ClickHouse/tests/integration/test_grpc_protocol/test.py
Vitaly Baranov 196df125b1
Merge pull request #66063 from vitlibar/fix-test-grpc-protocol-test-progress
Fix test test_grpc_protocol/test.py::test_progress
2024-07-04 15:20:14 +00:00

759 lines
24 KiB
Python

import os
import pytest
import sys
import time
import pytz
import uuid
import grpc
from helpers.cluster import ClickHouseCluster, is_arm, run_and_check
from threading import Thread
import gzip
import lz4.frame
script_dir = os.path.dirname(os.path.realpath(__file__))
pb2_dir = os.path.join(script_dir, "pb2")
if pb2_dir not in sys.path:
sys.path.append(pb2_dir)
import clickhouse_grpc_pb2, clickhouse_grpc_pb2_grpc # Execute pb2/generate.py to generate these modules.
GRPC_PORT = 9100
DEFAULT_ENCODING = "utf-8"
# GRPC is disabled on ARM build - skip tests
if is_arm():
pytestmark = pytest.mark.skip
# Utilities
IPV6_ADDRESS = "2001:3984:3989::1:1111"
config_dir = os.path.join(script_dir, "./configs")
cluster = ClickHouseCluster(__file__)
node = cluster.add_instance(
"node",
main_configs=["configs/grpc_config.xml"],
# Bug in TSAN reproduces in this test https://github.com/grpc/grpc/issues/29550#issuecomment-1188085387
env_variables={
"TSAN_OPTIONS": "report_atomic_races=0 " + os.getenv("TSAN_OPTIONS", default="")
},
ipv6_address=IPV6_ADDRESS,
stay_alive=True,
)
main_channel = None
def create_channel(hostname=None):
if not hostname:
hostname = cluster.get_instance_ip("node")
node_ip_with_grpc_port = hostname + ":" + str(GRPC_PORT)
channel = grpc.insecure_channel(node_ip_with_grpc_port)
grpc.channel_ready_future(channel).result(timeout=10)
global main_channel
if not main_channel:
main_channel = channel
return channel
def query_common(
query_text,
settings={},
input_data=[],
input_data_delimiter="",
output_format="TabSeparated",
send_output_columns=False,
external_tables=[],
user_name="",
password="",
query_id="123",
session_id="",
stream_output=False,
channel=None,
):
if type(input_data) is not list:
input_data = [input_data]
if type(input_data_delimiter) is str:
input_data_delimiter = input_data_delimiter.encode(DEFAULT_ENCODING)
if not channel:
channel = main_channel
stub = clickhouse_grpc_pb2_grpc.ClickHouseStub(channel)
def query_info():
input_data_part = input_data.pop(0) if input_data else b""
if type(input_data_part) is str:
input_data_part = input_data_part.encode(DEFAULT_ENCODING)
return clickhouse_grpc_pb2.QueryInfo(
query=query_text,
settings=settings,
input_data=input_data_part,
input_data_delimiter=input_data_delimiter,
output_format=output_format,
send_output_columns=send_output_columns,
external_tables=external_tables,
user_name=user_name,
password=password,
query_id=query_id,
session_id=session_id,
next_query_info=bool(input_data),
)
def send_query_info():
yield query_info()
while input_data:
input_data_part = input_data.pop(0)
if type(input_data_part) is str:
input_data_part = input_data_part.encode(DEFAULT_ENCODING)
yield clickhouse_grpc_pb2.QueryInfo(
input_data=input_data_part, next_query_info=bool(input_data)
)
stream_input = len(input_data) > 1
if stream_input and stream_output:
return list(stub.ExecuteQueryWithStreamIO(send_query_info()))
elif stream_input:
return [stub.ExecuteQueryWithStreamInput(send_query_info())]
elif stream_output:
return list(stub.ExecuteQueryWithStreamOutput(query_info()))
else:
return [stub.ExecuteQuery(query_info())]
def query_no_errors(*args, **kwargs):
results = query_common(*args, **kwargs)
if results and results[-1].HasField("exception"):
raise Exception(results[-1].exception.display_text)
return results
def query(*args, **kwargs):
output = b""
for result in query_no_errors(*args, **kwargs):
output += result.output
return output.decode(DEFAULT_ENCODING)
def query_and_get_error(*args, **kwargs):
results = query_common(*args, **kwargs)
if not results or not results[-1].HasField("exception"):
raise Exception("Expected to be failed but succeeded!")
