import os import io import tempfile import contextlib import shutil import hashlib import base64 import logging import math import socket import inspect import threading import random import datetime import json import sys import irods.client_configuration as config import irods.rule from irods.session import iRODSSession from irods.message import iRODSMessage, IRODS_VERSION from irods.password_obfuscation import encode from irods import env_filename_from_keyword_args class iRODSUserLogins: """A class which creates users and set passwords from a given dict or list of tuples of (username,password). The utility method self.login(username) is then used to generate a session object for one of those users. This class may be used standalone or as a mixin. """ def session_for_user(self, username): session_parameters = dict( port=self.admin.port, zone=self.admin.zone, host=self.admin.host, user=username, ) password = self._pw.get(username, None) if password is not None: session_parameters["password"] = password return iRODSSession(**session_parameters) def create_user( self, username, password=None, usertype="rodsuser", auto_remove=True ): u = self.admin.users.create(username, usertype) if password is not None: u.modify("password", password) self._pw[username] = password if auto_remove: self._users_to_remove[username] = True def __init__(self, admin_session): self.admin = admin_session self._users_to_remove = {} self._pw = {} def __del__(self): for username in self._users_to_remove: self.admin.users.remove(username) def configuration_file_exists(): try: config.load( failure_modes=(config.NoConfigError,), verify_only=True, logging_level=logging.DEBUG, ) except config.NoConfigError: return False return True class StopTestsException(Exception): def __init__(self, *args, **kwargs): super(StopTestsException, self).__init__(*args, **kwargs) if "unittest" in sys.modules.keys(): print("Aborting tests [ Got : %r ]" % self, file=sys.stderr) os.abort() class iRODS_Server_Too_Recent(StopTestsException): pass def my_function_name(): """Returns the name of the calling function or method""" return inspect.getframeinfo(inspect.currentframe().f_back).function _thrlocal = threading.local() def unique_name(*seed_tuple): """For deterministic pseudo-random identifiers based on function/method name to prevent e.g. ICAT collisions within and between tests. Example use: def f(session): seq_num = 1 a_name = unique_name( my_function_name(), seq_num # [, *optional_further_args] ) seq_num += 1 session.resources.create( a_name, 'unixfilesystem', session.host, '/tmp/' + a_name ) """ if not getattr(_thrlocal, "rand_gen", None): _thrlocal.rand_gen = random.Random() _thrlocal.rand_gen.seed(hash(seed_tuple)) return "%016X" % _thrlocal.rand_gen.randint(0, (1 << 64) - 1) IRODS_SHARED_DIR = os.path.join(os.path.sep, "irods_shared") IRODS_SHARED_TMP_DIR = os.path.join(IRODS_SHARED_DIR, "tmp") IRODS_SHARED_REG_RESC_VAULT = os.path.join(IRODS_SHARED_DIR, "reg_resc") IRODS_REG_RESC = "MyRegResc" def irods_shared_tmp_dir(): pth = IRODS_SHARED_TMP_DIR can_write = False if os.path.exists(pth): try: tempfile.NamedTemporaryFile(dir=pth) except: pass else: can_write = True return pth if can_write else "" def irods_shared_reg_resc_vault(): vault = IRODS_SHARED_REG_RESC_VAULT if os.path.exists(vault): return vault else: return None def get_register_resource(session): vault_path = irods_shared_reg_resc_vault() Reg_Resc_Name = "" if vault_path: session.resources.create( IRODS_REG_RESC, "unixfilesystem", session.host, vault_path ) Reg_Resc_Name = IRODS_REG_RESC return Reg_Resc_Name def make_environment_and_auth_files(dir_, **params): if not os.path.exists(dir_): os.mkdir(dir_) def recast(k): return "irods_" + k + ("_name" if k in ("user", "zone") else "") config = os.path.join(dir_, "irods_environment.json") with open(config, "w") as f1: json.dump( {recast(k): v for k, v in params.items() if k != "password"}, f1, indent=4 ) auth = os.path.join(dir_, ".irodsA") with open(auth, "w") as f2: f2.write(encode(params["password"])) os.chmod(auth, 0o600) return (config, auth) # Create a connection for test, based on ~/.irods environment by default. def make_session(test_server_version=True, **kwargs): """Connect to an iRODS server as determined by any client environment file present at a standard location, and by any keyword arguments given. Arguments: test_server_version: Of type bool; in the `irods.test.helpers` version of this function, defaults to True. A True value causes *iRODS_Server_Too_Recent* to be raised if the server connected to is more recent than the current Python iRODS client's advertised level of compatibility. **kwargs: Keyword arguments. Fed directly to the iRODSSession constructor.""" env_file = env_filename_from_keyword_args(kwargs) session = iRODSSession(irods_env_file=env_file, **kwargs) if test_server_version: connected_version = session.server_version[:3] advertised_version = IRODS_VERSION[:3] if connected_version > advertised_version: msg = ( "Connected server is {connected_version}, " "but this python-irodsclient advertises compatibility up to {advertised_version}." ).format(**locals()) raise iRODS_Server_Too_Recent(msg) return session def home_collection(session): """Return a string value for the given session's home collection.""" return "/{0.zone}/home/{0.username}".format(session) def make_object(session, path, content=None, **options): if content is None: content = "blah" content = iRODSMessage.encode_unicode(content) if session.server_version <= (4, 1, 4): # 2 step open-create necessary for iRODS 4.1.4 or older obj = session.data_objects.create(path) with obj.open("w", **options) as obj_desc: obj_desc.write(content) else: with session.data_objects.open(path, "w", **options) as obj_desc: obj_desc.write(content) # refresh object after write return session.data_objects.get(path) def make_collection(session, path, object_names=None, object_content=None): # create collection coll = session.collections.create(path) # create objects if object_names: for name in object_names: obj_path = os.path.join(path, name) make_object(session, obj_path, content=object_content) return coll def make_test_collection(session, path, obj_count): coll = session.collections.create(path) for n in range(obj_count): obj_path = path + "/test" + str(n).zfill(6) + ".txt" make_object(session, obj_path) return coll def make_deep_collection( session, root_path, depth=10, objects_per_level=50, object_content=None ): # start at root path current_coll_path = root_path # make collections recursively for d in range(depth): # make list of object names obj_names = [ "obj" + str(i).zfill(len(str(objects_per_level))) for i in range(objects_per_level) ] # make subcollection and objects if d == 0: root_coll = make_collection( session, current_coll_path, obj_names, object_content ) else: make_collection(session, current_coll_path, obj_names, object_content) # next level down current_coll_path = os.path.join( current_coll_path, "subcoll" + str(d).zfill(len(str(d))) ) return root_coll def make_flat_test_dir(dir_path, file_count=10, file_size=1024): if file_count < 1: raise ValueError os.mkdir(dir_path) for i in range(file_count): # pad file name suffix with zeroes suffix_width = int(math.log10(file_count)) + 1 file_path = "{dir_path}/test_{i:0>{suffix_width}}.txt".format(**locals()) # make random binary file with open(file_path, "wb") as f: f.write(os.urandom(file_size)) @contextlib.contextmanager def create_simple_resc(self, rescName=None, vault_path="", hostname=""): if not rescName: rescName = "simple_resc_" + unique_name( my_function_name() + "_simple_resc", datetime.datetime.now() ) created = False try: self.sess.resources.create( rescName, "unixfilesystem", host=self.sess.host if not hostname else hostname, path=vault_path or "/tmp/" + rescName, ) created = True yield rescName