n8n/packages/core/src/WorkflowExecute.ts

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import * as PCancelable from 'p-cancelable';
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import {
IConnection,
IDataObject,
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IExecuteData,
IExecutionError,
INode,
INodeConnections,
INodeExecutionData,
IRun,
IRunData,
IRunExecutionData,
ITaskData,
ITaskDataConnections,
IWaitingForExecution,
IWorkflowExecuteAdditionalData,
Workflow,
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WorkflowExecuteMode,
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} from 'n8n-workflow';
import {
NodeExecuteFunctions,
} from './';
export class WorkflowExecute {
runExecutionData: IRunExecutionData;
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private additionalData: IWorkflowExecuteAdditionalData;
private mode: WorkflowExecuteMode;
constructor(additionalData: IWorkflowExecuteAdditionalData, mode: WorkflowExecuteMode, runExecutionData?: IRunExecutionData) {
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this.additionalData = additionalData;
this.mode = mode;
this.runExecutionData = runExecutionData || {
startData: {
},
resultData: {
runData: {},
},
executionData: {
contextData: {},
nodeExecutionStack: [],
waitingExecution: {},
},
};
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}
/**
* Executes the given workflow.
*
* @param {Workflow} workflow The workflow to execute
* @param {INode[]} [startNodes] Node to start execution from
* @param {string} [destinationNode] Node to stop execution at
* @returns {(Promise<string>)}
* @memberof WorkflowExecute
*/
run(workflow: Workflow, startNode?: INode, destinationNode?: string): PCancelable<IRun> {
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// Get the nodes to start workflow execution from
startNode = startNode || workflow.getStartNode(destinationNode);
if (startNode === undefined) {
throw new Error('No node to start the workflow from could be found!');
}
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// If a destination node is given we only run the direct parent nodes and no others
let runNodeFilter: string[] | undefined = undefined;
if (destinationNode) {
runNodeFilter = workflow.getParentNodes(destinationNode);
runNodeFilter.push(destinationNode);
}
// Initialize the data of the start nodes
const nodeExecutionStack: IExecuteData[] = [
{
node: startNode,
data: {
main: [
[
{
json: {},
},
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],
],
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},
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},
];
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this.runExecutionData = {
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startData: {
destinationNode,
runNodeFilter,
},
resultData: {
runData: {},
},
executionData: {
contextData: {},
nodeExecutionStack,
waitingExecution: {},
},
};
return this.processRunExecutionData(workflow);
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}
/**
* Executes the given workflow but only
*
* @param {Workflow} workflow The workflow to execute
* @param {IRunData} runData
* @param {string[]} startNodes Nodes to start execution from
* @param {string} destinationNode Node to stop execution at
* @returns {(Promise<string>)}
* @memberof WorkflowExecute
*/
// @ts-ignore
async runPartialWorkflow(workflow: Workflow, runData: IRunData, startNodes: string[], destinationNode: string): PCancelable<IRun> {
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let incomingNodeConnections: INodeConnections | undefined;
let connection: IConnection;
const runIndex = 0;
// Initialize the nodeExecutionStack and waitingExecution with
// the data from runData
const nodeExecutionStack: IExecuteData[] = [];
const waitingExecution: IWaitingForExecution = {};
for (const startNode of startNodes) {
incomingNodeConnections = workflow.connectionsByDestinationNode[startNode];
const incomingData: INodeExecutionData[][] = [];
if (incomingNodeConnections === undefined) {
// If it has no incoming data add the default empty data
incomingData.push([
{
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json: {},
},
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]);
} else {
// Get the data of the incoming connections
for (const connections of incomingNodeConnections.main) {
for (let inputIndex = 0; inputIndex < connections.length; inputIndex++) {
