/* eslint-disable @typescript-eslint/no-unsafe-argument */
/* eslint-disable @typescript-eslint/no-explicit-any */
/* eslint-disable @typescript-eslint/no-unused-vars */
/* eslint-disable @typescript-eslint/prefer-nullish-coalescing */
/* eslint-disable @typescript-eslint/naming-convention */
/* eslint-disable @typescript-eslint/no-unsafe-call */
/* eslint-disable @typescript-eslint/no-unsafe-assignment */
/* eslint-disable @typescript-eslint/no-unsafe-return */
/* eslint-disable @typescript-eslint/no-unsafe-member-access */
/* eslint-disable @typescript-eslint/no-shadow */
import type {
ClientOAuth2Options,
ClientOAuth2RequestObject,
ClientOAuth2TokenData,
} from '@n8n/client-oauth2';
import { ClientOAuth2 } from '@n8n/client-oauth2';
import type {
AxiosError,
AxiosPromise,
AxiosProxyConfig,
AxiosRequestConfig,
AxiosResponse,
Method,
} from 'axios';
import axios from 'axios';
import crypto, { createHmac } from 'crypto';
import type { Request, Response } from 'express';
import FileType from 'file-type';
import FormData from 'form-data';
import { createReadStream } from 'fs';
import { access as fsAccess, writeFile as fsWriteFile } from 'fs/promises';
import { IncomingMessage, type IncomingHttpHeaders } from 'http';
import { Agent } from 'https';
import get from 'lodash/get';
import pick from 'lodash/pick';
import { extension, lookup } from 'mime-types';
import type {
BinaryHelperFunctions,
ConnectionTypes,
ExecutionError,
FieldType,
FileSystemHelperFunctions,
FunctionsBase,
GenericValue,
IAdditionalCredentialOptions,
IAllExecuteFunctions,
IBinaryData,
IContextObject,
ICredentialDataDecryptedObject,
ICredentialTestFunctions,
ICredentialsExpressionResolveValues,
IDataObject,
IExecuteData,
IExecuteFunctions,
IExecuteResponsePromiseData,
IExecuteSingleFunctions,
IExecuteWorkflowInfo,
IGetNodeParameterOptions,
IHookFunctions,
IHttpRequestOptions,
ILoadOptionsFunctions,
IN8nHttpFullResponse,
IN8nHttpResponse,
INode,
INodeCredentialDescription,
INodeCredentialsDetails,
INodeExecutionData,
INodeInputConfiguration,
INodeOutputConfiguration,
INodeProperties,
INodePropertyCollection,
INodePropertyOptions,
INodeType,
IOAuth2Options,
IPairedItemData,
IPollFunctions,
IRunExecutionData,
ISourceData,
ITaskData,
ITaskDataConnections,
ITriggerFunctions,
IWebhookData,
IWebhookDescription,
IWebhookFunctions,
IWorkflowDataProxyAdditionalKeys,
IWorkflowDataProxyData,
IWorkflowExecuteAdditionalData,
NodeExecutionWithMetadata,
NodeHelperFunctions,
NodeParameterValueType,
RequestHelperFunctions,
Workflow,
WorkflowActivateMode,
WorkflowExecuteMode,
} from 'n8n-workflow';
import {
ExpressionError,
LoggerProxy as Logger,
NodeApiError,
NodeHelpers,
NodeOperationError,
NodeSSLError,
OAuth2GrantType,
WorkflowDataProxy,
createDeferredPromise,
deepCopy,
fileTypeFromMimeType,
isObjectEmpty,
isResourceMapperValue,
validateFieldType,
ExecutionBaseError,
} from 'n8n-workflow';
import type { Token } from 'oauth-1.0a';
import clientOAuth1 from 'oauth-1.0a';
import path from 'path';
import { stringify } from 'qs';
import type { OptionsWithUri, OptionsWithUrl } from 'request';
import type { RequestPromiseOptions } from 'request-promise-native';
import { Readable } from 'stream';
import url, { URL, URLSearchParams } from 'url';
import { BinaryDataService } from './BinaryData/BinaryData.service';
import {
BINARY_DATA_STORAGE_PATH,
BLOCK_FILE_ACCESS_TO_N8N_FILES,
CONFIG_FILES,
CUSTOM_EXTENSION_ENV,
PLACEHOLDER_EMPTY_EXECUTION_ID,
RESTRICT_FILE_ACCESS_TO,
UM_EMAIL_TEMPLATES_INVITE,
UM_EMAIL_TEMPLATES_PWRESET,
} from './Constants';
import { extractValue } from './ExtractValue';
import type { ExtendedValidationResult, IResponseError, IWorkflowSettings } from './Interfaces';
import { getClientCredentialsToken } from './OAuth2Helper';
import {
getAllWorkflowExecutionMetadata,
getWorkflowExecutionMetadata,
setAllWorkflowExecutionMetadata,
setWorkflowExecutionMetadata,
} from './WorkflowExecutionMetadata';
import { getSecretsProxy } from './Secrets';
import { getUserN8nFolderPath, getInstanceId } from './UserSettings';
import Container from 'typedi';
import type { BinaryData } from './BinaryData/types';
axios.defaults.timeout = 300000;
// Prevent axios from adding x-form-www-urlencoded headers by default
axios.defaults.headers.post = {};
axios.defaults.headers.put = {};
axios.defaults.headers.patch = {};
axios.defaults.paramsSerializer = (params) => {
if (params instanceof URLSearchParams) {
return params.toString();
}
return stringify(params, { arrayFormat: 'indices' });
};
const pushFormDataValue = (form: FormData, key: string, value: any) => {
if (value?.hasOwnProperty('value') && value.hasOwnProperty('options')) {
form.append(key, value.value, value.options);
} else {
form.append(key, value);
}
};
const createFormDataObject = (data: Record<string, unknown>) => {
const formData = new FormData();
const keys = Object.keys(data);
keys.forEach((key) => {
const formField = data[key];
if (formField instanceof Array) {
formField.forEach((item) => {
pushFormDataValue(formData, key, item);
});
} else {
pushFormDataValue(formData, key, formField);
}
});
return formData;
};
function searchForHeader(headers: IDataObject, headerName: string) {
if (headers === undefined) {
return undefined;
}
const headerNames = Object.keys(headers);
headerName = headerName.toLowerCase();
return headerNames.find((thisHeader) => thisHeader.toLowerCase() === headerName);
}
async function generateContentLengthHeader(formData: FormData, headers: IDataObject) {
if (!formData?.getLength) {
return;
}
try {
const length = await new Promise((res, rej) => {
formData.getLength((error: Error | null, length: number) => {
if (error) {
rej(error);
return;
}
res(length);
});
});
headers = Object.assign(headers, {
'content-length': length,
});
} catch (error) {
Logger.error('Unable to calculate form data length', { error });
}
}
async function parseRequestObject(requestObject: IDataObject) {
// This function is a temporary implementation
// That translates all http requests done via
// the request library to axios directly
// We are not using n8n's interface as it would
// an unnecessary step, considering the `request`
// helper can be deprecated and removed.
const axiosConfig: AxiosRequestConfig = {};
if (requestObject.headers !== undefined) {
axiosConfig.headers = requestObject.headers as string;
}
// Let's start parsing the hardest part, which is the request body.
// The process here is as following?
// - Check if we have a `content-type` header. If this was set,
// we will follow
// - Check if the `form` property was set. If yes, then it's x-www-form-urlencoded
// - Check if the `formData` property exists. If yes, then it's multipart/form-data
// - Lastly, we should have a regular `body` that is probably a JSON.
const contentTypeHeaderKeyName =
axiosConfig.headers &&
Object.keys(axiosConfig.headers).find(
(headerName) => headerName.toLowerCase() === 'content-type',
);
const contentType =
contentTypeHeaderKeyName &&
(axiosConfig.headers[contentTypeHeaderKeyName] as string | undefined);
if (contentType === 'application/x-www-form-urlencoded' && requestObject.formData === undefined) {
// there are nodes incorrectly created, informing the content type header
// and also using formData. Request lib takes precedence for the formData.
// We will do the same.
// Merge body and form properties.
if (typeof requestObject.body === 'string') {
axiosConfig.data = requestObject.body;
} else {
const allData = Object.assign(requestObject.body || {}, requestObject.form || {}) as Record<
string,
string
>;
if (requestObject.useQuerystring === true) {
axiosConfig.data = stringify(allData, { arrayFormat: 'repeat' });
} else {
axiosConfig.data = stringify(allData);
}
}
} else if (contentType && contentType.includes('multipart/form-data') !== false) {
if (requestObject.formData !== undefined && requestObject.formData instanceof FormData) {
axiosConfig.data = requestObject.formData;
} else {
const allData: Partial<FormData> = {
...(requestObject.body as object | undefined),
...(requestObject.formData as object | undefined),
};
axiosConfig.data = createFormDataObject(allData);
}
// replace the existing header with a new one that
// contains the boundary property.
delete axiosConfig.headers[contentTypeHeaderKeyName];
const headers = axiosConfig.data.getHeaders();
axiosConfig.headers = Object.assign(axiosConfig.headers || {}, headers);
await generateContentLengthHeader(axiosConfig.data, axiosConfig.headers);
} else {
// When using the `form` property it means the content should be x-www-form-urlencoded.
if (requestObject.form !== undefined && requestObject.body === undefined) {
// If we have only form
axiosConfig.data =
typeof requestObject.form === 'string'
? stringify(requestObject.form, { format: 'RFC3986' })
: stringify(requestObject.form).toString();
if (axiosConfig.headers !== undefined) {
const headerName = searchForHeader(axiosConfig.headers, 'content-type');
if (headerName) {
delete axiosConfig.headers[headerName];
}
axiosConfig.headers['Content-Type'] = 'application/x-www-form-urlencoded';
} else {
axiosConfig.headers = {
'Content-Type': 'application/x-www-form-urlencoded',
};
}
} else if (requestObject.formData !== undefined) {
// remove any "content-type" that might exist.
if (axiosConfig.headers !== undefined) {
const headers = Object.keys(axiosConfig.headers);
headers.forEach((header) =>
header.toLowerCase() === 'content-type' ? delete axiosConfig.headers[header] : null,
);
}
if (requestObject.formData instanceof FormData) {
axiosConfig.data = requestObject.formData;
} else {
axiosConfig.data = createFormDataObject(requestObject.formData as Record<string, unknown>);
}
// Mix in headers as FormData creates the boundary.
const headers = axiosConfig.data.getHeaders();
axiosConfig.headers = Object.assign(axiosConfig.headers || {}, headers);
await generateContentLengthHeader(axiosConfig.data, axiosConfig.headers);
} else if (requestObject.body !== undefined) {
// If we have body and possibly form
if (requestObject.form !== undefined && requestObject.body) {
// merge both objects when exist.
