import helpers.client from helpers.cluster import ClickHouseCluster from helpers.test_tools import TSV import pytest import logging import os import json import time import glob import pyspark import delta from delta import * from pyspark.sql.types import ( StructType, StructField, StringType, IntegerType, DateType, TimestampType, BooleanType, ArrayType, ) from pyspark.sql.functions import current_timestamp from datetime import datetime from pyspark.sql.functions import monotonically_increasing_id, row_number from pyspark.sql.window import Window from helpers.s3_tools import prepare_s3_bucket, upload_directory, get_file_contents SCRIPT_DIR = os.path.dirname(os.path.realpath(__file__)) def get_spark(): builder = ( pyspark.sql.SparkSession.builder.appName("spark_test") .config("spark.sql.extensions", "io.delta.sql.DeltaSparkSessionExtension") .config( "spark.sql.catalog.spark_catalog", "org.apache.spark.sql.delta.catalog.DeltaCatalog", ) .master("local") ) return builder.master("local").getOrCreate() @pytest.fixture(scope="module") def started_cluster(): try: cluster = ClickHouseCluster(__file__, with_spark=True) cluster.add_instance( "node1", main_configs=["configs/config.d/named_collections.xml"], user_configs=["configs/users.d/users.xml"], with_minio=True, ) logging.info("Starting cluster...") cluster.start() prepare_s3_bucket(cluster) cluster.spark_session = get_spark() yield cluster finally: cluster.shutdown() def write_delta_from_file(spark, path, result_path, mode="overwrite"): spark.read.load(path).write.mode(mode).option("compression", "none").format( "delta" ).option("delta.columnMapping.mode", "name").save(result_path) def write_delta_from_df(spark, df, result_path, mode="overwrite", partition_by=None): if partition_by is None: df.write.mode(mode).option("compression", "none").format("delta").option( "delta.columnMapping.mode", "name" ).save(result_path) else: df.write.mode(mode).option("compression", "none").format("delta").option( "delta.columnMapping.mode", "name" ).partitionBy("a").save(result_path) def generate_data(spark, start, end): a = spark.range(start, end, 1).toDF("a") b = spark.range(start + 1, end + 1, 1).toDF("b") b = b.withColumn("b", b["b"].cast(StringType())) a = a.withColumn( "row_index", row_number().over(Window.orderBy(monotonically_increasing_id())) ) b = b.withColumn( "row_index", row_number().over(Window.orderBy(monotonically_increasing_id())) ) df = a.join(b, on=["row_index"]).drop("row_index") return df def get_delta_metadata(delta_metadata_file): jsons = [json.loads(x) for x in delta_metadata_file.splitlines()] combined_json = {} for d in jsons: combined_json.update(d) return combined_json def create_delta_table(node, table_name): node.query( f""" DROP TABLE IF EXISTS {table_name}; CREATE TABLE {table_name} ENGINE=DeltaLake(s3, filename = '{table_name}/')""" ) def create_initial_data_file( cluster, node, query, table_name, compression_method="none" ): node.query( f""" INSERT INTO TABLE FUNCTION file('{table_name}.parquet') SETTINGS output_format_parquet_compression_method='{compression_method}', s3_truncate_on_insert=1 {query} FORMAT Parquet""" ) user_files_path = os.path.join( SCRIPT_DIR, f"{cluster.instances_dir_name}/node1/database/user_files" ) result_path = f"{user_files_path}/{table_name}.parquet" return result_path def test_single_log_file(started_cluster): instance = started_cluster.instances["node1"] spark = started_cluster.spark_session minio_client = started_cluster.minio_client bucket = started_cluster.minio_bucket