return results[-1].exception
def query_and_get_totals(*args, **kwargs):
totals = b""
for result in query_no_errors(*args, **kwargs):
totals += result.totals
return totals.decode(DEFAULT_ENCODING)
def query_and_get_extremes(*args, **kwargs):
extremes = b""
for result in query_no_errors(*args, **kwargs):
extremes += result.extremes
return extremes.decode(DEFAULT_ENCODING)
def query_and_get_logs(*args, **kwargs):
logs = ""
for result in query_no_errors(*args, **kwargs):
for log_entry in result.logs:
# print(log_entry)
logs += log_entry.text + "\n"
return logs
class QueryThread(Thread):
def __init__(
self, query_text, expected_output, query_id, use_separate_channel=False
):
Thread.__init__(self)
self.query_text = query_text
self.expected_output = expected_output
self.use_separate_channel = use_separate_channel
self.query_id = query_id
def run(self):
if self.use_separate_channel:
with create_channel() as channel:
assert (
query(self.query_text, query_id=self.query_id, channel=channel)
== self.expected_output
)
else:
assert (
query(self.query_text, query_id=self.query_id) == self.expected_output
)
@pytest.fixture(scope="module", autouse=True)
def start_cluster():
cluster.start()
try:
with create_channel() as channel:
yield cluster
finally:
cluster.shutdown()
@pytest.fixture(autouse=True)
def reset_after_test():
yield
node.query_with_retry("DROP TABLE IF EXISTS t")
# Actual tests
def test_select_one():
assert query("SELECT 1") == "1\n"
def test_ipv6_select_one():
with create_channel(f"[{IPV6_ADDRESS}]") as channel:
assert query("SELECT 1", channel=channel) == "1\n"
def test_ordinary_query():
assert query("SELECT count() FROM numbers(100)") == "100\n"
def test_insert_query():
query("CREATE TABLE t (a UInt8) ENGINE = Memory")
query("INSERT INTO t VALUES (1),(2),(3)")
query("INSERT INTO t FORMAT TabSeparated 4\n5\n6\n")
query("INSERT INTO t VALUES", input_data="(7),(8)")
query("INSERT INTO t FORMAT TabSeparated", input_data="9\n10\n")
assert query("SELECT a FROM t ORDER BY a") == "1\n2\n3\n4\n5\n6\n7\n8\n9\n10\n"
def test_insert_query_streaming():
query("CREATE TABLE t (a UInt8) ENGINE = Memory")
query(
"INSERT INTO t VALUES",
input_data=["(1),(2),(3),", "(5),(4),(6),", "(7),(8),(9)"],
)
assert query("SELECT a FROM t ORDER BY a") == "1\n2\n3\n4\n5\n6\n7\n8\n9\n"
def test_insert_query_delimiter():
query("CREATE TABLE t (a UInt8) ENGINE = Memory")
query(
"INSERT INTO t FORMAT CSV 1\n2",
input_data=["3", "4\n5"],
input_data_delimiter="\n",
)
assert query("SELECT a FROM t ORDER BY a") == "1\n2\n3\n4\n5\n"
query("DROP TABLE t")
query("CREATE TABLE t (a UInt8) ENGINE = Memory")
query("INSERT INTO t FORMAT CSV 1\n2", input_data=["3", "4\n5"])
assert query("SELECT a FROM t ORDER BY a") == "1\n5\n234\n"
def test_insert_default_column():
query(
"CREATE TABLE t (a UInt8, b Int32 DEFAULT 100 - a, c String DEFAULT 'c') ENGINE = Memory"
)
query("INSERT INTO t (c, a) VALUES ('x',1),('y',2)")
query("INSERT INTO t (a) FORMAT TabSeparated", input_data="3\n4\n")
assert (
