from __future__ import unicode_literals import boto.kinesis from boto.kinesis.exceptions import ResourceNotFoundException, InvalidArgumentException import sure # noqa from moto import mock_kinesis @mock_kinesis def test_create_cluster(): conn = boto.kinesis.connect_to_region("us-west-2") conn.create_stream("my_stream", 2) stream_response = conn.describe_stream("my_stream") stream = stream_response["StreamDescription"] stream["StreamName"].should.equal("my_stream") stream["HasMoreShards"].should.equal(False) stream["StreamARN"].should.equal("arn:aws:kinesis:us-west-2:123456789012:my_stream") stream["StreamStatus"].should.equal("ACTIVE") shards = stream['Shards'] shards.should.have.length_of(2) @mock_kinesis def test_describe_non_existant_stream(): conn = boto.kinesis.connect_to_region("us-east-1") conn.describe_stream.when.called_with("not-a-stream").should.throw(ResourceNotFoundException) @mock_kinesis def test_list_and_delete_stream(): conn = boto.kinesis.connect_to_region("us-west-2") conn.create_stream("stream1", 1) conn.create_stream("stream2", 1) conn.list_streams()['StreamNames'].should.have.length_of(2) conn.delete_stream("stream2") conn.list_streams()['StreamNames'].should.have.length_of(1) # Delete invalid id conn.delete_stream.when.called_with("not-a-stream").should.throw(ResourceNotFoundException) @mock_kinesis def test_basic_shard_iterator(): conn = boto.kinesis.connect_to_region("us-west-2") stream_name = "my_stream" conn.create_stream(stream_name, 1) response = conn.describe_stream(stream_name) shard_id = response['StreamDescription']['Shards'][0]['ShardId'] response = conn.get_shard_iterator(stream_name, shard_id, 'TRIM_HORIZON') shard_iterator = response['ShardIterator'] response = conn.get_records(shard_iterator) shard_iterator = response['NextShardIterator'] response['Records'].should.equal([]) @mock_kinesis def test_get_invalid_shard_iterator(): conn = boto.kinesis.connect_to_region("us-west-2") stream_name = "my_stream" conn.create_stream(stream_name, 1) conn.get_shard_iterator.when.called_with(stream_name, "123", 'TRIM_HORIZON').should.throw(ResourceNotFoundException) @mock_kinesis def test_put_records(): conn = boto.kinesis.connect_to_region("us-west-2") stream_name = "my_stream" conn.create_stream(stream_name, 1) data = "hello world" partition_key = "1234" conn.put_record.when.called_with( stream_name, data, 1234).should.throw(InvalidArgumentException) conn.put_record(stream_name, data, partition_key) response = conn.describe_stream(stream_name) shard_id = response['StreamDescription']['Shards'][0]['ShardId'] response = conn.get_shard_iterator(stream_name, shard_id, 'TRIM_HORIZON') shard_iterator = response['ShardIterator'] response = conn.get_records(shard_iterator) shard_iterator = response['NextShardIterator'] response['Records'].should.have.length_of(1) record = response['Records'][0] record["Data"].should.equal("hello world") record["PartitionKey"].should.equal("1234") record["SequenceNumber"].should.equal("1") @mock_kinesis def test_get_records_limit(): conn = boto.kinesis.connect_to_region("us-west-2") stream_name = "my_stream" conn.create_stream(stream_name, 1) # Create some data data = "hello world" for index in range(5): conn.put_record(stream_name, data, str(index)) # Get a shard iterator response = conn.describe_stream(stream_name) shard_id = response['StreamDescription']['Shards'][0]['ShardId'] response = conn.get_shard_iterator(stream_name, shard_id, 'TRIM_HORIZON') shard_iterator = response['ShardIterator'] # Retrieve only 3 records response = conn.get_records(shard_iterator, limit=3) response['Records'].should.have.length_of(3) # Then get the rest of the results next_shard_iterator = response['NextShardIterator'] response = conn.get_records(next_shard_iterator) response['Records'].should.have.length_of(2) @mock_kinesis def test_get_records_at_sequence_number(): # AT_SEQUENCE_NUMBER - Start reading exactly from the position denoted by a specific sequence number. conn = boto.kinesis.connect_to_region("us-west-2") stream_name = "my_stream" conn.create_stream(stream_name, 1) # Create some data for index in range(1, 5): conn.put_record(stream_name, str(index), str(index)) # Get a shard iterator response = conn.describe_stream(stream_name) shard_id = response['StreamDescription']['Shards'][0]['ShardId'] response = conn.get_shard_iterator(stream_name, shard_id, 'TRIM_HORIZON') shard_iterator = response['ShardIterator'] # Get the second record response = conn.get_records(shard_iterator, limit=2) second_sequence_id = response['Records'][1]['SequenceNumber'] # Then get a new iterator starting at that id response = conn.get_shard_iterator(stream_name, shard_id, 'AT_SEQUENCE_NUMBER', second_sequence_id) shard_iterator = response['ShardIterator'] response = conn.get_records(shard_iterator) # And the first result returned should be the second item response['Records'][0]['SequenceNumber'].should.equal(second_sequence_id) response['Records'][0]['Data'].should.equal('2') @mock_kinesis def test_get_records_after_sequence_number(): # AFTER_SEQUENCE_NUMBER - Start reading right after the position denoted by a specific sequence number. conn = boto.kinesis.connect_to_region("us-west-2") stream_name = "my_stream" conn.create_stream(stream_name, 1) # Create some data for index in range(1, 5): conn.put_record(stream_name, str(index), str(index)) # Get a shard iterator response = conn.describe_stream(stream_name) shard_id = response['StreamDescription']['Shards'][0]['ShardId'] response = conn.get_shard_iterator(stream_name, shard_id, 'TRIM_HORIZON') shard_iterator = response['ShardIterator'] # Get the second record response = conn.get_records(shard_iterator, limit=2) second_sequence_id = response['Records'][1]['SequenceNumber'] # Then get a new iterator starting after that id response = conn.get_shard_iterator(stream_name, shard_id, 'AFTER_SEQUENCE_NUMBER', second_sequence_id) shard_iterator = response['ShardIterator'] response = conn.get_records(shard_iterator) # And the first result returned should be the third item response['Records'][0]['Data'].should.equal('3') @mock_kinesis def test_get_records_latest(): # LATEST - Start reading just after the most recent record in the shard, so that you always read the most recent data in the shard. conn = boto.kinesis.connect_to_region("us-west-2") stream_name = "my_stream" conn.create_stream(stream_name, 1) # Create some data for index in range(1, 5): conn.put_record(stream_name, str(index), str(index)) # Get a shard iterator response = conn.describe_stream(stream_name) shard_id = response['StreamDescription']['Shards'][0]['ShardId'] response = conn.get_shard_iterator(stream_name, shard_id, 'TRIM_HORIZON') shard_iterator = response['ShardIterator'] # Get the second record response = conn.get_records(shard_iterator, limit=2) second_sequence_id = response['Records'][1]['SequenceNumber'] # Then get a new iterator starting after that id response = conn.get_shard_iterator(stream_name, shard_id, 'LATEST', second_sequence_id) shard_iterator = response['ShardIterator'] # Write some more data conn.put_record(stream_name, "last_record", "last_record") response = conn.get_records(shard_iterator) # And the only result returned should be the new item response['Records'].should.have.length_of(1) response['Records'][0]['PartitionKey'].should.equal('last_record') response['Records'][0]['Data'].should.equal('last_record') @mock_kinesis def test_invalid_shard_iterator_type(): conn = boto.kinesis.connect_to_region("us-west-2") stream_name = "my_stream" conn.create_stream(stream_name, 1) response = conn.describe_stream(stream_name) shard_id = response['StreamDescription']['Shards'][0]['ShardId'] response = conn.get_shard_iterator.when.called_with( stream_name, shard_id, 'invalid-type').should.throw(InvalidArgumentException) @mock_kinesis def test_add_tags(): conn = boto.kinesis.connect_to_region("us-west-2") stream_name = "my_stream" conn.create_stream(stream_name, 1) conn.describe_stream(stream_name) conn.add_tags_to_stream(stream_name, {'tag1':'val1'}) conn.add_tags_to_stream(stream_name, {'tag2':'val2'}) conn.add_tags_to_stream(stream_name, {'tag1':'val3'}) conn.add_tags_to_stream(stream_name, {'tag2':'val4'}) @mock_kinesis def test_list_tags(): conn = boto.kinesis.connect_to_region("us-west-2") stream_name = "my_stream" conn.create_stream(stream_name, 1) conn.describe_stream(stream_name) conn.add_tags_to_stream(stream_name, {'tag1':'val1'}) tags = dict([(tag['Key'], tag['Value']) for tag in conn.list_tags_for_stream(stream_name)['Tags']]) tags.get('tag1').should.equal('val1') conn.add_tags_to_stream(stream_name, {'tag2':'val2'}) tags = dict([(tag['Key'], tag['Value']) for