TABLE_NAME = "test_single_log_file" inserted_data = "SELECT number, toString(number + 1) FROM numbers(100)" parquet_data_path = create_initial_data_file( started_cluster, instance, inserted_data, TABLE_NAME ) write_delta_from_file(spark, parquet_data_path, f"/{TABLE_NAME}") files = upload_directory(minio_client, bucket, f"/{TABLE_NAME}", "") assert len(files) == 2 # 1 metadata files + 1 data file create_delta_table(instance, TABLE_NAME) assert int(instance.query(f"SELECT count() FROM {TABLE_NAME}")) == 100 assert instance.query(f"SELECT * FROM {TABLE_NAME}") == instance.query( inserted_data ) def test_partition_by(started_cluster): instance = started_cluster.instances["node1"] spark = started_cluster.spark_session minio_client = started_cluster.minio_client bucket = started_cluster.minio_bucket TABLE_NAME = "test_partition_by" write_delta_from_df( spark, generate_data(spark, 0, 10), f"/{TABLE_NAME}", mode="overwrite", partition_by="a", ) files = upload_directory(minio_client, bucket, f"/{TABLE_NAME}", "") assert len(files) == 11 # 10 partitions and 1 metadata file create_delta_table(instance, TABLE_NAME) assert int(instance.query(f"SELECT count() FROM {TABLE_NAME}")) == 10 def test_checkpoint(started_cluster): instance = started_cluster.instances["node1"] spark = started_cluster.spark_session minio_client = started_cluster.minio_client bucket = started_cluster.minio_bucket TABLE_NAME = "test_checkpoint" write_delta_from_df( spark, generate_data(spark, 0, 1), f"/{TABLE_NAME}", mode="overwrite", ) for i in range(1, 25): write_delta_from_df( spark, generate_data(spark, i, i + 1), f"/{TABLE_NAME}", mode="append", ) files = upload_directory(minio_client, bucket, f"/{TABLE_NAME}", "") # 25 data files # 25 metadata files # 1 last_metadata file # 2 checkpoints assert len(files) == 25 * 2 + 3 ok = False for file in files: if file.endswith("last_checkpoint"): ok = True assert ok create_delta_table(instance, TABLE_NAME) assert ( int( instance.query( f"SELECT count() FROM {TABLE_NAME} SETTINGS input_format_parquet_allow_missing_columns=1" ) ) == 25 ) table = DeltaTable.forPath(spark, f"/{TABLE_NAME}") table.delete("a < 10") files = upload_directory(minio_client, bucket, f"/{TABLE_NAME}", "") assert int(instance.query(f"SELECT count() FROM {TABLE_NAME}")) == 15 for i in range(0, 5): write_delta_from_df( spark, generate_data(spark, i, i + 1), f"/{TABLE_NAME}", mode="append", ) # + 1 metadata files (for delete) # + 5 data files # + 5 metadata files # + 1 checkpoint file # + 1 ? files = upload_directory(minio_client, bucket, f"/{TABLE_NAME}", "") assert len(files) == 53 + 1 + 5 * 2 + 1 + 1 assert int(instance.query(f"SELECT count() FROM {TABLE_NAME}")) == 20 assert ( instance.query(f"SELECT * FROM {TABLE_NAME} ORDER BY 1").strip() == instance.query( "SELECT * FROM (" "SELECT number, toString(number + 1) FROM numbers(5) " "UNION ALL SELECT number, toString(number + 1) FROM numbers(10, 15) " ") ORDER BY 1" ).strip() ) def test_multiple_log_files(started_cluster): instance = started_cluster.instances["node1"] spark = started_cluster.spark_session minio_client = started_cluster.minio_client bucket = started_cluster.minio_bucket TABLE_NAME = "test_multiple_log_files" write_delta_from_df( spark, generate_data(spark, 0, 100), f"/{TABLE_NAME}", mode="overwrite" ) files = upload_directory(minio_client, bucket, f"/{TABLE_NAME}", "") assert len(files) == 2 # 1 metadata files + 1 data file s3_objects = list( minio_client.list_objects(bucket, f"{TABLE_NAME}/_delta_log/", recursive=True) ) assert