finally: if created: self.sess.resources.remove(rescName) @contextlib.contextmanager def create_simple_resc_hierarchy(self, Root, Leaf): d = tempfile.mkdtemp() self.sess.resources.create(Leaf, "unixfilesystem", host=self.sess.host, path=d) self.sess.resources.create(Root, "passthru") self.sess.resources.add_child(Root, Leaf) try: yield ";".join([Root, Leaf]) finally: self.sess.resources.remove_child(Root, Leaf) self.sess.resources.remove(Leaf) self.sess.resources.remove(Root) shutil.rmtree(d) def chunks(f, chunksize=io.DEFAULT_BUFFER_SIZE): return iter(lambda: f.read(chunksize), b"") def compute_sha256_digest(file_path): hasher = hashlib.sha256() with open(file_path, "rb") as f: for chunk in chunks(f): hasher.update(chunk) return base64.b64encode(hasher.digest()).decode() def remove_unused_metadata(session): from irods.message import GeneralAdminRequest from irods.api_number import api_number message_body = GeneralAdminRequest("rm", "unusedAVUs", "", "", "", "") req = iRODSMessage( "RODS_API_REQ", msg=message_body, int_info=api_number["GENERAL_ADMIN_AN"] ) with session.pool.get_connection() as conn: conn.send(req) response = conn.recv() if response.int_info != 0: raise RuntimeError("Error removing unused AVUs") @contextlib.contextmanager def file_backed_up(filename, require_that_file_exists=True): _basename = os.path.basename(filename) if os.path.exists(filename) else None if _basename is None and require_that_file_exists: err = RuntimeError( "Attempted to back up a file which doesn't exist: %r" % (filename,) ) raise err with tempfile.NamedTemporaryFile( prefix=("tmp" if not _basename else _basename) ) as f: try: if _basename is not None: shutil.copyfile(filename, f.name) yield filename finally: if _basename is None: # Restore the condition of the file being absent. if os.path.exists(filename): os.unlink(filename) else: # Restore the file's contents as they were originally. shutil.copyfile(f.name, filename) @contextlib.contextmanager def environment_variable_backed_up(var): old_value = os.environ.get(var) try: yield var finally: os.environ.pop(var, None) if old_value is not None: os.environ[var] = old_value def irods_session_host_local(sess): return socket.gethostbyname(sess.host) == socket.gethostbyname(socket.gethostname()) @contextlib.contextmanager def enableLogging(logger, handlerType, args, level_=logging.INFO): """Context manager for temporarily enabling a logger. For debug or test. Usage Example ------------- Dump INFO and higher priority logging messages from irods.parallel module to a temporary log file: with irods.test.helpers.enableLogging(logging.getLogger('irods.parallel'), logging.FileHandler,(tempfile.gettempdir()+'/logfile.txt',)): # parallel put/get test call here """ h = None saveLevel = logger.level try: logger.setLevel(level_) h = handlerType(*args) h.setLevel(level_) logger.addHandler(h) yield finally: logger.setLevel(saveLevel) if h in logger.handlers: logger.removeHandler(h) class _unlikely_value: pass @contextlib.contextmanager def temporarily_assign_attribute( target, attr, value, not_set_indicator=_unlikely_value() ): save = not_set_indicator try: save = getattr(target, attr, not_set_indicator) setattr(target, attr, value) yield finally: if save != not_set_indicator: setattr(target, attr, save) else: delattr(target, attr) # Implement a server-side wait that ensures no TCP communication from server end for a given interval. # Useful to test the effect of socket inactivity on a client. See python-irodsclient issue #569 def server_side_sleep(session, seconds): # Round floating-point seconds to nearest integer + microseconds figure, required by msiSleep. int_, frac_ = [int(_) for _ in divmod(seconds * 1.0e6 + 0.5, 1.0e6)] rule_code = "msiSleep('{}','{}')".format(int_, frac_) # Call the msiSleep microservice. irods.rule.Rule( session, body=rule_code, instance_name="irods_rule_engine_plugin-irods_rule_language-instance", ).execute()