frostfs-testcases/robot/resources/lib/python/neofs.py

#!/usr/bin/python3

import base64
from datetime import datetime
import hashlib
import json
import os
import re
import random
import uuid
import docker
import base58

from neo3 import wallet
from common import *
from robot.api.deco import keyword
from robot.api import logger

from cli_helpers import _run_with_passwd, _cmd_run
import json_transformers

ROBOT_AUTO_KEYWORDS = False

# path to neofs-cli executable
NEOFS_CLI_EXEC = os.getenv('NEOFS_CLI_EXEC', 'neofs-cli')


# TODO: move to neofs-keywords
@keyword('Get ScriptHash')
def get_scripthash(wif: str):
    acc = wallet.Account.from_wif(wif, '')
    return str(acc.script_hash)


@keyword('Stop nodes')
def stop_nodes(down_num: int, *nodes_list):

    # select nodes to stop from list
    stop_nodes = random.sample(nodes_list, down_num)

    for node in stop_nodes:
        m = re.search(r'(s\d+).', node)
        node = m.group(1)

        client = docker.APIClient()
        client.stop(node)

    return stop_nodes


@keyword('Start nodes')
def start_nodes(*nodes_list):

    for node in nodes_list:
        m = re.search(r'(s\d+).', node)
        node = m.group(1)
        client = docker.APIClient()
        client.start(node)


@keyword('Get nodes with object')
def get_nodes_with_object(wallet: str, cid: str, oid: str):
    copies = 0

    nodes_list = []

    for node in NEOFS_NETMAP:
        search_res = _search_object(node, wallet, cid, oid)
        if search_res:
            if oid in search_res:
                nodes_list.append(node)

    logger.info(f"Nodes with object: {nodes_list}")
    return nodes_list


@keyword('Get nodes without object')
def get_nodes_without_object(wallet: str, cid: str, oid: str):
    copies = 0

    nodes_list = []

    for node in NEOFS_NETMAP:
        search_res = _search_object(node, wallet, cid, oid)
        if search_res:
            if not re.search(fr'({oid})', search_res):
                nodes_list.append(node)
        else:
            nodes_list.append(node)

    logger.info(f"Nodes without object: {nodes_list}")
    return nodes_list


@keyword('Validate storage policy for object')
def validate_storage_policy_for_object(wallet: str, expected_copies: int, cid, oid,
                expected_node_list=[], storage_nodes=[]):
    storage_nodes = storage_nodes if len(storage_nodes) != 0 else NEOFS_NETMAP
    copies = 0
    found_nodes = []
    oid = oid.strip()

    for node in storage_nodes:
        search_res = _search_object(node, wallet, cid, oid)
        if search_res:
            if oid in search_res:
                copies += 1
                found_nodes.append(node)

    if copies != expected_copies:
        raise Exception(f"Object copies is not match storage policy.",
                        f"Found: {copies}, expected: {expected_copies}.")
    else:
        logger.info(f"Found copies: {copies}, expected: {expected_copies}")

    logger.info(f"Found nodes: {found_nodes}")

    if expected_node_list:
        if sorted(found_nodes) == sorted(expected_node_list):
            logger.info(f"Found node list '{found_nodes}' is equal for expected list '{expected_node_list}'")
        else:
            raise Exception(f"Found node list '{found_nodes}' is not equal to expected list '{expected_node_list}'")


@keyword('Verify Head Tombstone')
def verify_head_tombstone(wallet: str, cid: str, oid_ts: str, oid: str, addr: str):
    # TODO: replace with HEAD from neofs_verbs.py
    object_cmd = (
        f'{NEOFS_CLI_EXEC} --rpc-endpoint {NEOFS_ENDPOINT} --wallet {wallet} '
        f'--config {WALLET_PASS} object head --cid {cid} --oid {oid_ts} --json'
    )
    output = _cmd_run(object_cmd)
    full_headers = json.loads(output)
    logger.info(f"Output: {full_headers}")

    # Header verification
    header_cid = full_headers["header"]["containerID"]["value"]
    if (json_transformers.json_reencode(header_cid) == cid):
        logger.info(f"Header CID is expected: {cid} ({header_cid} in the output)")
    else:
        raise Exception("Header CID is not expected.")

    header_owner = full_headers["header"]["ownerID"]["value"]
    if (json_transformers.json_reencode(header_owner) == addr):
        logger.info(f"Header ownerID is expected: {addr} ({header_owner} in the output)")
    else:
        raise Exception("Header ownerID is not expected.")

    header_type = full_headers["header"]["objectType"]
    if (header_type == "TOMBSTONE"):
        logger.info(f"Header Type is expected: {header_type}")
    else:
        raise Exception("Header Type is not expected.")

    header_session_type = full_headers["header"]["sessionToken"]["body"]["object"]["verb"]
    if (header_session_type == "DELETE"):
        logger.info(f"Header Session Type is expected: {header_session_type}")
    else:
        raise Exception("Header Session Type is not expected.")

    header_session_cid = full_headers["header"]["sessionToken"]["body"]["object"]["address"]["containerID"]["value"]
    if (json_transformers.json_reencode(header_session_cid) == cid):
        logger.info(f"Header ownerID is expected: {addr} ({header_session_cid} in the output)")
    else:
        raise Exception("Header Session CID is not expected.")

    header_session_oid = full_headers["header"]["sessionToken"]["body"]["object"]["address"]["objectID"]["value"]
    if (json_transformers.json_reencode(header_session_oid) == oid):
        logger.info(f"Header Session OID (deleted object) is expected: {oid} ({header_session_oid} in the output)")
    else:
        raise Exception("Header Session OID (deleted object) is not expected.")


