import { IConnections, INode, NodeHelpers, INodes, INodeExecuteFunctions, INodeExecutionData, INodeParameters, INodeIssues, NodeParameterValue, INodeType, INodeTypes, ObservableObject, IRunExecutionData, ITaskDataConnections, ITriggerResponse, IWebhookData, IWebhookDescription, IWebhookResonseData, WebhookSetupMethodNames, WorkflowDataProxy, IWorfklowIssues, IWorkflowExecuteAdditionalData, WorkflowExecuteMode, IWorkflowSettings, } from './'; // @ts-ignore import * as tmpl from 'riot-tmpl'; import { IConnection, IDataObject, IObservableObject } from './Interfaces'; // Set it to use double curly brackets instead of single ones tmpl.brackets.set('{{ }}'); // Make sure that it does not always print an error when it could not resolve // a variable tmpl.tmpl.errorHandler = () => { }; export class Workflow { id: string | undefined; nodes: INodes = {}; connectionsBySourceNode: IConnections; connectionsByDestinationNode: IConnections; nodeTypes: INodeTypes; active: boolean; settings: IWorkflowSettings; // To save workflow specific static data like for example // ids of registred webhooks of nodes staticData: IDataObject; constructor(id: string | undefined, nodes: INode[], connections: IConnections, active: boolean, nodeTypes: INodeTypes, staticData?: IDataObject, settings?: IWorkflowSettings) { this.id = id; this.nodeTypes = nodeTypes; // Save nodes in workflow as object to be able to get the // nodes easily by its name. // Also directly add the default values of the node type. let nodeType: INodeType | undefined; for (const node of nodes) { this.nodes[node.name] = node; nodeType = this.nodeTypes.getByName(node.type); if (nodeType === undefined) { // Go on to next node when its type is not known. // For now do not error because that causes problems with // expression resolution also then when the unknown node // does not get used. continue; // throw new Error(`The node type "${node.type}" of node "${node.name}" is not known.`); } // Add default values const nodeParameters = NodeHelpers.getNodeParameters(nodeType.description.properties, node.parameters, true, false); node.parameters = nodeParameters !== null ? nodeParameters : {}; } this.connectionsBySourceNode = connections; // Save also the connections by the destionation nodes this.connectionsByDestinationNode = this.__getConnectionsByDestination(connections); this.active = active || false; this.staticData = ObservableObject.create(staticData || {}, undefined, { ignoreEmptyOnFirstChild: true }); this.settings = settings || {}; } /** * The default connections are by source node. This function rewrites them by destination nodes * to easily find parent nodes. * * @param {IConnections} connections * @returns {IConnections} * @memberof Workflow */ __getConnectionsByDestination(connections: IConnections): IConnections { const returnConnection: IConnections = {}; let connectionInfo; let maxIndex: number; for (const sourceNode in connections) { if (!connections.hasOwnProperty(sourceNode)) { continue; } for (const type in connections[sourceNode]) { if (!connections[sourceNode].hasOwnProperty(type)) { continue; } for (const inputIndex in connections[sourceNode][type]) { if (!connections[sourceNode][type].hasOwnProperty(inputIndex)) { continue; } for (connectionInfo of connections[sourceNode][type][inputIndex]) { if (!returnConnection.hasOwnProperty(connectionInfo.node)) { returnConnection[connectionInfo.node] = {}; } if (!returnConnection[connectionInfo.node].hasOwnProperty(connectionInfo.type)) { returnConnection[connectionInfo.node][connectionInfo.type] = []; } maxIndex = returnConnection[connectionInfo.node][connectionInfo.type].length - 1; for (let j = maxIndex; j < connectionInfo.index; j++) { returnConnection[connectionInfo.node][connectionInfo.type].push([]); } returnConnection[connectionInfo.node][connectionInfo.type][connectionInfo.index].push({ node: sourceNode, type, index: parseInt(inputIndex, 10) }); } } } } return returnConnection; } /** * Converts an object to a string in a way to make it clear that * the value comes from an object * * @param {object} value * @returns {string} * @memberof Workflow */ convertObjectValueToString(value: object): string { return `[Object: ${JSON.stringify(value)}]`; } /** * A workflow can only be activated if it has a node which has either triggers * or webhooks defined. * * @param {string[]} [ignoreNodeTypes] Node-types to ignore in the check * @returns {boolean} * @memberof Workflow */ checkIfWorkflowCanBeActivated(ignoreNodeTypes?: string[]): boolean { let node: INode; let nodeType: INodeType | undefined; for (const nodeName of Object.keys(this.nodes)) { node = this.nodes[nodeName]; if (node.disabled === true) { // Deactivated nodes can not trigger a run so ignore continue; } if (ignoreNodeTypes !