Source code for weaver.processes.utils

import copy
import logging
import os
import pathlib
import warnings
from copy import deepcopy
from distutils.version import LooseVersion
from typing import TYPE_CHECKING
from urllib.parse import parse_qs, urlparse

import colander
import yaml
from pyramid.httpexceptions import (
    HTTPBadRequest,
    HTTPConflict,
    HTTPCreated,
    HTTPException,
    HTTPForbidden,
    HTTPNotFound,
    HTTPOk,
    HTTPUnprocessableEntity
)
from pyramid.settings import asbool

from weaver.config import (
    WEAVER_CONFIG_DIR,
    WEAVER_DEFAULT_WPS_PROCESSES_CONFIG,
    WeaverFeature,
    get_weaver_config_file,
    get_weaver_configuration
)
from weaver.database import get_db
from weaver.datatype import Process, Service
from weaver.exceptions import (
    InvalidIdentifierValue,
    MissingIdentifierValue,
    PackageNotFound,
    PackageRegistrationError,
    PackageTypeError,
    ProcessNotAccessible,
    ProcessNotFound,
    ProcessRegistrationError,
    ServiceNotFound,
    log_unhandled_exceptions
)
from weaver.formats import ContentType, repr_json
from weaver.processes.convert import get_field, normalize_ordered_io, set_field
from weaver.processes.types import ProcessType
from weaver.store.base import StoreJobs, StoreProcesses, StoreServices
from weaver.utils import (
    VersionFormat,
    VersionLevel,
    as_version_major_minor_patch,
    fully_qualified_name,
    generate_diff,
    get_any_id,
    get_header,
    get_sane_name,
    get_settings,
    get_url_without_query,
    is_update_version
)
from weaver.visibility import Visibility
from weaver.wps.utils import get_wps_client
from weaver.wps_restapi import swagger_definitions as sd
from weaver.wps_restapi.processes.utils import resolve_process_tag
from weaver.wps_restapi.utils import get_wps_restapi_base_url, parse_content

[docs]LOGGER = logging.getLogger(__name__)
if TYPE_CHECKING: from typing import List, Optional, Tuple, Union from weaver.typedefs import ( AnyHeadersContainer, AnyRegistryContainer, AnyRequestType, AnySettingsContainer, AnyVersion, CWL, FileSystemPathType, JSON, Literal, PyramidRequest, NotRequired, Number, SettingsType, TypedDict )
[docs] UpdateFieldListMethod = Literal["append", "override"]
UpdateFieldListSpec = TypedDict("UpdateFieldListSpec", { "source": str, "target": NotRequired[str], "unique": NotRequired[bool], "method": UpdateFieldListMethod, }, total=True) UpdateFields = List[Union[str, UpdateFieldListMethod]] # FIXME: # https://github.com/crim-ca/weaver/issues/215 # define common Exception classes that won't require this type of conversion
[docs]def get_process(process_id=None, request=None, settings=None, revision=True): # type: (Optional[str], Optional[PyramidRequest], Optional[SettingsType], bool) -> Process """ Obtain the specified process and validate information, returning appropriate HTTP error if invalid. Process identifier must be provided from either the request path definition or literal ID. Database must be retrievable from either the request, underlying settings, or direct store reference. .. versionchanged:: 4.20 Process identifier can also be an 'id:version' tag. Also, the request query parameter 'version' can be used. If using the :paramref:`process_id` explicitly instead of the request, a versioned :term:`Process` reference MUST employ the tagged representation to resolve the appropriate :term:`Process` revision. Different parameter combinations are intended to be used as needed or more appropriate, such that redundant operations can be reduced where some objects are already fetched from previous operations. :param process_id: Explicit :term:`Process` identifier to employ for lookup. :param request: When no explicit ID specified, try to find information from the request. :param settings: Application settings for database connection. Can be guessed from local thread or request object if not given. :param revision: When parsing the :term:`Process` ID (either explicit or from request), indicate if any tagged revision specifier should be used or dropped. """ store = get_db(settings or request).get_store(StoreProcesses) try: if process_id is None and request is not None: process_id = resolve_process_tag(request) if not revision: process_id = Process.split_version(process_id)[0] process = store.fetch_by_id(process_id, visibility=Visibility.PUBLIC) return process except (InvalidIdentifierValue, MissingIdentifierValue, colander.Invalid) as exc: msg = getattr(exc, "msg", str(exc)) raise HTTPBadRequest(json={ "type": "InvalidIdentifierValue", "title": "Process ID is invalid.", "description": "Failed schema validation to retrieve process.", "cause": f"Invalid schema: [{msg}]", "error": exc.__class__.__name__, "value": str(process_id) }) except ProcessNotAccessible: raise HTTPForbidden(f"Process with ID '{process_id!s}' is not accessible.") except ProcessNotFound: raise ProcessNotFound(json={ "title": "NoSuchProcess", "type": "http://www.opengis.net/def/exceptions/ogcapi-processes-1/1.0/no-such-process", "detail": sd.NotFoundProcessResponse.description, "status": ProcessNotFound.code, "cause": str(process_id)
})
[docs]def map_progress(progress, range_min, range_max): # type: (Number, Number, Number) -> Number """ Calculates the relative progression of the percentage process within min/max values. """ return max(range_min, min(range_max, range_min + (progress * (range_max - range_min)) / 100))
[docs]def get_process_information(process_description): # type: (JSON) -> JSON """ Obtain the details for the process within its description considering various supported formats. """ proc_desc = process_description.get("processDescription", {}) if "process" in proc_desc: process = proc_desc.get("process", {}) if isinstance(process, dict): # some instance use 'process' to represent the full-URI identifier return process return proc_desc
@log_unhandled_exceptions(logger=LOGGER, message="Unhandled error occurred during parsing of deploy payload.", is_request=False)
