import set from 'lodash.set'; import type { IExecuteFunctions, INodeExecutionData, INodeType, INodeTypeDescription, JsonObject, } from 'n8n-workflow'; import { deepCopy, BINARY_ENCODING } from 'n8n-workflow'; import type { BinaryToTextEncoding } from 'crypto'; import { createHash, createHmac, createSign, getHashes, randomBytes } from 'crypto'; import stream from 'stream'; import { promisify } from 'util'; import { v4 as uuid } from 'uuid'; const pipeline = promisify(stream.pipeline); const unsupportedAlgorithms = [ 'RSA-MD4', 'RSA-MDC2', 'md4', 'md4WithRSAEncryption', 'mdc2', 'mdc2WithRSA', ]; const supportedAlgorithms = getHashes() .filter((algorithm) => !unsupportedAlgorithms.includes(algorithm)) .map((algorithm) => ({ name: algorithm, value: algorithm })); export class Crypto implements INodeType { description: INodeTypeDescription = { displayName: 'Crypto', name: 'crypto', icon: 'fa:key', group: ['transform'], version: 1, subtitle: '={{$parameter["action"]}}', description: 'Provide cryptographic utilities', defaults: { name: 'Crypto', color: '#408000', }, inputs: ['main'], outputs: ['main'], properties: [ { displayName: 'Action', name: 'action', type: 'options', options: [ { name: 'Generate', description: 'Generate random string', value: 'generate', action: 'Generate random string', }, { name: 'Hash', description: 'Hash a text or file in a specified format', value: 'hash', action: 'Hash a text or file in a specified format', }, { name: 'Hmac', description: 'Hmac a text or file in a specified format', value: 'hmac', action: 'HMAC a text or file in a specified format', }, { name: 'Sign', description: 'Sign a string using a private key', value: 'sign', action: 'Sign a string using a private key', }, ], default: 'hash', }, { displayName: 'Type', name: 'type', displayOptions: { show: { action: ['hash'], }, }, type: 'options', options: [ { name: 'MD5', value: 'MD5', }, { name: 'SHA256', value: 'SHA256', }, { name: 'SHA3-256', value: 'SHA3-256', }, { name: 'SHA3-384', value: 'SHA3-384', }, { name: 'SHA3-512', value: 'SHA3-512', }, { name: 'SHA384', value: 'SHA384', }, { name: 'SHA512', value: 'SHA512', }, ], default: 'MD5', description: 'The hash type to use', required: true, }, { displayName: 'Binary Data', name: 'binaryData', type: 'boolean', default: false, required: true, displayOptions: { show: { action: ['hash', 'hmac'], }, }, description: 'Whether the data to hashed should be taken from binary field', }, { displayName: 'Binary Property Name', name: 'binaryPropertyName', displayOptions: { show: { action: ['hash', 'hmac'], binaryData: [true], }, }, type: 'string', default: 'data', description: 'Name of the binary property which contains the input data', required: true, }, { displayName: 'Value', name: 'value', displayOptions: { show: { action: ['hash'], binaryData: [false], }, }, type: 'string', default: '', description: 'The value that should be hashed', required: true, }, { displayName: 'Property Name', name: 'dataPropertyName', type: 'string', default: 'data', required: true, displayOptions: { show: { action: ['hash'], }, }, description: 'Name of the property to which to write the hash', }, { displayName: 'Encoding', name: 'encoding', displayOptions: { show: { action: ['hash'], }, }, type: 'options', options: [ { name: 'BASE64', value: 'base64', }, { name: 'HEX', value: 'hex', }, ], default: 'hex', required: true, }, { displayName: 'Type', name: 'type', displayOptions: { show: { action: ['hmac'], }, }, type: 'options', options: [ { name: 'MD5', value: 'MD5', }, { name: 'SHA256', value: 'SHA256', }, { name: 'SHA3-256', value: 'SHA3-256', }, { name: 'SHA3-384', value: 'SHA3-384', }, { name: 'SHA3-512', value: 'SHA3-512', }, { name: 'SHA384', value: 'SHA384', }, { name: 'SHA512', value: 'SHA512', }, ], default: 'MD5', description: 'The hash type to use', required: true, }, { displayName: 'Value', name: 'value', displayOptions: { show: { action: ['hmac'], binaryData: [false], }, }, type: 'string', default: '', description: 'The value of which the hmac should be created', required: true, }, { displayName: 'Property Name', name: 'dataPropertyName', type: 'string', default: 'data', required: true, displayOptions: { show: { action: ['hmac'], }, }, description: 'Name of the property to which to write the hmac', }, { displayName: 'Secret', name: 'secret', displayOptions: { show: { action: ['hmac'], }, }, type: 'string', default: '', required: true, }, { displayName: 'Encoding', name: 'encoding', displayOptions: { show: { action: ['hmac'], }, }, type: 'options', options: [ { name: 'BASE64', value: 'base64', }, { name: 'HEX', value: 'hex', }, ], default: 'hex', required: true, }, { displayName: 'Value', name: 'value', displayOptions: { show: { action: ['sign'], binaryData: [false], }, }, type: 