len(s3_objects) == 1 create_delta_table(instance, TABLE_NAME) assert int(instance.query(f"SELECT count() FROM {TABLE_NAME}")) == 100 write_delta_from_df( spark, generate_data(spark, 100, 200), f"/{TABLE_NAME}", mode="append" ) files = upload_directory(minio_client, bucket, f"/{TABLE_NAME}", "") assert len(files) == 4 # 2 metadata files + 2 data files s3_objects = list( minio_client.list_objects(bucket, f"{TABLE_NAME}/_delta_log/", recursive=True) ) assert len(s3_objects) == 2 assert int(instance.query(f"SELECT count() FROM {TABLE_NAME}")) == 200 assert instance.query(f"SELECT * FROM {TABLE_NAME} ORDER BY 1") == instance.query( "SELECT number, toString(number + 1) FROM numbers(200)" ) def test_metadata(started_cluster): instance = started_cluster.instances["node1"] spark = started_cluster.spark_session minio_client = started_cluster.minio_client bucket = started_cluster.minio_bucket TABLE_NAME = "test_metadata" parquet_data_path = create_initial_data_file( started_cluster, instance, "SELECT number, toString(number) FROM numbers(100)", TABLE_NAME, ) write_delta_from_file(spark, parquet_data_path, f"/{TABLE_NAME}") upload_directory(minio_client, bucket, f"/{TABLE_NAME}", "") data = get_file_contents( minio_client, bucket, f"/{TABLE_NAME}/_delta_log/00000000000000000000.json", ) delta_metadata = get_delta_metadata(data) stats = json.loads(delta_metadata["add"]["stats"]) assert stats["numRecords"] == 100 assert next(iter(stats["minValues"].values())) == 0 assert next(iter(stats["maxValues"].values())) == 99 create_delta_table(instance, TABLE_NAME) assert int(instance.query(f"SELECT count() FROM {TABLE_NAME}")) == 100 def test_types(started_cluster): TABLE_NAME = "test_types" spark = started_cluster.spark_session result_file = f"{TABLE_NAME}_result_2" delta_table = ( DeltaTable.create(spark) .tableName(TABLE_NAME) .location(f"/{result_file}") .addColumn("a", "INT") .addColumn("b", "STRING") .addColumn("c", "DATE") .addColumn("d", "ARRAY") .addColumn("e", "BOOLEAN") .execute() ) data = [ ( 123, "string", datetime.strptime("2000-01-01", "%Y-%m-%d"), ["str1", "str2"], True, ) ] schema = StructType( [ StructField("a", IntegerType()), StructField("b", StringType()), StructField("c", DateType()), StructField("d", ArrayType(StringType())), StructField("e", BooleanType()), ] ) df = spark.createDataFrame(data=data, schema=schema) df.printSchema() df.write.mode("append").format("delta").saveAsTable(TABLE_NAME) minio_client = started_cluster.minio_client bucket = started_cluster.minio_bucket upload_directory(minio_client, bucket, f"/{result_file}", "") instance = started_cluster.instances["node1"] instance.query( f""" DROP TABLE IF EXISTS {TABLE_NAME}; CREATE TABLE {TABLE_NAME} ENGINE=DeltaLake('http://{started_cluster.minio_ip}:{started_cluster.minio_port}/{bucket}/{result_file}/', 'minio', 'minio123')""" ) assert int(instance.query(f"SELECT count() FROM {TABLE_NAME}")) == 1 assert ( instance.query(f"SELECT * FROM {TABLE_NAME}").strip() == "123\tstring\t2000-01-01\t['str1','str2']\ttrue" ) table_function = f"deltaLake('http://{started_cluster.minio_ip}:{started_cluster.minio_port}/{bucket}/{result_file}/', 'minio', 'minio123')" assert ( instance.query(f"SELECT * FROM {table_function}").strip() == "123\tstring\t2000-01-01\t['str1','str2']\ttrue" ) assert instance.query(f"DESCRIBE {table_function} FORMAT TSV") == TSV( [ ["a", "Nullable(Int32)"], ["b", "Nullable(String)"], ["c", "Nullable(Date32)"], ["d", "Array(Nullable(String))"], ["e", "Nullable(Bool)"], ] )