[docs]def _check_deploy(payload): # type: (JSON) -> JSON """ Validate minimum deploy payload field requirements with exception handling. """ message = "Process deployment definition is invalid." try: results = sd.Deploy().deserialize(payload) # Because many fields are optional during deployment to allow flexibility between compatible WPS/CWL # definitions, any invalid field at lower-level could make a full higher-level definition to be dropped. # Verify the result to ensure this was not the case for known cases to attempt early detection. p_process = payload.get("processDescription", {}) r_process = results.get("processDescription", {}) if "process" in p_process: # if process is nested, both provided/result description must align # don't use "get_process_information" to make sure everything is retrieved under same location p_process = p_process.get("process", {}) r_process = r_process.get("process", {}) for io_type, io_schema in [("inputs", sd.DeployInputTypeAny), ("outputs", sd.DeployOutputTypeAny)]: p_io = p_process.get(io_type) r_io = r_process.get(io_type) if p_io and p_io != r_io: message = f"Process deployment {io_type} definition is invalid." # try raising sub-schema to have specific reason d_io = io_schema(name=io_type).deserialize(p_io) # Raise directly if we where not able to detect the cause, but there is something incorrectly dropped. # Only raise if indirect vs direct deserialize differ such that auto-resolved defaults omitted from # submitted process I/O or unknowns fields that were correctly ignored don't cause false-positive diffs. if r_io != d_io: message = ( f"Process deployment {p_io} definition resolved as valid schema " f"but differ from submitted values. " f"Validate provided {p_io} against resolved {p_io} with schemas " f"to avoid mismatching definitions." ) raise HTTPBadRequest(json={ "description": message, "cause": "unknown", "error": "Invalid", "value": d_io }) LOGGER.warning( "Detected difference between original/parsed deploy %s, but no invalid schema:\n%s", io_type, generate_diff(p_io, r_io, val_name="original payload", ref_name="parsed result") ) # Execution Unit is optional since process reference (e.g.: WPS-1 href) can be provided in processDescription # Cannot validate as CWL yet, since execution unit can also be an href that is not yet fetched (it will later) p_exec_unit = payload.get("executionUnit", [{}]) r_exec_unit = results.get("executionUnit", [{}]) if p_exec_unit and p_exec_unit != r_exec_unit: message = "Process deployment execution unit is invalid." d_exec_unit = sd.ExecutionUnitList().deserialize(p_exec_unit) # raises directly if caused by invalid schema if r_exec_unit != d_exec_unit: # otherwise raise a generic error, don't allow differing definitions message = ( "Process deployment execution unit resolved as valid definition but differs from submitted " "package. Aborting deployment to avoid mismatching package definitions." ) raise HTTPBadRequest(json={ "description": message, "cause": "unknown", "error": PackageRegistrationError.__name__, "value": d_exec_unit }) LOGGER.warning( "Detected difference between original/parsed deploy execution unit, but no invalid schema:\n%s", generate_diff(p_exec_unit, r_exec_unit, val_name="original payload", ref_name="parsed result") ) return results # FIXME: handle colander invalid directly in tween (https://github.com/crim-ca/weaver/issues/112) except colander.Invalid as exc: LOGGER.debug("Failed deploy body schema validation:\n%s", exc) raise HTTPBadRequest(json={ "description": message, "cause": f"Invalid schema: [{exc.msg!s}]", "error": exc.__class__.__name__, "value": exc.value
}) @log_unhandled_exceptions(logger=LOGGER, message="Unhandled error occurred during parsing of process definition.", is_request=False)
[docs]def _validate_deploy_process_info(process_info, reference, package, settings, headers): # type: (JSON, Optional[str], Optional[CWL], SettingsType, Optional[AnyHeadersContainer]) -> JSON """ Obtain the process definition from deploy payload with exception handling. .. seealso:: - :func:`weaver.processes.wps_package.get_process_definition` """ from weaver.processes.wps_package import check_package_instance_compatible, get_process_definition try: # data_source `None` forces workflow process to search locally for deployed step applications info = get_process_definition(process_info, reference, package, data_source=None, headers=headers) # validate process type and package against weaver configuration cfg = get_weaver_configuration(settings) if cfg not in WeaverFeature.REMOTE: problem = check_package_instance_compatible(info["package"]) if problem: proc_type = info["type"] raise HTTPForbidden(json={ "description": ( f"Invalid process deployment of type [{proc_type}] on [{cfg}] instance. " "Remote execution is required but not supported." ), "cause": problem }) return info except PackageNotFound as ex: # raised when a workflow sub-process is not found (not deployed locally) raise HTTPNotFound(detail=str(ex)) except InvalidIdentifierValue as ex: raise HTTPBadRequest(str(ex)) except (PackageRegistrationError, PackageTypeError) as ex: msg = f"Invalid package/reference definition. Loading generated error: [{ex!s}]" LOGGER.exception(msg) raise HTTPUnprocessableEntity(detail=msg)
# FIXME: supported nested process and $graph multi-deployment (https://github.com/crim-ca/weaver/issues/56) # see also: https://www.commonwl.org/v1.2/CommandLineTool.html#Packed_documents
[docs]def resolve_cwl_graph(package): # type: (CWL) -> CWL if "$graph" in package and isinstance(package["$graph"], list) and len(package["$graph"]) == 1: # consider package as if provided in non-graph representation # must preserve top level fields (e.g.: 'cwlVersion') and nested graph item package.update(package.pop("$graph")[0]) return package
