/* eslint-disable @typescript-eslint/no-unsafe-argument */ /* eslint-disable @typescript-eslint/no-use-before-define */ /* eslint-disable id-denylist */ /* eslint-disable @typescript-eslint/no-unsafe-member-access */ /* eslint-disable @typescript-eslint/no-unsafe-assignment */ import { WorkflowExecute } from 'n8n-core'; import type { IDataObject, IExecuteData, IExecuteWorkflowInfo, INode, INodeExecutionData, INodeParameters, IRun, IRunExecutionData, ITaskData, IWorkflowBase, IWorkflowExecuteAdditionalData, IWorkflowExecuteHooks, IWorkflowHooksOptionalParameters, IWorkflowSettings, WorkflowExecuteMode, ExecutionStatus, ExecutionError, EventNamesAiNodesType, } from 'n8n-workflow'; import { ApplicationError, ErrorReporterProxy as ErrorReporter, NodeOperationError, Workflow, WorkflowHooks, } from 'n8n-workflow'; import { Container } from 'typedi'; import config from '@/config'; import { ActiveExecutions } from '@/ActiveExecutions'; import { CredentialsHelper } from '@/CredentialsHelper'; import { ExternalHooks } from '@/ExternalHooks'; import type { IPushDataExecutionFinished, IWorkflowExecuteProcess, IWorkflowExecutionDataProcess, IWorkflowErrorData, IPushDataType, ExecutionPayload, } from '@/Interfaces'; import { NodeTypes } from '@/NodeTypes'; import { Push } from '@/push'; import * as WorkflowHelpers from '@/WorkflowHelpers'; import { findSubworkflowStart, isWorkflowIdValid } from '@/utils'; import { PermissionChecker } from './UserManagement/PermissionChecker'; import { InternalHooks } from '@/InternalHooks'; import { ExecutionRepository } from '@db/repositories/execution.repository'; import { EventsService } from '@/services/events.service'; import { SecretsHelper } from './SecretsHelpers'; import { OwnershipService } from './services/ownership.service'; import { determineFinalExecutionStatus, prepareExecutionDataForDbUpdate, updateExistingExecution, } from './executionLifecycleHooks/shared/sharedHookFunctions'; import { restoreBinaryDataId } from './executionLifecycleHooks/restoreBinaryDataId'; import { toSaveSettings } from './executionLifecycleHooks/toSaveSettings'; import { Logger } from './Logger'; import { saveExecutionProgress } from './executionLifecycleHooks/saveExecutionProgress'; import { WorkflowStaticDataService } from './workflows/workflowStaticData.service'; import { WorkflowRepository } from './databases/repositories/workflow.repository'; import { UrlService } from './services/url.service'; import { WorkflowExecutionService } from './workflows/workflowExecution.service'; import { MessageEventBus } from '@/eventbus/MessageEventBus/MessageEventBus'; const ERROR_TRIGGER_TYPE = config.getEnv('nodes.errorTriggerType'); export function objectToError(errorObject: unknown, workflow: Workflow): Error { // TODO: Expand with other error types if (errorObject instanceof Error) { // If it's already an Error instance, return it as is. return errorObject; } else if (errorObject && typeof errorObject === 'object' && 'message' in errorObject) { // If it's an object with a 'message' property, create a new Error instance. let error: Error | undefined; if ('node' in errorObject) { const node = workflow.getNode((errorObject.node as { name: string }).name); if (node) { error = new NodeOperationError( node, errorObject as unknown as Error, errorObject as object, ); } } if (error === undefined) { error = new Error(errorObject.message as string); } if ('description' in errorObject) { // @ts-expect-error Error descriptions are surfaced by the UI but // not all backend errors account for this property yet. error.description = errorObject.description as string; } if ('stack' in errorObject) { // If there's a 'stack' property, set it on the new Error instance. error.stack = errorObject.stack as string; } return error; } else { // If it's neither an Error nor an object with a 'message' property, create a generic Error. return new Error('An error occurred'); } } /** * Checks if there was an error