resource contention (2) cause too much network io [89-fb] Using pread for * non-compaction read request https://issues.apache.org/jira/browse/HBASE-7266 On the other hand, * if setting it true, we would do openScanner,next,closeScanner in one RPC call. It means the * better performance for small scan. [HBASE-9488]. Generally, if the scan range is within one * data block(64KB), it could be considered as a small scan. * @param small * @deprecated since 2.0.0. Use {@link #setLimit(int)} and {@link #setReadType(ReadType)} instead. * And for the one rpc optimization, now we will also fetch data when openScanner, and * if the number of rows reaches the limit then we will close the scanner * automatically which means we will fall back to one rpc. * @see #setLimit(int) * @see #setReadType(ReadType) */ @Deprecated public Scan setSmall(boolean small) { this.small = small; this.readType = ReadType.PREAD; return this; } /** * Get whether this scan is a small scan * @return true if small scan * @deprecated since 2.0.0. See the comment of {@link #setSmall(boolean)} */ @Deprecated public boolean isSmall() { return small; } @Override public Scan setAttribute(String name, byte[] value) { return (Scan) super.setAttribute(name, value); } @Override public Scan setId(String id) { return (Scan) super.setId(id); } @Override public Scan setAuthorizations(Authorizations authorizations) { return (Scan) super.setAuthorizations(authorizations); } @Override public Scan setACL(Map perms) { return (Scan) super.setACL(perms); } @Override public Scan setACL(String user, Permission perms) { return (Scan) super.setACL(user, perms); } @Override public Scan setConsistency(Consistency consistency) { return (Scan) super.setConsistency(consistency); } @Override public Scan setReplicaId(int Id) { return (Scan) super.setReplicaId(Id); } @Override public Scan setIsolationLevel(IsolationLevel level) { return (Scan) super.setIsolationLevel(level); } @Override public Scan setPriority(int priority) { return (Scan) super.setPriority(priority); } /** * Enable collection of {@link ScanMetrics}. For advanced users. * @param enabled Set to true to enable accumulating scan metrics */ public Scan setScanMetricsEnabled(final boolean enabled) { setAttribute(Scan.SCAN_ATTRIBUTES_METRICS_ENABLE, Bytes.toBytes(Boolean.valueOf(enabled))); return this; } /** * @return True if collection of scan metrics is enabled. For advanced users. */ public boolean isScanMetricsEnabled() { byte[] attr = getAttribute(Scan.SCAN_ATTRIBUTES_METRICS_ENABLE); return attr == null ? false : Bytes.toBoolean(attr); } /** * @return Metrics on this Scan, if metrics were enabled. * @see #setScanMetricsEnabled(boolean) * @deprecated Use {@link ResultScanner#getScanMetrics()} instead. And notice that, please do not * use this method and {@link ResultScanner#getScanMetrics()} together, the metrics * will be messed up. */ @Deprecated public ScanMetrics getScanMetrics() { byte[] bytes = getAttribute(Scan.SCAN_ATTRIBUTES_METRICS_DATA); if (bytes == null) return null; return ProtobufUtil.toScanMetrics(bytes); } public Boolean isAsyncPrefetch() { return asyncPrefetch; } public Scan setAsyncPrefetch(boolean asyncPrefetch) { this.asyncPrefetch = asyncPrefetch; return this; } /** * @return the limit of rows for this scan */ public int getLimit() { return limit; } /** * Set the limit of rows for this scan. We will terminate the scan if the number of returned rows * reaches this value. *

* This condition will be tested at last, after all other conditions such as stopRow, filter, etc. * @param limit the limit of rows for this scan * @return this */ public Scan setLimit(int limit) { this.limit = limit; return this; } /** * Call this when you only want to get one row. It will set {@code limit} to {@code 1}, and also * set {@code readType} to {@link ReadType#PREAD}. * @return this */ public Scan setOneRowLimit() { return setLimit(1).setReadType(ReadType.PREAD); } @InterfaceAudience.Public public enum ReadType { DEFAULT, STREAM, PREAD } /** * @return the read type for this scan */ public ReadType getReadType() { return readType; } /** * Set the read type for this scan. *

* Notice that we may choose to use pread even if you specific {@link ReadType#STREAM} here. For * example, we will always use pread if this is a get scan. * @return this */ public Scan setReadType(ReadType readType) { this.readType = readType; return this; } /** * Get the mvcc read point used to open a scanner. */ long getMvccReadPoint() { return mvccReadPoint; } /** * Set the mvcc read point used to open a scanner. */ Scan setMvccReadPoint(long mvccReadPoint) { this.mvccReadPoint = mvccReadPoint; return this; } /** * Set the mvcc read point to -1 which means do not use it. */ Scan resetMvccReadPoint() { return setMvccReadPoint(-1L); } /** * When the server is slow or we scan a table with many deleted data or we use a sparse filter, * the server will response heartbeat to prevent timeout. However the scanner will return a Result * only when client can do it. So if there are many heartbeats, the blocking time on * ResultScanner#next() may be very long, which is not friendly to online services. * * Set this to true then you can get a special Result whose #isCursor() returns true and is not * contains any real data. It only tells you where the server has scanned. You can call next * to continue scanning or open a new scanner with this row key as start row whenever you want. * * Users can get a cursor when and only when there is a response from the server but we can not * return a Result to users, for example, this response is a heartbeat or there are partial cells * but users do not allow partial result. * * Now the cursor is in row level which means the special Result will only contains a row key. * {@link Result#isCursor()} * {@link Result#getCursor()} * {@link Cursor} */ public Scan setNeedCursorResult(boolean needCursorResult) { this.needCursorResult = needCursorResult; return this; } public boolean isNeedCursorResult() { return needCursorResult; } /** * Create a new Scan with a cursor. It only set the position information like start row key. * The others (like cfs, stop row, limit) should still be filled in by the user. * {@link Result#isCursor()} * {@link Result#getCursor()} * {@link Cursor} */ public static Scan createScanFromCursor(Cursor cursor) { return new Scan().withStartRow(cursor.getRow()); } }





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