ClickHouse/tests/integration/test_disks_app_interactive/test.py
2024-06-14 14:10:00 +00:00

328 lines
11 KiB
Python

from helpers.cluster import ClickHouseCluster
import pytest
import pathlib
import subprocess
import select
import io
from typing import List, Tuple, Dict, Union, Optional
import os
class ClickHouseDisksException(Exception):
pass
@pytest.fixture(scope="module")
def started_cluster():
global cluster
try:
cluster = ClickHouseCluster(__file__)
cluster.add_instance(
"disks_app_test",
main_configs=["server_configs/config.xml"],
with_minio=True,
)
cluster.start()
yield cluster
finally:
cluster.shutdown()
class DisksClient(object):
SEPARATOR = b"\a\a\a\a\n"
local_client: Optional["DisksClient"] = None # static variable
default_disk_root_directory: str = "/var/lib/clickhouse"
def __init__(self, bin_path: str, config_path: str, working_path: str):
self.bin_path = bin_path
self.working_path = working_path
self.proc = subprocess.Popen(
[bin_path, "disks", "--test-mode", "--config", config_path],
stdin=subprocess.PIPE,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
)
self.poller = select.epoll()
self.poller.register(self.proc.stdout)
self.poller.register(self.proc.stderr)
self.stopped = False
self._fd_nums = {
self.proc.stdout.fileno(): self.proc.stdout,
self.proc.stderr.fileno(): self.proc.stderr,
}
def execute_query(self, query: str, timeout: float = 5.0) -> str:
output = io.BytesIO()
self.proc.stdin.write(query.encode() + b"\n")
self.proc.stdin.flush()
events = self.poller.poll(timeout)
if not events:
raise TimeoutError(f"Disks client returned no output")
for fd_num, event in events:
if event & (select.EPOLLIN | select.EPOLLPRI):
file = self._fd_nums[fd_num]
if file == self.proc.stdout:
while True:
chunk = file.readline()
if chunk.endswith(self.SEPARATOR):
break
output.write(chunk)
elif file == self.proc.stderr:
error_line = self.proc.stderr.readline()
print(error_line)
raise ClickHouseDisksException(error_line.strip().decode())
else:
raise ValueError(f"Failed to read from pipe. Flag {event}")
data = output.getvalue().strip().decode()
return data
def list_disks(self) -> List[Tuple[str, str]]:
output = self.execute_query("list-disks")
return list(
sorted(
map(
lambda x: (x.split(":")[0], ":".join(x.split(":")[1:])),
output.split("\n"),
)
)
)
def current_disk_with_path(self) -> Tuple[str, str]:
output = self.execute_query("current_disk_with_path")
disk_line = output.split("\n")[0]
path_line = output.split("\n")[1]
assert disk_line.startswith("Disk: ")
assert path_line.startswith("Path: ")
return disk_line[6:], path_line[6:]
def ls(
self, path: str, recursive: bool = False, show_hidden: bool = False
) -> Union[List[str], Dict[str, List[str]]]:
recursive_adding = "--recursive " if recursive else ""
show_hidden_adding = "--all " if show_hidden else ""
output = self.execute_query(
f"list {path} {recursive_adding} {show_hidden_adding}"
)
if recursive:
answer: Dict[str, List[str]] = dict()
blocks = output.split("\n\n")
for block in blocks:
directory = block.split("\n")[0][:-1]
files = block.split("\n")[1:]
answer[directory] = files
return answer
else:
return output.split("\n")
def switch_disk(self, disk: str, directory: Optional[str] = None):
directory_addition = f"--path {directory} " if directory is not None else ""
self.execute_query(f"switch-disk {disk} {directory_addition}")
def cd(self, directory: str, disk: Optional[str] = None):
disk_addition = f"--disk {disk} " if disk is not None else ""
self.execute_query(f"cd {directory} {disk_addition}")
def copy(
self,
path_from,
path_to,
disk_from: Optional[str] = None,
disk_to: Optional[str] = None,
):
disk_from_option = f"--disk-from {disk_from} " if disk_from is not None else ""
disk_to_option = f"--disk-to {disk_to} " if disk_to is not None else ""
self.execute_query(
f"copy {path_from} {path_to} {disk_from_option} {disk_to_option}"
)
def move(self, path_from: str, path_to: str):
self.execute_query(f"move {path_from} {path_to}")
def rm(self, path: str):
self.execute_query(f"rm {path}")
def mkdir(self, path: str, recursive: bool = False):
recursive_adding = "--recursive " if recursive else ""
self.execute_query(f"mkdir {path} {recursive_adding}")
def ln(self, path_from: str, path_to: str):
self.execute_query(f"link {path_from} {path_to}")
def read(self, path_from: str, path_to: Optional[str] = None):
path_to_adding = f"--path-to {path_to} " if path_to is not None else ""
output = self.execute_query(f"read {path_from} {path_to_adding}")
return output
def write(
self, path_from: str, path_to: str
