ClickHouse/tests/integration/test_storage_iceberg/test.py
2023-04-13 15:10:49 +02:00

315 lines
10 KiB
Python

import helpers.client
from helpers.cluster import ClickHouseCluster
from helpers.test_tools import TSV
import pyspark
import logging
import os
import json
import pytest
import time
import glob
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 pyspark.sql.readwriter import DataFrameWriter, DataFrameWriterV2
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.catalog.spark_catalog",
"org.apache.iceberg.spark.SparkSessionCatalog",
)
.config("spark.sql.catalog.local", "org.apache.iceberg.spark.SparkCatalog")
.config("spark.sql.catalog.spark_catalog.type", "hadoop")
.config("spark.sql.catalog.spark_catalog.warehouse", "/iceberg_data")
.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"],
with_minio=True,
)
logging.info("Starting cluster...")
cluster.start()
prepare_s3_bucket(cluster)
logging.info("S3 bucket created")
cluster.spark_session = get_spark()
yield cluster
finally:
cluster.shutdown()
def run_query(instance, query, stdin=None, settings=None):
# type: (ClickHouseInstance, str, object, dict) -> str
logging.info("Running query '{}'...".format(query))
result = instance.query(query, stdin=stdin, settings=settings)
logging.info("Query finished")
return result
def write_iceberg_from_file(
spark, path, table_name, mode="overwrite", format_version="1", partition_by=None
):
if mode == "overwrite":
if partition_by is None:
spark.read.load(f"file://{path}").writeTo(table_name).tableProperty(
"format-version", format_version
).using("iceberg").create()
else:
spark.read.load(f"file://{path}").writeTo(table_name).partitionedBy(
partition_by
).tableProperty("format-version", format_version).using("iceberg").create()
else:
spark.read.load(f"file://{path}").writeTo(table_name).append()
def write_iceberg_from_df(
spark, df, table_name, mode="overwrite", format_version="1", partition_by=None
):
if mode == "overwrite":
if partition_by is None:
df.writeTo(table_name).tableProperty(
"format-version", format_version
).using("iceberg").create()
else:
df.writeTo(table_name).tableProperty(
"format-version", format_version
).partitionedBy(partition_by).using("iceberg").create()
else:
df.writeTo(table_name).append()
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 create_iceberg_table(node, table_name):
node.query(
f"""
DROP TABLE IF EXISTS {table_name};
CREATE TABLE {table_name}
ENGINE=Iceberg(s3, filename = 'iceberg_data/default/{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
@pytest.mark.parametrize("format_version", ["1", "2"])
def test_single_iceberg_file(started_cluster, format_version):
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_iceberg_file_" + format_version
inserted_data = "SELECT number, toString(number) FROM numbers(100)"
parquet_data_path = create_initial_data_file(
started_cluster, instance, inserted_data, TABLE_NAME
)
write_iceberg_from_file(
spark, parquet_data_path, TABLE_NAME, format_version=format_version
)
files = upload_directory(
minio_client, bucket, f"/iceberg_data/default/{TABLE_NAME}/", ""
)
create_iceberg_table(instance, TABLE_NAME)
assert instance.query(f"SELECT * FROM {TABLE_NAME}") == instance.query(
inserted_data
)
@pytest.mark.parametrize("format_version", ["1", "2"])
def test_partition_by(started_cluster, format_version):
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_" + format_version
write_iceberg_from_df(
spark,
generate_data(spark, 0, 10),
TABLE_NAME,
mode="overwrite",
format_version=format_version,
partition_by="a",
)
files = upload_directory(
minio_client, bucket, f"/iceberg_data/default/{TABLE_NAME}/", ""
)
assert len(files) == 14 # 10 partitiions + 4 metadata files
create_iceberg_table(instance, TABLE_NAME)
assert int(instance.query(f"SELECT count() FROM {TABLE_NAME}")) == 10
@pytest.mark.parametrize("format_version", ["1", "2"])
def test_multiple_iceberg_files(started_cluster, format_version):
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_iceberg_files_" + format_version
write_iceberg_from_df(
spark,
generate_data(spark, 0, 100),
TABLE_NAME,
mode="overwrite",
format_version=format_version,
)
files = upload_directory(
minio_client, bucket, f"/iceberg_data/default/{TABLE_NAME}", ""
)
# ['/iceberg_data/default/test_multiple_iceberg_files/data/00000-1-35302d56-f1ed-494e-a85b-fbf85c05ab39-00001.parquet',
# '/iceberg_data/default/test_multiple_iceberg_files/metadata/version-hint.text',
# '/iceberg_data/default/test_multiple_iceberg_files/metadata/3127466b-299d-48ca-a367-6b9b1df1e78c-m0.avro',
# '/iceberg_data/default/test_multiple_iceberg_files/metadata/snap-5220855582621066285-1-3127466b-299d-48ca-a367-6b9b1df1e78c.avro',
# '/iceberg_data/default/test_multiple_iceberg_files/metadata/v1.metadata.json']
assert len(files) == 5
create_iceberg_table(instance, TABLE_NAME)
assert int(instance.query(f"SELECT count() FROM {TABLE_NAME}")) == 100
write_iceberg_from_df(
spark,
generate_data(spark, 100, 200),
TABLE_NAME,
mode="append",
format_version=format_version,
)
files = upload_directory(
minio_client, bucket, f"/iceberg_data/default/{TABLE_NAME}", ""
)
assert len(files) == 9
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)"
)
@pytest.mark.parametrize("format_version", ["1", "2"])
def test_types(started_cluster, format_version):
instance = started_cluster.instances["node1"]
spark = started_cluster.spark_session
minio_client = started_cluster.minio_client
bucket = started_cluster.minio_bucket
TABLE_NAME = "test_types_" + format_version
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()
write_iceberg_from_df(
spark, df, TABLE_NAME, mode="overwrite", format_version=format_version
)
upload_directory(minio_client, bucket, f"/iceberg_data/default/{TABLE_NAME}", "")
create_iceberg_table(instance, TABLE_NAME)
assert int(instance.query(f"SELECT count() FROM {TABLE_NAME}")) == 1
assert (
instance.query(f"SELECT a, b, c, d, e FROM {TABLE_NAME}").strip()
== "123\tstring\t2000-01-01\t['str1','str2']\ttrue"
)
table_function = f"iceberg(s3, filename='iceberg_data/default/{TABLE_NAME}/')"
assert (
instance.query(f"SELECT a, b, c, d, e 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)"],
]
)