frostfs-testcases/robot/resources/lib/python_keywords/node_management.py
Vladimir Domnich 68cbb7deea Update variables for node management tests
New variables allow us:
1. To configure path of CLI binaries and config file on storage node.
2. Update variable names for storage node endpoints.

Signed-off-by: Vladimir Domnich <v.domnich@yadro.com>
2022-08-05 13:29:30 +03:00

256 lines
8.7 KiB
Python

#!/usr/bin/python3
"""
This module contains keywords for management test stand
nodes. It assumes that nodes are docker containers.
"""
import random
import re
from dataclasses import dataclass
from typing import List
import docker
from common import NEOFS_NETMAP_DICT, STORAGE_NODE_BIN_PATH, STORAGE_NODE_CONFIG_PATH
from robot.api import logger
from robot.api.deco import keyword
from ssh_helper import HostClient
ROBOT_AUTO_KEYWORDS = False
@dataclass
class HealthStatus:
network_status: str = None
health_status: str = None
@staticmethod
def from_stdout(output: str) -> 'HealthStatus':
network, health = None, None
for line in output.split('\n'):
if 'Network status' in line:
network = line.split(':')[-1].strip()
if 'Health status' in line:
health = line.split(':')[-1].strip()
return HealthStatus(network, health)
@keyword('Stop Nodes')
def stop_nodes(number: int, nodes: list):
"""
The function shuts down the given number of randomly
selected nodes in docker.
Args:
number (int): the number of nodes to shut down
nodes (list): the list of nodes for possible shut down
Returns:
(list): the list of nodes which have been shut down
"""
nodes = random.sample(nodes, number)
client = docker.APIClient()
for node in nodes:
node = node.split('.')[0]
client.stop(node)
return nodes
@keyword('Start Nodes')
def start_nodes(nodes: list):
"""
The function raises the given nodes.
Args:
nodes (list): the list of nodes to raise
Returns:
(void)
"""
client = docker.APIClient()
for node in nodes:
node = node.split('.')[0]
client.start(node)
@keyword('Get control endpoint and wallet')
def get_control_endpoint_and_wallet(endpoint_number: str = ''):
"""
Gets control endpoint for a random or given node
Args:
endpoint_number (optional, str): the number of the node
in the form of 's01', 's02', etc.
given in NEOFS_NETMAP_DICT as keys
Returns:
(str): the number of the node
(str): endpoint control for the node
(str): the wallet of the respective node
"""
if endpoint_number == '':
endpoint_num = random.choice(list(NEOFS_NETMAP_DICT.keys()))
logger.info(f'Random node chosen: {endpoint_num}')
else:
endpoint_num = endpoint_number
endpoint_values = NEOFS_NETMAP_DICT[f'{endpoint_num}']
endpoint_control = endpoint_values['control']
wlt = endpoint_values['wallet_path']
return endpoint_num, endpoint_control, wlt
@keyword('Get Locode')
def get_locode():
endpoint_values = random.choice(list(NEOFS_NETMAP_DICT.values()))
locode = endpoint_values['UN-LOCODE']
logger.info(f'Random locode chosen: {locode}')
return locode
@keyword('Stop Nodes Remote')
def stop_nodes_remote(client: HostClient, number: int, nodes: list):
"""
The function shuts down the given number of randomly
selected nodes in docker.
Args:
client (HostClient): client that implements exec command
number (int): the number of nodes to shut down
nodes (list): the list of nodes for possible shut down
Returns:
(list): the list of nodes which have been shut down
"""
nodes = random.sample(nodes, number)
for node in nodes:
node = node.split('.')[0]
client.exec(f'docker stop {node}')
return nodes
@keyword('Start Nodes Remote')
def start_nodes_remote(client: HostClient, nodes: list):
"""
The function starts nodes in docker.
Args:
client (HostClient): client that implements exec command
nodes (list): the list of nodes for possible shut down
"""
for node in nodes:
node = node.split('.')[0]
client.exec(f'docker start {node}')
@keyword('Healthcheck for node')
def node_healthcheck(client: HostClient, node_name: str) -> HealthStatus:
"""
The function returns node's health status.
Args:
client HostClient: client that implements exec command.