query("SELECT * FROM t ORDER BY a") == "1\t99\tx\n"
"2\t98\ty\n"
"3\t97\tc\n"
"4\t96\tc\n"
)
def test_insert_splitted_row():
query("CREATE TABLE t (a UInt8) ENGINE = Memory")
query("INSERT INTO t VALUES", input_data=["(1),(2),(", "3),(5),(4),(6)"])
assert query("SELECT a FROM t ORDER BY a") == "1\n2\n3\n4\n5\n6\n"
def test_output_format():
query("CREATE TABLE t (a UInt8) ENGINE = Memory")
query("INSERT INTO t VALUES (1),(2),(3)")
assert (
query("SELECT a FROM t ORDER BY a FORMAT JSONEachRow")
== '{"a":1}\n{"a":2}\n{"a":3}\n'
)
assert (
query("SELECT a FROM t ORDER BY a", output_format="JSONEachRow")
== '{"a":1}\n{"a":2}\n{"a":3}\n'
)
def test_totals_and_extremes():
query("CREATE TABLE t (x UInt8, y UInt8) ENGINE = Memory")
query("INSERT INTO t VALUES (1, 2), (2, 4), (3, 2), (3, 3), (3, 4)")
assert (
query("SELECT sum(x), y FROM t GROUP BY y WITH TOTALS") == "4\t2\n3\t3\n5\t4\n"
)
assert (
query_and_get_totals("SELECT sum(x), y FROM t GROUP BY y WITH TOTALS")
== "12\t0\n"
)
assert query("SELECT x, y FROM t") == "1\t2\n2\t4\n3\t2\n3\t3\n3\t4\n"
assert (
query_and_get_extremes("SELECT x, y FROM t", settings={"extremes": "1"})
== "1\t2\n3\t4\n"
)
def test_get_query_details():
result = list(
query_no_errors("CREATE TABLE t (a UInt8) ENGINE = Memory", query_id="123")
)[0]
assert result.query_id == "123"
pytz.timezone(result.time_zone)
assert result.output_format == ""
assert len(result.output_columns) == 0
assert result.output == b""
#
result = list(
query_no_errors("SELECT 'a', 1", query_id="", output_format="TabSeparated")
)[0]
uuid.UUID(result.query_id)
pytz.timezone(result.time_zone)
assert result.output_format == "TabSeparated"
assert len(result.output_columns) == 0
assert result.output == b"a\t1\n"
#
result = list(
query_no_errors(
"SELECT 'a' AS x, 1 FORMAT JSONEachRow",
query_id="",
send_output_columns=True,
)
)[0]
uuid.UUID(result.query_id)
pytz.timezone(result.time_zone)
assert result.output_format == "JSONEachRow"
assert ([(col.name, col.type) for col in result.output_columns]) == [
("x", "String"),
("1", "UInt8"),
]
assert result.output == b'{"x":"a","1":1}\n'
def test_errors_handling():
e = query_and_get_error("")
# print(e)
assert "Empty query" in e.display_text
query("CREATE TABLE t (a UInt8) ENGINE = Memory")
e = query_and_get_error("CREATE TABLE t (a UInt8) ENGINE = Memory")
assert "Table default.t already exists" in e.display_text
def test_authentication():
query("CREATE USER OR REPLACE john IDENTIFIED BY 'qwe123'")
assert (
query("SELECT currentUser()", user_name="john", password="qwe123") == "john\n"
)
query("DROP USER john")
def test_logs():
query = "SELECT has(groupArray(number), 42) FROM numbers(1000000) SETTINGS max_block_size=100000"
logs = query_and_get_logs(
query,
settings={"send_logs_level": "debug"},
)
assert query in logs
assert "Read 1000000 rows" in logs
assert "Peak memory usage" in logs
def test_progress():
results = query_no_errors(
"SELECT number, sleep(0.31) FROM numbers(8) SETTINGS max_block_size=2, interactive_delay=100000",
stream_output=True,
)