== undefined && ignoreNodeTypes.includes(node.type)) { continue; } nodeType = this.nodeTypes.getByName(node.type); if (nodeType === undefined) { // Type is not known so check is not possible continue; } if (nodeType.trigger !== undefined || nodeType.webhook !== undefined) { // Is a trigger node. So workflow can be activated. return true; } } return false; } /** * Checks if everything in the workflow is complete * and ready to be executed. If it returns null everything * is fine. If there are issues it returns the issues * which have been found for the different nodes. * TODO: Does currently not check for credential issues! * * @returns {(IWorfklowIssues | null)} * @memberof Workflow */ checkReadyForExecution(): IWorfklowIssues | null { let node: INode; let nodeType: INodeType | undefined; let nodeIssues: INodeIssues | null = null; const workflowIssues: IWorfklowIssues = {}; for (const nodeName of Object.keys(this.nodes)) { nodeIssues = null; node = this.nodes[nodeName]; if (node.disabled === true) { continue; } nodeType = this.nodeTypes.getByName(node.type); if (nodeType === undefined) { // Node type is not known nodeIssues = { typeUnknown: true, }; } else { nodeIssues = NodeHelpers.getNodeParametersIssues(nodeType.description.properties, node); } if (nodeIssues !== null) { workflowIssues[node.name] = nodeIssues; } } if (Object.keys(workflowIssues).length === 0) { return null; } return workflowIssues; } /** * Returns the static data of the workflow. * It gets saved with the workflow and will be the same for * all workflow-executions. * * @param {string} type The type of data to return ("global"|"node") * @param {INode} [node] If type is set to "node" then the node has to be provided * @returns {IDataObject} * @memberof Workflow */ getStaticData(type: string, node?: INode): IDataObject { let key: string; if (type === 'global') { key = 'global'; } else if (type === 'node') { if (node === undefined) { throw new Error(`The request data of context type "node" the node parameter has to be set!`); } key = `node:${node.name}`; } else { throw new Error(`The context type "${type}" is not know. Only "global" and node" are supported!`); } if (this.staticData[key] === undefined) { // Create it as ObservableObject that we can easily check if the data changed // to know if the workflow with its data has to be saved afterwards or not. this.staticData[key] = ObservableObject.create({}, this.staticData as IObservableObject); } return this.staticData[key] as IDataObject; } /** * Returns all the trigger nodes in the workflow. * * @returns {INode[]} * @memberof Workflow */ getTriggerNodes(): INode[] { const returnNodes: INode[] = []; // Check if it has any of them let node: INode; let nodeType: INodeType | undefined; for (const nodeName of Object.keys(this.nodes)) { node = this.nodes[nodeName]; if (node.disabled === true) { continue; } nodeType = this.nodeTypes.getByName(node.type); if (nodeType !== undefined && nodeType.trigger) { returnNodes.push(node); } } return returnNodes; } /** * Returns the node with the given name if it exists else null * * @param {string} nodeName Name of the node to return * @returns {(INode | null)} * @memberof Workflow */ getNode(nodeName: string): INode | null { if (this.nodes.hasOwnProperty(nodeName)) { return this.nodes[nodeName]; } return null; } /** * Renames nodes in expressions * * @param {(NodeParameterValue | INodeParameters | NodeParameterValue[] | INodeParameters[])} parameterValue The parameters to check for expressions * @param {string} currentName The current name of the node * @param {string} newName The new name * @returns {(NodeParameterValue | INodeParameters | NodeParameterValue[] | INodeParameters[])} * @memberof Workflow */ renameNodeInExpressions(parameterValue: NodeParameterValue | INodeParameters | NodeParameterValue[] | INodeParameters[], currentName: string, newName: string): NodeParameterValue | INodeParameters | NodeParameterValue[] | INodeParameters[] { if (typeof parameterValue !