cassandra
A Ruby client for the Cassandra distributed database.
Supports 1.8.7, 1.9.2, and rubinius on Cassandra 0.6.13, 0.7.8, 0.8.4.
Getting Started
Here is a quick sample of the general use (more details in Read/Write API below):
require 'cassandra'
client = Cassandra.new('Twitter', '127.0.0.1:9160')
client.insert(:Users, "5", {'screen_name' => "buttonscat"})
License
Copyright 2009-2011 Twitter, Inc. See included LICENSE file. Portions copyright 2004-2009 David Heinemeier Hansson, and used with permission.
Cassandra Version
The Cassandra project is under very active development, and as such there are a few different versions that you may need to use this gem with. We have set up an easy sure fire mechanism for selecting the specific version that you are connecting to while requiring the gem.
Require Method
The default version is the currently stable release of cassandra. (0.8 at this time.)
To use the default version simply use a normal require:
require 'cassandra'
To use a specific version (0.7 in this example) you would use a slightly differently formatted require:
require 'cassandra/0.7'
Environment Variable Method
These mechanisms work well when you are using the cassandra gem in your own projects or irb, but if you would rather not hard code your app to a specific version you can always specify an environment variable with the version you are using:
export CASSANDRA_VERSION=0.8
Then you would use the default require as listed above:
require 'cassandra'
Read/Write API Method Reference
insert
- column_family - The column_family that you are inserting into.
- key - The row key to insert.
- hash - The columns or super columns to insert.
- options - Valid options are:
- :timestamp - Uses the current time if none specified.
- :consistency - Uses the default write consistency if none specified.
- :ttl - If specified this is the number of seconds after the insert that this value will be available.
This is the main method used to insert rows into cassandra. If the column_family that you are inserting into is a SuperColumnFamily then the hash passed in should be a nested hash, otherwise it should be a flat hash.
This method can also be called while in batch mode. If in batch mode then we queue up the mutations (an insert in this case) and pass them to cassandra in a single batch at the end of the block.
Example:
@client.insert(:Statuses, key, {'body' => 'v', 'user' => 'v'})
columns = {@uuids[1] => 'v1', @uuids[2] => 'v2'}
@client.insert(:StatusRelationships, key, {'user_timelines' => columns})
remove
- column_family - The column_family that you are working with.
- key - The row key to remove (or remove columns from).
- columns - Either a single super_column or a list of columns to remove.
- sub_columns - The list of sub_columns to remove.
- options - Valid options are:
- :timestamp - Uses the current time if none specified.
- :consistency - Uses the default write consistency if none specified.
This method is used to delete (actually marking them as deleted with a tombstone) rows, columns, or super columns depending on the parameters passed. If only a key is passed the entire row will be marked as deleted. If a column name is passed in that column will be deleted.
Example:
@client.insert(:Statuses, key, {'body' => 'v', 'subject' => 'v'})
@client.remove(:Statuses, key, 'body') # removes the 'body' column
@client.remove(:Statuses, key) # removes the row
count_columns
Count the columns for the provided parameters.
- column_family - The column_family that you are working with.
- key - The row key.
- columns - Either a single super_column or a list of columns.
- sub_columns - The list of sub_columns to select.
- options - Valid options are:
- :start - The column name to start from.
- :stop - The column name to stop at.
- :count - The maximum count of columns to return. (By default cassandra will count up to 100 columns)
- :consistency - Uses the default read consistency if none specified.
Example:
@client.insert(:Statuses, key, {'body' => 'v1', 'user' => 'v2'})
@client.count_columns(:Statuses, key) # returns 2
get
Return a hash (actually, a Cassandra::OrderedHash) or a single value representing the element at the column_family:key:[column]:[sub_column] path you request.
- column_family - The column_family that you are working with.
- key - The row key to select.
- columns - Either a single super_column or a list of columns.
- sub_columns - The list of sub_columns to select.
- options - Valid options are:
- :count - The number of columns requested to be returned.
- :start - The starting value for selecting a range of columns.
- :finish - The final value for selecting a range of columns.
- :reversed - If set to true the results will be returned in reverse order.
- :consistency - Uses the default read consistency if none specified.
Example:
@client.insert(:Users, key, {'body' => 'v', 'user' => 'v'})
@client.get(:Users, key)) # returns {'body' => 'v', 'user' => 'v'}
multi_get
Multi-key version of Cassandra#get.
This method allows you to select multiple rows with a single query. If a key that is passed in doesn't exist an empty hash will be returned.
Supports the same parameters as Cassandra#get.
- column_family - The column_family that you are working with.
- key - An array of keys to select.
- columns - Either a single super_column or a list of columns.
- sub_columns - The list of sub_columns to select.
- options - Valid options are:
- :count - The number of columns requested to be returned.
- :start - The starting value for selecting a range of columns.
- :finish - The final value for selecting a range of columns.
- :reversed - If set to true the results will be returned in reverse order.
- :consistency - Uses the default read consistency if none specified.
Example:
@client.insert(:Users, '1', {'body' => 'v1', 'user' => 'v1'})
@client.insert(:Users, '2', {'body' => 'v2', 'user' => 'v2'})
expected = OrderedHash[
'1', {'body' => 'v1', 'user' => 'v1'},
'2', {'body' => 'v2', 'user' => 'v2'},
'bogus', {}
]
result = @client.multi_get(:Users, ['1', '2', 'bogus'])
exists?