[docs]def deploy_process_from_payload(payload, container, overwrite=False): # pylint: disable=R1260,too-complex # type: (Union[JSON, str], Union[AnySettingsContainer, AnyRequestType], Union[bool, Process]) -> HTTPException """ Deploy the process after resolution of all references and validation of the parameters from payload definition. Adds a :class:`weaver.datatype.Process` instance to storage using the provided JSON ``payload`` matching :class:`weaver.wps_restapi.swagger_definitions.ProcessDescription`. :param payload: JSON payload that was specified during the process deployment request. :param container: Container to retrieve application settings. If it is a ``request``-like object, additional parameters may be used to identify the payload schema. :param overwrite: In case of a pure deployment (from scratch), indicates (using :class:`bool`) whether to allow override of an existing process definition if conflict occurs. No versioning is applied in this case (full replacement). In case of an update deployment (from previous), indicates which process to be replaced with updated version. The new version should not conflict with another existing process version. If payload doesn't provide a new version, the following `MAJOR` version from the specified overwrite process is used to define the new revision. :returns: HTTPOk if the process registration was successful. :raises HTTPException: for any invalid process deployment step. """ headers = getattr(container, "headers", {}) # container is any request (as when called from API Deploy request) c_type = ContentType.get(get_header("Content-Type", headers), default=ContentType.APP_OGC_PKG_JSON) # use deepcopy of to remove any circular dependencies before writing to mongodb or any updates to the payload payload = parse_content( request=None, content=payload, content_type=c_type, content_type_schema=sd.DeployContentType, ) payload_copy = deepcopy(payload) payload = _check_deploy(payload) # validate identifier naming for unsupported characters process_desc = payload.get("processDescription", {}) # empty possible if CWL directly passed process_info = process_desc.get("process", process_desc) process_href = process_desc.pop("href", None) process_param = "processDescription.process" if "process" in process_desc else "processDescription" # retrieve CWL package definition, either via "href" (WPS-1/2), "owsContext" or "executionUnit" (package/reference) deployment_profile_name = payload.get("deploymentProfileName", "") ows_context = process_info.pop("owsContext", None) reference = None package = None found = False if process_href: reference = process_href # reference type handled downstream found = isinstance(reference, str) elif isinstance(ows_context, dict): offering = ows_context.get("offering") if not isinstance(offering, dict): raise HTTPUnprocessableEntity(f"Invalid parameter '{process_param}.owsContext.offering'.") content = offering.get("content") if not isinstance(content, dict): raise HTTPUnprocessableEntity(f"Invalid parameter '{process_param}.owsContext.offering.content'.") package = None reference = content.get("href") found = isinstance(reference, str) elif c_type in (list(ContentType.ANY_CWL) + [ContentType.APP_JSON]) and "cwlVersion" in payload: process_info = {"version": payload.pop("version", None)} package = resolve_cwl_graph(payload) found = True else: # ogc-apppkg type, but no explicit check since used by default (backward compat) if deployment_profile_name: # optional hint allowed_profile_suffix = [ProcessType.APPLICATION, ProcessType.WORKFLOW] if not any(deployment_profile_name.lower().endswith(typ) for typ in allowed_profile_suffix): raise HTTPBadRequest("Invalid value for parameter 'deploymentProfileName'.") execution_units = payload.get("executionUnit") if not isinstance(execution_units, list): raise HTTPUnprocessableEntity("Invalid parameter 'executionUnit'.") for execution_unit in execution_units: if not isinstance(execution_unit, dict): raise HTTPUnprocessableEntity("Invalid parameter 'executionUnit'.") package = execution_unit.get("unit") reference = execution_unit.get("href") # stop on first package/reference found, simultaneous usage will raise during package retrieval if package: found = isinstance(package, dict) and package elif reference: found = isinstance(reference, str) if found: break if not found: params = [ "ProcessDescription.process.href", "ProcessDescription.process.owsContext.content.href", "ProcessDescription.href", "ProcessDescription.owsContext.content.href", "executionUnit[*].(unit|href)", "{ <CWL> }", ] raise HTTPBadRequest( f"Missing one of required parameters {params} to obtain package/process definition or reference." ) if process_info.get("type", "") == ProcessType.BUILTIN: raise HTTPBadRequest( f"Invalid process type resolved from package: [{ProcessType.BUILTIN}]. " f"Deployment of {ProcessType.BUILTIN} process is not allowed." ) # update and validate process information using WPS process offering, CWL/WPS reference or CWL package definition settings = get_settings(container) process_info = _validate_deploy_process_info(process_info, reference, package, settings, headers) restapi_url = get_wps_restapi_base_url(settings) description_url = "/".join([restapi_url, "processes", process_info["identifier"]]) execute_endpoint = "/".join([description_url, "jobs"]) # ensure that required "processEndpointWPS1" in db is added, # will be auto-fixed to localhost if not specified in body process_info["processEndpointWPS1"] = process_desc.get("processEndpointWPS1") process_info["executeEndpoint"] = execute_endpoint process_info["payload"] = payload_copy process_info["jobControlOptions"] = process_desc.get("jobControlOptions", []) process_info["outputTransmission"] = process_desc.get("outputTransmission", []) process_info["processDescriptionURL"] = description_url # insert the "resolved" context using details retrieved from "executionUnit"/"href" or directly with "owsContext" if "owsContext" not in process_info and reference: process_info["owsContext"] = {"offering": {"content": {"href": str(reference)}}} elif isinstance(ows_context, dict): process_info["owsContext"] = ows_context # if user provided additional links that have valid schema, # process them separately since links are generated dynamically from API settings per process # don't leave them there as they would be seen as if the 'Process' class generated the field if "links" in process_info: process_info["additional_links"] = process_info.pop("links") # FIXME: handle colander invalid directly in tween (https://github.com/crim-ca/weaver/issues/112) try: process = Process(process_info) # if 'version' was provided in deploy info, it will be added as hint here if isinstance(overwrite, Process): process_summary = _update_deploy_process_version(process, overwrite, VersionLevel.MAJOR, container) else: process_summary = _save_deploy_process(process, overwrite, container) except ValueError as exc: LOGGER.error("Failed schema validation of deployed process summary:\n%s", exc) raise HTTPBadRequest(detail=str(exc)) except HTTPException: raise data = { "description": sd.OkPostProcessesResponse.description, "processSummary": process_summary, "deploymentDone": True, "links": process.links(container), } if deployment_profile_name: data["deploymentProfileName"] = deployment_profile_name return HTTPCreated(json=data)
