Source code for aiida.engine.daemon.execmanager

# -*- coding: utf-8 -*-
###########################################################################
# Copyright (c), The AiiDA team. All rights reserved.                     #
# This file is part of the AiiDA code.                                    #
#                                                                         #
# The code is hosted on GitHub at https://github.com/aiidateam/aiida-core #
# For further information on the license, see the LICENSE.txt file        #
# For further information please visit http://www.aiida.net               #
###########################################################################
"""
This file contains the main routines to submit, check and retrieve calculation
results. These are general and contain only the main logic; where appropriate,
the routines make reference to the suitable plugins for all
plugin-specific operations.
"""
import os

from aiida.common import AIIDA_LOGGER, exceptions
from aiida.common.datastructures import CalcJobState
from aiida.common.folders import SandboxFolder
from aiida.common.links import LinkType
from aiida.orm import FolderData, Node
from aiida.orm.utils.log import get_dblogger_extra
from aiida.plugins import DataFactory
from aiida.schedulers.datastructures import JobState

REMOTE_WORK_DIRECTORY_LOST_FOUND = 'lost+found'

execlogger = AIIDA_LOGGER.getChild('execmanager')


[docs]def upload_calculation(node, transport, calc_info, folder, inputs=None, dry_run=False): """Upload a `CalcJob` instance :param node: the `CalcJobNode`. :param transport: an already opened transport to use to submit the calculation. :param calc_info: the calculation info datastructure returned by `CalcJob.presubmit` :param folder: temporary local file system folder containing the inputs written by `CalcJob.prepare_for_submission` """ # pylint: disable=too-many-locals,too-many-branches,too-many-statements from logging import LoggerAdapter from tempfile import NamedTemporaryFile from aiida.orm import load_node, Code, RemoteData # If the calculation already has a `remote_folder`, simply return. The upload was apparently already completed # before, which can happen if the daemon is restarted and it shuts down after uploading but before getting the # chance to perform the state transition. Upon reloading this calculation, it will re-attempt the upload. link_label = 'remote_folder' if node.get_outgoing(RemoteData, link_label_filter=link_label).first(): execlogger.warning('CalcJobNode<{}> already has a `{}` output: skipping upload'.format(node.pk, link_label)) return calc_info computer = node.computer codes_info = calc_info.codes_info input_codes = [load_node(_.code_uuid, sub_classes=(Code,)) for _ in codes_info] logger_extra = get_dblogger_extra(node) transport.set_logger_extra(logger_extra) logger = LoggerAdapter(logger=execlogger, extra=logger_extra) if not dry_run and node.has_cached_links(): raise ValueError( 'Cannot submit calculation {} because it has cached input links! If you just want to test the ' 'submission, set `metadata.dry_run` to True in the inputs.'.format(node.pk) ) # If we are performing a dry-run, the working directory should actually be a local folder that should already exist if dry_run: workdir = transport.getcwd() else: remote_user = transport.whoami() remote_working_directory = computer.get_workdir().format(username=remote_user) if not remote_working_directory.strip(): raise exceptions.ConfigurationError( "[submission of calculation {}] No remote_working_directory configured for computer '{}'".format( node.pk, computer.name ) ) # If it already exists, no exception is raised try: transport.chdir(remote_working_directory) except IOError: logger.debug( '[submission of calculation {}] Unable to chdir in {}, trying to create it'.format( node.pk, remote_working_directory ) ) try: transport.makedirs(remote_working_directory) transport.chdir(remote_working_directory) except EnvironmentError as exc: raise exceptions.ConfigurationError( '[submission of calculation {}] ' 'Unable to create the remote directory {} on ' "computer '{}': {}".format(node.pk, remote_working_directory, computer.name, exc) ) # Store remotely with sharding (here is where we choose # the folder structure of remote jobs; then I store this # in the calculation properties using _set_remote_dir # and I do not have to know the logic, but I just need to # read the absolute path from the calculation properties. transport.mkdir(calc_info.uuid[:2], ignore_existing=True) transport.chdir(calc_info.uuid[:2]) transport.mkdir(calc_info.uuid[2:4], ignore_existing=True) transport.chdir(calc_info.uuid[2:4]) try: # The final directory may already exist, most likely because this function was already executed once, but # failed and as a result was rescheduled by the eninge. In this case it would be fine to delete the folder # and create it from scratch, except that we cannot be sure that this the actual case. Therefore, to err on # the safe side, we move the folder to the lost+found directory before recreating the folder from scratch transport.mkdir(calc_info.uuid[4:]) except OSError: # Move the existing directory to lost+found, log a warning and create a clean directory anyway path_existing = os.path.join(transport.getcwd(), calc_info.uuid[4:]) path_lost_found = os.path.join(remote_working_directory, REMOTE_WORK_DIRECTORY_LOST_FOUND) path_target = os.path.join(path_lost_found, calc_info.uuid) logger.warning( 'tried to create path {} but it already exists, moving the entire folder to {}'.format( path_existing, path_target ) ) # Make sure the lost+found directory exists, then copy the existing folder there and delete the original transport.mkdir(path_lost_found, ignore_existing=True) transport.copytree(path_existing, path_target) transport.rmtree(path_existing) # Now we can create a clean folder for this calculation transport.mkdir(calc_info.uuid[4:]) finally: transport.chdir(calc_info.uuid[4:]) # I store the workdir of the calculation for later file retrieval workdir = transport.getcwd() node.set_remote_workdir(workdir) # I first create the code files, so that the code can put # default files to be overwritten by the plugin itself. # Still, beware! The code file itself could be overwritten... # But I checked for this earlier. for code in input_codes: if code.is_local(): # Note: this will possibly overwrite files for filename in code.list_object_names(): # Note, once #2579 is implemented, use the `node.open` method instead of the named temporary file in # combination with the new `Transport.put_object_from_filelike` # Since the content of the node could potentially be binary, we read the raw bytes and pass them on with NamedTemporaryFile(mode='wb+') as handle: handle.write(code.get_object_content(filename, mode='rb')) handle.flush() transport.put(handle.name, filename) transport.chmod(code.get_local_executable(), 0o755) # rwxr-xr-x # In a dry_run, the working directory is the raw input folder, which will already contain these resources if not dry_run: for filename in folder.get_content_list(): logger.debug('[submission of calculation {}] copying file/folder {}...'.format(node.pk, filename)) transport.put(folder.get_abs_path(filename), filename) # local_copy_list is a list of tuples, each with (uuid, dest_rel_path) # NOTE: validation of these lists are done inside calculation.presubmit() local_copy_list = calc_info.local_copy_list or [] remote_copy_list = calc_info.remote_copy_list or [] remote_symlink_list = calc_info.remote_symlink_list or [] for uuid, filename, target in local_copy_list: logger.debug('[submission of calculation {}] copying local file/folder to {}'.format(node.uuid, target)) def find_data_node(inputs, uuid): """Find and return the node with the given UUID from a nested mapping of input nodes. :param inputs: (nested) mapping of nodes :param uuid: UUID of the node to find :return: instance of `Node` or `None` if not found """ from collections.abc import Mapping data_node = None for input_node in inputs.values(): if isinstance(input_node, Mapping): data_node = find_data_node(input_node, uuid) elif isinstance(input_node, Node) and input_node.uuid == uuid: data_node = input_node if data_node is not None: break return data_node try: data_node = load_node(uuid=uuid) except exceptions.NotExistent: data_node = find_data_node(inputs, uuid) if data_node is None: logger.warning('failed to load Node<{}> specified in the `local_copy_list`'.format(uuid)) else: # Note, once #2579 is implemented, use the `node.open` method instead of the named temporary file in # combination with the new `Transport.put_object_from_filelike` # Since the content of the node could potentially be binary, we read the raw bytes and pass them on with NamedTemporaryFile(mode='wb+') as handle: handle.write(data_node.get_object_content(filename, mode='rb')) handle.flush() transport.put(handle.name, target) if dry_run: if remote_copy_list: with open(os.path.join(workdir, '_aiida_remote_copy_list.txt'), 'w') as handle: for remote_computer_uuid, remote_abs_path, dest_rel_path in remote_copy_list: handle.write( 'would have copied {} to {} in working directory on remote {}'.format( remote_abs_path, dest_rel_path, computer.name ) ) if remote_symlink_list: with open(os.path.join(workdir, '_aiida_remote_symlink_list.txt'), 'w') as handle: for remote_computer_uuid, remote_abs_path, dest_rel_path in remote_symlink_list: handle.write( 'would have created symlinks from {} to {} in working directory on remote {}'.format( remote_abs_path, dest_rel_path, computer.name ) ) else: for (remote_computer_uuid, remote_abs_path, dest_rel_path) in remote_copy_list: if remote_computer_uuid == computer.uuid: logger.debug( '[submission of calculation {}] copying {} remotely, directly on the machine {}'.format( node.pk, dest_rel_path, computer.name ) ) try: transport.copy(remote_abs_path, dest_rel_path) except (IOError, OSError): logger.warning( '[submission of calculation {}] Unable to copy remote resource from {} to {}! ' 'Stopping.'