== 'object') { // Reached the actual value if (typeof parameterValue === 'string' && parameterValue.charAt(0) === '=') { // Is expression so has to be rewritten // To not run the "expensive" regex stuff when it is not needed // make a simple check first if it really contains the the node-name if (parameterValue.includes(currentName)) { // Really contains node-name (even though we do not know yet if really as $node-expression) // In case some special characters are used in name escape them const currentNameEscaped = currentName.replace(/[.*+?^${}()|[\]\\]/g, '\\$&'); parameterValue = parameterValue.replace(new RegExp(`(\\$node(\.|\\["|\\[\'))${currentNameEscaped}((\.|"\\]|\'\\]))`, 'g'), `$1${newName}$3`); } } return parameterValue; } if (Array.isArray(parameterValue)) { const returnArray: any[] = []; // tslint:disable-line:no-any for (const currentValue of parameterValue) { returnArray.push(this.renameNodeInExpressions(currentValue, currentName, newName)); } return returnArray; } const returnData: any = {}; // tslint:disable-line:no-any for (const parameterName of Object.keys(parameterValue)) { returnData[parameterName] = this.renameNodeInExpressions(parameterValue[parameterName], currentName, newName); } return returnData; } /** * Rename a node in the workflow * * @param {string} currentName The current name of the node * @param {string} newName The new name * @memberof Workflow */ renameNode(currentName: string, newName: string) { // Rename the node itself if (this.nodes[currentName] !== undefined) { this.nodes[newName] = this.nodes[currentName]; this.nodes[newName].name = newName; delete this.nodes[currentName]; } // Update the expressions which reference the node // with its old name for (const node of Object.values(this.nodes)) { node.parameters = this.renameNodeInExpressions(node.parameters, currentName, newName) as INodeParameters; } // Change all source connections if (this.connectionsBySourceNode.hasOwnProperty(currentName)) { this.connectionsBySourceNode[newName] = this.connectionsBySourceNode[currentName]; delete this.connectionsBySourceNode[currentName]; } // Change all destination connections let sourceNode: string, type: string, sourceIndex: string, connectionIndex: string, connectionData: IConnection; for (sourceNode of Object.keys(this.connectionsBySourceNode)) { for (type of Object.keys(this.connectionsBySourceNode[sourceNode])) { for (sourceIndex of Object.keys(this.connectionsBySourceNode[sourceNode][type])) { for (connectionIndex of Object.keys(this.connectionsBySourceNode[sourceNode][type][parseInt(sourceIndex, 10)])) { connectionData = this.connectionsBySourceNode[sourceNode][type][parseInt(sourceIndex, 10)][parseInt(connectionIndex, 10)]; if (connectionData.node === currentName) { connectionData.node = newName; } } } } } // Use the updated connections to create updated connections by destionation nodes this.connectionsByDestinationNode = this.__getConnectionsByDestination(this.connectionsBySourceNode); } /** * Finds the highest parent nodes of the node with the given name * * @param {string} nodeName * @param {string} [type='main'] * @param {number} [nodeConnectionIndex] * @returns {string[]} * @memberof Workflow */ getHighestNode(nodeName: string, type = 'main', nodeConnectionIndex?:number, checkedNodes?: string[]): string[] { const currentHighest: string[] = []; if (this.nodes[nodeName].disabled === false) { // If the current node is not disabled itself is the highest currentHighest.push(nodeName); } if (!this.connectionsByDestinationNode.hasOwnProperty(nodeName)) { // Node does not have incoming connections return currentHighest; } if (!this.connectionsByDestinationNode[nodeName].hasOwnProperty(type)) { // Node does not have incoming connections of given type return currentHighest; } if (checkedNodes === undefined) { checkedNodes = []; } if (checkedNodes!.includes(nodeName)) { // Node got checked already before return []; } checkedNodes!.push(nodeName); const returnNodes: string[] = []; let addNodes: string[]; let connectionsByIndex: IConnection[]; for (let connectionIndex = 0; connectionIndex < this.connectionsByDestinationNode[nodeName][type].length; connectionIndex++) { if (nodeConnectionIndex !== undefined && nodeConnectionIndex !