module ForemanTasks class Task::DynflowTask < ForemanTasks::Task include Algebrick::TypeCheck scope :for_action, ->(action_class) { where(label: action_class.name) } after_validation :set_action_field def update_from_dynflow(data) utc_zone = ActiveSupport::TimeZone.new('UTC') self.external_id = data[:id] self.result = map_result(data).to_s self.state = data[:state].to_s self.started_at = string_to_time(utc_zone, data[:started_at]) unless data[:started_at].nil? self.ended_at = string_to_time(utc_zone, data[:ended_at]) unless data[:ended_at].nil? self.start_at = string_to_time(utc_zone, data[:start_at]) if data[:start_at] self.start_before = string_to_time(utc_zone, data[:start_before]) if data[:start_before] self.parent_task_id ||= begin if main_action.try(:caller_execution_plan_id) DynflowTask.where(:external_id => main_action.caller_execution_plan_id).first!.id end end self[:label] ||= label changes = self.changes save! changes end def cancellable? execution_plan.try(:cancellable?) end def cancel execution_plan!.cancel.any? end def abort execution_plan!.cancel(true).any? end def resumable? execution_plan.try(:state) == :paused end def cancellable_action?(action) action.is_a?(::Dynflow::Action::Cancellable) end def progress execution_plan.try(:progress) || 0 end def execution_plan(silence_exception = true) return @execution_plan if defined?(@execution_plan) execution_plan = ForemanTasks.dynflow.world.persistence.load_execution_plan(external_id) # don't use invalid execution plans for our purposes if execution_plan.respond_to?(:valid?) && !execution_plan.valid? raise execution_plan.exception else @execution_plan = execution_plan end @execution_plan rescue => e Foreman::Logging.exception("Could not load execution plan #{external_id} for task #{id}", e, :logger => 'foreman-tasks') raise e unless silence_exception nil end def frozen delayed_plan.try(:frozen) end def delayed_plan ForemanTasks.dynflow.world.persistence.load_delayed_plan(external_id) if state == :scheduled end def execution_plan! execution_plan(false) end def label return main_action.class.name if main_action.present? self[:label] end def input return active_job_data['arguments'] if active_job? main_action.task_input if main_action.respond_to?(:task_input) end def output main_action.task_output if main_action.respond_to?(:task_output) end def failed_steps execution_plan.try(:steps_in_state, :skipped, :skipping, :error) || [] end def running_steps execution_plan.try(:steps_in_state, :running, :suspended) || [] end def humanized { action: get_humanized(:humanized_name), input: get_humanized(:humanized_input), output: get_humanized(:humanized_output), errors: get_humanized(:humanized_errors) } end def cli_example main_action.cli_example if main_action.respond_to?(:cli_example) end def main_action return @main_action if defined?(@main_action) if active_job? job_data = active_job_data @main_action = active_job_action(job_data['job_class'], job_data['arguments']) else @main_action = execution_plan && execution_plan.root_plan_step.try(:action, execution_plan) end end # The class for ActiveJob jobs in Dynflow, JobWrapper is not expected to # implement any humanized actions. Individual jobs are expected to implement # humanized_* methods for foreman-tasks integration. def active_job_action(klass, args) return if klass.blank? if (active_job_class = klass.safe_constantize) active_job_class.new(*args) end end def active_job? return false unless execution_plan.present? && execution_plan.root_plan_step.present? execution_plan_action.class == ::Dynflow::ActiveJob::QueueAdapters::JobWrapper end def active_job_data args = if execution_plan.delay_record execution_plan.delay_record.args.first else execution_plan_action.input end return args['job_data'] if args.key?('job_data') # For dynflow <= 1.2.1 { 'job_class' => args['job_class'], 'arguments' => args['job_arguments'] } end def execution_plan_action execution_plan.root_plan_step.action(execution_plan) end def execution_scheduled? main_action.nil? || main_action.respond_to?(:execution_plan) && main_action.execution_plan.state == :scheduled || execution_plan.state == :scheduled end def get_humanized(method) @humanized_cache ||= {} method = find_humanize_method_kind(method) Match! method, :humanized_name, :humanized_input, :humanized_output, :humanized_errors if method != :humanized_name && execution_scheduled? return elsif method == :humanized_name && main_action.nil? return N_(label) end @humanized_cache[method] ||= begin if main_action.respond_to? method begin main_action.send method rescue Exception => error # rubocop:disable Lint/RescueException "#{error.message} (#{error.class})\n#{error.backtrace.join "\n"}" end end end end def find_humanize_method_kind(method) return method if /humanized_.*/ =~ method if [:name, :input, :output, :error].include?(method) "humanized_#{method}".to_sym end end def self.consistency_check fixed_count = 0 logger = Foreman::Logging.logger('foreman-tasks') running.each do |task| begin changes = task.update_from_dynflow(task.execution_plan.to_hash) unless changes.empty? fixed_count += 1 logger.warn('Task %s updated at consistency check: %s' % [task.id, changes.inspect]) end rescue => e # if we fail updating the data from dynflow, it usually means there is something # odd with the data consistency and at this point it is not possible to resume, switching # the task to stopped/error task.update_attributes(:state => 'stopped', :result => 'error') Foreman::Logging.exception("Failed at consistency check for task #{task.id}", e, :logger => 'foreman-tasks') end end fixed_count end def self.new_for_execution_plan(execution_plan_id, data) new(:external_id => execution_plan_id, :state => data[:state].to_s, :result => data[:result].to_s) end def self.model_name superclass.model_name end private def string_to_time(zone, time) return time if time.is_a?(Time) zone.parse(time) end def set_action_field self.action = to_label end def map_result(data) if state_result_transitioned?(%w[planned pending], %w[stopped error], data) || (data[:result] == :error && cancelled?) :cancelled else data[:result] end end def state_result_transitioned?(from, to, data) oldstate, oldresult = from newstate, newresult = to state == oldstate && data[:state].to_s == newstate && result == oldresult && data[:result].to_s == newresult end def cancelled? execution_plan.errors.any? { |error| error.exception_class == ::ForemanTasks::Task::TaskCancelledException } end end end