hbase/bin/HBase.rb

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# HBase ruby classes.
# Has wrapper classes for org.apache.hadoop.hbase.client.HBaseAdmin
# and for org.apache.hadoop.hbase.client.HTable. Classes take
# Formatters on construction and outputs any results using
# Formatter methods. These classes are only really for use by
# the hirb.rb HBase Shell script; they don't make much sense elsewhere.
# For example, the exists method on Admin class prints to the formatter
# whether the table exists and returns nil regardless.
include Java
include_class('java.lang.Integer') {|package,name| "J#{name}" }
include_class('java.lang.Long') {|package,name| "J#{name}" }
include_class('java.lang.Boolean') {|package,name| "J#{name}" }
import org.apache.hadoop.hbase.KeyValue
import org.apache.hadoop.hbase.client.HBaseAdmin
import org.apache.hadoop.hbase.client.HTable
import org.apache.hadoop.hbase.client.Get
import org.apache.hadoop.hbase.client.Put
import org.apache.hadoop.hbase.client.Scan
import org.apache.hadoop.hbase.client.Delete
import org.apache.hadoop.hbase.filter.FirstKeyOnlyFilter
import org.apache.hadoop.hbase.HConstants
import org.apache.hadoop.hbase.io.hfile.Compression
import org.apache.hadoop.hbase.HBaseConfiguration
import org.apache.hadoop.hbase.HColumnDescriptor
import org.apache.hadoop.hbase.HTableDescriptor
import org.apache.hadoop.hbase.util.Bytes
import org.apache.hadoop.hbase.util.Writables
import org.apache.hadoop.hbase.HRegionInfo
import org.apache.zookeeper.ZooKeeper
import org.apache.zookeeper.ZooKeeperMain
module HBase
COLUMN = "COLUMN"
COLUMNS = "COLUMNS"
TIMESTAMP = "TIMESTAMP"
NAME = HConstants::NAME
VERSIONS = HConstants::VERSIONS
IN_MEMORY = HConstants::IN_MEMORY
STOPROW = "STOPROW"
STARTROW = "STARTROW"
ENDROW = STOPROW
LIMIT = "LIMIT"
METHOD = "METHOD"
MAXLENGTH = "MAXLENGTH"
CACHE_BLOCKS = "CACHE_BLOCKS"
# Wrapper for org.apache.hadoop.hbase.client.HBaseAdmin
class Admin
def initialize(configuration, formatter)
@admin = HBaseAdmin.new(configuration)
connection = @admin.getConnection()
@zkWrapper = connection.getZooKeeperWrapper()
zk = @zkWrapper.getZooKeeper()
@zkMain = ZooKeeperMain.new(zk)
@formatter = formatter
end
def list
now = Time.now
@formatter.header()
for t in @admin.listTables()
@formatter.row([t.getNameAsString()])
end
@formatter.footer(now)
end
def describe(tableName)
now = Time.now
@formatter.header(["DESCRIPTION", "ENABLED"], [64])
found = false
tables = @admin.listTables().to_a
tables.push(HTableDescriptor::META_TABLEDESC, HTableDescriptor::ROOT_TABLEDESC)
for t in tables
if t.getNameAsString() == tableName
@formatter.row([t.to_s, "%s" % [@admin.isTableEnabled(tableName)]], true, [64])
found = true
end
end
if not found
raise ArgumentError.new("Failed to find table named " + tableName)
end
@formatter.footer(now)
end
def exists(tableName)
now = Time.now
@formatter.header()
e = @admin.tableExists(tableName)
@formatter.row([e.to_s])
@formatter.footer(now)
end
def flush(tableNameOrRegionName)
now = Time.now
@formatter.header()
@admin.flush(tableNameOrRegionName)
@formatter.footer(now)
end
def compact(tableNameOrRegionName)
now = Time.now
@formatter.header()
@admin.compact(tableNameOrRegionName)
@formatter.footer(now)
end