requestObject.body = Object.assign(requestObject.body, requestObject.form);
}
axiosConfig.data = requestObject.body as FormData | GenericValue | GenericValue[];
}
}
if (requestObject.uri !== undefined) {
axiosConfig.url = requestObject.uri?.toString() as string;
}
if (requestObject.url !== undefined) {
axiosConfig.url = requestObject.url?.toString() as string;
}
if (requestObject.baseURL !== undefined) {
axiosConfig.baseURL = requestObject.baseURL?.toString() as string;
}
if (requestObject.method !== undefined) {
axiosConfig.method = requestObject.method as Method;
}
if (requestObject.qs !== undefined && Object.keys(requestObject.qs as object).length > 0) {
axiosConfig.params = requestObject.qs as IDataObject;
}
function hasArrayFormatOptions(
arg: IDataObject,
): arg is IDataObject & { qsStringifyOptions: { arrayFormat: 'repeat' | 'brackets' } } {
if (
typeof arg.qsStringifyOptions === 'object' &&
arg.qsStringifyOptions !== null &&
!Array.isArray(arg.qsStringifyOptions) &&
'arrayFormat' in arg.qsStringifyOptions
) {
return true;
}
return false;
}
if (
requestObject.useQuerystring === true ||
(hasArrayFormatOptions(requestObject) &&
requestObject.qsStringifyOptions.arrayFormat === 'repeat')
) {
axiosConfig.paramsSerializer = (params) => {
return stringify(params, { arrayFormat: 'repeat' });
};
} else if (requestObject.useQuerystring === false) {
axiosConfig.paramsSerializer = (params) => {
return stringify(params, { arrayFormat: 'indices' });
};
}
if (
hasArrayFormatOptions(requestObject) &&
requestObject.qsStringifyOptions.arrayFormat === 'brackets'
) {
axiosConfig.paramsSerializer = (params) => {
return stringify(params, { arrayFormat: 'brackets' });
};
}
if (requestObject.auth !== undefined) {
// Check support for sendImmediately
if ((requestObject.auth as IDataObject).bearer !== undefined) {
axiosConfig.headers = Object.assign(axiosConfig.headers || {}, {
// eslint-disable-next-line @typescript-eslint/restrict-template-expressions
Authorization: `Bearer ${(requestObject.auth as IDataObject).bearer}`,
});
} else {
const authObj = requestObject.auth as IDataObject;
// Request accepts both user/username and pass/password
axiosConfig.auth = {
username: (authObj.user || authObj.username) as string,
password: (authObj.password || authObj.pass) as string,
};
}
}
// Only set header if we have a body, otherwise it may fail
if (requestObject.json === true) {
// Add application/json headers - do not set charset as it breaks a lot of stuff
// only add if no other accept headers was sent.
const acceptHeaderExists =
axiosConfig.headers === undefined
? false
: Object.keys(axiosConfig.headers)
.map((headerKey) => headerKey.toLowerCase())
.includes('accept');
if (!acceptHeaderExists) {
axiosConfig.headers = Object.assign(axiosConfig.headers || {}, {
Accept: 'application/json',
});
}
}
if (requestObject.json === false || requestObject.json === undefined) {
// Prevent json parsing
axiosConfig.transformResponse = (res) => res;
}
// Axios will follow redirects by default, so we simply tell it otherwise if needed.
if (
requestObject.followRedirect === false &&
((requestObject.method as string | undefined) || 'get').toLowerCase() === 'get'
) {
axiosConfig.maxRedirects = 0;
}
if (
requestObject.followAllRedirects === false &&
((requestObject.method as string | undefined) || 'get').toLowerCase() !== 'get'
) {
axiosConfig.maxRedirects = 0;
}
if (requestObject.rejectUnauthorized === false) {
axiosConfig.httpsAgent = new Agent({
rejectUnauthorized: false,
secureOptions: crypto.constants.SSL_OP_LEGACY_SERVER_CONNECT,
});
}
if (requestObject.timeout !== undefined) {
axiosConfig.timeout = requestObject.timeout as number;
}
if (requestObject.proxy !== undefined) {
// try our best to parse the url provided.
if (typeof requestObject.proxy === 'string') {
try {
const url = new URL(requestObject.proxy);
axiosConfig.proxy = {
host: url.hostname,
port: parseInt(url.port, 10),
protocol: url.protocol,
};
if (!url.port) {
// Sets port to a default if not informed
if (url.protocol === 'http') {
axiosConfig.proxy.port = 80;
} else if (url.protocol === 'https') {
axiosConfig.proxy.port = 443;
}
}
if (url.username || url.password) {
axiosConfig.proxy.auth = {
username: url.username,
password: url.password,
};
}
} catch (error) {
// Not a valid URL. We will try to simply parse stuff
// such as user:pass@host:port without protocol (we'll assume http)
if (requestObject.proxy.includes('@')) {
const [userpass, hostport] = requestObject.proxy.split('@');
const [username, password] = userpass.split(':');
const [hostname, port] = hostport.split(':');
axiosConfig.proxy = {
host: hostname,
port: parseInt(port, 10),
protocol: 'http',
auth: {
username,
password,
},
};
} else if (requestObject.proxy.includes(':')) {
const [hostname, port] = requestObject.proxy.split(':');
axiosConfig.proxy = {
host: hostname,
port: parseInt(port, 10),
protocol: 'http',
};
} else {
axiosConfig.proxy = {
host: requestObject.proxy,
port: 80,
protocol: 'http',
};
}
}
} else {
axiosConfig.proxy = requestObject.proxy as AxiosProxyConfig;
}
}
if (requestObject.useStream) {
axiosConfig.responseType = 'stream';
} else if (requestObject.encoding === null) {
// When downloading files, return an arrayBuffer.
axiosConfig.responseType = 'arraybuffer';
}
// If we don't set an accept header
// Axios forces "application/json, text/plan, */*"
// Which causes some nodes like NextCloud to break
// as the service returns XML unless requested otherwise.
const allHeaders = axiosConfig.headers ? Object.keys(axiosConfig.headers) : [];
if (!allHeaders.some((headerKey) => headerKey.toLowerCase() === 'accept')) {
axiosConfig.headers = Object.assign(axiosConfig.headers || {}, { accept: '*/*' });
}
if (
requestObject.json !== false &&
axiosConfig.data !== undefined &&
axiosConfig.data !== '' &&
!(axiosConfig.data instanceof Buffer) &&
!allHeaders.some((headerKey) => headerKey.toLowerCase() === 'content-type')
) {
// Use default header for application/json
// If we don't specify this here, axios will add
// application/json; charset=utf-8
// and this breaks a lot of stuff
axiosConfig.headers = Object.assign(axiosConfig.headers || {}, {
'content-type': 'application/json',
});
}
if (requestObject.simple === false) {
axiosConfig.validateStatus = () => true;
}
/**
* Missing properties:
* encoding (need testing)
* gzip (ignored - default already works)
* resolveWithFullResponse (implemented elsewhere)
*/
return axiosConfig;
}
function digestAuthAxiosConfig(
axiosConfig: AxiosRequestConfig,
response: AxiosResponse,
auth: AxiosRequestConfig['auth'],
): AxiosRequestConfig {
const authDetails = response.headers['www-authenticate']
.split(',')
.map((v: string) => v.split('='));
if (authDetails) {
const nonceCount = '000000001';
const cnonce = crypto.randomBytes(24).toString('hex');
const realm: string = authDetails
.find((el: any) => el[0].toLowerCase().indexOf('realm') > -1)[1]
.replace(/"/g, '');
// If authDetails does not have opaque, we should not add it to authorization.
const opaqueKV = authDetails.find((el: any) => el[0].toLowerCase().indexOf('opaque') > -1);
const opaque: string = opaqueKV ? opaqueKV[1].replace(/"/g, '') : undefined;
const nonce: string = authDetails
.find((el: any) => el[0].toLowerCase().indexOf('nonce') > -1)[1]
.replace(/"/g, '');
const ha1 = crypto
.createHash('md5')
.update(`${auth?.username as string}:${realm}:${auth?.password as string}`)
.digest('hex');
const urlURL = new url.URL(axios.getUri(axiosConfig));
const path = urlURL.pathname + urlURL.search;
const ha2 = crypto
.createHash('md5')
.update(`${axiosConfig.method ?? 'GET'}:${path}`)
.digest('hex');
const response = crypto
.createHash('md5')
.update(`${ha1}:${nonce}:${nonceCount}:${cnonce}:auth:${ha2}`)
.digest('hex');
let authorization =
`Digest username="${auth?.username as string}",realm="${realm}",` +
`nonce="${nonce}",uri="${path}",qop="auth",algorithm="MD5",` +
`response="${response}",nc="${nonceCount}",cnonce="${cnonce}"`;
// Only when opaque exists, add it to authorization.
if (opaque) {
authorization += `,opaque="${opaque}"`;
}
if (axiosConfig.headers) {
axiosConfig.headers.authorization = authorization;
} else {
axiosConfig.headers = { authorization };
}
}
return axiosConfig;
}
type ConfigObject = {
auth?: { sendImmediately: boolean };
resolveWithFullResponse?: boolean;
simple?: boolean;
};
interface IContentType {
type: string;
parameters: {
charset: string;
[key: string]: string;
};
}
interface IContentDisposition {
type: string;
filename?: string;
}
function parseHeaderParameters(parameters: string[]): Record<string, string> {
return parameters.reduce(
(acc, param) => {
const [key, value] = param.split('=');
acc[key.toLowerCase().trim()] = decodeURIComponent(value);
return acc;
},
{} as Record<string, string>,
);
}
function parseContentType(contentType?: string): IContentType | null {
if (!contentType) {
return null;
}
const [type, ...parameters] = contentType.split(';');
return {
type: type.toLowerCase(),
parameters: { charset: 'utf-8', ...parseHeaderParameters(parameters) },
};
}
function parseFileName(filename?: string): string | undefined {
if (filename?.startsWith('"') && filename?.endsWith('"')) {
return filename.slice(1, -1);
}
return filename;
}
// https://datatracker.ietf.org/doc/html/rfc5987
function parseFileNameStar(filename?: string): string | undefined {
const [_encoding, _locale, content] = parseFileName(filename)?.split("'") ?? [];
return content;
}
function parseContentDisposition(contentDisposition?: string): IContentDisposition | null {
if (!contentDisposition) {
return null;
}
// This is invalid syntax, but common
// Example 'filename="example.png"' (instead of 'attachment; filename="example.png"')
if (!contentDisposition.startsWith('attachment') && !contentDisposition.startsWith('inline')) {
contentDisposition = `attachment; ${contentDisposition}`;
}
const [type, ...parameters] = contentDisposition.split(';');
const parsedParameters = parseHeaderParameters(parameters);
return {
type,
filename:
parseFileNameStar(parsedParameters['filename*']) ?? parseFileName(parsedParameters.filename),
};
}
export function parseIncomingMessage(message: IncomingMessage) {
const contentType = parseContentType(message.headers['content-type']);
if (contentType) {
const { type, parameters } = contentType;
message.contentType = type;
message.encoding = parameters.charset.toLowerCase() as BufferEncoding;
}
const contentDisposition = parseContentDisposition(message.headers['content-disposition']);
if (contentDisposition) {
message.contentDisposition = contentDisposition;
}
}
export async function proxyRequestToAxios(
workflow: Workflow | undefined,
additionalData: IWorkflowExecuteAdditionalData | undefined,
node: INode | undefined,
uriOrObject: string | object,
options?: object,
): Promise<any> {
let axiosConfig: AxiosRequestConfig = {
maxBodyLength: Infinity,
maxContentLength: Infinity,
};
let configObject: ConfigObject;
if (uriOrObject !== undefined && typeof uriOrObject === 'string') {
axiosConfig.url = uriOrObject;
}
if (uriOrObject !== undefined && typeof uriOrObject === 'object') {
configObject = uriOrObject;
} else {
configObject = options || {};
}
axiosConfig = Object.assign(axiosConfig, await parseRequestObject(configObject));
Logger.debug(
'Proxying request to axios',
// {
// originalConfig: configObject,
// parsedConfig: axiosConfig,
// }
);
let requestFn: () => AxiosPromise;
if (configObject.auth?.sendImmediately === false) {
// for digest-auth
requestFn = async () => {
try {
return await axios(axiosConfig);
} catch (error) {
const { response } = error;
if (response?.status !== 401 || !response.headers['www-authenticate']?.includes('nonce')) {
throw error;
}
const { auth } = axiosConfig;
delete axiosConfig.auth;
axiosConfig = digestAuthAxiosConfig(axiosConfig, response, auth);
return await axios(axiosConfig);
}
};
} else {
requestFn = async () => axios(axiosConfig);
}
try {
const response = await requestFn();
let body = response.data;
if (body instanceof IncomingMessage && axiosConfig.responseType === 'stream') {
parseIncomingMessage(body);
} else if (body === '') {
body = axiosConfig.responseType === 'arraybuffer' ? Buffer.alloc(0) : undefined;
}
await additionalData?.hooks?.executeHookFunctions('nodeFetchedData', [workflow?.id, node]);
return configObject.resolveWithFullResponse
? {
body,
headers: response.headers,
statusCode: response.status,
statusMessage: response.statusText,
request: response.request,
}
: body;
} catch (error) {
const { config, response } = error;
// Axios hydrates the original error with more data. We extract them.