.format(node.pk, remote_abs_path, dest_rel_path) ) raise else: raise NotImplementedError( '[submission of calculation {}] Remote copy between two different machines is ' 'not implemented yet'.format(node.pk) ) for (remote_computer_uuid, remote_abs_path, dest_rel_path) in remote_symlink_list: if remote_computer_uuid == computer.uuid: logger.debug( '[submission of calculation {}] copying {} remotely, directly on the machine {}'.format( node.pk, dest_rel_path, computer.name ) ) try: transport.symlink(remote_abs_path, dest_rel_path) except (IOError, OSError): logger.warning( '[submission of calculation {}] Unable to create remote symlink from {} to {}! ' 'Stopping.'.format(node.pk, remote_abs_path, dest_rel_path) ) raise else: raise IOError( 'It is not possible to create a symlink between two different machines for ' 'calculation {}'.format(node.pk) ) provenance_exclude_list = calc_info.provenance_exclude_list or [] # Loop recursively over content of the sandbox folder copying all that are not in `provenance_exclude_list`. Note # that directories are not created explicitly. The `node.put_object_from_filelike` call will create intermediate # directories for nested files automatically when needed. This means though that empty folders in the sandbox or # folders that would be empty when considering the `provenance_exclude_list` will *not* be copied to the repo. The # advantage of this explicit copying instead of deleting the files from `provenance_exclude_list` from the sandbox # first before moving the entire remaining content to the node's repository, is that in this way we are guaranteed # not to accidentally move files to the repository that should not go there at all cost. for root, _, filenames in os.walk(folder.abspath): for filename in filenames: filepath = os.path.join(root, filename) relpath = os.path.relpath(filepath, folder.abspath) if relpath not in provenance_exclude_list: with open(filepath, 'rb') as handle: node.put_object_from_filelike(handle, relpath, 'wb', force=True) if not dry_run: # Make sure that attaching the `remote_folder` with a link is the last thing we do. This gives the biggest # chance of making this method idempotent. That is to say, if a runner gets interrupted during this action, it # will simply retry the upload, unless we got here and managed to link it up, in which case we move to the next # task. Because in that case, the check for the existence of this link at the top of this function will exit # early from this command. remotedata = RemoteData(computer=computer, remote_path=workdir) remotedata.add_incoming(node, link_type=LinkType.CREATE, link_label='remote_folder') remotedata.store()
[docs]def submit_calculation(calculation, transport): """Submit a previously uploaded `CalcJob` to the scheduler. :param calculation: the instance of CalcJobNode to submit. :param transport: an already opened transport to use to submit the calculation. :return: the job id as returned by the scheduler `submit_from_script` call """ job_id = calculation.get_job_id() # If the `job_id` attribute is already set, that means this function was already executed once and the scheduler # submit command was successful as the job id it returned was set on the node. This scenario can happen when the # daemon runner gets shutdown right after accomplishing the submission task, but before it gets the chance to # finalize the state transition of the `CalcJob` to the `UPDATE` transport task. Since the job is already submitted # we do not want to submit it a second time, so we simply return the existing job id here. if job_id is not None: return job_id scheduler = calculation.computer.get_scheduler() scheduler.set_transport(transport) submit_script_filename = calculation.get_option('submit_script_filename') workdir = calculation.get_remote_workdir() job_id = scheduler.submit_from_script(workdir, submit_script_filename) calculation.set_job_id(job_id) return job_id