== connectionIndex) { // If a connection-index is given ignore all other ones continue; } connectionsByIndex = this.connectionsByDestinationNode[nodeName][type][connectionIndex]; connectionsByIndex.forEach((connection) => { if (checkedNodes!.includes(connection.node)) { // Node got checked already before return; } addNodes = this.getHighestNode(connection.node, type, undefined, checkedNodes); if (addNodes.length === 0) { // The checked node does not have any further parents so add it // if it is not disabled if (this.nodes[connection.node].disabled !== true) { addNodes = [connection.node]; } } addNodes.forEach((name) => { // Only add if: // - Node is not on the list already anyway // - And if it has not been checked already which means that we // are in a loop if (returnNodes.indexOf(name) === -1 && !checkedNodes!.includes(name)) { returnNodes.push(name); } }); }); } return returnNodes; } /** * Returns all the active nodes before the given one * * @param {string} nodeName * @param {string} [type='main'] * @param {*} [depth=-1] * @returns {string[]} * @memberof Workflow */ getParentNodes(nodeName: string, type = 'main', depth = -1, checkedNodes?: string[]): string[] { depth = depth === -1 ? -1 : depth; const newDepth = depth === -1 ? depth : depth - 1; if (depth === 0) { // Reached max depth return []; } if (!this.connectionsByDestinationNode.hasOwnProperty(nodeName)) { // Node does not have incoming connections return []; } if (!this.connectionsByDestinationNode[nodeName].hasOwnProperty(type)) { // Node does not have incoming connections of given type return []; } if (checkedNodes === undefined) { checkedNodes = []; } if (checkedNodes!.includes(nodeName)) { // Node got checked already before return []; } checkedNodes!.push(nodeName); const returnNodes: string[] = []; let addNodes: string[]; let nodeIndex: number; let i: number; let parentNodeName: string; this.connectionsByDestinationNode[nodeName][type].forEach((connectionsByIndex) => { connectionsByIndex.forEach((connection) => { if (checkedNodes!.includes(connection.node)) { // Node got checked already before return; } returnNodes.unshift(connection.node); addNodes = this.getParentNodes(connection.node, type, newDepth, checkedNodes); for (i = addNodes.length; i--; i > 0) { // Because nodes can have multiple parents it is possible that // parts of the tree is parent of both and to not add nodes // twice check first if they already got added before. parentNodeName = addNodes[i]; nodeIndex = returnNodes.indexOf(parentNodeName); if (nodeIndex !== -1) { // Node got found before so remove it from current location // that node-order stays correct returnNodes.splice(nodeIndex, 1); } returnNodes.unshift(parentNodeName); } }); }); return returnNodes; } /** * Resolves parameter value of parameter in webhook description * * @export * @param {INode} node * @param {IWebhookDescription} webhookDescription * @param {string} parameterName * @param {string} [defaultValue] * @returns {(string | undefined)} */ getWebhookParameterValue(node: INode, webhookDescription: IWebhookDescription, parameterName: string, defaultValue?: string): string | undefined { const parameterValue: string | undefined = webhookDescription[parameterName]; if (parameterValue === undefined) { // Value is not set so return the default return defaultValue; } // Get the value of the node (can be an expression) const runIndex = 0; const itemIndex = 0; const connectionInputData: INodeExecutionData[] = []; const runData: IRunExecutionData = { resultData: { runData: {}, } }; return this.getParameterValue(parameterValue, runData, runIndex, itemIndex, node.name, connectionInputData) as string | undefined; } /** * Return all the start nodes which can be found in the workflow. * * @param {(string | undefined)} [destinationNode] * @returns {INode[]} * @memberof Workflow */ getStartNodes(destinationNode?: string): INode[] { const returnData: INode[] = []; if (destinationNode) { // Find the highest parent nodes of the given one const nodeNames = this.getHighestNode(destinationNode); if (nodeNames.length === 0) { // If no parent nodes have been found then only the destination-node // is in the tree so add that one nodeNames.push(destinationNode); } nodeNames.forEach((nodeName) => { returnData.push(this.nodes[nodeName]); }); } else { // No node given so find all the nodes which do not have any input let nodeType: INodeType | undefined; for (const nodeName of Object.keys(this.nodes)) { nodeType = this.nodeTypes.getByName(this.nodes[nodeName].type); if (nodeType !