// https://github.com/axios/axios/blob/master/lib/core/enhanceError.js
// Note: `code` is ignored as it's an expected part of the errorData.
if (error.isAxiosError) {
error.config = error.request = undefined;
error.options = pick(config ?? {}, ['url', 'method', 'data', 'headers']);
if (response) {
Logger.debug('Request proxied to Axios failed', { status: response.status });
let responseData = response.data;
if (Buffer.isBuffer(responseData) || responseData instanceof Readable) {
responseData = await Container.get(BinaryDataService)
.toBuffer(responseData)
.then((buffer) => buffer.toString('utf-8'));
}
if (configObject.simple === false) {
if (configObject.resolveWithFullResponse) {
return {
body: responseData,
headers: response.headers,
statusCode: response.status,
statusMessage: response.statusText,
};
} else {
return responseData;
}
}
error.message = `${response.status as number} - ${JSON.stringify(responseData)}`;
throw Object.assign(error, {
statusCode: response.status,
error: responseData,
response: pick(response, ['headers', 'status', 'statusText']),
});
} else if ('rejectUnauthorized' in configObject && error.code?.includes('CERT')) {
throw new NodeSSLError(error);
}
}
throw error;
}
}
function convertN8nRequestToAxios(n8nRequest: IHttpRequestOptions): AxiosRequestConfig {
// Destructure properties with the same name first.
const { headers, method, timeout, auth, proxy, url } = n8nRequest;
const axiosRequest: AxiosRequestConfig = {
headers: headers ?? {},
method,
timeout,
auth,
proxy,
url,
maxBodyLength: Infinity,
maxContentLength: Infinity,
} as AxiosRequestConfig;
axiosRequest.params = n8nRequest.qs;
if (n8nRequest.baseURL !== undefined) {
axiosRequest.baseURL = n8nRequest.baseURL;
}
if (n8nRequest.disableFollowRedirect === true) {
axiosRequest.maxRedirects = 0;
}
if (n8nRequest.encoding !== undefined) {
axiosRequest.responseType = n8nRequest.encoding;
}
if (n8nRequest.skipSslCertificateValidation === true) {
axiosRequest.httpsAgent = new Agent({
rejectUnauthorized: false,
});
}
if (n8nRequest.arrayFormat !== undefined) {
axiosRequest.paramsSerializer = (params) => {
return stringify(params, { arrayFormat: n8nRequest.arrayFormat });
};
}
const { body } = n8nRequest;
if (body) {
// Let's add some useful header standards here.
const existingContentTypeHeaderKey = searchForHeader(axiosRequest.headers, 'content-type');
if (existingContentTypeHeaderKey === undefined) {
axiosRequest.headers = axiosRequest.headers || {};
// We are only setting content type headers if the user did
// not set it already manually. We're not overriding, even if it's wrong.
if (body instanceof FormData) {
axiosRequest.headers = {
...axiosRequest.headers,
...body.getHeaders(),
};
} else if (body instanceof URLSearchParams) {
axiosRequest.headers['Content-Type'] = 'application/x-www-form-urlencoded';
}
} else if (
axiosRequest.headers[existingContentTypeHeaderKey] === 'application/x-www-form-urlencoded'
) {
axiosRequest.data = new URLSearchParams(n8nRequest.body as Record<string, string>);
}
// if there is a body and it's empty (does not have properties),
// make sure not to send anything in it as some services fail when
// sending GET request with empty body.
if (typeof body === 'string' || (typeof body === 'object' && !isObjectEmpty(body))) {
axiosRequest.data = body;
}
}
if (n8nRequest.json) {
const key = searchForHeader(axiosRequest.headers, 'accept');
// If key exists, then the user has set both accept
// header and the json flag. Header should take precedence.
if (!key) {
axiosRequest.headers.Accept = 'application/json';
}
}
const userAgentHeader = searchForHeader(axiosRequest.headers, 'user-agent');
// If key exists, then the user has set both accept
// header and the json flag. Header should take precedence.
if (!userAgentHeader) {
axiosRequest.headers['User-Agent'] = 'n8n';
}
if (n8nRequest.ignoreHttpStatusErrors) {
axiosRequest.validateStatus = () => true;
}
return axiosRequest;
}
async function httpRequest(
requestOptions: IHttpRequestOptions,
): Promise<IN8nHttpFullResponse | IN8nHttpResponse> {
let axiosRequest = convertN8nRequestToAxios(requestOptions);
if (
axiosRequest.data === undefined ||
(axiosRequest.method !== undefined && axiosRequest.method.toUpperCase() === 'GET')
) {
delete axiosRequest.data;
}
let result: AxiosResponse<any>;
try {
result = await axios(axiosRequest);
} catch (error) {
if (requestOptions.auth?.sendImmediately === false) {
const { response } = error;
if (response?.status !== 401 || !response.headers['www-authenticate']?.includes('nonce')) {
throw error;
}
const { auth } = axiosRequest;
delete axiosRequest.auth;
axiosRequest = digestAuthAxiosConfig(axiosRequest, response, auth);
result = await axios(axiosRequest);
}
throw error;
}
if (requestOptions.returnFullResponse) {
return {
body: result.data,
headers: result.headers,
statusCode: result.status,
statusMessage: result.statusText,
};
}
return result.data;
}
export function getBinaryPath(binaryDataId: string): string {
return Container.get(BinaryDataService).getPath(binaryDataId);
}
/**
* Returns binary file metadata
*/
export async function getBinaryMetadata(binaryDataId: string): Promise<BinaryData.Metadata> {
return Container.get(BinaryDataService).getMetadata(binaryDataId);
}
/**
* Returns binary file stream for piping
*/
export async function getBinaryStream(binaryDataId: string, chunkSize?: number): Promise<Readable> {
return Container.get(BinaryDataService).getAsStream(binaryDataId, chunkSize);
}
export function assertBinaryData(
inputData: ITaskDataConnections,
node: INode,
itemIndex: number,
propertyName: string,
inputIndex: number,
): IBinaryData {
const binaryKeyData = inputData.main[inputIndex]![itemIndex]!.binary;
if (binaryKeyData === undefined) {
throw new NodeOperationError(node, 'No binary data exists on item!', {
itemIndex,
});
}
const binaryPropertyData = binaryKeyData[propertyName];
if (binaryPropertyData === undefined) {
throw new NodeOperationError(node, `Item has no binary property called "${propertyName}"`, {
itemIndex,
});
}
return binaryPropertyData;
}
/**
* Returns binary data buffer for given item index and property name.
*/
export async function getBinaryDataBuffer(
inputData: ITaskDataConnections,
itemIndex: number,
propertyName: string,
inputIndex: number,
): Promise<Buffer> {
const binaryData = inputData.main[inputIndex]![itemIndex]!.binary![propertyName]!;
return Container.get(BinaryDataService).getAsBuffer(binaryData);
}
/**
* Store an incoming IBinaryData & related buffer using the configured binary data manager.
*
* @export
* @param {IBinaryData} binaryData
* @param {Buffer | Readable} bufferOrStream
* @returns {Promise<IBinaryData>}
*/
export async function setBinaryDataBuffer(
binaryData: IBinaryData,
bufferOrStream: Buffer | Readable,
workflowId: string,
executionId: string,
): Promise<IBinaryData> {
return Container.get(BinaryDataService).store(
workflowId,
executionId,
bufferOrStream,
binaryData,
);
}
export async function copyBinaryFile(
workflowId: string,
executionId: string,
filePath: string,
fileName: string,
mimeType?: string,
): Promise<IBinaryData> {
let fileExtension: string | undefined;
if (!mimeType) {
// If no mime type is given figure it out
if (filePath) {
// Use file path to guess mime type
const mimeTypeLookup = lookup(filePath);
if (mimeTypeLookup) {
mimeType = mimeTypeLookup;
}
}
if (!mimeType) {
// read the first bytes of the file to guess mime type
const fileTypeData = await FileType.fromFile(filePath);
if (fileTypeData) {
mimeType = fileTypeData.mime;
fileExtension = fileTypeData.ext;
}
}
}
if (!fileExtension && mimeType) {
fileExtension = extension(mimeType) || undefined;
}
if (!mimeType) {
// Fall back to text
mimeType = 'text/plain';
}
const returnData: IBinaryData = {
mimeType,
fileType: fileTypeFromMimeType(mimeType),
fileExtension,
data: '',
};
if (fileName) {
returnData.fileName = fileName;
} else if (filePath) {
returnData.fileName = path.parse(filePath).base;
}
return Container.get(BinaryDataService).copyBinaryFile(
workflowId,
executionId,
returnData,
filePath,
);
}
/**
* Takes a buffer and converts it into the format n8n uses. It encodes the binary data as
* base64 and adds metadata.
*/
async function prepareBinaryData(
binaryData: Buffer | Readable,
executionId: string,
workflowId: string,
filePath?: string,
mimeType?: string,
): Promise<IBinaryData> {
let fileExtension: string | undefined;
if (binaryData instanceof IncomingMessage) {
if (!filePath) {
try {
const { responseUrl } = binaryData;
filePath =
binaryData.contentDisposition?.filename ??