def major_compact(tableNameOrRegionName)
now = Time.now
@formatter.header()
@admin.majorCompact(tableNameOrRegionName)
@formatter.footer(now)
end
def split(tableNameOrRegionName)
now = Time.now
@formatter.header()
@admin.split(tableNameOrRegionName)
@formatter.footer(now)
end
def enable(tableName)
# TODO: Need an isEnabled method
now = Time.now
@admin.enableTable(tableName)
@formatter.header()
@formatter.footer(now)
end
def disable(tableName)
# TODO: Need an isDisabled method
now = Time.now
@admin.disableTable(tableName)
@formatter.header()
@formatter.footer(now)
end
def enable_region(regionName)
online(regionName, false)
end
def disable_region(regionName)
online(regionName, true)
end
def online(regionName, onOrOff)
now = Time.now
meta = HTable.new(HConstants::META_TABLE_NAME)
bytes = Bytes.toBytes(regionName)
g = Get.new(bytes)
g.addColumn(HConstants::CATALOG_FAMILY,
HConstants::REGIONINFO_QUALIFIER)
hriBytes = meta.get(g).value()
hri = Writables.getWritable(hriBytes, HRegionInfo.new());
hri.setOffline(onOrOff)
put = Put.new(bytes)
put.add(HConstants::CATALOG_FAMILY,
HConstants::REGIONINFO_QUALIFIER, Writables.getBytes(hri))
meta.put(put);
@formatter.header()
@formatter.footer(now)
end
def drop(tableName)
now = Time.now
@formatter.header()
if @admin.isTableEnabled(tableName)
raise IOError.new("Table " + tableName + " is enabled. Disable it first")
else
@admin.deleteTable(tableName)
flush(HConstants::META_TABLE_NAME);
major_compact(HConstants::META_TABLE_NAME);
end
@formatter.footer(now)
end
def truncate(tableName)
now = Time.now
@formatter.header()
hTable = HTable.new(tableName)
tableDescription = hTable.getTableDescriptor()
puts 'Truncating ' + tableName + '; it may take a while'
puts 'Disabling table...'
disable(tableName)
puts 'Dropping table...'
drop(tableName)
puts 'Creating table...'
@admin.createTable(tableDescription)
@formatter.footer(now)
end
# Pass tablename and an array of Hashes
def create(tableName, args)
now = Time.now
# Pass table name and an array of Hashes. Later, test the last
# array to see if its table options rather than column family spec.
raise TypeError.new("Table name must be of type String") \
unless tableName.instance_of? String
# For now presume all the rest of the args are column family
# hash specifications. TODO: Add table options handling.
htd = HTableDescriptor.new(tableName)
for arg in args
if arg.instance_of? String
htd.addFamily(HColumnDescriptor.new(arg))
else
raise TypeError.new(arg.class.to_s + " of " + arg.to_s + " is not of Hash type") \
unless arg.instance_of? Hash
htd.addFamily(hcd(arg))
end
end
@admin.createTable(htd)
@formatter.header()
@formatter.footer(now)
end
def alter(tableName, args)
now = Time.now
raise TypeError.new("Table name must be of type String") \
unless tableName.instance_of? String
htd = @admin.getTableDescriptor(tableName.to_java_bytes)
method = args.delete(METHOD)
if method == "delete"
@admin.deleteColumn(tableName, args[NAME])
elsif method == "table_att"
args[MAX_FILESIZE]? htd.setMaxFileSize(JLong.valueOf(args[MAX_FILESIZE])) :
htd.setMaxFileSize(HTableDescriptor::DEFAULT_MAX_FILESIZE);
args[READONLY]? htd.setReadOnly(JBoolean.valueOf(args[READONLY])) :
htd.setReadOnly(HTableDescriptor::DEFAULT_READONLY);
args[MEMSTORE_FLUSHSIZE]?
