419 lines
14 KiB
Ruby
419 lines
14 KiB
Ruby
# HBase ruby classes.
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# Has wrapper classes for org.apache.hadoop.hbase.client.HBaseAdmin
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# and for org.apache.hadoop.hbase.client.HTable. Classes take
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# Formatters on construction and outputs any results using
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# Formatter methods. These classes are only really for use by
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# the hirb.rb HBase Shell script; they don't make much sense elsewhere.
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# For example, the exists method on Admin class prints to the formatter
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# whether the table exists and returns nil regardless.
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include Java
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import org.apache.hadoop.hbase.client.HBaseAdmin
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import org.apache.hadoop.hbase.client.HTable
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import org.apache.hadoop.hbase.HConstants
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import org.apache.hadoop.hbase.io.BatchUpdate
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import org.apache.hadoop.hbase.io.RowResult
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import org.apache.hadoop.hbase.io.Cell
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import org.apache.hadoop.hbase.HBaseConfiguration
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import org.apache.hadoop.hbase.HColumnDescriptor
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import org.apache.hadoop.hbase.HTableDescriptor
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import org.apache.hadoop.hbase.util.Bytes
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import org.apache.hadoop.hbase.util.Writables
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module HBase
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COLUMN = "COLUMN"
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COLUMNS = "COLUMNS"
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TIMESTAMP = "TIMESTAMP"
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NAME = HConstants::NAME
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VERSIONS = HConstants::VERSIONS
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STOPROW = "STOPROW"
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STARTROW = "STARTROW"
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ENDROW = STOPROW
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LIMIT = "LIMIT"
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# Wrapper for org.apache.hadoop.hbase.client.HBaseAdmin
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class Admin
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def initialize(configuration, formatter)
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@admin = HBaseAdmin.new(configuration)
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@formatter = formatter
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end
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def list
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now = Time.now
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@formatter.header()
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for t in @admin.listTables()
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@formatter.row([t.getNameAsString()])
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end
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@formatter.footer(now)
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end
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def describe(tableName)
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now = Time.now
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@formatter.header()
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found = false
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for t in @admin.listTables()
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if t.getNameAsString() == tableName
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@formatter.row([t.to_s])
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found = true
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end
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end
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if not found
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raise ArgumentError.new("Failed to find table named " + tableName)
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end
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@formatter.footer(now)
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end
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def exists(tableName)
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now = Time.now
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@formatter.header()
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e = @admin.tableExists(tableName)
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@formatter.row([e.to_s])
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@formatter.footer(now)
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end
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def enable(tableName)
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# TODO: Need an isEnabled method
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now = Time.now
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@admin.enableTable(tableName)
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@formatter.header()
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@formatter.footer(now)
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end
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def disable(tableName)
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# TODO: Need an isDisabled method
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now = Time.now
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@admin.disableTable(tableName)
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@formatter.header()
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@formatter.footer(now)
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end
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def drop(tableName)
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now = Time.now
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@admin.deleteTable(tableName)
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@formatter.header()
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@formatter.footer(now)
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end
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# Pass tablename and an array of Hashes
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def create(tableName, args)
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now = Time.now
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# Pass table name and an array of Hashes. Later, test the last
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# array to see if its table options rather than column family spec.
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raise TypeError.new("Table name must be of type String") \
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unless tableName.instance_of? String
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# For now presume all the rest of the args are column family
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# hash specifications. TODO: Add table options handling.
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htd = HTableDescriptor.new(tableName)
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for arg in args
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if arg.instance_of? String
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htd.addFamily(HColumnDescriptor.new(makeColumnName(arg)))
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else
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raise TypeError.new(arg.class.to_s + " of " + arg.to_s + " is not of Hash type") \
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unless arg.instance_of? Hash
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htd.addFamily(hcd(arg))
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end
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end
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@admin.createTable(htd)
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@formatter.header()
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@formatter.footer(now)
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end
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def alter(tableName, args)
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now = Time.now
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raise TypeError.new("Table name must be of type String") \
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unless tableName.instance_of? String
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descriptor = hcd(args)
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@admin.modifyColumn(tableName, descriptor.getNameAsString(), descriptor);
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@formatter.header()
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@formatter.footer(now)
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end
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# Make a legal column name of the passed String
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# Check string ends in colon. If not, add it.
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def makeColumnName(arg)
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index = arg.index(':')
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if not index
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# Add a colon. If already a colon, its in the right place,
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# or an exception will come up out of the addFamily
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arg << ':'
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end
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arg
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end
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def hcd(arg)
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# Return a new HColumnDescriptor made of passed args
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# TODO: This is brittle code.
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# Here is current HCD constructor:
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# public HColumnDescriptor(final byte [] columnName, final int maxVersions,
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# final CompressionType compression, final boolean inMemory,
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# final boolean blockCacheEnabled,
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# final int maxValueLength, final int timeToLive,
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# BloomFilterDescriptor bloomFilter)
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name = arg[NAME]
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raise ArgumentError.new("Column family " + arg + " must have a name") \
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unless name
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name = makeColumnName(name)
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# TODO: What encoding are Strings in jruby?