Return true if the column_family:key:[column]:[sub_column] path you request exists.
If passed in only a row key it will query for any columns (limiting to 1) for that row key. If a column is passed in it will query for that specific column/super column.
This method will return true or false.
- column_family - The column_family that you are working with.
- key - The row key to check.
- columns - Either a single super_column or a list of columns.
- sub_columns - The list of sub_columns to check.
- options - Valid options are:
- :consistency - Uses the default read consistency if none specified.
Example:
@client.insert(:Statuses, 'key', {'body' => 'v'})
@client.exists?(:Statuses, 'key') # returns true
@client.exists?(:Statuses, 'bogus') # returns false
@client.exists?(:Statuses, 'key', 'body') # returns true
@client.exists?(:Statuses, 'key', 'bogus') # returns false
get_range
Return an Cassandra::OrderedHash containing the columns specified for the given range of keys in the column_family you request.
This method is just a convenience wrapper around Cassandra#get_range_single and Cassandra#get_range_batch. If :key_size, :batch_size, or a block is passed in Cassandra#get_range_batch will be called. Otherwise Cassandra#get_range_single will be used.
The start_key and finish_key parameters are only useful for iterating of all records as is done in the Cassandra#each and Cassandra#each_key methods if you are using the RandomPartitioner.
If the table is partitioned with OrderPreservingPartitioner you may use the start_key and finish_key params to select all records with the same prefix value.
If a block is passed in we will yield the row key and columns for each record returned.
Please note that Cassandra returns a row for each row that has existed in the system since gc_grace_seconds. This is because deleted row keys are marked as deleted, but left in the system until the cluster has had resonable time to replicate the deletion. This function attempts to suppress deleted rows (actually any row returned without columns is suppressed).
- column_family - The column_family that you are working with.
- options - Valid options are:
- :start_key - The starting value for selecting a range of keys (only useful with OPP).
- :finish_key - The final value for selecting a range of keys (only useful with OPP).
- :key_count - The total number of keys to return from the query. (see note regarding deleted records)
- :batch_size - The maximum number of keys to return per query. If specified will loop until :key_count is obtained or all records have been returned.
- :columns - A list of columns to return.
- :count - The number of columns requested to be returned.
- :start - The starting value for selecting a range of columns.
- :finish - The final value for selecting a range of columns.
- :reversed - If set to true the results will be returned in reverse order.
- :consistency - Uses the default read consistency if none specified.
Example:
10.times do |i|
@client.insert(:Statuses, i.to_s, {'body' => '1'})
end
@client.get_range_keys(:Statuses, :key_count => 4)
# returns:
#{
# '0' => {'body' => '1'},
# '1' => {'body' => '1'},
# '2' => {'body' => '1'},
# '3' => {'body' => '1'}
#}
count_range
Return an Array containing all of the keys within a given range.
This method just calls Cassandra#get_range and returns the row keys for the records returned.
See Cassandra#get_range for options.
get_range_keys
Return an Array containing all of the keys within a given range.
This method just calls Cassandra#get_range and returns the row keys for the records returned.
See Cassandra#get_range for options.
each_key
Iterate through each key within the given range parameters. This function can be used to iterate over each key in the given column family.
This method just calls Cassandra#get_range and yields each row key.
See Cassandra#get_range for options.
Example: 10.times do |i| @client.insert(:Statuses, k + i.to_s, "body-"body-#{i"body-#{i.to_s" => 'v'}) end
@client.each_key(:Statuses) do |key|
print key
end
# returns 0123456789
each
Iterate through each row within the given column_family.
This method just calls Cassandra#get_range and yields the key and columns.
See Cassandra#get_range for options.
get_index_slices
This method is used to query a secondary index with a set of provided search parameters
Please note that you can either specify a CassandraThrift::IndexClause or an array of hashes with the format as below.
- column_family - The Column Family this operation will be run on.
- index_clause - This can either be a CassandraThrift::IndexClause or an array of hashes with the following keys:
- :column_name - Column to be compared
- :value - Value to compare against
- :comparison - Type of comparison to do.
- options
- :key_count - Set maximum number of rows to return. (Only works if CassandraThrift::IndexClause is not passed in.)
- :key_start - Set starting row key for search. (Only works if CassandraThrift::IndexClause is not passed in.)
- :consistency
Example:
@client.create_index('Twitter', 'Statuses', 'x', 'LongType')
@client.insert(:Statuses, 'row1', { 'x' => [0,10].pack("NN") })
(2..10).to_a.each do |i|
@twitter.insert(:Statuses, 'row' + i.to_s, { 'x' => [0,20].pack("NN"), 'non_indexed' => [i].pack('N*') })
end
@client.insert(:Statuses, 'row11', { 'x' => [0,30].pack("NN") })
expressions = [{:column_name => 'x', :value => [0,20].pack("NN"), :comparison => "=="}]
# verify multiples will be returned
@client.get_indexed_slices(:Statuses, expressions).length # returns 9
# verify that GT and LT queries perform properly
expressions = [
{ :column_name => 'x',
:value => [0,20].pack("NN"),
:comparison => "=="},
{ :column_name => 'non_indexed',
:value => [5].pack("N*"),
:comparison => ">"}
]
@client.get_indexed_slices(:Statuses, expressions).length # returns 5
Reporting Problems
The Github issue tracker is here. If you have problems with this library or Cassandra itself, please use the cassandra-user mailing list.