connection = connections[inputIndex];
incomingData.push(
runData[connection.node!][runIndex].data![connection.type][connection.index]!,
);
}
}
}
const executeData: IExecuteData = {
node: workflow.getNode(startNode) as INode,
data: {
main: incomingData,
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},
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};
nodeExecutionStack.push(executeData);
// Check if the destinationNode has to be added as waiting
// because some input data is already fully available
incomingNodeConnections = workflow.connectionsByDestinationNode[destinationNode];
if (incomingNodeConnections !== undefined) {
for (const connections of incomingNodeConnections.main) {
for (let inputIndex = 0; inputIndex < connections.length; inputIndex++) {
connection = connections[inputIndex];
if (waitingExecution[destinationNode] === undefined) {
waitingExecution[destinationNode] = {};
}
if (waitingExecution[destinationNode][runIndex] === undefined) {
waitingExecution[destinationNode][runIndex] = {};
}
if (waitingExecution[destinationNode][runIndex][connection.type] === undefined) {
waitingExecution[destinationNode][runIndex][connection.type] = [];
}
if (runData[connection.node!] !== undefined) {
// Input data exists so add as waiting
// incomingDataDestination.push(runData[connection.node!][runIndex].data![connection.type][connection.index]);
waitingExecution[destinationNode][runIndex][connection.type].push(runData[connection.node!][runIndex].data![connection.type][connection.index]);
} else {
waitingExecution[destinationNode][runIndex][connection.type].push(null);
}
}
}
}
}
// Only run the parent nodes and no others
let runNodeFilter: string[] | undefined = undefined;
runNodeFilter = workflow.getParentNodes(destinationNode);
runNodeFilter.push(destinationNode);
this.runExecutionData = {
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startData: {
destinationNode,
runNodeFilter,
},
resultData: {
runData,
},
executionData: {
contextData: {},
nodeExecutionStack,
waitingExecution,
},
};
return this.processRunExecutionData(workflow);
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}
/**
* Executes the hook with the given name
*
* @param {string} hookName
* @param {any[]} parameters
* @returns {Promise<IRun>}
* @memberof WorkflowExecute
*/
async executeHook(hookName: string, parameters: any[]): Promise<void> { // tslint:disable-line:no-any
if (this.additionalData.hooks === undefined) {
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return;
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}
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return this.additionalData.hooks.executeHookFunctions(hookName, parameters);
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}
addNodeToBeExecuted(workflow: Workflow, connectionData: IConnection, outputIndex: number, parentNodeName: string, nodeSuccessData: INodeExecutionData[][], runIndex: number): void {
let stillDataMissing = false;
// Check if node has multiple inputs as then we have to wait for all input data
// to be present before we can add it to the node-execution-stack
if (workflow.connectionsByDestinationNode[connectionData.node]['main'].length > 1) {
// Node has multiple inputs
let nodeWasWaiting = true;
// Check if there is already data for the node
if (this.runExecutionData.executionData!.waitingExecution[connectionData.node] === undefined) {
// Node does not have data yet so create a new empty one
this.runExecutionData.executionData!.waitingExecution[connectionData.node] = {};
nodeWasWaiting = false;
}
if (this.runExecutionData.executionData!.waitingExecution[connectionData.node][runIndex] === undefined) {
// Node does not have data for runIndex yet so create also empty one and init it
this.runExecutionData.executionData!.waitingExecution[connectionData.node][runIndex] = {
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main: [],
};
for (let i = 0; i < workflow.connectionsByDestinationNode[connectionData.node]['main'].length; i++) {
this.runExecutionData.executionData!.waitingExecution[connectionData.node][runIndex].main.push(null);
}
}
// Add the new data
if (nodeSuccessData === null) {
this.runExecutionData.executionData!.waitingExecution[connectionData.node][runIndex].main[connectionData.index] = null;
} else {
this.runExecutionData.executionData!.waitingExecution[connectionData.node][runIndex].main[connectionData.index] = nodeSuccessData[outputIndex];