[docs]def _save_deploy_process(process, override, container): # type: (Process, bool, AnySettingsContainer) -> JSON """ Store the :class:`Process` to database with error handling and appropriate message reporting the problem. """ try: sd.ProcessSummary().deserialize(process) # make it fail before save if invalid, then apply for real db = get_db(container) store = db.get_store(StoreProcesses) new_process = store.save_process(process, overwrite=override) process_summary = new_process.summary() except ProcessRegistrationError as exc: raise HTTPConflict(json={ "type": "ProcessRegistrationError", "title": "Process definition conflict.", "detail": str(exc), "status": HTTPConflict.code, "cause": {"process_id": process.id}, }) except colander.Invalid as exc: LOGGER.error("Failed schema validation of updated process summary:\n%s", exc) raise HTTPBadRequest(json={ "description": "Failed schema validation of process summary.", "cause": f"Invalid schema: [{exc.msg or exc!s}]", "error": exc.__class__.__name__, "value": exc.value }) return process_summary
[docs]def _update_deploy_process_version(process, process_overwrite, update_level, container=None): # type: (Process, Process, VersionLevel, Optional[AnySettingsContainer]) -> JSON """ Handle all necessary update operations of a :term:`Process` definition. Validate that any specified version for :term:`Process` deployment is valid against any other existing versions. Perform any necessary database adjustments to replace the old :term:`Process` references for the creation of the updated :term:`Process` to ensure all versions and links remain valid against their original references. :param process: Desired new process definition. :param process_overwrite: Old process from which update of the definition in database could be required. :param update_level: Minimum semantic version level required for this update operation. If the new :term:`Process` definition did not provide a version explicitly, this level will be used to automatically infer the following revision number based on the old :term:`Process` reference. :param container: Any container to retrieve a database connection. :returns: Process summary with definition retrieved from storage (saved) after all operations were applied. :raises HTTPException: Relevant error is raised in the even of any erroneous process definition (old and new). """ if not process.mutable: raise HTTPForbidden(json={ "type": "ProcessImmutable", "title": "Process immutable.", "detail": "Cannot update an immutable process.", "status": HTTPForbidden.code, "cause": {"mutable": False} }) if process.name != process_overwrite.name: raise HTTPBadRequest(json={ "type": "InvalidParameterValue", "title": "Invalid process identifier.", "detail": "Specified process identifier in payload definition does not match expected ID in request path.", "status": HTTPBadRequest.code, "cause": {"pathProcessID": process_overwrite.name, "bodyProcessID": process.name} }) db = get_db(container) store = db.get_store(StoreProcesses) # if no new version was specified, simply take the next one relevant for the update level # then check that new version is within available range against target process for required update level new_version = process.version if process.version else _bump_process_version(process_overwrite.version, update_level) taken_versions = store.find_versions(process.id, VersionFormat.STRING) # string format for output if error if not is_update_version(new_version, taken_versions, update_level): new_version = as_version_major_minor_patch(new_version, VersionFormat.STRING) ref_version = as_version_major_minor_patch(process_overwrite.version, VersionFormat.STRING) if new_version in taken_versions: http_error = HTTPConflict message = "Process version conflicts with already taken revisions." else: http_error = HTTPUnprocessableEntity message = "Semantic version is not of appropriate update level for requested changes." raise http_error(json={ "type": "InvalidParameterValue", "title": "Invalid version value.", "detail": message, "status": http_error.code, "cause": { "revisions": taken_versions, "reference": ref_version, "version": new_version, "change": update_level, } }) old_version = None op_override = process_overwrite try: # if source process for update is not the latest, no need to rewrite 'id:version' since it is not only 'id' # otherwise, replace latest process 'id' by explicit 'id:version' if process_overwrite.latest: pid_only = process_overwrite.name old_version = process_overwrite.version old_process = store.update_version(pid_only, old_version) process_tag = old_process.tag # since 'id' reference changes from old to new process, # reflect the change in any job that could refer to it job_store = db.get_store(StoreJobs) n_updated = job_store.batch_update_jobs({"process": pid_only}, {"process": process_tag}) LOGGER.debug("Updated %s jobs from process [%s] to old revision [%s]", n_updated, pid_only, process_tag) op_override = False # make sure no conflict when saving process afterward process.version = new_version process_summary = _save_deploy_process(process, op_override, container) # add more version information to already handled error to better report the real conflict of revisions if any except (ProcessRegistrationError, HTTPConflict): if old_version is not None: old_version = as_version_major_minor_patch(old_version, VersionFormat.STRING) if new_version is not None: new_version = as_version_major_minor_patch(new_version, VersionFormat.STRING) raise HTTPConflict(json={ "type": "ProcessRegistrationError", "title": "Process definition conflict.", "detail": "Failed update of process conflicting with another definition or revision.", "status": HTTPConflict.code, "cause": {"process_id": process.id, "old_version": old_version, "new_version": new_version}, }) return process_summary