htd.setMemStoreFlushSize(JLong.valueOf(args[MEMSTORE_FLUSHSIZE])) :
htd.setMemStoreFlushSize(HTableDescriptor::DEFAULT_MEMSTORE_FLUSH_SIZE);
@admin.modifyTable(tableName.to_java_bytes, htd)
else
descriptor = hcd(args)
if (htd.hasFamily(descriptor.getNameAsString().to_java_bytes))
@admin.modifyColumn(tableName, descriptor.getNameAsString(),
descriptor);
else
@admin.addColumn(tableName, descriptor);
end
end
@formatter.header()
@formatter.footer(now)
end
def close_region(regionName, server)
now = Time.now
s = nil
s = [server].to_java if server
@admin.closeRegion(regionName, s)
@formatter.header()
@formatter.footer(now)
end
def shutdown()
@admin.shutdown()
end
def status(format)
status = @admin.getClusterStatus()
if format != nil and format == "detailed"
puts("version %s" % [ status.getHBaseVersion() ])
# Put regions in transition first because usually empty
puts("%d regionsInTransition" % status.getRegionsInTransition().size())
for k, v in status.getRegionsInTransition()
puts(" %s" % [v])
end
puts("%d live servers" % [ status.getServers() ])
for server in status.getServerInfo()
puts(" %s:%d %d" % \
[ server.getServerAddress().getHostname(), \
server.getServerAddress().getPort(), server.getStartCode() ])
puts(" %s" % [ server.getLoad().toString() ])
for region in server.getLoad().getRegionsLoad()
puts(" %s" % [ region.getNameAsString() ])
puts(" %s" % [ region.toString() ])
end
end
puts("%d dead servers" % [ status.getDeadServers() ])
for server in status.getDeadServerNames()
puts(" %s" % [ server ])
end
elsif format != nil and format == "simple"
puts("%d live servers" % [ status.getServers() ])
for server in status.getServerInfo()
puts(" %s:%d %d" % \
[ server.getServerAddress().getHostname(), \
server.getServerAddress().getPort(), server.getStartCode() ])
puts(" %s" % [ server.getLoad().toString() ])
end
puts("%d dead servers" % [ status.getDeadServers() ])
for server in status.getDeadServerNames()
puts(" %s" % [ server ])
end
else
puts("%d servers, %d dead, %.4f average load" % \
[ status.getServers(), status.getDeadServers(), \
status.getAverageLoad()])
end
end
def hcd(arg)
# Return a new HColumnDescriptor made of passed args
# TODO: This is brittle code.
# Here is current HCD constructor:
# public HColumnDescriptor(final byte [] familyName, final int maxVersions,
# final String compression, final boolean inMemory,
# final boolean blockCacheEnabled, final int blocksize,
# final int maxValueLength,
# final int timeToLive, final boolean bloomFilter) {
name = arg[NAME]
raise ArgumentError.new("Column family " + arg + " must have a name") \
unless name
# TODO: What encoding are Strings in jruby?
return HColumnDescriptor.new(name.to_java_bytes,
# JRuby uses longs for ints. Need to convert. Also constants are String
arg[VERSIONS]? JInteger.new(arg[VERSIONS]): HColumnDescriptor::DEFAULT_VERSIONS,
arg[HColumnDescriptor::COMPRESSION]? arg[HColumnDescriptor::COMPRESSION]: HColumnDescriptor::DEFAULT_COMPRESSION,
arg[IN_MEMORY]? JBoolean.valueOf(arg[IN_MEMORY]): HColumnDescriptor::DEFAULT_IN_MEMORY,
arg[HColumnDescriptor::BLOCKCACHE]? JBoolean.valueOf(arg[HColumnDescriptor::BLOCKCACHE]): HColumnDescriptor::DEFAULT_BLOCKCACHE,
arg[HColumnDescriptor::BLOCKSIZE]? JInteger.valueOf(arg[HColumnDescriptor::BLOCKSIZE]): HColumnDescriptor::DEFAULT_BLOCKSIZE,
arg[HColumnDescriptor::TTL]? JInteger.new(arg[HColumnDescriptor::TTL]): HColumnDescriptor::DEFAULT_TTL,
arg[HColumnDescriptor::BLOOMFILTER]? JBoolean.valueOf(arg[HColumnDescriptor::BLOOMFILTER]): HColumnDescriptor::DEFAULT_BLOOMFILTER)
end
def zk(args)
line = args.join(' ')
line = 'help' if line.empty?