((responseUrl && new URL(responseUrl).pathname) ?? binaryData.req?.path)?.slice(1);
} catch {}
}
if (!mimeType) {
mimeType = binaryData.contentType;
}
}
if (!mimeType) {
// If no mime type is given figure it out
if (filePath) {
// Use file path to guess mime type
const mimeTypeLookup = lookup(filePath);
if (mimeTypeLookup) {
mimeType = mimeTypeLookup;
}
}
if (!mimeType) {
if (Buffer.isBuffer(binaryData)) {
// Use buffer to guess mime type
const fileTypeData = await FileType.fromBuffer(binaryData);
if (fileTypeData) {
mimeType = fileTypeData.mime;
fileExtension = fileTypeData.ext;
}
} else if (binaryData instanceof IncomingMessage) {
mimeType = binaryData.headers['content-type'];
} else {
// TODO: detect filetype from other kind of streams
}
}
}
if (!fileExtension && mimeType) {
fileExtension = extension(mimeType) || undefined;
}
if (!mimeType) {
// Fall back to text
mimeType = 'text/plain';
}
const returnData: IBinaryData = {
mimeType,
fileType: fileTypeFromMimeType(mimeType),
fileExtension,
data: '',
};
if (filePath) {
if (filePath.includes('?')) {
// Remove maybe present query parameters
filePath = filePath.split('?').shift();
}
const filePathParts = path.parse(filePath as string);
if (filePathParts.dir !== '') {
returnData.directory = filePathParts.dir;
}
returnData.fileName = filePathParts.base;
// Remove the dot
const fileExtension = filePathParts.ext.slice(1);
if (fileExtension) {
returnData.fileExtension = fileExtension;
}
}
return setBinaryDataBuffer(returnData, binaryData, workflowId, executionId);
}
/**
* Makes a request using OAuth data for authentication
*
* @param {(OptionsWithUri | RequestPromiseOptions)} requestOptions
*
*/
export async function requestOAuth2(
this: IAllExecuteFunctions,
credentialsType: string,
requestOptions: OptionsWithUri | RequestPromiseOptions | IHttpRequestOptions,
node: INode,
additionalData: IWorkflowExecuteAdditionalData,
oAuth2Options?: IOAuth2Options,
isN8nRequest = false,
) {
const credentials = await this.getCredentials(credentialsType);
// Only the OAuth2 with authorization code grant needs connection
if (
credentials.grantType === OAuth2GrantType.authorizationCode &&
credentials.oauthTokenData === undefined
) {
throw new Error('OAuth credentials not connected!');
}
const oAuthClient = new ClientOAuth2({
clientId: credentials.clientId as string,
clientSecret: credentials.clientSecret as string,
accessTokenUri: credentials.accessTokenUrl as string,
scopes: (credentials.scope as string).split(' '),
ignoreSSLIssues: credentials.ignoreSSLIssues as boolean,
});
let oauthTokenData = credentials.oauthTokenData as ClientOAuth2TokenData;
// if it's the first time using the credentials, get the access token and save it into the DB.
if (
credentials.grantType === OAuth2GrantType.clientCredentials &&
(oauthTokenData === undefined || Object.keys(oauthTokenData).length === 0)
) {
const { data } = await getClientCredentialsToken(oAuthClient, credentials);
// Find the credentials
if (!node.credentials?.[credentialsType]) {
throw new Error(
`The node "${node.name}" does not have credentials of type "${credentialsType}"!`,
);
}
const nodeCredentials = node.credentials[credentialsType];
// Save the refreshed token
await additionalData.credentialsHelper.updateCredentials(
nodeCredentials,
credentialsType,
Object.assign(credentials, { oauthTokenData: data }),
);
oauthTokenData = data;
}
const accessToken =
get(oauthTokenData, oAuth2Options?.property as string) || oauthTokenData.accessToken;
const refreshToken = oauthTokenData.refreshToken;
const token = oAuthClient.createToken(
{
...oauthTokenData,
...(accessToken ? { access_token: accessToken } : {}),
...(refreshToken ? { refresh_token: refreshToken } : {}),
},
oAuth2Options?.tokenType || oauthTokenData.tokenType,
);
(requestOptions as OptionsWithUri).rejectUnauthorized = !credentials.ignoreSSLIssues;
// Signs the request by adding authorization headers or query parameters depending
// on the token-type used.
const newRequestOptions = token.sign(requestOptions as ClientOAuth2RequestObject);
const newRequestHeaders = (newRequestOptions.headers = newRequestOptions.headers ?? {});
// If keep bearer is false remove the it from the authorization header
if (oAuth2Options?.keepBearer === false && typeof newRequestHeaders.Authorization === 'string') {
newRequestHeaders.Authorization = newRequestHeaders.Authorization.split(' ')[1];
}
if (oAuth2Options?.keyToIncludeInAccessTokenHeader) {
Object.assign(newRequestHeaders, {
[oAuth2Options.keyToIncludeInAccessTokenHeader]: token.accessToken,
});
}
if (isN8nRequest) {
return this.helpers.httpRequest(newRequestOptions).catch(async (error: AxiosError) => {
if (error.response?.status === 401) {
Logger.debug(
`OAuth2 token for "${credentialsType}" used by node "${node.name}" expired. Should revalidate.`,
);
const tokenRefreshOptions: IDataObject = {};
if (oAuth2Options?.includeCredentialsOnRefreshOnBody) {
const body: IDataObject = {
client_id: credentials.clientId as string,
...(credentials.grantType === 'authorizationCode' && {
client_secret: credentials.clientSecret as string,
}),
};
tokenRefreshOptions.body = body;
tokenRefreshOptions.headers = {
Authorization: '',
};
}
let newToken;
Logger.debug(
`OAuth2 token for "${credentialsType}" used by node "${node.name}" has been renewed.`,
);
// if it's OAuth2 with client credentials grant type, get a new token
// instead of refreshing it.
if (OAuth2GrantType.clientCredentials === credentials.grantType) {
newToken = await getClientCredentialsToken(token.client, credentials);
} else {
newToken = await token.refresh(tokenRefreshOptions as unknown as ClientOAuth2Options);
}
Logger.debug(
`OAuth2 token for "${credentialsType}" used by node "${node.name}" has been renewed.`,
);
credentials.oauthTokenData = newToken.data;
// Find the credentials
if (!node.credentials?.[credentialsType]) {
throw new Error(
`The node "${node.name}" does not have credentials of type "${credentialsType}"!`,
);
}
const nodeCredentials = node.credentials[credentialsType];
await additionalData.credentialsHelper.updateCredentials(
nodeCredentials,
credentialsType,
credentials,
);
const refreshedRequestOption = newToken.sign(requestOptions as ClientOAuth2RequestObject);
if (oAuth2Options?.keyToIncludeInAccessTokenHeader) {
Object.assign(newRequestHeaders, {
[oAuth2Options.keyToIncludeInAccessTokenHeader]: token.accessToken,
});
}
return this.helpers.httpRequest(refreshedRequestOption);
}
throw error;
});
}
const tokenExpiredStatusCode =
oAuth2Options?.tokenExpiredStatusCode === undefined
? 401
: oAuth2Options?.tokenExpiredStatusCode;
return this.helpers
.request(newRequestOptions)
.then((response) => {
const requestOptions = newRequestOptions as any;
if (
requestOptions.resolveWithFullResponse === true &&
requestOptions.simple === false &&
response.statusCode === tokenExpiredStatusCode
) {
throw response;
}
return response;
})
.catch(async (error: IResponseError) => {
if (error.statusCode === tokenExpiredStatusCode) {
// Token is probably not valid anymore. So try refresh it.
const tokenRefreshOptions: IDataObject = {};
if (oAuth2Options?.includeCredentialsOnRefreshOnBody) {
const body: IDataObject = {
client_id: credentials.clientId,
client_secret: credentials.clientSecret,
};
tokenRefreshOptions.body = body;
// Override authorization property so the credentials are not included in it
tokenRefreshOptions.headers = {
Authorization: '',
};
}
Logger.debug(
`OAuth2 token for "${credentialsType}" used by node "${node.name}" expired. Should revalidate.`,
);
let newToken;
// if it's OAuth2 with client credentials grant type, get a new token
// instead of refreshing it.
if (OAuth2GrantType.clientCredentials === credentials.grantType) {
newToken = await getClientCredentialsToken(token.client, credentials);
} else {
newToken = await token.refresh(tokenRefreshOptions as unknown as ClientOAuth2Options);
}
Logger.debug(
`OAuth2 token for "${credentialsType}" used by node "${node.name}" has been renewed.`,
);
credentials.oauthTokenData = newToken.data;
// Find the credentials
if (!node.credentials?.[credentialsType]) {
throw new Error(
`The node "${node.name}" does not have credentials of type "${credentialsType}"!`,
);
}
const nodeCredentials = node.credentials[credentialsType];
// Save the refreshed token
await additionalData.credentialsHelper.updateCredentials(
nodeCredentials,
credentialsType,
credentials as unknown as ICredentialDataDecryptedObject,
);
Logger.debug(
`OAuth2 token for "${credentialsType}" used by node "${node.name}" has been saved to database successfully.`,
);
// Make the request again with the new token
const newRequestOptions = newToken.sign(requestOptions as ClientOAuth2RequestObject);
newRequestOptions.headers = newRequestOptions.headers ?? {};
if (oAuth2Options?.keyToIncludeInAccessTokenHeader) {
Object.assign(newRequestOptions.headers, {
[oAuth2Options.keyToIncludeInAccessTokenHeader]: token.accessToken,
});
}
return this.helpers.request(newRequestOptions);
}
// Unknown error so simply throw it
throw error;
});
}
/**
* Makes a request using OAuth1 data for authentication
*/
export async function requestOAuth1(
this: IAllExecuteFunctions,
credentialsType: string,
requestOptions: OptionsWithUrl | OptionsWithUri | RequestPromiseOptions | IHttpRequestOptions,
isN8nRequest = false,
) {
const credentials = await this.getCredentials(credentialsType);
if (credentials === undefined) {
throw new Error('No credentials were returned!');
}
if (credentials.oauthTokenData === undefined) {
throw new Error('OAuth credentials not connected!');
}
const oauth = new clientOAuth1({
consumer: {
key: credentials.consumerKey as string,
secret: credentials.consumerSecret as string,
},
signature_method: credentials.signatureMethod as string,
hash_function(base, key) {
let algorithm: string;
switch (credentials.signatureMethod) {
case 'HMAC-SHA256':
algorithm = 'sha256';
break;
case 'HMAC-SHA512':
algorithm = 'sha512';
break;
default:
algorithm = 'sha1';
break;
}
return createHmac(algorithm, key).update(base).digest('base64');
},
});
const oauthTokenData = credentials.oauthTokenData as IDataObject;
const token: Token = {
key: oauthTokenData.oauth_token as string,
secret: oauthTokenData.oauth_token_secret as string,
};
// @ts-expect-error @TECH_DEBT: Remove request library
requestOptions.data = { ...requestOptions.qs, ...requestOptions.form };
// Fixes issue that OAuth1 library only works with "url" property and not with "uri"
// @ts-expect-error @TECH_DEBT: Remove request library
if (requestOptions.uri && !requestOptions.url) {
// @ts-expect-error @TECH_DEBT: Remove request library
requestOptions.url = requestOptions.uri;
// @ts-expect-error @TECH_DEBT: Remove request library
delete requestOptions.uri;
}
requestOptions.headers = oauth.toHeader(
oauth.authorize(requestOptions as unknown as clientOAuth1.RequestOptions, token),
);
if (isN8nRequest) {
return this.helpers.httpRequest(requestOptions as IHttpRequestOptions);
}
return this.helpers.request(requestOptions).catch(async (error: IResponseError) => {
// Unknown error so simply throw it
throw error;
});
}
export async function httpRequestWithAuthentication(
this: IAllExecuteFunctions,
credentialsType: string,
requestOptions: IHttpRequestOptions,
workflow: Workflow,
node: INode,
additionalData: IWorkflowExecuteAdditionalData,
additionalCredentialOptions?: IAdditionalCredentialOptions,
) {
let credentialsDecrypted: ICredentialDataDecryptedObject | undefined;
try {
const parentTypes = additionalData.credentialsHelper.getParentTypes(credentialsType);
if (parentTypes.includes('oAuth1Api')) {
return await requestOAuth1.call(this, credentialsType, requestOptions, true);
}
if (parentTypes.includes('oAuth2Api')) {
return await requestOAuth2.call(
this,
credentialsType,
requestOptions,
node,
additionalData,
additionalCredentialOptions?.oauth2,
true,
);
}
if (additionalCredentialOptions?.credentialsDecrypted) {
credentialsDecrypted = additionalCredentialOptions.credentialsDecrypted.data;
} else {
credentialsDecrypted = await this.getCredentials(credentialsType);
}
if (credentialsDecrypted === undefined) {
throw new NodeOperationError(
node,
`Node "${node.name}" does not have any credentials of type "${credentialsType}" set!`,
{ severity: 'warning' },
);
}
const data = await additionalData.credentialsHelper.preAuthentication(
{ helpers: this.helpers },
credentialsDecrypted,
credentialsType,
node,
false,
);
if (data) {
// make the updated property in the credentials
// available to the authenticate method
Object.assign(credentialsDecrypted, data);
}
requestOptions = await additionalData.credentialsHelper.authenticate(
credentialsDecrypted,
credentialsType,
requestOptions,
workflow,
node,
additionalData.timezone,
);
return await httpRequest(requestOptions);
} catch (error) {
// if there is a pre authorization method defined and
// the method failed due to unauthorized request
if (
error.response?.status === 401 &&
additionalData.credentialsHelper.preAuthentication !== undefined
) {
try {
if (credentialsDecrypted !== undefined) {
// try to refresh the credentials
const data = await additionalData.credentialsHelper.preAuthentication(
{ helpers: this.helpers },
credentialsDecrypted,
credentialsType,
node,
true,
);
if (data) {
// make the updated property in the credentials
// available to the authenticate method
Object.assign(credentialsDecrypted, data);
}
requestOptions = await additionalData.credentialsHelper.authenticate(
credentialsDecrypted,
credentialsType,
requestOptions,
workflow,
node,
additionalData.timezone,
);
}
// retry the request
return await httpRequest(requestOptions);
} catch (error) {
throw new NodeApiError(this.getNode(), error);
}
}
throw new NodeApiError(this.getNode(), error);
}
}
/**
* Takes generic input data and brings it into the json format n8n uses.