node_name str: node name to use for netmap snapshot operation
Returns:
health status as HealthStatus object.
"""
if node_name not in NEOFS_NETMAP_DICT:
raise AssertionError(f'Node {node_name} is not found!')
node_config = NEOFS_NETMAP_DICT.get(node_name)
control_url = node_config.get('control')
cmd = f'{STORAGE_NODE_BIN_PATH}/neofs-cli control healthcheck --endpoint {control_url} ' \
f'--config {STORAGE_NODE_CONFIG_PATH}'
output = client.exec_with_confirmation(cmd, [''])
return HealthStatus.from_stdout(output.stdout)
@keyword('Set status for node')
def node_set_status(client: HostClient, node_name: str, status: str):
"""
The function sets particular status for given node.
Args:
client HostClient: client that implements exec command.
node_name str: node name to use for netmap snapshot operation
status str: online or offline.
Returns:
(void)
"""
if node_name not in NEOFS_NETMAP_DICT:
raise AssertionError(f'Node {node_name} is not found!')
node_config = NEOFS_NETMAP_DICT.get(node_name)
control_url = node_config.get('control')
cmd = f'{STORAGE_NODE_BIN_PATH}/neofs-cli control set-status --endpoint {control_url} ' \
f'--config {STORAGE_NODE_CONFIG_PATH} --status {status}'
client.exec_with_confirmation(cmd, [''])
@keyword('Get netmap snapshot')
def get_netmap_snapshot(client: HostClient, node_name: str = None) -> str:
"""
The function returns string representation of netmap-snapshot.
Args:
client HostClient: client that implements exec command.
node_name str: node name to use for netmap snapshot operation
Returns:
string representation of netmap-snapshot
"""
node_name = node_name or list(NEOFS_NETMAP_DICT)[0]
if node_name not in NEOFS_NETMAP_DICT:
raise AssertionError(f'Node {node_name} is not found!')
node_config = NEOFS_NETMAP_DICT.get(node_name)
control_url = node_config.get('control')
cmd = f'{STORAGE_NODE_BIN_PATH}/neofs-cli control netmap-snapshot --endpoint {control_url} ' \
f'--config {STORAGE_NODE_CONFIG_PATH}'
output = client.exec_with_confirmation(cmd, [''])
return output.stdout
@keyword('Shard list for node')
def node_shard_list(client: HostClient, node_name: str) -> List[str]:
"""
The function returns list of shards for particular node.
Args:
client HostClient: client that implements exec command.
node_name str: node name to use for netmap snapshot operation
Returns:
list of shards.
"""
node_config = NEOFS_NETMAP_DICT.get(node_name)
control_url = node_config.get('control')
cmd = f'{STORAGE_NODE_BIN_PATH}/neofs-cli control shards list --endpoint {control_url} ' \
f'--config {STORAGE_NODE_CONFIG_PATH}'
output = client.exec_with_confirmation(cmd, [''])
return re.findall(r'Shard (.*):', output.stdout)
@keyword('Shard list for node')
def node_shard_set_mode(client: HostClient, node_name: str, shard: str, mode: str) -> str:
"""
The function sets mode for node's particular shard.
Args:
client HostClient: client that implements exec command.
node_name str: node name to use for netmap snapshot operation
Returns:
health status as HealthStatus object.
"""
node_config = NEOFS_NETMAP_DICT.get(node_name)
control_url = node_config.get('control')
cmd = f'{STORAGE_NODE_BIN_PATH}/neofs-cli control shards set-mode --endpoint {control_url} ' \
f'--config {STORAGE_NODE_CONFIG_PATH} --id {shard} --mode {mode}'
output = client.exec_with_confirmation(cmd, [''])
return output.stdout
@keyword('Drop object from node {node_name}')
def drop_object(client: HostClient, node_name: str, cid: str, oid: str) -> str:
"""
The function drops object from particular node.
Args:
client HostClient: client that implements exec command.
node_name str: node name to use for netmap snapshot operation
Returns:
health status as HealthStatus object.
"""
node_config = NEOFS_NETMAP_DICT.get(node_name)
control_url = node_config.get('control')
cmd = f'{STORAGE_NODE_BIN_PATH}/neofs-cli control drop-objects --endpoint {control_url} ' \
f'--config {STORAGE_NODE_CONFIG_PATH} -o {cid}/{oid}'
output = client.exec_with_confirmation(cmd, [''])
return output.stdout