and if errorWorkflow or a trigger is defined. If so it collects * all the data and executes it * * @param {IWorkflowBase} workflowData The workflow which got executed * @param {IRun} fullRunData The run which produced the error * @param {WorkflowExecuteMode} mode The mode in which the workflow got started in * @param {string} [executionId] The id the execution got saved as */ export function executeErrorWorkflow( workflowData: IWorkflowBase, fullRunData: IRun, mode: WorkflowExecuteMode, executionId?: string, retryOf?: string, ): void { const logger = Container.get(Logger); // Check if there was an error and if so if an errorWorkflow or a trigger is set let pastExecutionUrl: string | undefined; if (executionId !== undefined) { pastExecutionUrl = `${Container.get(UrlService).getWebhookBaseUrl()}workflow/${ workflowData.id }/executions/${executionId}`; } if (fullRunData.data.resultData.error !== undefined) { let workflowErrorData: IWorkflowErrorData; const workflowId = workflowData.id; if (executionId) { // The error did happen in an execution workflowErrorData = { execution: { id: executionId, url: pastExecutionUrl, error: fullRunData.data.resultData.error, lastNodeExecuted: fullRunData.data.resultData.lastNodeExecuted!, mode, retryOf, }, workflow: { id: workflowId, name: workflowData.name, }, }; } else { // The error did happen in a trigger workflowErrorData = { trigger: { error: fullRunData.data.resultData.error, mode, }, workflow: { id: workflowId, name: workflowData.name, }, }; } // Run the error workflow // To avoid an infinite loop do not run the error workflow again if the error-workflow itself failed and it is its own error-workflow. const { errorWorkflow } = workflowData.settings ?? {}; if (errorWorkflow && !(mode === 'error' && workflowId && errorWorkflow === workflowId)) { logger.verbose('Start external error workflow', { executionId, errorWorkflowId: errorWorkflow, workflowId, }); // If a specific error workflow is set run only that one // First, do permission checks. if (!workflowId) { // Manual executions do not trigger error workflows // So this if should never happen. It was added to // make sure there are no possible security gaps return; } Container.get(OwnershipService) .getWorkflowOwnerCached(workflowId) .then((user) => { void Container.get(WorkflowExecutionService).executeErrorWorkflow( errorWorkflow, workflowErrorData, user, ); }) .catch((error: Error) => { ErrorReporter.error(error); logger.error( `Could not execute ErrorWorkflow for execution ID ${this.executionId} because of error querying the workflow owner`, { executionId, errorWorkflowId: errorWorkflow, workflowId, error, workflowErrorData, }, ); }); } else if ( mode !== 'error' && workflowId !== undefined && workflowData.nodes.some((node) => node.type === ERROR_TRIGGER_TYPE) ) { logger.verbose('Start internal error workflow', { executionId, workflowId }); void Container.get(OwnershipService) .getWorkflowOwnerCached(workflowId) .then((user) => { void Container.get(WorkflowExecutionService).executeErrorWorkflow( workflowId, workflowErrorData, user, ); }); } } } /** * Returns hook functions to push data to Editor-UI * */ function hookFunctionsPush(): IWorkflowExecuteHooks { const logger = Container.get(Logger); const pushInstance = Container.get(Push); return { nodeExecuteBefore: [ async function (this: WorkflowHooks, nodeName: string): Promise { const { sessionId, executionId } = this; // Push data to session which started workflow before each // node which starts rendering if (sessionId === undefined) { return; } logger.debug(`Executing hook on node "${nodeName}" (hookFunctionsPush)`, { executionId, sessionId, workflowId: this.workflowData.id, }); pushInstance.send('nodeExecuteBefore', { executionId, nodeName }, sessionId); }, ], nodeExecuteAfter: [ async function (this: WorkflowHooks, nodeName: string, data: ITaskData): Promise { const { sessionId, executionId } = this; // Push data to session which started