*
* @param {(IDataObject | IDataObject[])} jsonData
*/
export function returnJsonArray(jsonData: IDataObject | IDataObject[]): INodeExecutionData[] {
const returnData: INodeExecutionData[] = [];
if (!Array.isArray(jsonData)) {
jsonData = [jsonData];
}
jsonData.forEach((data: IDataObject & { json?: IDataObject }) => {
if (data?.json) {
// We already have the JSON key so avoid double wrapping
returnData.push({ ...data, json: data.json });
} else {
returnData.push({ json: data });
}
});
return returnData;
}
/**
* Takes generic input data and brings it into the new json, pairedItem format n8n uses.
* @param {(IPairedItemData)} itemData
* @param {(INodeExecutionData[])} inputData
*/
export function constructExecutionMetaData(
inputData: INodeExecutionData[],
options: { itemData: IPairedItemData | IPairedItemData[] },
): NodeExecutionWithMetadata[] {
const { itemData } = options;
return inputData.map((data: INodeExecutionData) => {
const { json, ...rest } = data;
return { json, pairedItem: itemData, ...rest } as NodeExecutionWithMetadata;
});
}
/**
* Automatically put the objects under a 'json' key and don't error,
* if some objects contain json/binary keys and others don't, throws error 'Inconsistent item format'
*
* @param {INodeExecutionData | INodeExecutionData[]} executionData
*/
export function normalizeItems(
executionData: INodeExecutionData | INodeExecutionData[],
): INodeExecutionData[] {
if (typeof executionData === 'object' && !Array.isArray(executionData)) {
executionData = executionData.json ? [executionData] : [{ json: executionData as IDataObject }];
}
if (executionData.every((item) => typeof item === 'object' && 'json' in item))
return executionData;
if (executionData.some((item) => typeof item === 'object' && 'json' in item)) {
throw new Error('Inconsistent item format');
}
if (executionData.every((item) => typeof item === 'object' && 'binary' in item)) {
const normalizedItems: INodeExecutionData[] = [];
executionData.forEach((item) => {
const json = Object.keys(item).reduce((acc, key) => {
if (key === 'binary') return acc;
return { ...acc, [key]: item[key] };
}, {});
normalizedItems.push({
json,
binary: item.binary,
});
});
return normalizedItems;
}
if (executionData.some((item) => typeof item === 'object' && 'binary' in item)) {
throw new Error('Inconsistent item format');
}
return executionData.map((item) => {
return { json: item };
});
}
// TODO: Move up later
export async function requestWithAuthentication(
this: IAllExecuteFunctions,
credentialsType: string,
requestOptions: OptionsWithUri | RequestPromiseOptions,
workflow: Workflow,
node: INode,
additionalData: IWorkflowExecuteAdditionalData,
additionalCredentialOptions?: IAdditionalCredentialOptions,
) {
let credentialsDecrypted: ICredentialDataDecryptedObject | undefined;
try {
const parentTypes = additionalData.credentialsHelper.getParentTypes(credentialsType);
if (parentTypes.includes('oAuth1Api')) {
return await requestOAuth1.call(this, credentialsType, requestOptions, false);
}
if (parentTypes.includes('oAuth2Api')) {
return await requestOAuth2.call(
this,
credentialsType,
requestOptions,
node,
additionalData,
additionalCredentialOptions?.oauth2,
false,
);
}
if (additionalCredentialOptions?.credentialsDecrypted) {
credentialsDecrypted = additionalCredentialOptions.credentialsDecrypted.data;
} else {
credentialsDecrypted = await this.getCredentials(credentialsType);
}
if (credentialsDecrypted === undefined) {
throw new NodeOperationError(
node,
`Node "${node.name}" does not have any credentials of type "${credentialsType}" set!`,
{ severity: 'warning' },
);
}
const data = await additionalData.credentialsHelper.preAuthentication(
{ helpers: this.helpers },
credentialsDecrypted,
credentialsType,
node,
false,
);
if (data) {
// make the updated property in the credentials
// available to the authenticate method
Object.assign(credentialsDecrypted, data);
}
requestOptions = await additionalData.credentialsHelper.authenticate(
credentialsDecrypted,
credentialsType,
requestOptions as IHttpRequestOptions,
workflow,
node,
additionalData.timezone,
);
return await proxyRequestToAxios(workflow, additionalData, node, requestOptions as IDataObject);
} catch (error) {
try {
if (credentialsDecrypted !== undefined) {
// try to refresh the credentials
const data = await additionalData.credentialsHelper.preAuthentication(
{ helpers: this.helpers },
credentialsDecrypted,
credentialsType,
node,
true,
);
if (data) {
// make the updated property in the credentials
// available to the authenticate method
Object.assign(credentialsDecrypted, data);
requestOptions = await additionalData.credentialsHelper.authenticate(
credentialsDecrypted,
credentialsType,
requestOptions as IHttpRequestOptions,
workflow,
node,
additionalData.timezone,
);
// retry the request
return await proxyRequestToAxios(
workflow,
additionalData,
node,
requestOptions as IDataObject,
);
}
}
throw error;
} catch (error) {
throw new NodeApiError(this.getNode(), error);
}
}
}
/**
* Returns the additional keys for Expressions and Function-Nodes
*
*/
export function getAdditionalKeys(
additionalData: IWorkflowExecuteAdditionalData,
mode: WorkflowExecuteMode,
runExecutionData: IRunExecutionData | null,
options?: { secretsEnabled?: boolean },
): IWorkflowDataProxyAdditionalKeys {
const executionId = additionalData.executionId || PLACEHOLDER_EMPTY_EXECUTION_ID;
const resumeUrl = `${additionalData.webhookWaitingBaseUrl}/${executionId}`;
return {
$execution: {
id: executionId,
mode: mode === 'manual' ? 'test' : 'production',
resumeUrl,
customData: runExecutionData
? {
set(key: string, value: string): void {
try {
setWorkflowExecutionMetadata(runExecutionData, key, value);
} catch (e) {
if (mode === 'manual') {
throw e;
}
Logger.verbose(e.message);
}
},
setAll(obj: Record<string, string>): void {
try {
setAllWorkflowExecutionMetadata(runExecutionData, obj);
} catch (e) {
if (mode === 'manual') {
throw e;
}
Logger.verbose(e.message);
}
},
get(key: string): string {
return getWorkflowExecutionMetadata(runExecutionData, key);
},
getAll(): Record<string, string> {
return getAllWorkflowExecutionMetadata(runExecutionData);
},
}
: undefined,
},
$vars: additionalData.variables,
$secrets: options?.secretsEnabled ? getSecretsProxy(additionalData) : undefined,
// deprecated
$executionId: executionId,
$resumeWebhookUrl: resumeUrl,
};
}
/**
* Returns the requested decrypted credentials if the node has access to them.