@zkMain.executeLine(line)
end
def zk_dump
puts @zkWrapper.dump
end
end
# Wrapper for org.apache.hadoop.hbase.client.HTable
class Table
def initialize(configuration, tableName, formatter)
@table = HTable.new(configuration, tableName)
@formatter = formatter
end
# Delete a cell
def delete(row, column, timestamp = HConstants::LATEST_TIMESTAMP)
now = Time.now
d = Delete.new(row.to_java_bytes, timestamp, nil)
split = KeyValue.parseColumn(column.to_java_bytes)
d.deleteColumn(split[0], split.length > 1 ? split[1] : nil, timestamp)
@table.delete(d)
@formatter.header()
@formatter.footer(now)
end
def deleteall(row, column = nil, timestamp = HConstants::LATEST_TIMESTAMP)
now = Time.now
d = Delete.new(row.to_java_bytes, timestamp, nil)
if column != nil
split = KeyValue.parseColumn(column.to_java_bytes)
d.deleteColumns(split[0], split.length > 1 ? split[1] : nil, timestamp)
end
@table.delete(d)
@formatter.header()
@formatter.footer(now)
end
def getAllColumns
htd = @table.getTableDescriptor()
result = []
for f in htd.getFamilies()
n = f.getNameAsString()
n << ':'
result << n
end
result
end
def scan(args = {})
now = Time.now
limit = -1
maxlength = -1
if args != nil and args.length > 0
limit = args["LIMIT"] || -1
maxlength = args["MAXLENGTH"] || -1
filter = args["FILTER"] || nil
startrow = args["STARTROW"] || ""
stoprow = args["STOPROW"] || nil
timestamp = args["TIMESTAMP"] || nil
columns = args["COLUMNS"] || getAllColumns()
cache = args["CACHE_BLOCKS"] || true
versions = args["VERSIONS"] || 1
if columns.class == String
columns = [columns]
elsif columns.class != Array
raise ArgumentError.new("COLUMNS must be specified as a String or an Array")
end
if stoprow
scan = Scan.new(startrow.to_java_bytes, stoprow.to_java_bytes)
else
scan = Scan.new(startrow.to_java_bytes)
end
for c in columns
split = KeyValue.parseColumn(c.to_java_bytes)
if split.length > 1
scan.addColumn(split[0], split[1])
else
scan.addFamily(split[0])
end
end
if filter != nil
scan.setFilter(filter)
end
if timestamp != nil
scan.setTimeStamp(timestamp)
end
scan.setCacheBlocks(cache)
scan.setMaxVersions(versions) if versions > 1
else
scan = Scan.new()
end
s = @table.getScanner(scan)
count = 0
@formatter.header(["ROW", "COLUMN+CELL"])
i = s.iterator()
while i.hasNext()
r = i.next()
row = String.from_java_bytes r.getRow()
if limit != -1 and count >= limit
break
end
for kv in r.list
family = String.from_java_bytes kv.getFamily()
qualifier = String.from_java_bytes kv.getQualifier()
column = family + ':' + qualifier
cell = toString(column, kv, maxlength)
@formatter.row([row, "column=%s, %s" % [column, cell]])
end
count += 1
end
@formatter.footer(now, count)
end
def put(row, column, value, timestamp = nil)
now = Time.now
p = nil
if timestamp
p = Put.new(row.to_java_bytes, timestamp)
else
p = Put.new(row.to_java_bytes)
end
split = KeyValue.parseColumn(column.to_java_bytes)
if split.length > 1
p.add(split[0], split[1], value.to_java_bytes)
else
p.add(split[0], nil, value.to_java_bytes)
end
@table.put(p)
@formatter.header()
@formatter.footer(now)
end
def isMetaTable()
tn = @table.getTableName()
return Bytes.equals(tn, HConstants::META_TABLE_NAME) ||
Bytes.equals(tn, HConstants::ROOT_TABLE_NAME)
end
# Make a String of the passed kv
# Intercept cells whose format we know such as the info:regioninfo in .META.
def toString(column, kv, maxlength)
if isMetaTable()
if column == 'info:regioninfo'
hri = Writables.getHRegionInfoOrNull(kv.getValue())
return "timestamp=%d, value=%s" % [kv.getTimestamp(), hri.toString()]
elsif column == 'info:serverstartcode'
return "timestamp=%d, value=%s" % [kv.getTimestamp(), \
Bytes.toLong(kv.getValue())]
end
end
val = "timestamp=" + kv.getTimestamp().to_s + ", value=" + Bytes.toStringBinary(kv.getValue())
maxlength != -1 ? val[0, maxlength] : val
end
# Get from table
def get(row, args = {})
now = Time.now
result = nil
if args == nil or args.length == 0 or (args.length == 1 and args[MAXLENGTH] != nil)
get = Get.new(row.to_java_bytes)
else
# Its a hash.
columns = args[COLUMN]
if columns == nil
# Maybe they used the COLUMNS key
columns = args[COLUMNS]
end
if columns == nil
# May have passed TIMESTAMP and row only; wants all columns from ts.
ts = args[TIMESTAMP]
if not ts
raise ArgumentError.new("Failed parse of " + args + ", " + args.class)
end
get = Get.new(row.to_java_bytes, ts)
else
get = Get.new(row.to_java_bytes)
# Columns are non-nil
if columns.class == String
# Single column
split = KeyValue.parseColumn(columns.to_java_bytes)
if (split.length > 1)
get.addColumn(split[0], split[1])
else
get.addFamily(split[0])
end
elsif columns.class == Array
for column in columns
split = KeyValue.parseColumn(columns.to_java_bytes)
if (split.length > 1)
get.addColumn(split[0], split[1])
else
get.addFamily(split[0])
end
end
else
raise ArgumentError.new("Failed parse column argument type " +
args + ", " + args.class)
end
get.setMaxVersions(args[VERSIONS] ? args[VERSIONS] : 1)
if args[TIMESTAMP]
get.setTimeStamp(args[TIMESTAMP])
end
end
end
result = @table.get(get)