workflow after each rendered node if (sessionId === undefined) { return; } logger.debug(`Executing hook on node "${nodeName}" (hookFunctionsPush)`, { executionId, sessionId, workflowId: this.workflowData.id, }); pushInstance.send('nodeExecuteAfter', { executionId, nodeName, data }, sessionId); }, ], workflowExecuteBefore: [ async function (this: WorkflowHooks): Promise { const { sessionId, executionId } = this; const { id: workflowId, name: workflowName } = this.workflowData; logger.debug('Executing hook (hookFunctionsPush)', { executionId, sessionId, workflowId, }); // Push data to session which started the workflow if (sessionId === undefined) { return; } pushInstance.send( 'executionStarted', { executionId, mode: this.mode, startedAt: new Date(), retryOf: this.retryOf, workflowId, sessionId, workflowName, }, sessionId, ); }, ], workflowExecuteAfter: [ async function (this: WorkflowHooks, fullRunData: IRun): Promise { const { sessionId, executionId, retryOf } = this; const { id: workflowId } = this.workflowData; logger.debug('Executing hook (hookFunctionsPush)', { executionId, sessionId, workflowId, }); // Push data to session which started the workflow if (sessionId === undefined) { return; } // Clone the object except the runData. That one is not supposed // to be send. Because that data got send piece by piece after // each node which finished executing // Edit: we now DO send the runData to the UI if mode=manual so that it shows the point of crashes let pushRunData; if (fullRunData.mode === 'manual') { pushRunData = fullRunData; } else { pushRunData = { ...fullRunData, data: { ...fullRunData.data, resultData: { ...fullRunData.data.resultData, runData: {}, }, }, }; } // Push data to editor-ui once workflow finished logger.debug(`Save execution progress to database for execution ID ${executionId} `, { executionId, workflowId, }); // TODO: Look at this again const sendData: IPushDataExecutionFinished = { executionId, data: pushRunData, retryOf, }; pushInstance.send('executionFinished', sendData, sessionId); }, ], }; } export function hookFunctionsPreExecute(): IWorkflowExecuteHooks { const externalHooks = Container.get(ExternalHooks); return { workflowExecuteBefore: [ async function (this: WorkflowHooks, workflow: Workflow): Promise { await externalHooks.run('workflow.preExecute', [workflow, this.mode]); }, ], nodeExecuteAfter: [ async function ( this: WorkflowHooks, nodeName: string, data: ITaskData, executionData: IRunExecutionData, ): Promise { await saveExecutionProgress( this.workflowData, this.executionId, nodeName, data, executionData, this.sessionId, ); }, ], }; } /** * Returns hook functions to save workflow execution and call error workflow * */ function hookFunctionsSave(parentProcessMode?: string): IWorkflowExecuteHooks { const logger = Container.get(Logger); const internalHooks = Container.get(InternalHooks); const eventsService = Container.get(EventsService); return { nodeExecuteBefore: [ async function (this: WorkflowHooks, nodeName: string): Promise { void internalHooks.onNodeBeforeExecute(this.executionId, this.workflowData, nodeName); }, ], nodeExecuteAfter: [ async function (this: WorkflowHooks, nodeName: string): Promise { void internalHooks.onNodePostExecute(this.executionId, this.workflowData, nodeName); }, ], workflowExecuteBefore: [], workflowExecuteAfter: [ async function ( this: WorkflowHooks, fullRunData: IRun, newStaticData: IDataObject, ): Promise { logger.debug('Executing hook (hookFunctionsSave)', { executionId: this.executionId, workflowId: this.workflowData.id, }); await restoreBinaryDataId(fullRunData, this.executionId, this.mode); const isManualMode = [this.mode, parentProcessMode].includes('manual'); try { if (!isManualMode && isWorkflowIdValid(this.workflowData.id) && newStaticData) { // Workflow is saved so update in database try { await Container.get(WorkflowStaticDataService).saveStaticDataById( this.workflowData.id, newStaticData, ); } catch (e) { ErrorReporter.error(e); logger.error( `There was a problem saving the workflow with id "${this.workflowData.id}" to save changed staticData: "${e.message}" (hookFunctionsSave)`, { executionId: this.executionId, workflowId: this.workflowData.id }, ); } } const saveSettings = toSaveSettings(this.workflowData.settings); if (isManualMode && !saveSettings.manual && !fullRunData.waitTill) { /** * When manual executions are not being saved, we only soft-delete * the execution so that the user can access its binary data * while building their workflow. * * The manual execution and its binary data will be hard-deleted * on the next pruning cycle after the grace period set by * `EXECUTIONS_DATA_HARD_DELETE_BUFFER`. */ await Container.get(ExecutionRepository).softDelete(this.executionId); return; } const executionStatus = determineFinalExecutionStatus(fullRunData); const shouldNotSave = (executionStatus === 'success' && !saveSettings.success) || (executionStatus !== 'success' && !saveSettings.error); if (shouldNotSave) { if (!fullRunData.waitTill && !isManualMode) { executeErrorWorkflow( this.workflowData, fullRunData, this.mode, this.executionId, this.retryOf, ); await Container.get(ExecutionRepository).hardDelete({ workflowId: this.workflowData.id, executionId: this.executionId, }); return; } } // Although it is treated as IWorkflowBase here, it's being instantiated elsewhere with properties that may be sensitive // As a result, we should create an IWorkflowBase object with only the data we want to save in it. const fullExecutionData = prepareExecutionDataForDbUpdate({ runData: fullRunData, workflowData: this.workflowData, workflowStatusFinal: executionStatus, retryOf: this.retryOf, }); await updateExistingExecution({ executionId: this.executionId, workflowId: this.workflowData.id, executionData: fullExecutionData, }); if (!isManualMode) { executeErrorWorkflow( this.workflowData, fullRunData, this.mode, this.executionId, this.retryOf, ); } } catch (error) { ErrorReporter.error(error); logger.error(`Failed saving execution data to DB on execution ID ${this.executionId}`, { executionId: this.executionId, workflowId: this.workflowData.id, error, }); if (!isManualMode) { executeErrorWorkflow( this.workflowData, fullRunData, this.mode, this.executionId, this.retryOf, ); } } finally { eventsService.emit('workflowExecutionCompleted', this.workflowData, fullRunData); } }, ], nodeFetchedData: [ async (workflowId: string, node: INode) => { eventsService.emit('nodeFetchedData', workflowId, node); }, ], }; } /** * Returns hook functions to save workflow execution and call error workflow * for running with queues. Manual executions should never run on queues as * they are always executed in the main process. * */ function hookFunctionsSaveWorker(): IWorkflowExecuteHooks { const logger = Container.get(Logger); const internalHooks = Container.get(InternalHooks); const eventsService = Container.get(EventsService); return { nodeExecuteBefore: [ async function (this: WorkflowHooks, nodeName: string): Promise { void internalHooks.onNodeBeforeExecute(this.executionId, this.workflowData, nodeName); }, ], nodeExecuteAfter: [ async function (this: WorkflowHooks, nodeName: string): Promise { void internalHooks.onNodePostExecute(this.executionId, this.workflowData, nodeName); }, ], workflowExecuteBefore: [ async function (): Promise { void internalHooks.onWorkflowBeforeExecute(this.executionId, this.workflowData); }, ], workflowExecuteAfter: [ async function ( this: WorkflowHooks, fullRunData: IRun, newStaticData: IDataObject, ): Promise { logger.debug('Executing hook (hookFunctionsSaveWorker)', { executionId: this.executionId, workflowId: this.workflowData.id, }); try { if (isWorkflowIdValid(this.workflowData.id) && newStaticData) { // Workflow is saved so update in database try { await Container.get(WorkflowStaticDataService).saveStaticDataById( this.workflowData.id, newStaticData, ); } catch (e) { ErrorReporter.error(e); logger.error( `There was a problem saving the workflow with id "${this.workflowData.id}" to save changed staticData: "${e.message}" (workflowExecuteAfter)`, { sessionId: this.sessionId, workflowId: this.workflowData.id }, ); } } const workflowStatusFinal = determineFinalExecutionStatus(fullRunData); if (workflowStatusFinal !