== undefined && nodeType.description.inputs.length === 0 && this.nodes[nodeName].disabled !== true) { returnData.push(this.nodes[nodeName]); } } } return returnData; } /** * Returns the resolved node parameter value. If it is an expression it will execute it and * return the result. If the value to resolve is an array or object it will do the same * for all of the items and values. * * @param {(NodeParameterValue | INodeParameters | NodeParameterValue[] | INodeParameters[])} parameterValue * @param {(IRunExecutionData | null)} runExecutionData * @param {number} runIndex * @param {number} itemIndex * @param {string} activeNodeName * @param {INodeExecutionData[]} connectionInputData * @param {boolean} [returnObjectAsString=false] * @returns {(NodeParameterValue | INodeParameters | NodeParameterValue[] | INodeParameters[])} * @memberof Workflow */ getParameterValue(parameterValue: NodeParameterValue | INodeParameters | NodeParameterValue[] | INodeParameters[], runExecutionData: IRunExecutionData | null, runIndex: number, itemIndex: number, activeNodeName: string, connectionInputData: INodeExecutionData[], returnObjectAsString = false): NodeParameterValue | INodeParameters | NodeParameterValue[] | INodeParameters[] { // Helper function which returns true when the parameter is a complex one or array const isComplexParameter = (value: NodeParameterValue | INodeParameters | NodeParameterValue[] | INodeParameters[]) => { return typeof value === 'object'; }; // Helper function which resolves a parameter value depending on if it is simply or not const resolveParameterValue = (value: NodeParameterValue | INodeParameters | NodeParameterValue[] | INodeParameters[]) => { if (isComplexParameter(value)) { return this.getParameterValue(value, runExecutionData, runIndex, itemIndex, activeNodeName, connectionInputData, returnObjectAsString); } else { return this.resolveSimpleParameterValue(value as NodeParameterValue, runExecutionData, runIndex, itemIndex, activeNodeName, connectionInputData, returnObjectAsString); } }; // Check if it value is a simple one that we can get it resolved directly if (!isComplexParameter(parameterValue)) { return this.resolveSimpleParameterValue(parameterValue as NodeParameterValue, runExecutionData, runIndex, itemIndex, activeNodeName, connectionInputData, returnObjectAsString); } // The parameter value is complex so resolve depending on type if (Array.isArray(parameterValue)) { // Data is an array const returnData = []; for (const item of parameterValue) { returnData.push(resolveParameterValue(item)); } if (returnObjectAsString === true && typeof returnData === 'object') { return this.convertObjectValueToString(returnData); } return returnData as NodeParameterValue[] | INodeParameters[]; } else { // Data is an object const returnData: INodeParameters = {}; for (const key of Object.keys(parameterValue)) { returnData[key] = resolveParameterValue((parameterValue as INodeParameters)[key]); } if (returnObjectAsString === true && typeof returnData === 'object') { return this.convertObjectValueToString(returnData); } return returnData; } } /** * Resolves the paramter value. If it is an expression it will execute it and * return the result. For everything simply the supplied value will be returned. * * @param {NodeParameterValue} parameterValue * @param {(IRunExecutionData | null)} runExecutionData * @param {number} runIndex * @param {number} itemIndex * @param {string} activeNodeName * @param {INodeExecutionData[]} connectionInputData * @param {boolean} [returnObjectAsString=false] * @returns {(NodeParameterValue | INodeParameters | NodeParameterValue[] | INodeParameters[])} * @memberof Workflow */ resolveSimpleParameterValue(parameterValue: NodeParameterValue, runExecutionData: IRunExecutionData | null, runIndex: number, itemIndex: number, activeNodeName: string, connectionInputData: INodeExecutionData[], returnObjectAsString = false): NodeParameterValue | INodeParameters | NodeParameterValue[] | INodeParameters[] { // Check if it is an expression if (typeof parameterValue !== 'string' || parameterValue.charAt(0) !