'string', default: '', description: 'The value that should be signed', required: true, }, { displayName: 'Property Name', name: 'dataPropertyName', type: 'string', default: 'data', required: true, displayOptions: { show: { action: ['sign'], }, }, description: 'Name of the property to which to write the signed value', }, { displayName: 'Algorithm Name or ID', name: 'algorithm', displayOptions: { show: { action: ['sign'], }, }, type: 'options', description: 'Choose from the list, or specify an ID using an expression', options: supportedAlgorithms, default: '', required: true, }, { displayName: 'Encoding', name: 'encoding', displayOptions: { show: { action: ['sign'], }, }, type: 'options', options: [ { name: 'BASE64', value: 'base64', }, { name: 'HEX', value: 'hex', }, ], default: 'hex', required: true, }, { displayName: 'Private Key', name: 'privateKey', displayOptions: { show: { action: ['sign'], }, }, type: 'string', description: 'Private key to use when signing the string', default: '', required: true, }, { displayName: 'Property Name', name: 'dataPropertyName', type: 'string', default: 'data', required: true, displayOptions: { show: { action: ['generate'], }, }, description: 'Name of the property to which to write the random string', }, { displayName: 'Type', name: 'encodingType', displayOptions: { show: { action: ['generate'], }, }, type: 'options', options: [ { name: 'ASCII', value: 'ascii', }, { name: 'BASE64', value: 'base64', }, { name: 'HEX', value: 'hex', }, { name: 'UUID', value: 'uuid', }, ], default: 'uuid', description: 'Encoding that will be used to generate string', required: true, }, { displayName: 'Length', name: 'stringLength', type: 'number', default: 32, description: 'Length of the generated string', displayOptions: { show: { action: ['generate'], encodingType: ['ascii', 'base64', 'hex'], }, }, }, ], }; async execute(this: IExecuteFunctions): Promise { const items = this.getInputData(); const returnData: INodeExecutionData[] = []; const length = items.length; const action = this.getNodeParameter('action', 0) as string; let item: INodeExecutionData; for (let i = 0; i < length; i++) { try { item = items[i]; const dataPropertyName = this.getNodeParameter('dataPropertyName', i); const value = this.getNodeParameter('value', i, '') as string; let newValue; let binaryProcessed = false; if (action === 'generate') { const encodingType = this.getNodeParameter('encodingType', i); if (encodingType === 'uuid') { newValue = uuid(); } else { const stringLength = this.getNodeParameter('stringLength', i) as number; if (encodingType === 'base64') { newValue = randomBytes(stringLength) .toString(encodingType as BufferEncoding) .replace(/\W/g, '') .slice(0, stringLength); } else { newValue = randomBytes(stringLength) .toString(encodingType as BufferEncoding) .slice(0, stringLength); } } } if (action === 'hash' || action === 'hmac') { const type = this.getNodeParameter('type', i) as string; const encoding = this.getNodeParameter('encoding', i) as BinaryToTextEncoding; const hashOrHmac = action === 'hash' ? createHash(type) : createHmac(type, this.getNodeParameter('secret', i) as string); if (this.getNodeParameter('binaryData', i)) { const binaryPropertyName = this.getNodeParameter('binaryPropertyName', i); const binaryData = this.helpers.assertBinaryData(i, binaryPropertyName); if (binaryData.id) { const binaryStream = this.helpers.getBinaryStream(binaryData.id); hashOrHmac.setEncoding(encoding); await pipeline(binaryStream, hashOrHmac); newValue = hashOrHmac.read(); } else { newValue = hashOrHmac .update(Buffer.from(binaryData.data, BINARY_ENCODING)) .digest(encoding); } binaryProcessed = true; } else { newValue = hashOrHmac.update(value).digest(encoding); } } if (action === 'sign') { const algorithm = this.getNodeParameter('algorithm', i) as string; const encoding = this.getNodeParameter('encoding', i) as BinaryToTextEncoding; const privateKey = this.getNodeParameter('privateKey', i) as string; const sign = createSign(algorithm); sign.write(value); sign.end(); newValue = sign.sign(privateKey, encoding); } let newItem: INodeExecutionData; if (dataPropertyName.includes('.')) { // Uses dot notation so copy all data newItem = { json: deepCopy(item.json), pairedItem: { item: i, }, }; } else { // Does not use dot notation so shallow copy is enough newItem = { json: { ...item.json }, pairedItem: { item: i, }, }; } if (item.binary !== undefined && !binaryProcessed) { newItem.binary = item.binary; } set(newItem, `json.${dataPropertyName}`, newValue); returnData.push(newItem); } catch (error) { if (this.continueOnFail()) { returnData.push({ json: { error: (error as JsonObject).message, }, pairedItem: { item: i, }, }); continue; } throw error; } } return this.prepareOutputData(returnData); } }