*
* @param {Workflow} workflow Workflow which requests the data
* @param {INode} node Node which request the data
* @param {string} type The credential type to return
*/
export async function getCredentials(
workflow: Workflow,
node: INode,
type: string,
additionalData: IWorkflowExecuteAdditionalData,
mode: WorkflowExecuteMode,
runExecutionData?: IRunExecutionData | null,
runIndex?: number,
connectionInputData?: INodeExecutionData[],
itemIndex?: number,
): Promise<ICredentialDataDecryptedObject> {
// Get the NodeType as it has the information if the credentials are required
const nodeType = workflow.nodeTypes.getByNameAndVersion(node.type, node.typeVersion);
if (nodeType === undefined) {
throw new NodeOperationError(
node,
`Node type "${node.type}" is not known so can not get credentials!`,
);
}
// Hardcode for now for security reasons that only a single node can access
// all credentials
const fullAccess = ['n8n-nodes-base.httpRequest'].includes(node.type);
let nodeCredentialDescription: INodeCredentialDescription | undefined;
if (!fullAccess) {
if (nodeType.description.credentials === undefined) {
throw new NodeOperationError(
node,
`Node type "${node.type}" does not have any credentials defined!`,
{ severity: 'warning' },
);
}
nodeCredentialDescription = nodeType.description.credentials.find(
(credentialTypeDescription) => credentialTypeDescription.name === type,
);
if (nodeCredentialDescription === undefined) {
throw new NodeOperationError(
node,
`Node type "${node.type}" does not have any credentials of type "${type}" defined!`,
{ severity: 'warning' },
);
}
if (
!NodeHelpers.displayParameter(
additionalData.currentNodeParameters || node.parameters,
nodeCredentialDescription,
node,
node.parameters,
)
) {
// Credentials should not be displayed even if they would be defined
throw new NodeOperationError(node, 'Credentials not found');
}
}
// Check if node has any credentials defined
if (!fullAccess && !node.credentials?.[type]) {
// If none are defined check if the credentials are required or not
if (nodeCredentialDescription?.required === true) {
// Credentials are required so error
if (!node.credentials) {
throw new NodeOperationError(node, 'Node does not have any credentials set!', {
severity: 'warning',
});
}
if (!node.credentials[type]) {
throw new NodeOperationError(
node,
`Node does not have any credentials set for "${type}"!`,
{ severity: 'warning' },
);
}
} else {
// Credentials are not required
throw new NodeOperationError(node, 'Node does not require credentials');
}
}
if (fullAccess && !node.credentials?.[type]) {
// Make sure that fullAccess nodes still behave like before that if they
// request access to credentials that are currently not set it returns undefined
throw new NodeOperationError(node, 'Credentials not found');
}
let expressionResolveValues: ICredentialsExpressionResolveValues | undefined;
if (connectionInputData && runExecutionData && runIndex !== undefined) {
expressionResolveValues = {
connectionInputData,
itemIndex: itemIndex || 0,
node,
runExecutionData,
runIndex,
workflow,
} as ICredentialsExpressionResolveValues;
}
const nodeCredentials = node.credentials
? node.credentials[type]
: ({} as INodeCredentialsDetails);
// TODO: solve using credentials via expression
// if (name.charAt(0) === '=') {
// // If the credential name is an expression resolve it
// const additionalKeys = getAdditionalKeys(additionalData, mode);
// name = workflow.expression.getParameterValue(
// name,
// runExecutionData || null,
// runIndex || 0,
// itemIndex || 0,
// node.name,
// connectionInputData || [],
// mode,
// additionalKeys,
// ) as string;
// }
const decryptedDataObject = await additionalData.credentialsHelper.getDecrypted(
additionalData,
nodeCredentials,
type,
mode,
additionalData.timezone,
false,
expressionResolveValues,
);
return decryptedDataObject;
}
/**
* Clean up parameter data to make sure that only valid data gets returned
* INFO: Currently only converts Luxon Dates as we know for sure it will not be breaking
*/
function cleanupParameterData(inputData: NodeParameterValueType): void {
if (typeof inputData !== 'object' || inputData === null) {
return;
}
if (Array.isArray(inputData)) {
inputData.forEach((value) => cleanupParameterData(value as NodeParameterValueType));
return;
}
if (typeof inputData === 'object') {
Object.keys(inputData).forEach((key) => {
if (typeof inputData[key as keyof typeof inputData] === 'object') {
if (inputData[key as keyof typeof inputData]?.constructor.name === 'DateTime') {
// Is a special luxon date so convert to string
inputData[key as keyof typeof inputData] =
inputData[key as keyof typeof inputData]?.toString();
} else {
cleanupParameterData(inputData[key as keyof typeof inputData]);
}
}
});
}
}
const validateResourceMapperValue = (
parameterName: string,
paramValues: { [key: string]: unknown },
node: INode,
skipRequiredCheck = false,
): ExtendedValidationResult => {
const result: ExtendedValidationResult = { valid: true, newValue: paramValues };
const paramNameParts = parameterName.split('.');
if (paramNameParts.length !== 2) {
return result;
}
const resourceMapperParamName = paramNameParts[0];
const resourceMapperField = node.parameters[resourceMapperParamName];
if (!resourceMapperField || !isResourceMapperValue(resourceMapperField)) {
return result;
}
const schema = resourceMapperField.schema;
const paramValueNames = Object.keys(paramValues);
for (let i = 0; i < paramValueNames.length; i++) {
const key = paramValueNames[i];
const resolvedValue = paramValues[key];
const schemaEntry = schema.find((s) => s.id === key);
if (
!skipRequiredCheck &&
schemaEntry?.required === true &&
schemaEntry.type !== 'boolean' &&
!resolvedValue
) {
return {
valid: false,
errorMessage: `The value "${String(key)}" is required but not set`,
fieldName: key,
};
}
if (schemaEntry?.type) {
const validationResult = validateFieldType(
key,
resolvedValue,
schemaEntry.type,
schemaEntry.options,
);
if (!validationResult.valid) {
return { ...validationResult, fieldName: key };
} else {
// If it's valid, set the casted value
paramValues[key] = validationResult.newValue;
}
}
}
return result;
};
const validateCollection = (
node: INode,
runIndex: number,
itemIndex: number,
propertyDescription: INodeProperties,
parameterPath: string[],
validationResult: ExtendedValidationResult,
): ExtendedValidationResult => {
let nestedDescriptions: INodeProperties[] | undefined;
if (propertyDescription.type === 'fixedCollection') {
nestedDescriptions = (propertyDescription.options as INodePropertyCollection[]).find(
(entry) => entry.name === parameterPath[1],
)?.values;
}
if (propertyDescription.type === 'collection') {
nestedDescriptions = propertyDescription.options as INodeProperties[];
}
if (!nestedDescriptions) {
return validationResult;
}
const validationMap: {
[key: string]: { type: FieldType; displayName: string; options?: INodePropertyOptions[] };
} = {};
for (const prop of nestedDescriptions) {
if (!prop.validateType || prop.ignoreValidationDuringExecution) continue;
validationMap[prop.name] = {
type: prop.validateType,
displayName: prop.displayName,
options:
prop.validateType === 'options' ? (prop.options as INodePropertyOptions[]) : undefined,
};
}
if (!Object.keys(validationMap).length) {
return validationResult;
}
for (const value of Array.isArray(validationResult.newValue)
? (validationResult.newValue as IDataObject[])
: [validationResult.newValue as IDataObject]) {
for (const key of Object.keys(value)) {
if (!validationMap[key]) continue;
const fieldValidationResult = validateFieldType(
key,
value[key],
validationMap[key].type,
validationMap[key].options,
);
if (!fieldValidationResult.valid) {
throw new ExpressionError(
`Invalid input for field '${validationMap[key].displayName}' inside '${propertyDescription.displayName}' in [item ${itemIndex}]`,
{
description: fieldValidationResult.errorMessage,
runIndex,
itemIndex,
nodeCause: node.name,
},
);
}
value[key] = fieldValidationResult.newValue;
}
}
return validationResult;
};
export const validateValueAgainstSchema = (
node: INode,
nodeType: INodeType,
parameterValue: string | number | boolean | object | null | undefined,
parameterName: string,
runIndex: number,
itemIndex: number,
) => {
const parameterPath = parameterName.split('.');
const propertyDescription = nodeType.description.properties.find(
(prop) =>
parameterPath[0] === prop.name && NodeHelpers.displayParameter(node.parameters, prop, node),
);
if (!propertyDescription) {
return parameterValue;
}
let validationResult: ExtendedValidationResult = { valid: true, newValue: parameterValue };
if (
parameterPath.length === 1 &&
propertyDescription.validateType &&
!propertyDescription.ignoreValidationDuringExecution
) {
validationResult = validateFieldType(
parameterName,
parameterValue,
propertyDescription.validateType,
);
} else if (
propertyDescription.type === 'resourceMapper' &&
parameterPath[1] === 'value' &&
typeof parameterValue === 'object'
) {
validationResult = validateResourceMapperValue(
parameterName,
parameterValue as { [key: string]: unknown },
node,
propertyDescription.typeOptions?.resourceMapper?.mode !== 'add',
);
} else if (['fixedCollection', 'collection'].includes(propertyDescription.type)) {
validationResult = validateCollection(
node,
runIndex,
itemIndex,
propertyDescription,
parameterPath,
validationResult,
);
}
if (!validationResult.valid) {
throw new ExpressionError(
`Invalid input for '${
validationResult.fieldName
? String(validationResult.fieldName)
: propertyDescription.displayName
}' [item ${itemIndex}]`,
{
description: validationResult.errorMessage,
runIndex,
itemIndex,
nodeCause: node.name,
},
);
}
return validationResult.newValue;
};
/**
* Returns the requested resolved (all expressions replaced) node parameters.
*
* @param {(IRunExecutionData | null)} runExecutionData
*/
export function getNodeParameter(
workflow: Workflow,
runExecutionData: IRunExecutionData | null,
runIndex: number,
connectionInputData: INodeExecutionData[],
node: INode,
parameterName: string,
itemIndex: number,
mode: WorkflowExecuteMode,
timezone: string,
additionalKeys: IWorkflowDataProxyAdditionalKeys,
executeData?: IExecuteData,
fallbackValue?: any,
options?: IGetNodeParameterOptions,
): NodeParameterValueType | object {
const nodeType = workflow.nodeTypes.getByNameAndVersion(node.type, node.typeVersion);
if (nodeType === undefined) {
throw new Error(`Node type "${node.type}" is not known so can not return parameter value!`);
}
const value = get(node.parameters, parameterName, fallbackValue);
if (value === undefined) {
throw new Error(`Could not get parameter "${parameterName}"!`);
}
if (options?.rawExpressions) {
return value;
}
let returnData;
try {
returnData = workflow.expression.getParameterValue(
value,
runExecutionData,
runIndex,
itemIndex,
node.name,
connectionInputData,
mode,
timezone,
additionalKeys,
executeData,
false,
{},
options?.contextNode?.name,
);
cleanupParameterData(returnData);
} catch (e) {
if (e instanceof ExpressionError && node.continueOnFail && node.type === 'n8n-nodes-base.set') {
// https://linear.app/n8n/issue/PAY-684
returnData = [{ name: undefined, value: undefined }];
} else {
if (e.context) e.context.parameter = parameterName;
e.cause = value;
throw e;
}
}
// This is outside the try/catch because it throws errors with proper messages
if (options?.extractValue) {
returnData = extractValue(returnData, parameterName, node, nodeType);
}
// Validate parameter value if it has a schema defined(RMC) or validateType defined
returnData = validateValueAgainstSchema(
node,
nodeType,
returnData,
parameterName,
runIndex,
itemIndex,
);
return returnData;
}
/**
* Returns if execution should be continued even if there was an error.