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return HColumnDescriptor.new(name.to_java_bytes,
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# JRuby uses longs for ints. Need to convert. Also constants are String
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arg[VERSIONS]? arg[VERSIONS]: HColumnDescriptor::DEFAULT_VERSIONS,
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arg[HColumnDescriptor::COMPRESSION]? HColumnDescriptor::CompressionType::valueOf(arg[HColumnDescriptor::COMPRESSION]):
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HColumnDescriptor::DEFAULT_COMPRESSION,
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arg[HColumnDescriptor::IN_MEMORY]? arg[HColumnDescriptor::IN_MEMORY]: HColumnDescriptor::DEFAULT_IN_MEMORY,
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arg[HColumnDescriptor::BLOCKCACHE]? arg[HColumnDescriptor::BLOCKCACHE]: HColumnDescriptor::DEFAULT_BLOCKCACHE,
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arg[HColumnDescriptor::LENGTH]? arg[HColumnDescriptor::LENGTH]: HColumnDescriptor::DEFAULT_LENGTH,
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arg[HColumnDescriptor::TTL]? arg[HColumnDescriptor::TTL]: HColumnDescriptor::DEFAULT_TTL,
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arg[HColumnDescriptor::BLOOMFILTER]? arg[HColumnDescriptor::BLOOMFILTER]: HColumnDescriptor::DEFAULT_BLOOMFILTER)
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end
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end
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# Wrapper for org.apache.hadoop.hbase.client.HTable
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class Table
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def initialize(configuration, tableName, formatter)
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@table = HTable.new(configuration, tableName)
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@formatter = formatter
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end
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# Delete a cell
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def delete(row, column, timestamp = HConstants::LATEST_TIMESTAMP)
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now = Time.now
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bu = BatchUpdate.new(row, timestamp)
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bu.delete(column)
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@table.commit(bu)
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@formatter.header()
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@formatter.footer(now)
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end
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def deleteall(row, column = nil, timestamp = HConstants::LATEST_TIMESTAMP)
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now = Time.now
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@table.deleteAll(row, column, timestamp)
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@formatter.header()
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@formatter.footer(now)
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end
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def getAllColumns
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htd = @table.getMetadata()
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result = []
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for f in htd.getFamilies()
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n = f.getNameAsString()
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n << ':'
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result << n
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end
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result
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end
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def scan(columns, args = {})
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now = Time.now
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if not columns or columns.length < 1
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# Make up list of columns.
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columns = getAllColumns()
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end
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if columns.class == String
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columns = [columns]
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elsif columns.class != Array
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raise ArgumentError.new("Must supply columns")
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end
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cs = columns.to_java(java.lang.String)
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limit = -1
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if args == nil or args.length <= 0
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s = @table.getScanner(cs)
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else
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limit = args["LIMIT"] || -1
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filter = args["FILTER"] || nil
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startrow = args["STARTROW"] || ""
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stoprow = args["STOPROW"] || nil
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timestamp = args["TIMESTAMP"] || HConstants::LATEST_TIMESTAMP
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if stoprow
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s = @table.getScanner(cs, startrow, stoprow, timestamp)
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else
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s = @table.getScanner(cs, startrow, timestamp, filter)
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end
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end
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count = 0
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@formatter.header(["ROW", "COLUMN+CELL"])
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i = s.iterator()
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while i.hasNext()
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r = i.next()
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row = String.from_java_bytes r.getRow()
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for k, v in r
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column = String.from_java_bytes k
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cell = toString(column, v)
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@formatter.row([row, "column=%s, %s" % [column, cell]])
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end
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count += 1
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if limit != -1 and count >= limit
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break
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end
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end
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@formatter.footer(now)
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end
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def put(row, column, value, timestamp = nil)
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now = Time.now
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bu = nil
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if timestamp
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bu = BatchUpdate.new(row, timestamp)
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else
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bu = BatchUpdate.new(row)
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end
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bu.put(column, value.to_java_bytes)
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@table.commit(bu)
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@formatter.header()
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@formatter.footer(now)
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end
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def isMetaTable()
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tn = @table.getTableName()
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return Bytes.equals(tn, HConstants::META_TABLE_NAME) or
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Bytes.equals(tn, HConstants::META_TABLE_NAME)
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end
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# Make a String of the passed cell.
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# Intercept cells whose format we know such as the info:regioninfo in .META.