# Note: We can't compare results using a statement like `assert results == expected_results`
# because `results` can come in slightly different order.
# So we compare `outputs` and `progresses` separately and not `results` as a whole.
outputs = [i.output for i in results if i.output]
progresses = [i.progress for i in results if i.HasField("progress")]
# print(outputs)
# print(progresses)
expected_outputs = [
b"0\t0\n1\t0\n",
b"2\t0\n3\t0\n",
b"4\t0\n5\t0\n",
b"6\t0\n7\t0\n",
]
expected_progresses = [
clickhouse_grpc_pb2.Progress(read_rows=2, read_bytes=16, total_rows_to_read=8),
clickhouse_grpc_pb2.Progress(read_rows=2, read_bytes=16),
clickhouse_grpc_pb2.Progress(read_rows=2, read_bytes=16),
clickhouse_grpc_pb2.Progress(read_rows=2, read_bytes=16),
]
assert outputs == expected_outputs
assert progresses == expected_progresses
def test_session_settings():
session_a = "session A"
session_b = "session B"
query("SET custom_x=1", session_id=session_a)
query("SET custom_y=2", session_id=session_a)
query("SET custom_x=3", session_id=session_b)
query("SET custom_y=4", session_id=session_b)
assert (
query(
"SELECT getSetting('custom_x'), getSetting('custom_y')",
session_id=session_a,
)
== "1\t2\n"
)
assert (
query(
"SELECT getSetting('custom_x'), getSetting('custom_y')",
session_id=session_b,
)
== "3\t4\n"
)
def test_session_temp_tables():
session_a = "session A"
session_b = "session B"
query("CREATE TEMPORARY TABLE my_temp_table(a Int8)", session_id=session_a)
query("INSERT INTO my_temp_table VALUES (10)", session_id=session_a)
assert query("SELECT * FROM my_temp_table", session_id=session_a) == "10\n"
query("CREATE TEMPORARY TABLE my_temp_table(a Int8)", session_id=session_b)
query("INSERT INTO my_temp_table VALUES (20)", session_id=session_b)
assert query("SELECT * FROM my_temp_table", session_id=session_b) == "20\n"
assert query("SELECT * FROM my_temp_table", session_id=session_a) == "10\n"
def test_no_session():
e = query_and_get_error("SET custom_x=1")
assert "There is no session" in e.display_text
e = query_and_get_error("CREATE TEMPORARY TABLE my_temp_table(a Int8)")
assert "There is no session" in e.display_text
def test_input_function():
query("CREATE TABLE t (a UInt8) ENGINE = Memory")
query(
"INSERT INTO t SELECT col1 * col2 FROM input('col1 UInt8, col2 UInt8') FORMAT CSV",
input_data=["5,4\n", "8,11\n", "10,12\n"],
)
assert query("SELECT a FROM t ORDER BY a") == "20\n88\n120\n"
query(
"INSERT INTO t SELECT col1 * col2 FROM input('col1 UInt8, col2 UInt8') FORMAT CSV 11,13"
)
assert query("SELECT a FROM t ORDER BY a") == "20\n88\n120\n143\n"
query(
"INSERT INTO t SELECT col1 * col2 FROM input('col1 UInt8, col2 UInt8') FORMAT CSV 20,10\n",
input_data="15,15\n",
)
assert query("SELECT a FROM t ORDER BY a") == "20\n88\n120\n143\n200\n225\n"
def test_external_table():
columns = [
clickhouse_grpc_pb2.NameAndType(name="UserID", type="UInt64"),
clickhouse_grpc_pb2.NameAndType(name="UserName", type="String"),
]
ext1 = clickhouse_grpc_pb2.ExternalTable(
name="ext1",
columns=columns,
data=b"1\tAlex\n2\tBen\n3\tCarl\n",
format="TabSeparated",
)
assert (
query("SELECT * FROM ext1 ORDER BY UserID", external_tables=[ext1])
== "1\tAlex\n"
"2\tBen\n"
"3\tCarl\n"
)
ext2 = clickhouse_grpc_pb2.ExternalTable(
name="ext2", columns=columns, data=b"4,Daniel\n5,Ethan\n", format="CSV"
)
assert (
query(
"SELECT * FROM (SELECT * FROM ext1 UNION ALL SELECT * FROM ext2) ORDER BY UserID",
external_tables=[ext1, ext2],
)
== "1\tAlex\n"
"2\tBen\n"
"3\tCarl\n"
"4\tDaniel\n"
"5\tEthan\n"
)
unnamed_columns = [
clickhouse_grpc_pb2.NameAndType(type="UInt64"),
clickhouse_grpc_pb2.NameAndType(type="String"),
]