}
// Check if all data exists now
let thisExecutionData: INodeExecutionData[] | null;
let allDataFound = true;
for (let i = 0; i < this.runExecutionData.executionData!.waitingExecution[connectionData.node][runIndex].main.length; i++) {
thisExecutionData = this.runExecutionData.executionData!.waitingExecution[connectionData.node][runIndex].main[i];
if (thisExecutionData === null) {
allDataFound = false;
break;
}
}
if (allDataFound === true) {
// All data exists for node to be executed
// So add it to the execution stack
this.runExecutionData.executionData!.nodeExecutionStack.push({
node: workflow.nodes[connectionData.node],
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data: this.runExecutionData.executionData!.waitingExecution[connectionData.node][runIndex],
});
// Remove the data from waiting
delete this.runExecutionData.executionData!.waitingExecution[connectionData.node][runIndex];
if (Object.keys(this.runExecutionData.executionData!.waitingExecution[connectionData.node]).length === 0) {
// No more data left for the node so also delete that one
delete this.runExecutionData.executionData!.waitingExecution[connectionData.node];
}
return;
} else {
stillDataMissing = true;
}
if (nodeWasWaiting === false) {
// Get a list of all the output nodes that we can check for siblings eaiser
const checkOutputNodes = [];
for (const outputIndexParent in workflow.connectionsBySourceNode[parentNodeName].main) {
if (!workflow.connectionsBySourceNode[parentNodeName].main.hasOwnProperty(outputIndexParent)) {
continue;
}
for (const connectionDataCheck of workflow.connectionsBySourceNode[parentNodeName].main[outputIndexParent]) {
checkOutputNodes.push(connectionDataCheck.node);
}
}
// Node was not on "waitingExecution" so it is the first time it gets
// checked. So we have to go through all the inputs and check if they
// are already on the list to be processed.
// If that is not the case add it.
for (let inputIndex = 0; inputIndex < workflow.connectionsByDestinationNode[connectionData.node]['main'].length; inputIndex++) {
for (const inputData of workflow.connectionsByDestinationNode[connectionData.node]['main'][inputIndex]) {
if (inputData.node === parentNodeName) {
// Is the node we come from so its data will be available for sure
continue;
}
const executionStackNodes = this.runExecutionData.executionData!.nodeExecutionStack.map((stackData) => stackData.node.name);
// Check if that node is also an output connection of the
// previously processed one
if (inputData.node !== parentNodeName && checkOutputNodes.includes(inputData.node)) {
// So the parent node will be added anyway which
// will then process this node next. So nothing to do.
continue;
}
// Check if it is already in the execution stack
if (executionStackNodes.includes(inputData.node)) {
// Node is already on the list to be executed
// so there is nothing to do
continue;
}
// Check if node got processed already
if (this.runExecutionData.resultData.runData[inputData.node] !== undefined) {
// Node got processed already so no need to add it
continue;
}
// Check if any of the parent nodes does not have any inputs. That
// would mean that it has to get added to the list of nodes to process.
const parentNodes = workflow.getParentNodes(inputData.node, 'main', -1);
let nodeToAdd: string | undefined = inputData.node;
parentNodes.push(inputData.node);
parentNodes.reverse();
for (const parentNode of parentNodes) {
// Check if that node is also an output connection of the
// previously processed one
if (inputData.node !== parentNode && checkOutputNodes.includes(parentNode)) {
// So the parent node will be added anyway which
// will then process this node next. So nothing to do.
nodeToAdd = undefined;
break;
}
// Check if it is already in the execution stack
if (executionStackNodes.includes(parentNode)) {
// Node is already on the list to be executed
// so there is nothing to do
nodeToAdd = undefined;
break;
}
// Check if node got processed already
if (this.runExecutionData.resultData.runData[parentNode] !== undefined) {
// Node got processed already so we can use the
// output data as input of this node
break;
}
nodeToAdd = parentNode;
}
if (nodeToAdd === undefined) {
// No node has to get added so process
continue;
}
if (workflow.connectionsByDestinationNode[nodeToAdd] === undefined) {
// Add only node if it does not have any inputs because else it will
// be added by its input node later anyway.