*
*/
export function continueOnFail(node: INode): boolean {
return get(node, 'continueOnFail', false);
}
/**
* Returns the webhook URL of the webhook with the given name
*
*/
export function getNodeWebhookUrl(
name: string,
workflow: Workflow,
node: INode,
additionalData: IWorkflowExecuteAdditionalData,
mode: WorkflowExecuteMode,
timezone: string,
additionalKeys: IWorkflowDataProxyAdditionalKeys,
isTest?: boolean,
): string | undefined {
let baseUrl = additionalData.webhookBaseUrl;
if (isTest === true) {
baseUrl = additionalData.webhookTestBaseUrl;
}
// eslint-disable-next-line @typescript-eslint/no-use-before-define
const webhookDescription = getWebhookDescription(name, workflow, node);
if (webhookDescription === undefined) {
return undefined;
}
const path = workflow.expression.getSimpleParameterValue(
node,
webhookDescription.path,
mode,
timezone,
additionalKeys,
);
if (path === undefined) {
return undefined;
}
const isFullPath: boolean = workflow.expression.getSimpleParameterValue(
node,
webhookDescription.isFullPath,
mode,
timezone,
additionalKeys,
undefined,
false,
) as boolean;
return NodeHelpers.getNodeWebhookUrl(baseUrl, workflow.id, node, path.toString(), isFullPath);
}
/**
* Returns the timezone for the workflow
*
*/
export function getTimezone(
workflow: Workflow,
additionalData: IWorkflowExecuteAdditionalData,
): string {
// eslint-disable-next-line @typescript-eslint/prefer-optional-chain
if (workflow.settings !== undefined && workflow.settings.timezone !== undefined) {
return (workflow.settings as IWorkflowSettings).timezone as string;
}
return additionalData.timezone;
}
/**
* Returns the full webhook description of the webhook with the given name
*
*/
export function getWebhookDescription(
name: string,
workflow: Workflow,
node: INode,
): IWebhookDescription | undefined {
const nodeType = workflow.nodeTypes.getByNameAndVersion(node.type, node.typeVersion);
if (nodeType.description.webhooks === undefined) {
// Node does not have any webhooks so return
return undefined;
}
for (const webhookDescription of nodeType.description.webhooks) {
if (webhookDescription.name === name) {
return webhookDescription;
}
}
return undefined;
}
// TODO: Change options to an object
const addExecutionDataFunctions = async (
type: 'input' | 'output',
nodeName: string,
data: INodeExecutionData[][] | ExecutionBaseError,
runExecutionData: IRunExecutionData,
connectionType: ConnectionTypes,
additionalData: IWorkflowExecuteAdditionalData,
sourceNodeName: string,
sourceNodeRunIndex: number,
currentNodeRunIndex: number,
): Promise<void> => {
if (connectionType === 'main') {
throw new Error(`Setting the ${type} is not supported for the main connection!`);
}
let taskData: ITaskData | undefined;
if (type === 'input') {
taskData = {
startTime: new Date().getTime(),
executionTime: 0,
executionStatus: 'running',
source: [null],
};
} else {
// At the moment we expect that there is always an input sent before the output
taskData = get(
runExecutionData,
['resultData', 'runData', nodeName, currentNodeRunIndex],
undefined,
);
if (taskData === undefined) {
return;
}
}
taskData = taskData!;
if (data instanceof Error) {
// TODO: Or "failed", what is the difference
taskData.executionStatus = 'error';
taskData.error = data;
} else {
if (type === 'output') {
taskData.executionStatus = 'success';
}
taskData.data = {
[connectionType]: data,
} as ITaskDataConnections;
}
if (type === 'input') {
if (!(data instanceof Error)) {
taskData.inputOverride = {
[connectionType]: data,
} as ITaskDataConnections;
}
if (!runExecutionData.resultData.runData.hasOwnProperty(nodeName)) {
runExecutionData.resultData.runData[nodeName] = [];
}
runExecutionData.resultData.runData[nodeName][currentNodeRunIndex] = taskData;
if (additionalData.sendDataToUI) {
additionalData.sendDataToUI('nodeExecuteBefore', {
executionId: additionalData.executionId,
nodeName,
});
}
} else {
// Outputs
taskData.executionTime = new Date().getTime() - taskData.startTime;
if (additionalData.sendDataToUI) {
additionalData.sendDataToUI('nodeExecuteAfter', {
executionId: additionalData.executionId,
nodeName,
data: taskData,
});
}
let sourceTaskData = get(runExecutionData, `executionData.metadata[${sourceNodeName}]`);
if (!sourceTaskData) {
runExecutionData.executionData!.metadata[sourceNodeName] = [];
sourceTaskData = runExecutionData.executionData!.metadata[sourceNodeName];
}
if (!sourceTaskData[sourceNodeRunIndex]) {
sourceTaskData[sourceNodeRunIndex] = {
subRun: [],
};
}
sourceTaskData[sourceNodeRunIndex]!.subRun!.push({
node: nodeName,
runIndex: currentNodeRunIndex,
});
}
};
const getCommonWorkflowFunctions = (
workflow: Workflow,
node: INode,
additionalData: IWorkflowExecuteAdditionalData,
): Omit<FunctionsBase, 'getCredentials'> => ({
logger: Logger,
getExecutionId: () => additionalData.executionId!,
getNode: () => deepCopy(node),
getWorkflow: () => ({
id: workflow.id,
name: workflow.name,
active: workflow.active,
}),
getWorkflowStaticData: (type) => workflow.getStaticData(type, node),
getRestApiUrl: () => additionalData.restApiUrl,
getInstanceBaseUrl: () => additionalData.instanceBaseUrl,
getInstanceId: async () => getInstanceId(),
getTimezone: () => getTimezone(workflow, additionalData),
prepareOutputData: async (outputData) => [outputData],
});
const getRequestHelperFunctions = (
workflow: Workflow,
node: INode,
additionalData: IWorkflowExecuteAdditionalData,
): RequestHelperFunctions => ({
httpRequest,
async httpRequestWithAuthentication(
this,
credentialsType,
requestOptions,
additionalCredentialOptions,
): Promise<any> {
return httpRequestWithAuthentication.call(
this,
credentialsType,
requestOptions,
workflow,
node,
additionalData,
additionalCredentialOptions,
);
},
request: async (uriOrObject, options) =>
proxyRequestToAxios(workflow, additionalData, node, uriOrObject, options),
async requestWithAuthentication(
this,
credentialsType,
requestOptions,
additionalCredentialOptions,
): Promise<any> {
return requestWithAuthentication.call(
this,
credentialsType,
requestOptions,
workflow,
node,
additionalData,
additionalCredentialOptions,
);
},
async requestOAuth1(
this: IAllExecuteFunctions,
credentialsType: string,
requestOptions: OptionsWithUrl | RequestPromiseOptions,
): Promise<any> {
return requestOAuth1.call(this, credentialsType, requestOptions);
},
async requestOAuth2(
this: IAllExecuteFunctions,
credentialsType: string,
requestOptions: OptionsWithUri | RequestPromiseOptions,
oAuth2Options?: IOAuth2Options,
): Promise<any> {
return requestOAuth2.call(
this,
credentialsType,
requestOptions,
node,
additionalData,
oAuth2Options,
);
},
});
const getAllowedPaths = () => {
const restrictFileAccessTo = process.env[RESTRICT_FILE_ACCESS_TO];
if (!restrictFileAccessTo) {
return [];
}
const allowedPaths = restrictFileAccessTo
.split(';')
.map((path) => path.trim())
.filter((path) => path);
return allowedPaths;
};
function isFilePathBlocked(filePath: string): boolean {
const allowedPaths = getAllowedPaths();
const resolvedFilePath = path.resolve(filePath);
const userFolder = getUserN8nFolderPath();
const blockFileAccessToN8nFiles = process.env[BLOCK_FILE_ACCESS_TO_N8N_FILES] !== 'false';
//if allowed paths are defined, allow access only to those paths
if (allowedPaths.length) {
for (const path of allowedPaths) {
if (resolvedFilePath.startsWith(path)) {
return false;
}
}
return true;
}
//restrict access to .n8n folder and other .env config related paths
if (blockFileAccessToN8nFiles) {
const restrictedPaths: string[] = [userFolder];
if (process.env[CONFIG_FILES]) {
restrictedPaths.push(...process.env[CONFIG_FILES].split(','));
}
if (process.env[CUSTOM_EXTENSION_ENV]) {
const customExtensionFolders = process.env[CUSTOM_EXTENSION_ENV].split(';');
restrictedPaths.push(...customExtensionFolders);
}
if (process.env[BINARY_DATA_STORAGE_PATH]) {
restrictedPaths.push(process.env[BINARY_DATA_STORAGE_PATH]);
}
if (process.env[UM_EMAIL_TEMPLATES_INVITE]) {
restrictedPaths.push(process.env[UM_EMAIL_TEMPLATES_INVITE]);
}
if (process.env[UM_EMAIL_TEMPLATES_PWRESET]) {
restrictedPaths.push(process.env[UM_EMAIL_TEMPLATES_PWRESET]);
}
//check if the file path is restricted
for (const path of restrictedPaths) {
if (resolvedFilePath.startsWith(path)) {
return true;
}
}
}
//path is not restricted
return false;
}
const getFileSystemHelperFunctions = (node: INode): FileSystemHelperFunctions => ({
async createReadStream(filePath) {
try {
await fsAccess(filePath);
} catch (error) {
throw error.code === 'ENOENT'
? new NodeOperationError(node, error, {
message: `The file "${String(filePath)}" could not be accessed.`,
severity: 'warning',
})
: error;
}
if (isFilePathBlocked(filePath as string)) {
const allowedPaths = getAllowedPaths();
const message = allowedPaths.length ? ` Allowed paths: ${allowedPaths.join(', ')}` : '';
throw new NodeOperationError(node, `Access to the file is not allowed.${message}`, {
severity: 'warning',
});
}
return createReadStream(filePath);
},
getStoragePath() {
return path.join(getUserN8nFolderPath(), `storage/${node.type}`);
},
async writeContentToFile(filePath, content, flag) {
if (isFilePathBlocked(filePath as string)) {
throw new NodeOperationError(node, `The file "${String(filePath)}" is not writable.`, {
severity: 'warning',
});
}
return fsWriteFile(filePath, content, { encoding: 'binary', flag });
},
});
const getNodeHelperFunctions = (
{ executionId }: IWorkflowExecuteAdditionalData,
workflowId: string,
): NodeHelperFunctions => ({
copyBinaryFile: async (filePath, fileName, mimeType) =>
copyBinaryFile(workflowId, executionId!, filePath, fileName, mimeType),
});
const getBinaryHelperFunctions = (
{ executionId }: IWorkflowExecuteAdditionalData,
workflowId: string,
): BinaryHelperFunctions => ({
getBinaryPath,
getBinaryStream,
getBinaryMetadata,
binaryToBuffer: async (body: Buffer | Readable) =>
Container.get(BinaryDataService).toBuffer(body),
prepareBinaryData: async (binaryData, filePath, mimeType) =>
prepareBinaryData(binaryData, executionId!, workflowId, filePath, mimeType),
setBinaryDataBuffer: async (data, binaryData) =>
setBinaryDataBuffer(data, binaryData, workflowId, executionId!),
copyBinaryFile: async () => {
throw new Error('copyBinaryFile has been removed. Please upgrade this node');
},
});
/**
* Returns the execute functions the poll nodes have access to.
*/
// TODO: Check if I can get rid of: additionalData, and so then maybe also at ActiveWorkflowRunner.add
export function getExecutePollFunctions(
workflow: Workflow,
node: INode,
additionalData: IWorkflowExecuteAdditionalData,
mode: WorkflowExecuteMode,
activation: WorkflowActivateMode,
): IPollFunctions {
return ((workflow: Workflow, node: INode) => {
return {
...getCommonWorkflowFunctions(workflow, node, additionalData),
__emit: (data: INodeExecutionData[][]): void => {
throw new Error('Overwrite NodeExecuteFunctions.getExecutePollFunctions.__emit function!');
},
__emitError(error: Error) {
throw new Error(
'Overwrite NodeExecuteFunctions.getExecutePollFunctions.__emitError function!',
);
},
getMode: () => mode,
getActivationMode: () => activation,
getCredentials: async (type) => getCredentials(workflow, node, type, additionalData, mode),
getNodeParameter: (
parameterName: string,
fallbackValue?: any,
options?: IGetNodeParameterOptions,
): NodeParameterValueType | object => {
const runExecutionData: IRunExecutionData | null = null;
const itemIndex = 0;
const runIndex = 0;
const connectionInputData: INodeExecutionData[] = [];
return getNodeParameter(
workflow,
runExecutionData,
runIndex,
connectionInputData,
node,
parameterName,
itemIndex,
mode,
additionalData.timezone,
getAdditionalKeys(additionalData, mode, runExecutionData),
undefined,
fallbackValue,
options,
);
},
helpers: {
createDeferredPromise,
...getRequestHelperFunctions(workflow, node, additionalData),
...getBinaryHelperFunctions(additionalData, workflow.id),
returnJsonArray,
},
};
})(workflow, node);
}
/**
* Returns the execute functions the trigger nodes have access to.