unnamed_table = clickhouse_grpc_pb2.ExternalTable(
columns=unnamed_columns, data=b"6\tGeorge\n7\tFred\n"
)
assert (
query("SELECT * FROM _data ORDER BY _2", external_tables=[unnamed_table])
== "7\tFred\n"
"6\tGeorge\n"
)
def test_external_table_streaming():
columns = [
clickhouse_grpc_pb2.NameAndType(name="UserID", type="UInt64"),
clickhouse_grpc_pb2.NameAndType(name="UserName", type="String"),
]
def send_query_info():
yield clickhouse_grpc_pb2.QueryInfo(
query="SELECT * FROM exts ORDER BY UserID",
external_tables=[
clickhouse_grpc_pb2.ExternalTable(
name="exts", columns=columns, data=b"1\tAlex\n2\tBen\n3\tCarl\n"
)
],
next_query_info=True,
)
yield clickhouse_grpc_pb2.QueryInfo(
external_tables=[
clickhouse_grpc_pb2.ExternalTable(
name="exts", data=b"4\tDaniel\n5\tEthan\n"
)
]
)
stub = clickhouse_grpc_pb2_grpc.ClickHouseStub(main_channel)
result = stub.ExecuteQueryWithStreamInput(send_query_info())
assert (
result.output == b"1\tAlex\n"
b"2\tBen\n"
b"3\tCarl\n"
b"4\tDaniel\n"
b"5\tEthan\n"
)
def test_simultaneous_queries_same_channel():
threads = []
try:
for i in range(0, 100):
thread = QueryThread(
"SELECT sum(number) FROM numbers(10)",
expected_output="45\n",
query_id="sqA" + str(i),
)
threads.append(thread)
thread.start()
finally:
for thread in threads:
thread.join()
def test_simultaneous_queries_multiple_channels():
threads = []
try:
for i in range(0, 100):
thread = QueryThread(
"SELECT sum(number) FROM numbers(10)",
expected_output="45\n",
query_id="sqB" + str(i),
use_separate_channel=True,
)
threads.append(thread)
thread.start()
finally:
for thread in threads:
thread.join()
def test_cancel_while_processing_input():
query("CREATE TABLE t (a UInt8) ENGINE = Memory")
def send_query_info():
yield clickhouse_grpc_pb2.QueryInfo(
query="INSERT INTO t FORMAT TabSeparated",
input_data=b"1\n2\n3\n",
next_query_info=True,
)
yield clickhouse_grpc_pb2.QueryInfo(
input_data=b"4\n5\n6\n", next_query_info=True
)
yield clickhouse_grpc_pb2.QueryInfo(cancel=True)
stub = clickhouse_grpc_pb2_grpc.ClickHouseStub(main_channel)
result = stub.ExecuteQueryWithStreamInput(send_query_info())
assert result.cancelled == True
def test_cancel_while_generating_output():
def send_query_info():
yield clickhouse_grpc_pb2.QueryInfo(
query="SELECT number, sleep(0.2) FROM numbers(10) SETTINGS max_block_size=2"
)
time.sleep(0.5)
yield clickhouse_grpc_pb2.QueryInfo(cancel=True)
stub = clickhouse_grpc_pb2_grpc.ClickHouseStub(main_channel)
results = list(stub.ExecuteQueryWithStreamIO(send_query_info()))
assert len(results) >= 1
assert results[-1].cancelled == True
output = b""
for result in results:
output += result.output
assert output == b"0\t0\n1\t0\n2\t0\n3\t0\n"
def test_compressed_output():
query_info = clickhouse_grpc_pb2.QueryInfo(
query="SELECT 0 FROM numbers(1000)", output_compression_type="lz4"
)
stub = clickhouse_grpc_pb2_grpc.ClickHouseStub(main_channel)
result = stub.ExecuteQuery(query_info)
assert lz4.frame.decompress(result.output) == (b"0\n") * 1000
def test_compressed_output_streaming():
query_info = clickhouse_grpc_pb2.QueryInfo(
query="SELECT 0 FROM numbers(100000)", output_compression_type="lz4"
)
stub = clickhouse_grpc_pb2_grpc.ClickHouseStub(main_channel)
d_context = lz4.frame.create_decompression_context()
data = b""
for result in stub.ExecuteQueryWithStreamOutput(query_info):
d1, _, _ = lz4.frame.decompress_chunk(d_context, result.output)
data += d1
assert data == (b"0\n") * 100000
def test_compressed_output_gzip():
query_info = clickhouse_grpc_pb2.QueryInfo(
query="SELECT 0 FROM numbers(1000)",
output_compression_type="gzip",
output_compression_level=6,
)
stub = clickhouse_grpc_pb2_grpc.ClickHouseStub(main_channel)