== 'success' && workflowStatusFinal !== 'waiting') { executeErrorWorkflow( this.workflowData, fullRunData, this.mode, this.executionId, this.retryOf, ); } // Although it is treated as IWorkflowBase here, it's being instantiated elsewhere with properties that may be sensitive // As a result, we should create an IWorkflowBase object with only the data we want to save in it. const fullExecutionData = prepareExecutionDataForDbUpdate({ runData: fullRunData, workflowData: this.workflowData, workflowStatusFinal, retryOf: this.retryOf, }); await updateExistingExecution({ executionId: this.executionId, workflowId: this.workflowData.id, executionData: fullExecutionData, }); } catch (error) { executeErrorWorkflow( this.workflowData, fullRunData, this.mode, this.executionId, this.retryOf, ); } finally { eventsService.emit('workflowExecutionCompleted', this.workflowData, fullRunData); } }, async function (this: WorkflowHooks, fullRunData: IRun): Promise { // send tracking and event log events, but don't wait for them void internalHooks.onWorkflowPostExecute(this.executionId, this.workflowData, fullRunData); }, async function (this: WorkflowHooks, fullRunData: IRun) { const externalHooks = Container.get(ExternalHooks); if (externalHooks.exists('workflow.postExecute')) { try { await externalHooks.run('workflow.postExecute', [ fullRunData, this.workflowData, this.executionId, ]); } catch (error) { ErrorReporter.error(error); console.error('There was a problem running hook "workflow.postExecute"', error); } } }, ], nodeFetchedData: [ async (workflowId: string, node: INode) => { eventsService.emit('nodeFetchedData', workflowId, node); }, ], }; } export async function getRunData( workflowData: IWorkflowBase, userId: string, inputData?: INodeExecutionData[], ): Promise { const mode = 'integrated'; const startingNode = findSubworkflowStart(workflowData.nodes); // Always start with empty data if no inputData got supplied inputData = inputData || [ { json: {}, }, ]; // Initialize the incoming data const nodeExecutionStack: IExecuteData[] = []; nodeExecutionStack.push({ node: startingNode, data: { main: [inputData], }, source: null, }); const runExecutionData: IRunExecutionData = { startData: {}, resultData: { runData: {}, }, executionData: { contextData: {}, metadata: {}, nodeExecutionStack, waitingExecution: {}, waitingExecutionSource: {}, }, }; const runData: IWorkflowExecutionDataProcess = { executionMode: mode, executionData: runExecutionData, // @ts-ignore workflowData, userId, }; return runData; } export async function getWorkflowData( workflowInfo: IExecuteWorkflowInfo, parentWorkflowId: string, parentWorkflowSettings?: IWorkflowSettings, ): Promise { if (workflowInfo.id === undefined && workflowInfo.code === undefined) { throw new ApplicationError( 'No information about the workflow to execute found. Please provide either the "id" or "code"!', ); } let workflowData: IWorkflowBase | null; if (workflowInfo.id !== undefined) { const relations = config.getEnv('workflowTagsDisabled') ? [] : ['tags']; workflowData = await Container.get(WorkflowRepository).get( { id: workflowInfo.id }, { relations }, ); if (workflowData === undefined || workflowData === null) { throw new ApplicationError('Workflow does not exist.', { extra: { workflowId: workflowInfo.id }, }); } } else { workflowData = workflowInfo.code ?? null; if (workflowData) { if (!workflowData.id) { workflowData.id = parentWorkflowId; } if (!workflowData.settings) { workflowData.settings = parentWorkflowSettings; } } } return workflowData!; } /** * Executes the workflow with the given ID */ async function