[docs]def _bump_process_version(version, update_level): # type: (AnyVersion, VersionLevel) -> AnyVersion """ Obtain the relevant version with specified level incremented by one. """ new_version = list(as_version_major_minor_patch(version, VersionFormat.PARTS)) if update_level == VersionLevel.PATCH: new_version[2] += 1 elif update_level == VersionLevel.MINOR: new_version[1] += 1 new_version[2] = 0 elif update_level == VersionLevel.MAJOR: new_version[0] += 1 new_version[1] = 0 new_version[2] = 0 return new_version
[docs]def _apply_process_metadata(process, update_data): # pylint: disable=R1260,too-complex # FIXME # type: (Process, JSON) -> VersionLevel """ Apply requested changes for update of the :term:`Process`. Assumes that update data was pre-validated with appropriate schema validation to guarantee relevant typings and formats are applied for expected fields. Validation of fields metadata with their specific conditions is accomplished when attempting to apply changes. .. seealso:: Schema :class:`sd.PatchProcessBodySchema` describes specific field handling based on unspecified value, null or empty-list. Corresponding update levels required for fields are also provided in this schema definition. :param process: Process to modify. Can be the latest or a previously tagged version. :param update_data: Fields with updated data to apply to the process. :return: Applicable update level based on updates to be applied. """ patch_update_fields = [ "title", "description", dict(source="keywords", method="append", unique=True), dict(source="metadata", method="append"), dict(source="links", method="append", target="additional_links"), ] minor_update_fields = [ dict(source="jobControlOptions", method="override", unique=True), dict(source="outputTransmission", method="override", unique=True), "visibility", ] update_level = VersionLevel.PATCH # metadata only, elevate to MINOR if corresponding fields changed field = value = None # any last set item that raises an unexpected error can be reported in exception handler def _apply_change(data, dest, name, update_fields): # type: (JSON, Union[Process, JSON], str, UpdateFields) -> bool """ Apply sub-changes to relevant destination container. :param data: New information changes to be applied. :param dest: Target location to set new value changes. :param name: Target location name for error reporting. :param update_fields: Fields that can be updated, with extra specifications on how to handle them. :return: Status indicating if any change was applied. """ nonlocal field, value # propagate outside function any_change = False for source in update_fields: target = source method = None unique = False if isinstance(source, dict): src = source["source"] target = source.get("target", src) method = source.get("method", None) unique = source.get("unique", False) source = src value = data.get(source) if value is None: continue field = f"{name}.{target}" # list appends new content unless explicitly empty to reset # list override always replace full content if isinstance(value, list) and method == "append": if not len(value): current = get_field(dest, target, default=[]) if current != value: set_field(dest, target, []) any_change = True else: current = get_field(dest, source, default=[]) merged = copy.deepcopy(current) merged.extend(value) if unique: merged = list(dict.fromkeys(merged)) # not set to preserve order if current != merged: set_field(dest, target, current) any_change = True else: current = get_field(dest, target, default=None) if unique and isinstance(value, list): value = list(dict.fromkeys(value)) # not set to preserve order if current != value: set_field(dest, target, value) any_change = True return any_change try: any_update_inputs = any_update_outputs = False inputs = update_data.get("inputs") if inputs: inputs_current = process.inputs inputs_changes = normalize_ordered_io(inputs, order_hints=inputs_current) inputs_updated = {get_any_id(i, pop=True): i for i in copy.deepcopy(inputs_current)} inputs_allowed = list(inputs_updated) for input_data in inputs_changes: input_id = get_any_id(input_data) if input_id not in inputs_allowed: raise HTTPUnprocessableEntity(json={ "type": "InvalidParameterValue", "title": "Unknown input identifier.", "detail": "Process update parameters specified an input unknown to this process.", "status": HTTPUnprocessableEntity.code, "cause": {"input.id": input_id, "inputs": inputs_allowed}, }) input_def = inputs_updated[input_id] input_name = f"process.inputs[{input_id}]" any_update_inputs |= _apply_change(input_data, input_def, input_name, patch_update_fields) # early exit if nothing was updated when fields were specified expecting something to be applied # avoid potentially indicating that update was accomplished when it would not be if not any_update_inputs: raise HTTPBadRequest(json={ "type": "InvalidParameterValue", "title": "Failed process input parameter update.", "detail": "Provided parameters not applicable for update or no changed values could be detected.", "value": repr_json(update_data, force_string=False), }) field = "process.inputs" value = normalize_ordered_io(inputs_updated, order_hints=inputs_current) process.inputs = value outputs = update_data.get("outputs") if outputs: outputs_current = process.outputs outputs_changes = normalize_ordered_io(outputs, order_hints=outputs_current) outputs_updated = {get_any_id(o, pop=True): o for o in copy.deepcopy(outputs_current)} outputs_allowed = list(outputs_updated) for output_data in outputs_changes: output_id = get_any_id(output_data) if output_id not in outputs_allowed: raise HTTPUnprocessableEntity(json={ "type": "InvalidParameterValue", "title": "Unknown output identifier.", "detail": "Process update parameters specified an output unknown to this