== '=') { // Is no expression so return value return parameterValue; } // Is an expression // Remove the equal sign parameterValue = parameterValue.substr(1); // Generate a data proxy which allows to query workflow data const dataProxy = new WorkflowDataProxy(this, runExecutionData, runIndex, itemIndex, activeNodeName, connectionInputData); // Execute the expression try { const returnValue = tmpl.tmpl(parameterValue, dataProxy.getDataProxy()); if (typeof returnValue === 'object' && Object.keys(returnValue).length === 0) { // When expression is incomplete it returns a Proxy which causes problems. // Catch it with this code and return a proper error. throw new Error('Expression is not valid.'); } if (returnObjectAsString === true && typeof returnValue === 'object') { return this.convertObjectValueToString(returnValue); } return returnValue; } catch (e) { throw new Error('Expression is not valid.'); } } /** * Executes the hooks of the node * * @param {string} hookName The name of the hook to execute * @param {IWebhookData} webhookData * @param {INodeExecuteFunctions} nodeExecuteFunctions * @param {WorkflowExecuteMode} mode * @returns {Promise} * @memberof Workflow */ async runNodeHooks(hookName: string, webhookData: IWebhookData, nodeExecuteFunctions: INodeExecuteFunctions, mode: WorkflowExecuteMode): Promise { const node = this.getNode(webhookData.node) as INode; const nodeType = this.nodeTypes.getByName(node.type) as INodeType; if (nodeType.description.hooks === undefined) { return; } if (nodeType.description.hooks[hookName] === undefined) { return; } if (nodeType.hooks === undefined && nodeType.description.hooks[hookName]!.length !== 0) { // There should be hook functions but they do not exist throw new Error('There are hooks defined to run but are not implemented.'); } for (const hookDescription of nodeType.description.hooks[hookName]!) { const thisArgs = nodeExecuteFunctions.getExecuteHookFunctions(this, node, webhookData.workflowExecuteAdditionalData, mode); await nodeType.hooks![hookDescription.method].call(thisArgs); } } /** * Executes the Webhooks method of the node * * @param {WebhookSetupMethodNames} method The name of the method to execute * @param {IWebhookData} webhookData * @param {INodeExecuteFunctions} nodeExecuteFunctions * @param {WorkflowExecuteMode} mode * @returns {(Promise)} * @memberof Workflow */ async runWebhookMethod(method: WebhookSetupMethodNames, webhookData: IWebhookData, nodeExecuteFunctions: INodeExecuteFunctions, mode: WorkflowExecuteMode, isTest?: boolean): Promise { const node = this.getNode(webhookData.node) as INode; const nodeType = this.nodeTypes.getByName(node.type) as INodeType; if (nodeType.webhookMethods === undefined) { return; } if (nodeType.webhookMethods[webhookData.webhookDescription.name] === undefined) { return; } if (nodeType.webhookMethods[webhookData.webhookDescription.name][method] === undefined) { return; } const thisArgs = nodeExecuteFunctions.getExecuteHookFunctions(this, node, webhookData.workflowExecuteAdditionalData, mode, isTest); return nodeType.webhookMethods[webhookData.webhookDescription.name][method]!.call(thisArgs); } /** * Runs the given trigger node so that it can trigger the workflow * when the node has data. * * @param {INode} node * @param {INodeExecuteFunctions} nodeExecuteFunctions * @param {IWorkflowExecuteAdditionalData} additionalData * @param {WorkflowExecuteMode} mode * @returns {(Promise)} * @memberof Workflow */ async runTrigger(node: INode, nodeExecuteFunctions: INodeExecuteFunctions, additionalData: IWorkflowExecuteAdditionalData, mode: WorkflowExecuteMode): Promise { const thisArgs = nodeExecuteFunctions.getExecuteTriggerFunctions(this, node, additionalData, mode); const nodeType = this.nodeTypes.getByName(node.type); if (nodeType === undefined) { throw new Error(`The node type "${node.type}" of node "${node.name}" is not known.`); } if (!nodeType.trigger) { throw new Error(`The node type "${node.type}" of node "${node.name}" does not have a trigger function defined.`); } if (mode === 'manual') { // In manual mode we do not just start the trigger function we also // want to be able to get informed as soon as the first data got emitted const triggerReponse = await nodeType.trigger!.call(thisArgs); // Add the manual trigger response which resolves when the first time data got emitted triggerReponse!.manualTriggerResponse = new Promise((resolve) => { thisArgs.emit = ((resolve) => (data: INodeExecutionData[][]) => { resolve(data); })(resolve); }); return triggerReponse; } else { // In all other modes simply start the trigger return nodeType.trigger!.call(thisArgs); } } /** * Executes the webhook data to see what it should return and if the * workflow should be started or not * * @param {INode} node * @param {IWorkflowExecuteAdditionalData} additionalData * @param {INodeExecuteFunctions} nodeExecuteFunctions * @param {WorkflowExecuteMode} mode * @returns {Promise} * @memberof Workflow */ async runWebhook(node: INode, additionalData: IWorkflowExecuteAdditionalData, nodeExecuteFunctions: INodeExecuteFunctions, mode: WorkflowExecuteMode): Promise { const nodeType = this.nodeTypes.getByName(node.type); if (nodeType === undefined) { throw new Error(`The type of the webhook node "${node.name}" is not known.