this.runExecutionData.executionData!.nodeExecutionStack.push(
{
node: workflow.getNode(nodeToAdd) as INode,
data: {
main: [
[
{
json: {},
},
],
],
},
},
);
}
}
}
}
}
// Make sure the array has all the values
const connectionDataArray: Array<INodeExecutionData[] | null> = [];
for (let i: number = connectionData.index; i >= 0; i--) {
connectionDataArray[i] = null;
}
// Add the data of the current execution
if (nodeSuccessData === null) {
connectionDataArray[connectionData.index] = null;
} else {
connectionDataArray[connectionData.index] = nodeSuccessData[outputIndex];
}
if (stillDataMissing === true) {
// Additional data is needed to run node so add it to waiting
if (!this.runExecutionData.executionData!.waitingExecution.hasOwnProperty(connectionData.node)) {
this.runExecutionData.executionData!.waitingExecution[connectionData.node] = {};
}
this.runExecutionData.executionData!.waitingExecution[connectionData.node][runIndex] = {
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main: connectionDataArray,
};
} else {
// All data is there so add it directly to stack
this.runExecutionData.executionData!.nodeExecutionStack.push({
node: workflow.nodes[connectionData.node],
data: {
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main: connectionDataArray,
},
});
}
}
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/**
* Runs the given execution data.
*
* @param {Workflow} workflow
* @returns {Promise<string>}
* @memberof WorkflowExecute
*/
processRunExecutionData(workflow: Workflow): PCancelable<IRun> {
const startedAt = new Date();
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const workflowIssues = workflow.checkReadyForExecution();
if (workflowIssues !== null) {
throw new Error('The workflow has issues and can for that reason not be executed. Please fix them first.');
}
// Variables which hold temporary data for each node-execution
let executionData: IExecuteData;
let executionError: IExecutionError | undefined;
let executionNode: INode;
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let nodeSuccessData: INodeExecutionData[][] | null | undefined;
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let runIndex: number;
let startTime: number;
let taskData: ITaskData;
if (this.runExecutionData.startData === undefined) {
this.runExecutionData.startData = {};
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}
let currentExecutionTry = '';
let lastExecutionTry = '';
return new PCancelable((resolve, reject, onCancel) => {
let gotCancel = false;
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onCancel.shouldReject = false;
onCancel(() => {
gotCancel = true;
});
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const returnPromise = (async () => {
try {
await this.executeHook('workflowExecuteBefore', [workflow]);
} catch (error) {
// Set the error that it can be saved correctly
executionError = {
message: error.message,
stack: error.stack,
};
// Set the incoming data of the node that it can be saved correctly
executionData = this.runExecutionData.executionData!.nodeExecutionStack[0] as IExecuteData;
this.runExecutionData.resultData = {
runData: {
[executionData.node.name]: [
{
startTime,
executionTime: (new Date().getTime()) - startTime,
data: ({
'main': executionData.data.main,
} as ITaskDataConnections),
},
],
},
lastNodeExecuted: executionData.node.name,
error: executionError,
};
throw error;
}
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executionLoop:
while (this.runExecutionData.executionData!.nodeExecutionStack.length !== 0) {
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// @ts-ignore
if (gotCancel === true) {
return Promise.resolve();
}
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nodeSuccessData = null;
executionError = undefined;
executionData = this.runExecutionData.executionData!.nodeExecutionStack.shift() as IExecuteData;
executionNode = executionData.node;
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this.executeHook('nodeExecuteBefore', [executionNode.name]);
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// Get the index of the current run
runIndex = 0;
if (this.runExecutionData.resultData.runData.hasOwnProperty(executionNode.name)) {
runIndex = this.runExecutionData.resultData.runData[executionNode.name].length;
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}
currentExecutionTry = `${executionNode.name}:${runIndex}`;
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if (currentExecutionTry === lastExecutionTry) {
throw new Error('Did stop execution because execution seems to be in endless loop.');
}
if (this.runExecutionData.startData!.runNodeFilter !== undefined && this.runExecutionData.startData!.runNodeFilter!.indexOf(executionNode.name) === -1) {
// If filter is set and node is not on filter skip it, that avoids the problem that it executes
// leafs that are parallel to a selected destinationNode. Normally it would execute them because
// they have the same parent and it executes all child nodes.