process.", "status": HTTPUnprocessableEntity.code, "cause": {"output.id": output_id, "outputs": outputs_allowed}, }) output_def = outputs_updated[output_id] output_name = f"process.outputs[{output_id}]" any_update_outputs |= _apply_change(output_data, output_def, output_name, patch_update_fields) # early exit if nothing was updated when fields were specified expecting something to be applied # avoid potentially indicating that update was accomplished when it would not be if not any_update_outputs: raise HTTPBadRequest(json={ "type": "InvalidParameterValue", "title": "Failed process output parameter update.", "detail": "Provided parameters not applicable for update or no changed values could be detected.", "value": repr_json(update_data, force_string=False), }) field = "process.outputs" value = normalize_ordered_io(outputs_updated, order_hints=outputs_current) process.outputs = value any_update_process = _apply_change(update_data, process, "process", patch_update_fields) any_update_minor = _apply_change(update_data, process, "process", minor_update_fields) if any_update_minor: update_level = VersionLevel.MINOR if not any((any_update_process, any_update_minor, any_update_inputs, any_update_outputs)): raise HTTPBadRequest(json={ "type": "InvalidParameterValue", "title": "Failed process parameter update.", "detail": "Provided parameters not applicable for update or no changed values could be detected.", "value": repr_json(update_data, force_string=False), }) except HTTPException: raise except Exception as exc: raise HTTPBadRequest(json={ "type": "InvalidParameterValue", "title": "Failed process parameter update.", "detail": "Process update parameters failed validation or produced an error when applying change.", "error": fully_qualified_name(exc), "cause": {"message": str(exc), "field": field}, "value": repr_json(value, force_string=False), }) return update_level
[docs]def update_process_metadata(request): # type: (AnyRequestType) -> HTTPException """ Update only MINOR or PATCH level :term:`Process` metadata. Desired new version can be eiter specified explicitly in request payload, or will be guessed accordingly to detected changes to be applied. """ data = parse_content(request, content_schema=sd.PatchProcessBodySchema) old_process = get_process(request=request) new_process = copy.deepcopy(old_process) update_level = _apply_process_metadata(new_process, data) # apply the new version requested by the user, # or make sure the old one is removed to avoid conflict user_version = data.get("version") or None if user_version: new_process.version = user_version else: new_process.pop("version", None) new_process.id = old_process.name # remove any version reference in ID process_summary = _update_deploy_process_version(new_process, old_process, update_level, request) data = { "description": sd.OkPatchProcessResponse.description, "processSummary": process_summary, "links": new_process.links(request), } return HTTPOk(json=data)
[docs]def parse_wps_process_config(config_entry): # type: (Union[JSON, str]) -> Tuple[str, str, List[str], bool] """ Parses the available WPS provider or process entry to retrieve its relevant information. :return: WPS provider name, WPS service URL, and list of process identifier(s). :raise ValueError: if the entry cannot be parsed correctly. """ if isinstance(config_entry, dict): svc_url = config_entry["url"] svc_name = config_entry.get("name") svc_proc = config_entry.get("id", []) svc_vis = asbool(config_entry.get("visible", False)) elif isinstance(config_entry, str): svc_url = config_entry svc_name = None svc_proc = [] svc_vis = False else: raise ValueError(f"Invalid service value: [{config_entry!s}].") url_p = urlparse(svc_url) qs_p = parse_qs(url_p.query) svc_url = get_url_without_query(url_p) # if explicit name was provided, validate it (assert fail if not), # otherwise replace silently bad character since since is requested to be inferred svc_name = get_sane_name(svc_name or url_p.hostname, assert_invalid=bool(svc_name)) svc_proc = svc_proc or qs_p.get("identifier", []) # noqa # 'identifier=a,b,c' techically allowed svc_proc = [proc.strip() for proc in svc_proc if proc.strip()] # remote empty if not isinstance(svc_name, str): raise ValueError(f"Invalid service value: [{svc_name!s}].") if not isinstance(svc_proc, list): raise ValueError(f"Invalid process value: [{svc_proc!s}].") return svc_name, svc_url, svc_proc, svc_vis
[docs]def register_wps_processes_static(service_url, service_name, service_visibility, service_processes, container): # type: (str, str, bool, List[str], AnyRegistryContainer) -> None """ Register WPS-1 :term:`Process` under a service :term:`Provider` as static references. For a given WPS provider endpoint, either iterates over all available processes under it to register them one by one, or limit itself only to those of the reduced set specified by :paramref:`service_processes`. The registered `WPS-1` processes generate a **static** reference, meaning that metadata of each process as well as any other modifications to the real remote reference will not be tracked, including validation of even their actual existence, or modifications to inputs/outputs. The :term:`Application Package` will only point to it assuming it remains valid. Each of the deployed processes using *static* reference will be accessible directly under `Weaver` endpoints:: /processes/<service-name>_<process-id> The service is **NOT** deployed as :term:`Provider` since the processes are registered directly. .. seealso:: - :func:`register_wps_processes_dynamic` :param service_url: WPS-1 service location (where ``GetCapabilities`` and ``DescribeProcess`` requests can be made). :param service_name: Identifier to employ for generating the full process identifier. :param service_visibility: Visibility flag of the provider. :param service_processes: process IDs under the service to be registered, or all if empty. :param container: settings to retrieve required configuration settings. """ db = get_db(container) process_store = db.get_store(StoreProcesses) # type: StoreProcesses LOGGER.info("Fetching WPS-1: [%s]", service_url) wps = get_wps_client(service_url, container) if