): # Writing from stdin is difficult to test (do not know how to do this in python)
path_from_adding = f"--path-from {path_from}"
self.execute_query(f"write {path_from_adding} {path_to}")
@staticmethod
def getLocalDisksClient(refresh: bool):
if (DisksClient.local_client is None) or refresh:
binary_file = os.environ.get("CLICKHOUSE_TESTS_SERVER_BIN_PATH")
current_working_directory = str(pathlib.Path().resolve())
config_file = f"{current_working_directory}/test_disks_app_interactive/configs/config.xml"
if not os.path.exists(DisksClient.default_disk_root_directory):
os.mkdir(DisksClient.default_disk_root_directory)
DisksClient.local_client = DisksClient(
binary_file, config_file, current_working_directory
)
return DisksClient.local_client
else:
return DisksClient.local_client
def test_disks_app_interactive_list_disks():
client = DisksClient.getLocalDisksClient(True)
expected_disks_with_path = [
("default", "/"),
("local", client.working_path),
]
assert expected_disks_with_path == client.list_disks()
assert client.current_disk_with_path() == ("default", "/")
client.switch_disk("local")
assert client.current_disk_with_path() == (
"local",
client.working_path,
)
def test_disks_app_interactive_list_files_local():
client = DisksClient.getLocalDisksClient(True)
client.switch_disk("local")
excepted_listed_files = sorted(os.listdir("test_disks_app_interactive/"))
listed_files = sorted(client.ls("test_disks_app_interactive/"))
assert excepted_listed_files == listed_files
def test_disks_app_interactive_list_directories_default():
client = DisksClient.getLocalDisksClient(True)
traversed_dir = client.ls(".", recursive=True)
client.mkdir("dir1")
client.mkdir("dir2")
client.mkdir(".dir3")
client.cd("dir1")
client.mkdir("dir11")
client.mkdir(".dir12")
client.mkdir("dir13")
client.cd("../dir2")
client.mkdir("dir21")
client.mkdir("dir22")
client.mkdir(".dir23")
client.cd("../.dir3")
client.mkdir("dir31")
client.mkdir(".dir32")
client.cd("..")
traversed_dir = client.ls(".", recursive=True)
assert traversed_dir == {
".": ["dir1", "dir2"],
"./dir1": ["dir11", "dir13"],
"./dir2": ["dir21", "dir22"],
"./dir1/dir11": [],
"./dir1/dir13": [],
"./dir2/dir21": [],
"./dir2/dir22": [],
}
traversed_dir = client.ls(".", recursive=True, show_hidden=True)
assert traversed_dir == {
".": [".dir3", "dir1", "dir2"],
"./dir1": [".dir12", "dir11", "dir13"],
"./dir2": [".dir23", "dir21", "dir22"],
"./.dir3": [".dir32", "dir31"],
"./dir1/dir11": [],
"./dir1/.dir12": [],
"./dir1/dir13": [],
"./dir2/dir21": [],
"./dir2/dir22": [],
"./dir2/.dir23": [],
"./.dir3/dir31": [],
"./.dir3/.dir32": [],
}
client.rm("dir2")
traversed_dir = client.ls(".", recursive=True, show_hidden=True)
assert traversed_dir == {
".": [".dir3", "dir1"],
"./dir1": [".dir12", "dir11", "dir13"],
"./.dir3": [".dir32", "dir31"],
"./dir1/dir11": [],
"./dir1/.dir12": [],
"./dir1/dir13": [],
"./.dir3/dir31": [],
"./.dir3/.dir32": [],
}
traversed_dir = client.ls(".", recursive=True, show_hidden=False)
assert traversed_dir == {
".": ["dir1"],
"./dir1": ["dir11", "dir13"],
"./dir1/dir11": [],
"./dir1/dir13": [],
}
client.rm("dir1")
client.rm(".dir3")
assert client.ls(".", recursive=True, show_hidden=False) == {".": []}
def test_disks_app_interactive_cp_and_read():
initial_text = "File content"
with open("a.txt", "w") as file:
file.write(initial_text)
client = DisksClient.getLocalDisksClient(True)
client.switch_disk("default")
client.copy("a.txt", "/a.txt", disk_from="local", disk_to="default")
read_text = client.read("a.txt")
assert initial_text == read_text
client.mkdir("dir1")
client.copy("a.txt", "/dir1/b.txt", disk_from="local", disk_to="default")
read_text = client.read("a.txt", path_to="dir1/b.txt")
assert "" == read_text
read_text = client.read("/dir1/b.txt")
assert read_text == initial_text
with open(f"{DisksClient.default_disk_root_directory}/dir1/b.txt", "r") as file:
read_text = file.read()
assert read_text == initial_text
os.remove("a.txt")
client.rm("a.txt")
client.rm("/dir1")
def test_disks_app_interactive_test_move_and_write():
initial_text = "File content"
with open("a.txt", "w") as file:
file.write(initial_text)
client = DisksClient.getLocalDisksClient(True)
client.switch_disk("default")
client.copy("a.txt", "/a.txt", disk_from="local", disk_to="default")
files = client.ls(".")
assert files == ["a.txt"]
client.move("a.txt", "b.txt")
files = client.ls(".")
assert files == ["b.txt"]
read_text = client.read("/b.txt")
assert read_text == initial_text
client.write("b.txt", "c.txt")
read_text = client.read("c.txt")
assert read_text == initial_text
os.remove("a.txt")