continue;
}
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// Check if all the data which is needed to run the node is available
if (workflow.connectionsByDestinationNode.hasOwnProperty(executionNode.name)) {
// Check if the node has incoming connections
if (workflow.connectionsByDestinationNode[executionNode.name].hasOwnProperty('main')) {
let inputConnections: IConnection[][];
let connectionIndex: number;
inputConnections = workflow.connectionsByDestinationNode[executionNode.name]['main'];
for (connectionIndex = 0; connectionIndex < inputConnections.length; connectionIndex++) {
if (workflow.getHighestNode(executionNode.name, 'main', connectionIndex).length === 0) {
// If there is no valid incoming node (if all are disabled)
// then ignore that it has inputs and simply execute it as it is without
// any data
continue;
}
if (!executionData.data!.hasOwnProperty('main')) {
// ExecutionData does not even have the connection set up so can
// not have that data, so add it again to be executed later
this.runExecutionData.executionData!.nodeExecutionStack.push(executionData);
lastExecutionTry = currentExecutionTry;
continue executionLoop;
}
// Check if it has the data for all the inputs
// The most nodes just have one but merge node for example has two and data
// of both inputs has to be available to be able to process the node.
if (executionData.data!.main!.length < connectionIndex || executionData.data!.main![connectionIndex] === null) {
// Does not have the data of the connections so add back to stack
this.runExecutionData.executionData!.nodeExecutionStack.push(executionData);
lastExecutionTry = currentExecutionTry;
continue executionLoop;
}
}
}
}
// Clone input data that nodes can not mess up data of parallel nodes which receive the same data
// TODO: Should only clone if multiple nodes get the same data or when it gets returned to frontned
// is very slow so only do if needed
startTime = new Date().getTime();
let maxTries = 1;
if (executionData.node.retryOnFail === true) {
// TODO: Remove the hardcoded default-values here and also in NodeSettings.vue
maxTries = Math.min(5, Math.max(2, executionData.node.maxTries || 3));
}
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let waitBetweenTries = 0;
if (executionData.node.retryOnFail === true) {
// TODO: Remove the hardcoded default-values here and also in NodeSettings.vue
waitBetweenTries = Math.min(5000, Math.max(0, executionData.node.waitBetweenTries || 1000));
}
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for (let tryIndex = 0; tryIndex < maxTries; tryIndex++) {
// @ts-ignore
if (gotCancel === true) {
return Promise.resolve();
}
try {
if (tryIndex !== 0) {
// Reset executionError from previous error try
executionError = undefined;
if (waitBetweenTries !== 0) {
// TODO: Improve that in the future and check if other nodes can
// be executed in the meantime
await new Promise((resolve) => {
setTimeout(() => {
resolve();
}, waitBetweenTries);
});
}
}
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nodeSuccessData = await workflow.runNode(executionData.node, executionData.data, this.runExecutionData, runIndex, this.additionalData, NodeExecuteFunctions, this.mode);
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if (nodeSuccessData === undefined) {
// Node did not get executed
nodeSuccessData = null;
} else {
this.runExecutionData.resultData.lastNodeExecuted = executionData.node.name;
}
if (nodeSuccessData === null || nodeSuccessData[0][0] === undefined) {
if (executionData.node.alwaysOutputData === true) {
nodeSuccessData = nodeSuccessData || [];
nodeSuccessData[0] = [
{
json: {},
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},
];
}
}
if (nodeSuccessData === null) {
// If null gets returned it means that the node did succeed
// but did not have any data. So the branch should end
// (meaning the nodes afterwards should not be processed)
continue executionLoop;
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}
break;
} catch (error) {
this.runExecutionData.resultData.lastNodeExecuted = executionData.node.name;
executionError = {
message: error.message,
stack: error.stack,
};
}
}
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// Add the data to return to the user
// (currently does not get cloned as data does not get changed, maybe later we should do that?!?!)