result = stub.ExecuteQuery(query_info)
assert gzip.decompress(result.output) == (b"0\n") * 1000
def test_compressed_totals_and_extremes():
query("CREATE TABLE t (x UInt8, y UInt8) ENGINE = Memory")
query("INSERT INTO t VALUES (1, 2), (2, 4), (3, 2), (3, 3), (3, 4)")
stub = clickhouse_grpc_pb2_grpc.ClickHouseStub(main_channel)
query_info = clickhouse_grpc_pb2.QueryInfo(
query="SELECT sum(x), y FROM t GROUP BY y WITH TOTALS",
output_compression_type="lz4",
)
result = stub.ExecuteQuery(query_info)
assert lz4.frame.decompress(result.totals) == b"12\t0\n"
query_info = clickhouse_grpc_pb2.QueryInfo(
query="SELECT x, y FROM t",
settings={"extremes": "1"},
output_compression_type="lz4",
)
result = stub.ExecuteQuery(query_info)
assert lz4.frame.decompress(result.extremes) == b"1\t2\n3\t4\n"
def test_compressed_insert_query_streaming():
query("CREATE TABLE t (a UInt8) ENGINE = Memory")
data = lz4.frame.compress(b"(1),(2),(3),(5),(4),(6),(7),(8),(9)")
sz1 = len(data) // 3
sz2 = len(data) // 3
d1 = data[:sz1]
d2 = data[sz1 : sz1 + sz2]
d3 = data[sz1 + sz2 :]
def send_query_info():
yield clickhouse_grpc_pb2.QueryInfo(
query="INSERT INTO t VALUES",
input_data=d1,
input_compression_type="lz4",
next_query_info=True,
)
yield clickhouse_grpc_pb2.QueryInfo(input_data=d2, next_query_info=True)
yield clickhouse_grpc_pb2.QueryInfo(input_data=d3)
stub = clickhouse_grpc_pb2_grpc.ClickHouseStub(main_channel)
stub.ExecuteQueryWithStreamInput(send_query_info())
assert query("SELECT a FROM t ORDER BY a") == "1\n2\n3\n4\n5\n6\n7\n8\n9\n"
def test_compressed_external_table():
columns = [
clickhouse_grpc_pb2.NameAndType(name="UserID", type="UInt64"),
clickhouse_grpc_pb2.NameAndType(name="UserName", type="String"),
]
d1 = lz4.frame.compress(b"1\tAlex\n2\tBen\n3\tCarl\n")
d2 = gzip.compress(b"4,Daniel\n5,Ethan\n")
ext1 = clickhouse_grpc_pb2.ExternalTable(
name="ext1",
columns=columns,
data=d1,
format="TabSeparated",
compression_type="lz4",
)
ext2 = clickhouse_grpc_pb2.ExternalTable(
name="ext2", columns=columns, data=d2, format="CSV", compression_type="gzip"
)
stub = clickhouse_grpc_pb2_grpc.ClickHouseStub(main_channel)
query_info = clickhouse_grpc_pb2.QueryInfo(
query="SELECT * FROM (SELECT * FROM ext1 UNION ALL SELECT * FROM ext2) ORDER BY UserID",
external_tables=[ext1, ext2],
)
result = stub.ExecuteQuery(query_info)
assert (
result.output == b"1\tAlex\n"
b"2\tBen\n"
b"3\tCarl\n"
b"4\tDaniel\n"
b"5\tEthan\n"
)
def test_transport_compression():
query_info = clickhouse_grpc_pb2.QueryInfo(
query="SELECT 0 FROM numbers(1000000)",
transport_compression_type="gzip",
transport_compression_level=3,
)
stub = clickhouse_grpc_pb2_grpc.ClickHouseStub(main_channel)
result = stub.ExecuteQuery(query_info)
assert result.output == (b"0\n") * 1000000
def test_opentelemetry_context_propagation():
trace_id = "80c190b5-9dc1-4eae-82b9-6c261438c817"
parent_span_id = 123
trace_state = "some custom state"
trace_id_hex = trace_id.replace("-", "")
parent_span_id_hex = f"{parent_span_id:0>16X}"
metadata = [
("traceparent", f"00-{trace_id_hex}-{parent_span_id_hex}-01"),
("tracestate", trace_state),
]
stub = clickhouse_grpc_pb2_grpc.ClickHouseStub(main_channel)
query_info = clickhouse_grpc_pb2.QueryInfo(query="SELECT 1")
result = stub.ExecuteQuery(query_info, metadata=metadata)
assert result.output == b"1\n"
node.query("SYSTEM FLUSH LOGS")
assert (
node.query(
f"SELECT attribute['db.statement'], attribute['clickhouse.tracestate'] FROM system.opentelemetry_span_log "
f"WHERE trace_id='{trace_id}' AND operation_name='query'"
)
== "SELECT 1\tsome custom state\n"
)
def test_restart():
assert query("SELECT 1") == "1\n"
node.restart_clickhouse()
assert query("SELECT 2") == "2\n"