`); } else if (nodeType.webhook === undefined) { throw new Error(`The node "${node.name}" does not have any webhooks defined.`); } const thisArgs = nodeExecuteFunctions.getExecuteWebhookFunctions(this, node, additionalData, mode); return nodeType.webhook.call(thisArgs); } /** * Executes the given node. * * @param {INode} node * @param {ITaskDataConnections} inputData * @param {IRunExecutionData} runExecutionData * @param {number} runIndex * @param {IWorkflowExecuteAdditionalData} additionalData * @param {INodeExecuteFunctions} nodeExecuteFunctions * @param {WorkflowExecuteMode} mode * @returns {(Promise)} * @memberof Workflow */ async runNode(node: INode, inputData: ITaskDataConnections, runExecutionData: IRunExecutionData, runIndex: number, additionalData: IWorkflowExecuteAdditionalData, nodeExecuteFunctions: INodeExecuteFunctions, mode: WorkflowExecuteMode): Promise { if (node.disabled === true) { // If node is disabled simply pass the data through // return NodeRunHelpers. if (inputData.hasOwnProperty('main') && inputData.main.length > 0) { // If the node is disabled simply return the data from the first main input if (inputData.main[0] === null) { return null; } return [(inputData.main[0] as INodeExecutionData[])]; } return null; } const nodeType = this.nodeTypes.getByName(node.type); if (nodeType === undefined) { throw new Error(`Node type "${node.type}" is not known so can not run it!`); } let connectionInputData: INodeExecutionData[] = []; if (inputData.hasOwnProperty('main') && inputData.main.length > 0) { // We always use the data of main input and the first input for executeSingle connectionInputData = (inputData.main[0] as INodeExecutionData[]); } if (connectionInputData.length === 0) { // No data for node so return return null; } if (nodeType.executeSingle) { const returnPromises: Array> = []; for (let itemIndex = 0; itemIndex < connectionInputData.length; itemIndex++) { // executionData = connectionInputData[itemIndex]; // const thisArgs = NodeExecuteFunctions.getExecuteSingleFunctions(this, runData, connectionInputData, inputData, node, itemIndex); const thisArgs = nodeExecuteFunctions.getExecuteSingleFunctions(this, runExecutionData, runIndex, connectionInputData, inputData, node, itemIndex, additionalData, mode); returnPromises.push(nodeType.executeSingle!.call(thisArgs)); } if (returnPromises.length === 0) { return null; } let promiseResults; try { promiseResults = await Promise.all(returnPromises); } catch (error) { return Promise.reject(error); } if (promiseResults) { return [promiseResults]; } } else if (nodeType.execute) { const thisArgs = nodeExecuteFunctions.getExecuteFunctions(this, runExecutionData, runIndex, connectionInputData, inputData, node, additionalData, mode); return nodeType.execute.call(thisArgs); } else if (nodeType.trigger) { if (mode === 'manual') { // In manual mode start the trigger const triggerResponse = await this.runTrigger(node, nodeExecuteFunctions, additionalData, mode); if (triggerResponse === undefined) { return null; } if (triggerResponse.manualTriggerFunction !== undefined) { // If a manual trigger function is defined call it and wait till it did run await triggerResponse.manualTriggerFunction(); } const response = await triggerResponse.manualTriggerResponse!; // And then close it again after it did execute if (triggerResponse.closeFunction) { await triggerResponse.closeFunction(); } if (response.length === 0) { return null; } return response; } else { // For trigger nodes in any mode except "manual" do we simply pass the data through return NodeHelpers.prepareOutputData(connectionInputData); } } else if (nodeType.webhook) { // For webhook nodes always simply pass the data through return NodeHelpers.prepareOutputData(connectionInputData); } return null; } }