# Print out results. Result can be Cell or RowResult.
maxlength = args[MAXLENGTH] || -1
@formatter.header(["COLUMN", "CELL"])
if !result.isEmpty()
for kv in result.list()
family = String.from_java_bytes kv.getFamily()
qualifier = String.from_java_bytes kv.getQualifier()
column = family + ':' + qualifier
@formatter.row([column, toString(column, kv, maxlength)])
end
end
@formatter.footer(now)
end
def count(interval = 1000)
now = Time.now
scan = Scan.new()
scan.setCacheBlocks(false)
# We can safely set scanner caching with the first key only filter
scan.setCaching(10)
scan.setFilter(FirstKeyOnlyFilter.new())
s = @table.getScanner(scan)
count = 0
i = s.iterator()
@formatter.header()
while i.hasNext()
r = i.next()
count += 1
if count % interval == 0
@formatter.row(["Current count: " + count.to_s + ", row: " + \
(String.from_java_bytes r.getRow())])
end
end
@formatter.footer(now, count)
end
end
# Testing. To run this test, there needs to be an hbase cluster up and
# running. Then do: ${HBASE_HOME}/bin/hbase org.jruby.Main bin/HBase.rb
if $0 == __FILE__
# Add this directory to LOAD_PATH; presumption is that Formatter module
# sits beside this one. Then load it up.
$LOAD_PATH.unshift File.dirname($PROGRAM_NAME)
require 'Formatter'
# Make a console formatter
formatter = Formatter::Console.new(STDOUT)
# Now add in java and hbase classes
configuration = HBaseConfiguration.new()
admin = Admin.new(configuration, formatter)
# Drop old table. If it does not exist, get an exception. Catch and
# continue
TESTTABLE = "HBase_rb_testtable"
begin
admin.disable(TESTTABLE)
admin.drop(TESTTABLE)
rescue org.apache.hadoop.hbase.TableNotFoundException
# Just suppress not found exception
end
admin.create(TESTTABLE, [{NAME => 'x', VERSIONS => 5}])
# Presume it exists. If it doesn't, next items will fail.
table = Table.new(configuration, TESTTABLE, formatter)
for i in 1..10
table.put('x%d' % i, 'x:%d' % i, 'x%d' % i)
end
table.get('x1', {COLUMNS => 'x:1'})
if formatter.rowCount() != 1
raise IOError.new("Failed first put")
end
table.scan({COLUMNS => ['x:']})
if formatter.rowCount() != 10
raise IOError.new("Failed scan of expected 10 rows")
end
# Verify that limit works.
table.scan({COLUMNS => ['x:'], LIMIT => 4})
if formatter.rowCount() != 3
raise IOError.new("Failed scan of expected 3 rows")
end
# Should only be two rows if we start at 8 (Row x10 sorts beside x1).
table.scan({COLUMNS => ['x:'], STARTROW => 'x8', LIMIT => 3})
if formatter.rowCount() != 2
raise IOError.new("Failed scan of expected 2 rows")
end
# Scan between two rows
table.scan({COLUMNS => ['x:'], STARTROW => 'x5', ENDROW => 'x8'})
if formatter.rowCount() != 3
raise IOError.new("Failed endrow test")
end
# Verify that delete works
table.delete('x1', 'x:1');
table.scan({COLUMNS => ['x:1']})
scan1 = formatter.rowCount()
table.scan({COLUMNS => ['x:']})
scan2 = formatter.rowCount()
if scan1 != 0 or scan2 != 9
raise IOError.new("Failed delete test")
end
# Verify that deletall works
table.put('x2', 'x:1', 'x:1')
table.deleteall('x2')
table.scan({COLUMNS => ['x:2']})
scan1 = formatter.rowCount()
table.scan({COLUMNS => ['x:']})
scan2 = formatter.rowCount()
if scan1 != 0 or scan2 != 8
raise IOError.new("Failed deleteall test")
end
admin.disable(TESTTABLE)
admin.drop(TESTTABLE)
end
end