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def toString(column, cell)
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if isMetaTable()
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if column == 'info:regioninfo'
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hri = Writables.getHRegionInfoOrNull(cell.getValue())
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return "timestamp=%d, value=%s" % [cell.getTimestamp(), hri.toString()]
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elsif column == 'info:serverstartcode'
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return "timestamp=%d, value=%s" % [cell.getTimestamp(), \
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Bytes.toLong(cell.getValue())]
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end
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end
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cell.toString()
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end
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# Get from table
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def get(row, args = {})
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now = Time.now
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result = nil
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if args == nil or args.length == 0
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result = @table.getRow(row.to_java_bytes)
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else
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# Its a hash.
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columns = args[COLUMN]
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if columns == nil
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# Maybe they used the COLUMNS key
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columns = args[COLUMNS]
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end
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if columns == nil
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# May have passed TIMESTAMP and row only; wants all columns from ts.
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ts = args[TIMESTAMP]
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if not ts
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raise ArgumentError.new("Failed parse of " + args + ", " + args.class)
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end
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result = @table.getRow(row.to_java_bytes, ts)
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else
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# Columns are non-nil
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if columns.class == String
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# Single column
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result = @table.get(row, columns,
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args[TIMESTAMP]? args[TIMESTAMP]: HConstants::LATEST_TIMESTAMP,
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args[VERSIONS]? args[VERSIONS]: 1)
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elsif columns.class == Array
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result = @table.getRow(row, columns.to_java(:string),
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args[TIMESTAMP]? args[TIMESTAMP]: HConstants::LATEST_TIMESTAMP)
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else
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raise ArgumentError.new("Failed parse column argument type " +
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args + ", " + args.class)
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end
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end
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end
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# Print out results. Result can be Cell or RowResult.
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h = nil
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if result.instance_of? RowResult
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h = String.from_java_bytes result.getRow()
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@formatter.header(["COLUMN", "CELL"])
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if result
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for k, v in result
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column = String.from_java_bytes k
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@formatter.row([column, toString(column, v)])
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end
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end
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else
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# Presume Cells
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@formatter.header()
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if result
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for c in result
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@formatter.row([c.toString()])
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end
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end
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end
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@formatter.footer(now)
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end
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end
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# Testing. To run this test, there needs to be an hbase cluster up and
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# running. Then do: ${HBASE_HOME}/bin/hbase org.jruby.Main bin/HBase.rb
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if $0 == __FILE__
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# Add this directory to LOAD_PATH; presumption is that Formatter module
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# sits beside this one. Then load it up.
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$LOAD_PATH.unshift File.dirname($PROGRAM_NAME)
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require 'Formatter'
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# Make a console formatter
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formatter = Formatter::Console.new(STDOUT)
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# Now add in java and hbase classes
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configuration = HBaseConfiguration.new()
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admin = Admin.new(configuration, formatter)
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# Drop old table. If it does not exist, get an exception. Catch and
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# continue
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TESTTABLE = "HBase_rb_testtable"
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begin
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admin.disable(TESTTABLE)
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admin.drop(TESTTABLE)
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rescue org.apache.hadoop.hbase.TableNotFoundException
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# Just suppress not found exception
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end
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admin.create(TESTTABLE, [{NAME => 'x', VERSIONS => 5}])
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# Presume it exists. If it doesn't, next items will fail.
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table = Table.new(configuration, TESTTABLE, formatter)
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for i in 1..10
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table.put('x%d' % i, 'x:%d' % i, 'x%d' % i)
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end
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table.get('x1', {COLUMN => 'x:1'})
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if formatter.rowCount() != 1
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raise IOError.new("Failed first put")
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end
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table.scan(['x:'])
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if formatter.rowCount() != 10
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raise IOError.new("Failed scan of expected 10 rows")
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end
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# Verify that limit works.
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table.scan(['x:'], {LIMIT => 3})
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if formatter.rowCount() != 3
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raise IOError.new("Failed scan of expected 3 rows")
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end
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# Should only be two rows if we start at 8 (Row x10 sorts beside x1).
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table.scan(['x:'], {STARTROW => 'x8', LIMIT => 3})
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if formatter.rowCount() != 2
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raise IOError.new("Failed scan of expected 2 rows")
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end
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# Scan between two rows
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table.scan(['x:'], {STARTROW => 'x5', ENDROW => 'x8'})
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if formatter.rowCount() != 3
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raise IOError.new("Failed endrow test")
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end
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# Verify that delete works
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table.delete('x1', 'x:1');
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table.scan(['x:1'])
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scan1 = formatter.rowCount()
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table.scan(['x:'])
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scan2 = formatter.rowCount()
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if scan1 != 0 or scan2 != 9
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raise IOError.new("Failed delete test")
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end
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# Verify that deletall works
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table.put('x2', 'x:1', 'x:1')
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table.deleteall('x2')
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table.scan(['x:2'])
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scan1 = formatter.rowCount()
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table.scan(['x:'])
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scan2 = formatter.rowCount()
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if scan1 != 0 or scan2 != 8
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raise IOError.new("Failed deleteall test")
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end
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admin.disable(TESTTABLE)
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admin.drop(TESTTABLE)
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end
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end
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