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if (!this.runExecutionData.resultData.runData.hasOwnProperty(executionNode.name)) {
this.runExecutionData.resultData.runData[executionNode.name] = [];
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}
taskData = {
startTime,
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executionTime: (new Date().getTime()) - startTime,
};
if (executionError !== undefined) {
taskData.error = executionError;
if (executionData.node.continueOnFail === true) {
// Workflow should continue running even if node errors
if (executionData.data.hasOwnProperty('main') && executionData.data.main.length > 0) {
// Simply get the input data of the node if it has any and pass it through
// to the next node
if (executionData.data.main[0] !== null) {
nodeSuccessData = [executionData.data.main[0] as INodeExecutionData[]];
}
}
} else {
// Node execution did fail so add error and stop execution
this.runExecutionData.resultData.runData[executionNode.name].push(taskData);
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// Add the execution data again so that it can get restarted
this.runExecutionData.executionData!.nodeExecutionStack.unshift(executionData);
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this.executeHook('nodeExecuteAfter', [executionNode.name, taskData]);
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break;
}
}
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// Node executed successfully. So add data and go on.
taskData.data = ({
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'main': nodeSuccessData,
} as ITaskDataConnections);
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this.executeHook('nodeExecuteAfter', [executionNode.name, taskData]);
this.runExecutionData.resultData.runData[executionNode.name].push(taskData);
if (this.runExecutionData.startData && this.runExecutionData.startData.destinationNode && this.runExecutionData.startData.destinationNode === executionNode.name) {
// If destination node is defined and got executed stop execution
continue;
}
// Add the nodes to which the current node has an output connection to that they can
// be executed next
if (workflow.connectionsBySourceNode.hasOwnProperty(executionNode.name)) {
if (workflow.connectionsBySourceNode[executionNode.name].hasOwnProperty('main')) {
let outputIndex: string, connectionData: IConnection;
// Iterate over all the outputs
// Add the nodes to be executed
for (outputIndex in workflow.connectionsBySourceNode[executionNode.name]['main']) {
if (!workflow.connectionsBySourceNode[executionNode.name]['main'].hasOwnProperty(outputIndex)) {
continue;
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}
// Iterate over all the different connections of this output
for (connectionData of workflow.connectionsBySourceNode[executionNode.name]['main'][outputIndex]) {
if (!workflow.nodes.hasOwnProperty(connectionData.node)) {
return Promise.reject(new Error(`The node "${executionNode.name}" connects to not found node "${connectionData.node}"`));
}
if (nodeSuccessData![outputIndex] && (nodeSuccessData![outputIndex].length !== 0 || connectionData.index > 0)) {
// Add the node only if it did execute or if connected to second "optional" input
this.addNodeToBeExecuted(workflow, connectionData, parseInt(outputIndex, 10), executionNode.name, nodeSuccessData!, runIndex);
}
}
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}
}
}
}
return Promise.resolve();
})()
.then(async () => {
if (gotCancel && executionError === undefined) {
return this.processSuccessExecution(startedAt, workflow, { message: 'Workflow has been canceled!' } as IExecutionError);
}
return this.processSuccessExecution(startedAt, workflow, executionError);
})
.catch(async (error) => {
const fullRunData = this.getFullRunData(startedAt);
fullRunData.data.resultData.error = {
message: error.message,
stack: error.stack,
};
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// Check if static data changed
let newStaticData: IDataObject | undefined;
if (workflow.staticData.__dataChanged === true) {
// Static data of workflow changed
newStaticData = workflow.staticData;
}
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await this.executeHook('workflowExecuteAfter', [fullRunData, newStaticData]).catch(error => {
console.error('There was a problem running hook "workflowExecuteAfter"', error);
});
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return fullRunData;
});
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return returnPromise.then(resolve);
});
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}
// @ts-ignore
async processSuccessExecution(startedAt: Date, workflow: Workflow, executionError?: IExecutionError): PCancelable<IRun> {
const fullRunData = this.getFullRunData(startedAt);
if (executionError !== undefined) {
fullRunData.data.resultData.error = executionError;
} else {
fullRunData.finished = true;
}
// Check if static data changed
let newStaticData: IDataObject | undefined;
if (workflow.staticData.__dataChanged === true) {
// Static data of workflow changed
newStaticData = workflow.staticData;
}
await this.executeHook('workflowExecuteAfter', [fullRunData, newStaticData]);
return fullRunData;
}
getFullRunData(startedAt: Date): IRun {
const fullRunData: IRun = {
data: this.runExecutionData,
mode: this.mode,
startedAt,
stoppedAt: new Date(),
};
return fullRunData;
}
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}