import { promisify } from 'util'; import type { IBinaryKeyData, IExecuteFunctions, INodeExecutionData, INodeType, INodeTypeDescription, } from 'n8n-workflow'; import * as fflate from 'fflate'; const gunzip = promisify(fflate.gunzip); const gzip = promisify(fflate.gzip); const unzip = promisify(fflate.unzip); const zip = promisify(fflate.zip); import * as mime from 'mime-types'; const ALREADY_COMPRESSED = [ '7z', 'aifc', 'bz2', 'doc', 'docx', 'gif', 'gz', 'heic', 'heif', 'jpg', 'jpeg', 'mov', 'mp3', 'mp4', 'pdf', 'png', 'ppt', 'pptx', 'rar', 'webm', 'webp', 'xls', 'xlsx', 'zip', ]; export class Compression implements INodeType { description: INodeTypeDescription = { displayName: 'Compression', name: 'compression', icon: 'fa:file-archive', group: ['transform'], subtitle: '={{$parameter["operation"]}}', version: 1, description: 'Compress and decompress files', defaults: { name: 'Compression', color: '#408000', }, inputs: ['main'], outputs: ['main'], properties: [ { displayName: 'Operation', name: 'operation', type: 'options', noDataExpression: true, options: [ { name: 'Compress', value: 'compress', }, { name: 'Decompress', value: 'decompress', }, ], default: 'decompress', }, { displayName: 'Binary Property', name: 'binaryPropertyName', type: 'string', default: 'data', required: true, displayOptions: { show: { operation: ['compress', 'decompress'], }, }, placeholder: '', description: 'Name of the binary property which contains the data for the file(s) to be compress/decompress. Multiple can be used separated by a comma (,).', }, { displayName: 'Output Format', name: 'outputFormat', type: 'options', default: '', options: [ { name: 'Gzip', value: 'gzip', }, { name: 'Zip', value: 'zip', }, ], displayOptions: { show: { operation: ['compress'], }, }, description: 'Format of the output file', }, { displayName: 'File Name', name: 'fileName', type: 'string', default: '', placeholder: 'data.zip', required: true, displayOptions: { show: { operation: ['compress'], outputFormat: ['zip'], }, }, description: 'Name of the file to be compressed', }, { displayName: 'Binary Property Output', name: 'binaryPropertyOutput', type: 'string', default: 'data', displayOptions: { show: { outputFormat: ['zip'], operation: ['compress'], }, }, placeholder: '', description: 'Name of the binary property to which to write the data of the compressed files', }, { displayName: 'Output Prefix', name: 'outputPrefix', type: 'string', default: 'data', required: true, displayOptions: { show: { operation: ['compress'], outputFormat: ['gzip'], }, }, description: 'Prefix use for all gzip compressed files', }, { displayName: 'Output Prefix', name: 'outputPrefix', type: 'string', default: 'file_', required: true, displayOptions: { show: { operation: ['decompress'], }, }, description: 'Prefix use for all decompressed files', }, ], }; async execute(this: IExecuteFunctions): Promise { const items = this.getInputData(); const length = items.length; const returnData: INodeExecutionData[] = []; const operation = this.getNodeParameter('operation', 0); for (let i = 0; i < length; i++) { try { if (operation === 'decompress') { const binaryPropertyNames = this.getNodeParameter('binaryPropertyName', 0) .split(',') .map((key) => key.trim()); const outputPrefix = this.getNodeParameter('outputPrefix', 0) as string; const binaryObject: IBinaryKeyData = {}; let zipIndex = 0; for (const [index, binaryPropertyName] of binaryPropertyNames.entries()) { const binaryData = this.helpers.assertBinaryData(i, binaryPropertyName); const binaryDataBuffer = await this.helpers.getBinaryDataBuffer(i, binaryPropertyName); if (binaryData.fileExtension?.toLowerCase() === 'zip') { const files = await unzip(binaryDataBuffer); for (const key of Object.keys(files)) { // when files are compressed using MACOSX for some reason they are duplicated under __MACOSX if (key.includes('__MACOSX')) { continue; } const data = await this.helpers.prepareBinaryData( Buffer.from(files[key].buffer), key, ); binaryObject[`${outputPrefix}${zipIndex++}`] = data; } } else if (binaryData.fileExtension?.toLowerCase() === 'gz') { const file = await gunzip(binaryDataBuffer); const fileName = binaryData.fileName?.split('.')[0]; const propertyName = `${outputPrefix}${index}`; binaryObject[propertyName] = await this.helpers.prepareBinaryData( Buffer.from(file.buffer), fileName, ); const fileExtension = mime.extension(binaryObject[propertyName].mimeType) as string; binaryObject[propertyName].fileName = `${fileName}.${fileExtension}`; binaryObject[propertyName].fileExtension = fileExtension; } } returnData.push({ json: items[i].json, binary: binaryObject, pairedItem: { item: i, }, }); } if (operation === 'compress') { const binaryPropertyNames = this.getNodeParameter('binaryPropertyName', 0) .split(',') .map((key) => key.trim()); const outputFormat = this.getNodeParameter('outputFormat', 0) as string; const zipData: fflate.Zippable = {}; const binaryObject: IBinaryKeyData = {}; for (const [index, binaryPropertyName] of binaryPropertyNames.entries()) { const binaryData = this.helpers.assertBinaryData(i, binaryPropertyName); const binaryDataBuffer = await this.helpers.getBinaryDataBuffer(i, binaryPropertyName); if (outputFormat === 'zip') { zipData[binaryData.fileName as string] = [ binaryDataBuffer, { level: ALREADY_COMPRESSED.includes(binaryData.fileExtension as string) ? 0 : 6, }, ]; } else if (outputFormat === 'gzip') { const outputPrefix = this.getNodeParameter('outputPrefix', 0) as string; const data = await gzip(binaryDataBuffer); const fileName = binaryData.fileName?.split('.')[0]; binaryObject[`${outputPrefix}${index}`] = await this.helpers.prepareBinaryData( Buffer.from(data), `${fileName}.gzip`, ); } } if (outputFormat === 'zip') { const fileName = this.getNodeParameter('fileName', 0) as string; const binaryPropertyOutput = this.getNodeParameter('binaryPropertyOutput', 0); const buffer = await zip(zipData); const data = await this.helpers.prepareBinaryData(Buffer.from(buffer), fileName); returnData.push({ json: items[i].json, binary: { [binaryPropertyOutput]: data, }, pairedItem: { item: i, }, }); } if (outputFormat === 'gzip') { returnData.push({ json: items[i].json, binary: binaryObject, pairedItem: { item: i, }, }); } } } catch (error) { if (this.continueOnFail()) { returnData.push({ json: { error: error.message, }, pairedItem: { item: i, }, }); continue; } throw error; } } return [returnData]; } }