executeWorkflow( workflowInfo: IExecuteWorkflowInfo, additionalData: IWorkflowExecuteAdditionalData, options: { node?: INode; parentWorkflowId: string; inputData?: INodeExecutionData[]; parentExecutionId?: string; loadedWorkflowData?: IWorkflowBase; loadedRunData?: IWorkflowExecutionDataProcess; parentWorkflowSettings?: IWorkflowSettings; }, ): Promise | IWorkflowExecuteProcess> { const internalHooks = Container.get(InternalHooks); const externalHooks = Container.get(ExternalHooks); await externalHooks.init(); const nodeTypes = Container.get(NodeTypes); const activeExecutions = Container.get(ActiveExecutions); const workflowData = options.loadedWorkflowData ?? (await getWorkflowData(workflowInfo, options.parentWorkflowId, options.parentWorkflowSettings)); const workflowName = workflowData ? workflowData.name : undefined; const workflow = new Workflow({ id: workflowData.id, name: workflowName, nodes: workflowData.nodes, connections: workflowData.connections, active: workflowData.active, nodeTypes, staticData: workflowData.staticData, settings: workflowData.settings, }); const runData = options.loadedRunData ?? (await getRunData(workflowData, additionalData.userId, options.inputData)); let executionId; if (options.parentExecutionId !== undefined) { executionId = options.parentExecutionId; } else { executionId = options.parentExecutionId ?? (await activeExecutions.add(runData)); } void internalHooks.onWorkflowBeforeExecute(executionId || '', runData); let data; try { await Container.get(PermissionChecker).check(workflow, additionalData.userId); await Container.get(PermissionChecker).checkSubworkflowExecutePolicy( workflow, options.parentWorkflowId, options.node, ); // Create new additionalData to have different workflow loaded and to call // different webhooks const additionalDataIntegrated = await getBase(additionalData.userId); additionalDataIntegrated.hooks = getWorkflowHooksIntegrated( runData.executionMode, executionId, workflowData, { parentProcessMode: additionalData.hooks!.mode }, ); additionalDataIntegrated.executionId = executionId; // Make sure we pass on the original executeWorkflow function we received // This one already contains changes to talk to parent process // and get executionID from `activeExecutions` running on main process additionalDataIntegrated.executeWorkflow = additionalData.executeWorkflow; let subworkflowTimeout = additionalData.executionTimeoutTimestamp; const workflowSettings = workflowData.settings; if (workflowSettings?.executionTimeout !== undefined && workflowSettings.executionTimeout > 0) { // We might have received a max timeout timestamp from the parent workflow // If we did, then we get the minimum time between the two timeouts // If no timeout was given from the parent, then we use our timeout. subworkflowTimeout = Math.min( additionalData.executionTimeoutTimestamp || Number.MAX_SAFE_INTEGER, Date.now() + workflowSettings.executionTimeout * 1000, ); } additionalDataIntegrated.executionTimeoutTimestamp = subworkflowTimeout; const runExecutionData = runData.executionData as IRunExecutionData; // Execute the workflow const workflowExecute = new WorkflowExecute( additionalDataIntegrated, runData.executionMode, runExecutionData, ); if (options.parentExecutionId !== undefined) { // Must be changed to become typed return { startedAt: new Date(), workflow, workflowExecute, }; } data = await workflowExecute.processRunExecutionData(workflow); } catch (error) { const executionError = error ? (error as ExecutionError) : undefined; const fullRunData: IRun = { data: { resultData: { error: executionError, runData: {}, }, }, finished: false, mode: 'integrated', startedAt: new Date(), stoppedAt: new Date(), status: 'failed', }; // When failing, we might not have finished the execution // Therefore, database might not contain finished errors. // Force an update to db as there should be no harm doing this const fullExecutionData: ExecutionPayload = { data: fullRunData.data, mode: fullRunData.mode, finished: fullRunData.finished ? fullRunData.finished : false, startedAt: fullRunData.startedAt, stoppedAt: fullRunData.stoppedAt, status: fullRunData.status, workflowData, workflowId: workflowData.id, }; if (workflowData.id) { fullExecutionData.workflowId = workflowData.id; } // remove execution from active executions activeExecutions.remove(executionId, fullRunData); await Container.get(ExecutionRepository).updateExistingExecution( executionId, fullExecutionData, ); throw objectToError( { ...executionError, stack: executionError?.stack, message: executionError?.message, }, workflow, ); } await externalHooks.run('workflow.postExecute', [data, workflowData, executionId]); void internalHooks.onWorkflowPostExecute(executionId, workflowData, data, additionalData.userId); // subworkflow either finished, or is in status waiting due to a wait node, both cases are considered successes here if (data.finished === true || data.status === 'waiting') { // Workflow did finish successfully activeExecutions.remove(executionId, data); const returnData = WorkflowHelpers.getDataLastExecutedNodeData(data); return returnData!.data!.main; } activeExecutions.remove(executionId, data); // Workflow did fail const { error } = data.data.resultData; throw objectToError( { ...error, stack: error?.stack, }, workflow, ); } export function setExecutionStatus(status: ExecutionStatus) { const logger = Container.get(Logger); if (this.executionId === undefined) { logger.debug(`Setting execution status "${status}" failed because executionId is undefined`); return; } logger.debug(`Setting execution status for ${this.executionId} to "${status}"`); Container.get(ActiveExecutions).setStatus(this.executionId, status); } export function sendDataToUI(type: string, data: IDataObject | IDataObject[]) { const { sessionId } = this; if (sessionId === undefined) { return; } // Push data to session which started workflow try { const pushInstance = Container.get(Push); pushInstance.send(type as IPushDataType, data, sessionId); } catch (error) { const logger = Container.get(Logger); logger.warn(`There was a problem sending message to UI: ${error.message}`); } } /** * Returns the base additional data without webhooks */ export async function getBase( userId: string, currentNodeParameters?: INodeParameters, executionTimeoutTimestamp?: number, ): Promise { const urlBaseWebhook = Container.get(UrlService).getWebhookBaseUrl(); const formWaitingBaseUrl = urlBaseWebhook + config.getEnv('endpoints.formWaiting'); const webhookBaseUrl = urlBaseWebhook + config.getEnv('endpoints.webhook'); const webhookTestBaseUrl = urlBaseWebhook + config.getEnv('endpoints.webhookTest'); const webhookWaitingBaseUrl = urlBaseWebhook + config.getEnv('endpoints.webhookWaiting'); const variables = await WorkflowHelpers.getVariables(); return { credentialsHelper: Container.get(CredentialsHelper), executeWorkflow, restApiUrl: urlBaseWebhook + config.getEnv('endpoints.rest'), instanceBaseUrl: urlBaseWebhook, formWaitingBaseUrl, webhookBaseUrl, webhookWaitingBaseUrl, webhookTestBaseUrl, currentNodeParameters, executionTimeoutTimestamp, userId, setExecutionStatus, variables, secretsHelpers: Container.get(SecretsHelper), logAiEvent: async ( eventName: EventNamesAiNodesType, payload: { msg?: string | undefined; executionId: string; nodeName: string; workflowId?: string | undefined; workflowName: string; nodeType?: string | undefined; }, ) => { return await Container.get(MessageEventBus).sendAiNodeEvent({ eventName, payload, }); }, }; } /** * Returns WorkflowHooks instance for running integrated workflows * (Workflows which get started inside of another workflow) */ function getWorkflowHooksIntegrated( mode: WorkflowExecuteMode, executionId: string, workflowData: IWorkflowBase, optionalParameters?: IWorkflowHooksOptionalParameters, ): WorkflowHooks { optionalParameters = optionalParameters || {}; const hookFunctions = hookFunctionsSave(optionalParameters.parentProcessMode); const preExecuteFunctions = hookFunctionsPreExecute(); for (const key of Object.keys(preExecuteFunctions)) { if (hookFunctions[key] === undefined) { hookFunctions[key] = []; } hookFunctions[key]!.push.apply(hookFunctions[key], preExecuteFunctions[key]); } return new WorkflowHooks(hookFunctions, mode, executionId, workflowData, optionalParameters); } /** * Returns WorkflowHooks instance for running integrated workflows * (Workflows which get started inside of another workflow) */ export function getWorkflowHooksWorkerExecuter( mode: WorkflowExecuteMode, executionId: string, workflowData: IWorkflowBase, optionalParameters?: IWorkflowHooksOptionalParameters, ): WorkflowHooks { optionalParameters = optionalParameters || {}; const hookFunctions = hookFunctionsSaveWorker(); const preExecuteFunctions = hookFunctionsPreExecute(); for (const key of Object.keys(preExecuteFunctions)) { if (hookFunctions[key] === undefined) { hookFunctions[key] = []; } hookFunctions[key]!.push.apply(hookFunctions[key], preExecuteFunctions[key]); } return new WorkflowHooks(hookFunctions, mode, executionId, workflowData, optionalParameters); } /** * Returns WorkflowHooks instance for main process if workflow runs via worker */ export function getWorkflowHooksWorkerMain( mode: WorkflowExecuteMode, executionId: string, workflowData: IWorkflowBase, optionalParameters?: IWorkflowHooksOptionalParameters, ): WorkflowHooks { optionalParameters = optionalParameters || {}; const hookFunctions = hookFunctionsPreExecute(); // TODO: why are workers pushing to frontend? // TODO: simplifying this for now to just leave the bare minimum hooks // const hookFunctions = hookFunctionsPush(); // const preExecuteFunctions = hookFunctionsPreExecute(optionalParameters.parentProcessMode); // for (const key of Object.keys(preExecuteFunctions)) { // if (hookFunctions[key] === undefined) { // hookFunctions[key] = []; // } // hookFunctions[key]!.push.apply(hookFunctions[key], preExecuteFunctions[key]); // } // When running with worker mode, main process executes // Only workflowExecuteBefore + workflowExecuteAfter // So to avoid confusion, we are removing other hooks. hookFunctions.nodeExecuteBefore = []; hookFunctions.nodeExecuteAfter = []; hookFunctions.workflowExecuteAfter = [ async function (this: WorkflowHooks, fullRunData: IRun): Promise { const executionStatus = determineFinalExecutionStatus(fullRunData); const saveSettings = toSaveSettings(this.workflowData.settings); const shouldNotSave = (executionStatus === 'success' && !saveSettings.success) || (executionStatus !== 'success' && !saveSettings.error); if (shouldNotSave) { await Container.get(ExecutionRepository).hardDelete({ workflowId: this.workflowData.id, executionId: this.executionId, }); } }, ]; return new WorkflowHooks(hookFunctions, mode, executionId, workflowData, optionalParameters); } /** * Returns WorkflowHooks instance for running the main workflow * */ export function getWorkflowHooksMain( data: IWorkflowExecutionDataProcess, executionId: string, isMainProcess = false, ): WorkflowHooks { const hookFunctions = hookFunctionsSave(); const pushFunctions = hookFunctionsPush(); for (const key of Object.keys(pushFunctions)) { if (hookFunctions[key] === undefined) { hookFunctions[key] = []; } hookFunctions[key]!.push.apply(hookFunctions[key], pushFunctions[key]); } if (isMainProcess) { const preExecuteFunctions = hookFunctionsPreExecute(); for (const key of Object.keys(preExecuteFunctions)) { if (hookFunctions[key] === undefined) { hookFunctions[key] = []; } hookFunctions[key]!.push.apply(hookFunctions[key], preExecuteFunctions[key]); } } if (!hookFunctions.nodeExecuteBefore) hookFunctions.nodeExecuteBefore = []; if (!hookFunctions.nodeExecuteAfter) hookFunctions.nodeExecuteAfter = []; return new WorkflowHooks(hookFunctions, data.executionMode, executionId, data.workflowData, { sessionId: data.sessionId, retryOf: data.retryOf as string, }); }