LooseVersion(wps.version) >= LooseVersion("2.0"): LOGGER.warning("Invalid WPS-1 provider, version was [%s]", wps.version) return wps_processes = [wps.describeprocess(p) for p in service_processes] or wps.processes for wps_process in wps_processes: proc_id = f"{service_name}_{get_sane_name(wps_process.identifier)}" wps_pid = wps_process.identifier proc_url = f"{service_url}?service=WPS&request=DescribeProcess&identifier={wps_pid}&version={wps.version}" svc_vis = Visibility.PUBLIC if service_visibility else Visibility.PRIVATE try: old_process = process_store.fetch_by_id(proc_id) except ProcessNotFound: pass else: if ( old_process.id == proc_id and old_process.processDescriptionURL == proc_url and old_process.visibility == svc_vis ): LOGGER.warning("Process already registered: [%s]. Skipping...", proc_id) continue LOGGER.warning("Process matches registered one: [%s]. Updating details...", proc_id) payload = { "processDescription": {"process": {"id": proc_id, "visibility": svc_vis}}, "executionUnit": [{"href": proc_url}], "deploymentProfileName": "http://www.opengis.net/profiles/eoc/wpsApplication", } try: resp = deploy_process_from_payload(payload, container, overwrite=True) if resp.status_code == HTTPOk.code: LOGGER.info("Process registered: [%s]", proc_id) else: raise RuntimeError(f"Process registration failed: [{proc_id}]") except Exception as ex: LOGGER.exception("Exception during process registration: [%r]. Skipping...", ex) continue
[docs]def register_wps_processes_dynamic(service_name, service_url, service_visibility, container): # type: (str, str, bool, AnyRegistryContainer) -> None """ Register a WPS service ``provider`` such that ``processes`` under it are dynamically accessible on demand. The registered `WPS-1` provider generates a **dynamic** reference to processes under it. Only the :term:`Provider` reference itself is actually registered. No :term:`Process` are directly registered following this operation. When information about the offered processes, descriptions of those processes or their execution are requested, `Weaver` will query the referenced :term:`Provider` for details and convert the corresponding :term:`Process` dynamically. This means that latest metadata of the :term:`Process`, and any modification to it on the remote service will be immediately reflected on `Weaver` without any need to re-deploy processes. Each of the deployed processes using *dynamic* reference will be accessible under `Weaver` endpoints:: /providers/<service-name>/processes/<process-id> The processes are **NOT** deployed locally since the processes are retrieved from the :term:`Provider` itself. .. seealso:: - :func:`register_wps_processes_static` :param service_url: WPS-1 service location (where ``GetCapabilities`` and ``DescribeProcess`` requests can be made). :param service_name: Identifier to employ for registering the provider identifier. :param service_visibility: Visibility flag of the provider. :param container: settings to retrieve required configuration settings. """ db = get_db(container) service_store = db.get_store(StoreServices) # type: StoreServices LOGGER.info("Register WPS-1/2 provider: [%s]", service_url) try: get_wps_client(service_url, container) # only attempt fetch to validate it exists except Exception as ex: LOGGER.exception("Exception during provider validation: [%s] [%r]. Skipping...", service_name, ex) return new_service = Service(name=service_name, url=service_url, public=service_visibility) try: old_service = service_store.fetch_by_name(service_name) except ServiceNotFound: LOGGER.info("Registering new provider: [%s]...", service_name) else: if new_service == old_service: LOGGER.warning("Provider already registered: [%s]. Skipping...", service_name) return LOGGER.warning("Provider matches registered service: [%s]. Updating details...", service_name) try: service_store.save_service(new_service, overwrite=True) except Exception as ex: LOGGER.exception("Exception during provider registration: [%s] [%r]. Skipping...", service_name, ex)
[docs]def register_wps_processes_from_config(container, wps_processes_file_path=None): # type: (AnySettingsContainer, Optional[FileSystemPathType]) -> None """ Registers remote :term:`WPS` providers and/or processes as specified from the configuration file. Loads a ``wps_processes.yml`` file and registers processes under `WPS-1/2`_ providers to the current `Weaver` instance as equivalent :term:`OGC API - Processes` instances. References listed under ``processes`` are registered statically (by themselves, unchanging snapshot). References listed under ``providers``, the :term:`WPS` themselves are registered, making each :term:`Process` listed in their ``GetCapabilities`` available. In this case, registered processes are defined dynamically, meaning they will be fetched on the provider each time a request refers to them, keeping their definition up-to-date with the remote server. .. versionadded:: 1.14.0 When references are specified using ``providers`` section instead of ``processes``, the registration only saves the remote WPS provider endpoint to dynamically populate :term:`WPS` processes on demand. Previous behavior was to register each :term:`WPS` process individually with ID ``[service]_[process]``. .. versionchanged:: 4.19.0 Parameter position are inverted. If :paramref:`wps_processes_file_path` is explicitly provided, it is used directly without considering settings. Otherwise, automatically employ the definition in setting: ``weaver.wps_processes_file``. .. seealso:: - `weaver.wps_processes.yml.example` for additional file format details. .. note:: Settings with an explicit empty ``weaver.wps_processes_file`` entry will be considered as *nothing to load*. If the entry is omitted, default location :data:`WEAVER_DEFAULT_WPS_PROCESSES_CONFIG` is attempted instead. :param container: Registry container to obtain database reference as well as application settings. :param wps_processes_file_path: Override file path to employ instead of default settings definition. """ if wps_processes_file_path is not None: LOGGER.info("Using WPS-1 explicit override parameter to obtain file reference.") else: LOGGER.info("Using WPS-1 file reference from configuration settings.") settings = get_settings(container) wps_processes_file_path = settings.get("weaver.wps_processes_file") if wps_processes_file_path is None: warnings.warn("No file specified for WPS-1 providers registration.", RuntimeWarning) wps_processes_file_path = get_weaver_config_file("", WEAVER_DEFAULT_WPS_PROCESSES_CONFIG, generate_default_from_example=False) elif wps_processes_file_path == "": warnings.warn("Configuration file for WPS-1 providers registration explicitly defined as empty in settings. " "Not loading anything.", RuntimeWarning) return # reprocess the path in case it is relative to default config directory wps_processes_file_path = get_weaver_config_file(wps_processes_file_path, WEAVER_DEFAULT_WPS_PROCESSES_CONFIG, generate_default_from_example=False) if wps_processes_file_path == "": warnings.warn("No file specified for WPS-1 providers registration.", RuntimeWarning) return LOGGER.info("Using WPS-1 provider processes file: [%s]", wps_processes_file_path) try: with open(wps_processes_file_path, mode="r", encoding="utf-8") as f: # if file is empty (not even processes/providers section), None is return instead of dict processes_config = yaml.safe_load(f) or {} if processes_config: processes = processes_config.get("processes") or [] providers = processes_config.get("providers") or [] else: processes = providers = None if not processes and not providers: LOGGER.warning("Nothing to process from file: [%s]", wps_processes_file_path) return # either 'service' references to register every underlying 'process' individually # or explicit 'process' references to register by themselves for cfg_service in processes: svc_name, svc_url, svc_proc, svc_vis = parse_wps_process_config(cfg_service) register_wps_processes_static(svc_url, svc_name, svc_vis, svc_proc, container) # direct WPS providers to register for cfg_service in providers: svc_name, svc_url, _, svc_vis = parse_wps_process_config(cfg_service) register_wps_processes_dynamic(svc_name, svc_url, svc_vis, container) LOGGER.info("Finished processing configuration file [%s].", wps_processes_file_path) except Exception as exc: # pragma: no cover msg = f"Invalid WPS-1 providers configuration file caused: [{fully_qualified_name(exc)}]({exc!s})." LOGGER.exception(msg) raise RuntimeError(msg)
[docs]def register_cwl_processes_from_config(container): # type: (AnySettingsContainer) -> int """ Load multiple :term:`CWL` definitions from a directory to register corresponding :term:`Process`. .. versionadded:: 4.19.0 Each individual :term:`CWL` definition must fully describe a :term:`Process` by itself. Therefore, an ``id`` must be available in the file to indicate the target deployment reference. In case of conflict, the existing database :term:`Process` will be overridden to ensure file updates are applied. Files are loaded in alphabetical order. If a :term:`Workflow` needs to refer to other processes, they should be named in way that dependencies will be resolvable prior to the registration of the :term:`Workflow` :term:`Process`. The resolved directory to search for :term:`CWL` will be traversed recursively. This, along with the name of :term:`CWL` files themselves, can be used to resolve order-dependent loading cases. Only ``.cwl`` extensions are considered to avoid invalid parsing of other files that could be defined in the shared configuration directory. .. note:: Settings with an explicit empty ``weaver.cwl_processes_dir`` entry will be considered as *nothing to load*. If the entry is omitted, default location :data:`WEAVER_CONFIG_DIR` is used to search for :term:`CWL` files. :param container: Registry container to obtain database reference as well as application settings. :returns: Number of successfully registered processes from found :term:`CWL` files. """ from weaver.processes.wps_package import load_package_file settings = get_settings(container) cwl_processes_dir = settings.get("weaver.cwl_processes_dir") if cwl_processes_dir is None: warnings.warn("No configuration setting [weaver.cwl_processes_dir] specified for CWL processes registration. " f"Will use default location: [{WEAVER_CONFIG_DIR}]", RuntimeWarning) cwl_processes_dir = WEAVER_CONFIG_DIR elif cwl_processes_dir == "": warnings.warn("Configuration setting [weaver.cwl_processes_dir] for CWL processes registration " "is explicitly defined as empty. Not loading anything.", RuntimeWarning) return 0 if not os.path.isdir(cwl_processes_dir): warnings.warn( "Configuration setting [weaver.cwl_processes_dir] for CWL processes registration " f"is not an existing directory: [{cwl_processes_dir}]. Not loading anything.", RuntimeWarning ) return 0 cwl_processes_dir = os.path.abspath(cwl_processes_dir) cwl_files = sorted(pathlib.Path(cwl_processes_dir).rglob("*.cwl"), # consider directory structure to sort, then use usual alphabetical order for same level key=lambda file: (len(str(file).split("/")), str(file))) if not cwl_files: warnings.warn( f"Configuration directory [{cwl_processes_dir}] for CWL processes registration " "does not contain any CWL file. Not loading anything.", RuntimeWarning ) return 0 register_count = 0 register_total = len(cwl_files) register_error = asbool(settings.get("weaver.cwl_processes_register_error", False)) for cwl_path in cwl_files: try: cwl = load_package_file(str(cwl_path)) deploy_process_from_payload(cwl, settings, overwrite=True) register_count += 1 except (HTTPException, PackageRegistrationError) as exc: msg = ( f"Failed registration of process from CWL file: [{cwl_path!s}] " f"caused by [{fully_qualified_name(exc)}]({exc!s})." ) if register_error: LOGGER.info("Requested immediate CWL registration failure with 'weaver.cwl_processes_register_error'.") LOGGER.error(msg) raise warnings.warn(msg + " Skipping definition.", RuntimeWarning) continue if register_count and register_count == register_total: LOGGER.info("Successfully registered %s processes from CWL files.", register_total) elif register_count != register_total: LOGGER.warning("Partial registration of CWL processes, only %s/%s succeeded.", register_count, register_total) return register_count