tag in conn.list_tags_for_stream(stream_name)['Tags']]) tags.get('tag2').should.equal('val2') conn.add_tags_to_stream(stream_name, {'tag1':'val3'}) tags = dict([(tag['Key'], tag['Value']) for tag in conn.list_tags_for_stream(stream_name)['Tags']]) tags.get('tag1').should.equal('val3') conn.add_tags_to_stream(stream_name, {'tag2':'val4'}) tags = dict([(tag['Key'], tag['Value']) for tag in conn.list_tags_for_stream(stream_name)['Tags']]) tags.get('tag2').should.equal('val4') @mock_kinesis def test_remove_tags(): conn = boto.kinesis.connect_to_region("us-west-2") stream_name = "my_stream" conn.create_stream(stream_name, 1) conn.describe_stream(stream_name) conn.add_tags_to_stream(stream_name, {'tag1':'val1'}) tags = dict([(tag['Key'], tag['Value']) for tag in conn.list_tags_for_stream(stream_name)['Tags']]) tags.get('tag1').should.equal('val1') conn.remove_tags_from_stream(stream_name, ['tag1']) tags = dict([(tag['Key'], tag['Value']) for tag in conn.list_tags_for_stream(stream_name)['Tags']]) tags.get('tag1').should.equal(None) conn.add_tags_to_stream(stream_name, {'tag2':'val2'}) tags = dict([(tag['Key'], tag['Value']) for tag in conn.list_tags_for_stream(stream_name)['Tags']]) tags.get('tag2').should.equal('val2') conn.remove_tags_from_stream(stream_name, ['tag2']) tags = dict([(tag['Key'], tag['Value']) for tag in conn.list_tags_for_stream(stream_name)['Tags']]) tags.get('tag2').should.equal(None) @mock_kinesis def test_split_shard(): conn = boto.kinesis.connect_to_region("us-west-2") stream_name = 'my_stream' conn.create_stream(stream_name, 2) # Create some data for index in range(1, 100): conn.put_record(stream_name, str(index), str(index)) stream_response = conn.describe_stream(stream_name) stream = stream_response["StreamDescription"] shards = stream['Shards'] shards.should.have.length_of(2) sum([shard['SequenceNumberRange']['EndingSequenceNumber'] for shard in shards]).should.equal(99) shard_range = shards[0]['HashKeyRange'] new_starting_hash = (int(shard_range['EndingHashKey'])+int(shard_range['StartingHashKey'])) // 2 conn.split_shard("my_stream", shards[0]['ShardId'], str(new_starting_hash)) stream_response = conn.describe_stream(stream_name) stream = stream_response["StreamDescription"] shards = stream['Shards'] shards.should.have.length_of(3) sum([shard['SequenceNumberRange']['EndingSequenceNumber'] for shard in shards]).should.equal(99) shard_range = shards[2]['HashKeyRange'] new_starting_hash = (int(shard_range['EndingHashKey'])+int(shard_range['StartingHashKey'])) // 2 conn.split_shard("my_stream", shards[2]['ShardId'], str(new_starting_hash)) stream_response = conn.describe_stream(stream_name) stream = stream_response["StreamDescription"] shards = stream['Shards'] shards.should.have.length_of(4) sum([shard['SequenceNumberRange']['EndingSequenceNumber'] for shard in shards]).should.equal(99) @mock_kinesis def test_merge_shards(): conn = boto.kinesis.connect_to_region("us-west-2") stream_name = 'my_stream' conn.create_stream(stream_name, 4) # Create some data for index in range(1, 100): conn.put_record(stream_name, str(index), str(index)) stream_response = conn.describe_stream(stream_name) stream = stream_response["StreamDescription"] shards = stream['Shards'] shards.should.have.length_of(4) conn.merge_shards.when.called_with(stream_name, 'shardId-000000000000', 'shardId-000000000002').should.throw(InvalidArgumentException) stream_response = conn.describe_stream(stream_name) stream = stream_response["StreamDescription"] shards = stream['Shards'] shards.should.have.length_of(4) sum([shard['SequenceNumberRange']['EndingSequenceNumber'] for shard in shards]).should.equal(99) conn.merge_shards(stream_name, 'shardId-000000000000', 'shardId-000000000001') stream_response = conn.describe_stream(stream_name) stream = stream_response["StreamDescription"] shards = stream['Shards'] shards.should.have.length_of(3) sum([shard['SequenceNumberRange']['EndingSequenceNumber'] for shard in shards]).should.equal(99) conn.merge_shards(stream_name, 'shardId-000000000002', 'shardId-000000000000') stream_response = conn.describe_stream(stream_name) stream = stream_response["StreamDescription"] shards = stream['Shards'] shards.should.have.length_of(2) sum([shard['SequenceNumberRange']['EndingSequenceNumber'] for shard in shards]).should.equal(99)