[docs]def retrieve_calculation(calculation, transport, retrieved_temporary_folder): """Retrieve all the files of a completed job calculation using the given transport. If the job defined anything in the `retrieve_temporary_list`, those entries will be stored in the `retrieved_temporary_folder`. The caller is responsible for creating and destroying this folder. :param calculation: the instance of CalcJobNode to update. :param transport: an already opened transport to use for the retrieval. :param retrieved_temporary_folder: the absolute path to a directory in which to store the files listed, if any, in the `retrieved_temporary_folder` of the jobs CalcInfo """ logger_extra = get_dblogger_extra(calculation) workdir = calculation.get_remote_workdir() execlogger.debug('Retrieving calc {}'.format(calculation.pk), extra=logger_extra) execlogger.debug('[retrieval of calc {}] chdir {}'.format(calculation.pk, workdir), extra=logger_extra) # If the calculation already has a `retrieved` folder, simply return. The retrieval was apparently already completed # before, which can happen if the daemon is restarted and it shuts down after retrieving but before getting the # chance to perform the state transition. Upon reloading this calculation, it will re-attempt the retrieval. link_label = calculation.link_label_retrieved if calculation.get_outgoing(FolderData, link_label_filter=link_label).first(): execlogger.warning( 'CalcJobNode<{}> already has a `{}` output folder: skipping retrieval'.format(calculation.pk, link_label) ) return # Create the FolderData node into which to store the files that are to be retrieved retrieved_files = FolderData() with transport: transport.chdir(workdir) # First, retrieve the files of folderdata retrieve_list = calculation.get_retrieve_list() retrieve_temporary_list = calculation.get_retrieve_temporary_list() retrieve_singlefile_list = calculation.get_retrieve_singlefile_list() with SandboxFolder() as folder: retrieve_files_from_list(calculation, transport, folder.abspath, retrieve_list) # Here I retrieved everything; now I store them inside the calculation retrieved_files.put_object_from_tree(folder.abspath) # Second, retrieve the singlefiles, if any files were specified in the 'retrieve_temporary_list' key if retrieve_singlefile_list: with SandboxFolder() as folder: _retrieve_singlefiles(calculation, transport, folder, retrieve_singlefile_list, logger_extra) # Retrieve the temporary files in the retrieved_temporary_folder if any files were # specified in the 'retrieve_temporary_list' key if retrieve_temporary_list: retrieve_files_from_list(calculation, transport, retrieved_temporary_folder, retrieve_temporary_list) # Log the files that were retrieved in the temporary folder for filename in os.listdir(retrieved_temporary_folder): execlogger.debug( "[retrieval of calc {}] Retrieved temporary file or folder '{}'".format(calculation.pk, filename), extra=logger_extra ) # Store everything execlogger.debug( '[retrieval of calc {}] ' 'Storing retrieved_files={}'.format(calculation.pk, retrieved_files.pk), extra=logger_extra ) retrieved_files.store() # Make sure that attaching the `retrieved` folder with a link is the last thing we do. This gives the biggest chance # of making this method idempotent. That is to say, if a runner gets interrupted during this action, it will simply # retry the retrieval, unless we got here and managed to link it up, in which case we move to the next task. retrieved_files.add_incoming(calculation, link_type=LinkType.CREATE, link_label=calculation.link_label_retrieved)
[docs]def kill_calculation(calculation, transport): """ Kill the calculation through the scheduler :param calculation: the instance of CalcJobNode to kill. :param transport: an already opened transport to use to address the scheduler """ job_id = calculation.get_job_id() # Get the scheduler plugin class and initialize it with the correct transport scheduler = calculation.computer.get_scheduler() scheduler.set_transport(transport) # Call the proper kill method for the job ID of this calculation result = scheduler.kill(job_id) if result is not True: # Failed to kill because the job might have already been completed running_jobs = scheduler.get_jobs(jobs=[job_id], as_dict=True) job = running_jobs.get(job_id, None) # If the job is returned it is still running and the kill really failed, so we raise if job is not None and job.job_state != JobState.DONE: raise exceptions.RemoteOperationError('scheduler.kill({}) was unsuccessful'.format(job_id)) else: execlogger.warning('scheduler.kill() failed but job<{%s}> no longer seems to be running regardless', job_id) return True