@keyword('Get file hash')
def get_file_hash(filename : str):
    file_hash = _get_file_hash(filename)
    return file_hash


@keyword('Get control endpoint with wif')
def get_control_endpoint_with_wif(endpoint_number: str = ''):
    if endpoint_number == '':
        netmap = []
        for key in NEOFS_NETMAP_DICT.keys():
            netmap.append(key)
        endpoint_num = random.sample(netmap, 1)[0]
        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']
    wif = endpoint_values['wif']

    return endpoint_num, endpoint_control, wif


@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('Get Nodes Log Latest Timestamp')
def get_logs_latest_timestamp():
    """
    Keyword return:
    nodes_logs_time -- structure (dict) of nodes container name (key) and latest logs timestamp (value)
    """
    client_api = docker.APIClient()

    nodes_logs_time = dict()

    for node in NEOFS_NETMAP:
        container = node.split('.')[0]
        log_line = client_api.logs(container, tail=1)

        m = re.search(r'(\d{4}-\d{2}-\d{2}T\d{2}:\d{2}:\d{2}\.\d+Z)', str(log_line))
        if m != None:
            timestamp = m.group(1)

        timestamp_date = datetime.fromisoformat(timestamp[:-1])

        nodes_logs_time[container] = timestamp_date

    logger.info(f"Latest logs timestamp list: {nodes_logs_time}")

    return nodes_logs_time


@keyword('Find in Nodes Log')
def find_in_nodes_Log(line: str, nodes_logs_time: dict):

    client_api = docker.APIClient()
    container_names = list()

    for docker_container in client_api.containers():
        container_names.append(docker_container['Names'][0][1:])

    global_count = 0

    for container in nodes_logs_time.keys():
        # check if container exists
        if container in container_names:
            # Get log since timestamp
            timestamp_date = nodes_logs_time[container]
            log_lines = client_api.logs(container, since=timestamp_date)
            logger.info(f"Timestamp since: {timestamp_date}")
            found_count = len(re.findall(line, log_lines.decode("utf-8") ))
            logger.info(f"Node {container} log - found counter: {found_count}")
            global_count += found_count

        else:
            logger.info(f"Container {container} has not been found.")

    if global_count > 0:
        logger.info(f"Expected line '{line}' has been found in the logs.")
    else:
        raise Exception(f"Expected line '{line}' has not been found in the logs.")

    return 1


@keyword('Generate Session Token')
def generate_session_token(owner: str, pub_key: str, cid: str = "", wildcard: bool = False) -> str:

    file_path = f"{os.getcwd()}/{ASSETS_DIR}/{str(uuid.uuid4())}"

    owner_64 = base64.b64encode(base58.b58decode(owner)).decode('utf-8')
    cid_64 = base64.b64encode(cid.encode('utf-8')).decode('utf-8')
    pub_key_64 = base64.b64encode(bytes.fromhex(pub_key)).decode('utf-8')
    id_64 = base64.b64encode(uuid.uuid4().bytes).decode('utf-8')

    session_token = {
                    "body":{
                        "id":f"{id_64}",
                        "ownerID":{
                            "value":f"{owner_64}"
                        },
                        "lifetime":{
                            "exp":"100000000",
                            "nbf":"0",
                            "iat":"0"
                        },
                        "sessionKey":f"{pub_key_64}",
                        "container":{
                            "verb":"PUT",
                            "wildcard": wildcard,
                            **({ "containerID":{"value":f"{cid_64}"} } if not wildcard else {})
                        }
                    }
                }

    logger.info(f"Got this Session Token: {session_token}")

    with open(file_path, 'w', encoding='utf-8') as session_token_file:
        json.dump(session_token, session_token_file, ensure_ascii=False, indent=4)

    return file_path


@keyword ('Sign Session Token')
def sign_session_token(session_token: str, wallet: str, to_file: str=''):
    if to_file:
        to_file = f'--to {to_file}'
    cmd = (
        f'{NEOFS_CLI_EXEC} util sign session-token --from {session_token} '
        f'-w {wallet} {to_file} --config {WALLET_PASS}'
    )
    logger.info(f"cmd: {cmd}")
    _cmd_run(cmd)


def _get_file_hash(filename):
    blocksize = 65536
    hash = hashlib.md5()
    with open(filename, "rb") as f:
        for block in iter(lambda: f.read(blocksize), b""):
            hash.update(block)
    logger.info(f"Hash: {hash.hexdigest()}")
    return hash.hexdigest()


def _parse_oid(input_str: str):
    """
    This function parses OID from given CLI output. The input string we
    expect:
        Object successfully stored
          ID: 4MhrLA7RXTBXCsaNnbahYVAPuoQdiUPuyNEWnywvoSEs
          CID: HeZu2DXBuPve6HXbuHZx64knS7KcGtfSj2L59Li72kkg
    We want to take 'ID' value from the string.

    Parameters:
    - input_str: a string with command run output
    """
    try:
        # taking second string from command output
        snd_str = input_str.split('\n')[1]
    except:
        logger.error(f"Got empty input: {input_str}")
    splitted = snd_str.split(": ")
    if len(splitted) != 2:
        raise Exception(f"no OID was parsed from command output: \t{snd_str}")
    return splitted[1]


def _search_object(node:str, wallet: str, cid:str, oid: str):
    Cmd = (
        f'{NEOFS_CLI_EXEC} --rpc-endpoint {node} --wallet {wallet} --ttl 1 '
        f'object search --root --cid {cid} --oid {oid} --config {WALLET_PASS}'
    )
    output = _cmd_run(Cmd)
    return output