[docs]def parse_results(process, retrieved_temporary_folder=None): """ Parse the results for a given CalcJobNode (job) :returns: integer exit code, where 0 indicates success and non-zero failure """ from aiida.engine import ExitCode assert process.node.get_state() == CalcJobState.PARSING, \ 'job should be in the PARSING state when calling this function yet it is {}'.format(process.node.get_state()) parser_class = process.node.get_parser_class() exit_code = ExitCode() logger_extra = get_dblogger_extra(process.node) if retrieved_temporary_folder: files = [] for root, directories, filenames in os.walk(retrieved_temporary_folder): for directory in directories: files.append('- [D] {}'.format(os.path.join(root, directory))) for filename in filenames: files.append('- [F] {}'.format(os.path.join(root, filename))) execlogger.debug( '[parsing of calc {}] ' 'Content of the retrieved_temporary_folder: \n' '{}'.format(process.node.pk, '\n'.join(files)), extra=logger_extra ) else: execlogger.debug( '[parsing of calc {}] ' 'No retrieved_temporary_folder.'.format(process.node.pk), extra=logger_extra ) if parser_class is not None: parser = parser_class(process.node) parse_kwargs = parser.get_outputs_for_parsing() if retrieved_temporary_folder: parse_kwargs['retrieved_temporary_folder'] = retrieved_temporary_folder exit_code = parser.parse(**parse_kwargs) if exit_code is None: exit_code = ExitCode(0) if not isinstance(exit_code, ExitCode): raise ValueError('parse should return an `ExitCode` or None, and not {}'.format(type(exit_code))) if exit_code.status: parser.logger.error('parser returned exit code<{}>: {}'.format(exit_code.status, exit_code.message)) for link_label, node in parser.outputs.items(): try: process.out(link_label, node) except ValueError as exception: parser.logger.error('invalid value {} specified with label {}: {}'.format(node, link_label, exception)) exit_code = process.exit_codes.ERROR_INVALID_OUTPUT break return exit_code
[docs]def _retrieve_singlefiles(job, transport, folder, retrieve_file_list, logger_extra=None): """Retrieve files specified through the singlefile list mechanism.""" singlefile_list = [] for (linkname, subclassname, filename) in retrieve_file_list: execlogger.debug( '[retrieval of calc {}] Trying ' "to retrieve remote singlefile '{}'".format(job.pk, filename), extra=logger_extra ) localfilename = os.path.join(folder.abspath, os.path.split(filename)[1]) transport.get(filename, localfilename, ignore_nonexisting=True) singlefile_list.append((linkname, subclassname, localfilename)) # ignore files that have not been retrieved singlefile_list = [i for i in singlefile_list if os.path.exists(i[2])] # after retrieving from the cluster, I create the objects singlefiles = [] for (linkname, subclassname, filename) in singlefile_list: cls = DataFactory(subclassname) singlefile = cls(file=filename) singlefile.add_incoming(job, link_type=LinkType.CREATE, link_label=linkname) singlefiles.append(singlefile) for fil in singlefiles: execlogger.debug( '[retrieval of calc {}] ' 'Storing retrieved_singlefile={}'.format(job.pk, fil.pk), extra=logger_extra ) fil.store()
[docs]def retrieve_files_from_list(calculation, transport, folder, retrieve_list): """ Retrieve all the files in the retrieve_list from the remote into the local folder instance through the transport. The entries in the retrieve_list can be of two types: * a string * a list If it is a string, it represents the remote absolute filepath of the file. If the item is a list, the elements will correspond to the following: * remotepath * localpath * depth If the remotepath contains file patterns with wildcards, the localpath will be treated as the work directory of the folder and the depth integer determines upto what level of the original remotepath nesting the files will be copied. :param transport: the Transport instance. :param folder: an absolute path to a folder that contains the files to copy. :param retrieve_list: the list of files to retrieve. """ for item in retrieve_list: if isinstance(item, (list, tuple)): tmp_rname, tmp_lname, depth = item # if there are more than one file I do something differently if transport.has_magic(tmp_rname): remote_names = transport.glob(tmp_rname) local_names = [] for rem in remote_names: to_append = rem.split(os.path.sep)[-depth:] if depth > 0 else [] local_names.append(os.path.sep.join([tmp_lname] + to_append)) else: remote_names = [tmp_rname] to_append = tmp_rname.split(os.path.sep)[-depth:] if depth > 0 else [] local_names = [os.path.sep.join([tmp_lname] + to_append)] if depth > 1: # create directories in the folder, if needed for this_local_file in local_names: new_folder = os.path.join(folder, os.path.split(this_local_file)[0]) if not os.path.exists(new_folder): os.makedirs(new_folder) else: # it is a string if transport.has_magic(item): remote_names = transport.glob(item) local_names = [os.path.split(rem)[1] for rem in remote_names] else: remote_names = [item] local_names = [os.path.split(item)[1]] for rem, loc in zip(remote_names, local_names): transport.logger.debug( "[retrieval of calc {}] Trying to retrieve remote item '{}'".format(calculation.pk, rem) ) transport.get(rem, os.path.join(folder, loc), ignore_nonexisting=True)