*/
// TODO: Check if I can get rid of: additionalData, and so then maybe also at ActiveWorkflowRunner.add
export function getExecuteTriggerFunctions(
workflow: Workflow,
node: INode,
additionalData: IWorkflowExecuteAdditionalData,
mode: WorkflowExecuteMode,
activation: WorkflowActivateMode,
): ITriggerFunctions {
return ((workflow: Workflow, node: INode) => {
return {
...getCommonWorkflowFunctions(workflow, node, additionalData),
emit: (data: INodeExecutionData[][]): void => {
throw new Error('Overwrite NodeExecuteFunctions.getExecuteTriggerFunctions.emit function!');
},
emitError: (error: Error): void => {
throw new Error('Overwrite NodeExecuteFunctions.getExecuteTriggerFunctions.emit function!');
},
getMode: () => mode,
getActivationMode: () => activation,
getCredentials: async (type) => getCredentials(workflow, node, type, additionalData, mode),
getNodeParameter: (
parameterName: string,
fallbackValue?: any,
options?: IGetNodeParameterOptions,
): NodeParameterValueType | object => {
const runExecutionData: IRunExecutionData | null = null;
const itemIndex = 0;
const runIndex = 0;
const connectionInputData: INodeExecutionData[] = [];
return getNodeParameter(
workflow,
runExecutionData,
runIndex,
connectionInputData,
node,
parameterName,
itemIndex,
mode,
additionalData.timezone,
getAdditionalKeys(additionalData, mode, runExecutionData),
undefined,
fallbackValue,
options,
);
},
helpers: {
createDeferredPromise,
...getRequestHelperFunctions(workflow, node, additionalData),
...getBinaryHelperFunctions(additionalData, workflow.id),
returnJsonArray,
},
};
})(workflow, node);
}
/**
* Returns the execute functions regular nodes have access to.
*/
export function getExecuteFunctions(
workflow: Workflow,
runExecutionData: IRunExecutionData,
runIndex: number,
connectionInputData: INodeExecutionData[],
inputData: ITaskDataConnections,
node: INode,
additionalData: IWorkflowExecuteAdditionalData,
executeData: IExecuteData,
mode: WorkflowExecuteMode,
): IExecuteFunctions {
return ((workflow, runExecutionData, connectionInputData, inputData, node) => {
return {
...getCommonWorkflowFunctions(workflow, node, additionalData),
getMode: () => mode,
getCredentials: async (type, itemIndex) =>
getCredentials(
workflow,
node,
type,
additionalData,
mode,
runExecutionData,
runIndex,
connectionInputData,
itemIndex,
),
getExecuteData: () => executeData,
continueOnFail: () => continueOnFail(node),
evaluateExpression: (expression: string, itemIndex: number) => {
return workflow.expression.resolveSimpleParameterValue(
`=${expression}`,
{},
runExecutionData,
runIndex,
itemIndex,
node.name,
connectionInputData,
mode,
additionalData.timezone,
getAdditionalKeys(additionalData, mode, runExecutionData),
executeData,
);
},
async executeWorkflow(
workflowInfo: IExecuteWorkflowInfo,
inputData?: INodeExecutionData[],
): Promise<any> {
return additionalData
.executeWorkflow(workflowInfo, additionalData, {
parentWorkflowId: workflow.id?.toString(),
inputData,
parentWorkflowSettings: workflow.settings,
})
.then(async (result) =>
Container.get(BinaryDataService).duplicateBinaryData(
workflow.id,
additionalData.executionId!,
result,
),
);
},
getContext(type: string): IContextObject {
return NodeHelpers.getContext(runExecutionData, type, node);
},
async getInputConnectionData(
inputName: ConnectionTypes,
itemIndex: number,
// TODO: Not implemented yet, and maybe also not needed
inputIndex?: number,
): Promise<unknown> {
const node = this.getNode();
const nodeType = workflow.nodeTypes.getByNameAndVersion(node.type, node.typeVersion);
const inputs = NodeHelpers.getNodeInputs(workflow, node, nodeType.description);
let inputConfiguration = inputs.find((input) => {
if (typeof input === 'string') {
return input === inputName;
}
return input.type === inputName;
});
if (inputConfiguration === undefined) {
throw new Error(`The node "${node.name}" does not have an input of type "${inputName}"`);
}
if (typeof inputConfiguration === 'string') {
inputConfiguration = {
type: inputConfiguration,
} as INodeInputConfiguration;
}
const parentNodes = workflow.getParentNodes(node.name, inputName, 1);
if (parentNodes.length === 0) {
return inputConfiguration.maxConnections === 1 ? undefined : [];
}
const constParentNodes = parentNodes
.map((nodeName) => {
return workflow.getNode(nodeName) as INode;
})
.filter((connectedNode) => connectedNode.disabled !== true)
.map(async (connectedNode) => {
const nodeType = workflow.nodeTypes.getByNameAndVersion(
connectedNode.type,
connectedNode.typeVersion,
);
if (!nodeType.supplyData) {
throw new Error(
`The node "${connectedNode.name}" does not have a "supplyData" method defined!`,
);
}
const context = Object.assign({}, this);
context.getNodeParameter = (
parameterName: string,
itemIndex: number,
fallbackValue?: any,
options?: IGetNodeParameterOptions,
) => {
return getNodeParameter(
workflow,
runExecutionData,
runIndex,
connectionInputData,
connectedNode,
parameterName,
itemIndex,
mode,
additionalData.timezone,
getAdditionalKeys(additionalData, mode, runExecutionData),
executeData,
fallbackValue,
{ ...(options || {}), contextNode: node },
) as any;
};
// TODO: Check what else should be overwritten
context.getNode = () => {
return deepCopy(connectedNode);
};
context.getCredentials = async (key: string) => {
try {
return await getCredentials(
workflow,
connectedNode,
key,
additionalData,
mode,
runExecutionData,
runIndex,
connectionInputData,
itemIndex,
);
} catch (error) {
// Display the error on the node which is causing it
let currentNodeRunIndex = 0;
if (runExecutionData.resultData.runData.hasOwnProperty(node.name)) {
currentNodeRunIndex = runExecutionData.resultData.runData[node.name].length;
}
await addExecutionDataFunctions(
'input',
connectedNode.name,
error,
runExecutionData,
inputName,
additionalData,
node.name,
runIndex,
currentNodeRunIndex,
);
throw error;
}
};
try {
return await nodeType.supplyData.call(context);
} catch (error) {
if (!(error instanceof ExecutionBaseError)) {
error = new NodeOperationError(connectedNode, error, {
itemIndex,
});
}
let currentNodeRunIndex = 0;
if (runExecutionData.resultData.runData.hasOwnProperty(node.name)) {
currentNodeRunIndex = runExecutionData.resultData.runData[node.name].length;
}
// Display the error on the node which is causing it
await addExecutionDataFunctions(
'input',
connectedNode.name,
error,
runExecutionData,
inputName,
additionalData,
node.name,
runIndex,
currentNodeRunIndex,
);
// Display on the calling node which node has the error
throw new NodeOperationError(
connectedNode,
`Error on node "${connectedNode.name}" which is connected via input "${inputName}"`,
{
itemIndex,
},
);
}
});
// Validate the inputs
const nodes = await Promise.all(constParentNodes);
if (inputConfiguration.required && nodes.length === 0) {
throw new NodeOperationError(node, `A ${inputName} processor node must be connected!`);
}
if (
inputConfiguration.maxConnections !== undefined &&
nodes.length > inputConfiguration.maxConnections
) {
throw new NodeOperationError(
node,
`Only ${inputConfiguration.maxConnections} ${inputName} processor nodes are/is allowed to be connected!`,
);
}
return inputConfiguration.maxConnections === 1
? (nodes || [])[0]?.response
: nodes.map((node) => node.response);
},
getNodeOutputs(): INodeOutputConfiguration[] {
const nodeType = workflow.nodeTypes.getByNameAndVersion(node.type, node.typeVersion);
return NodeHelpers.getNodeOutputs(workflow, node, nodeType.description).map((output) => {
if (typeof output === 'string') {
return {
type: output,
};
}
return output;
});
},
getInputData: (inputIndex = 0, inputName = 'main') => {
if (!inputData.hasOwnProperty(inputName)) {
// Return empty array because else it would throw error when nothing is connected to input
return [];
}
// TODO: Check if nodeType has input with that index defined
if (inputData[inputName].length < inputIndex) {
throw new Error(`Could not get input index "${inputIndex}" of input "${inputName}"!`);
}
if (inputData[inputName][inputIndex] === null) {
// return [];
throw new Error(`Value "${inputIndex}" of input "${inputName}" did not get set!`);
}
return inputData[inputName][inputIndex] as INodeExecutionData[];
},
getInputSourceData: (inputIndex = 0, inputName = 'main') => {
if (executeData?.source === null) {
// Should never happen as n8n sets it automatically
throw new Error('Source data is missing!');
}
return executeData.source[inputName][inputIndex];
},
getNodeParameter: (
parameterName: string,
itemIndex: number,
fallbackValue?: any,
options?: IGetNodeParameterOptions,
): NodeParameterValueType | object => {
return getNodeParameter(
workflow,
runExecutionData,
runIndex,
connectionInputData,
node,
parameterName,
itemIndex,
mode,
additionalData.timezone,
getAdditionalKeys(additionalData, mode, runExecutionData),
executeData,
fallbackValue,
options,
);
},
getWorkflowDataProxy: (itemIndex: number): IWorkflowDataProxyData => {
const dataProxy = new WorkflowDataProxy(
workflow,
runExecutionData,
runIndex,
itemIndex,
node.name,
connectionInputData,
{},
mode,
additionalData.timezone,
getAdditionalKeys(additionalData, mode, runExecutionData),
executeData,
);
return dataProxy.getDataProxy();
},
binaryToBuffer: async (body: Buffer | Readable) =>
Container.get(BinaryDataService).toBuffer(body),
async putExecutionToWait(waitTill: Date): Promise<void> {
runExecutionData.waitTill = waitTill;
if (additionalData.setExecutionStatus) {
additionalData.setExecutionStatus('waiting');
}
},
sendMessageToUI(...args: any[]): void {
if (mode !== 'manual') {
return;
}
try {
if (additionalData.sendDataToUI) {
args = args.map((arg) => {
// prevent invalid dates from being logged as null
if (arg.isLuxonDateTime && arg.invalidReason) return { ...arg };
// log valid dates in human readable format, as in browser
if (arg.isLuxonDateTime) return new Date(arg.ts).toString();
if (arg instanceof Date) return arg.toString();
return arg;
});
additionalData.sendDataToUI('sendConsoleMessage', {
source: `[Node: "${node.name}"]`,
messages: args,
});
}
} catch (error) {
Logger.warn(`There was a problem sending message to UI: ${error.message}`);
}
},
async sendResponse(response: IExecuteResponsePromiseData): Promise<void> {
await additionalData.hooks?.executeHookFunctions('sendResponse', [response]);
},
addInputData(
connectionType: ConnectionTypes,
data: INodeExecutionData[][] | ExecutionError,
): { index: number } {
const nodeName = this.getNode().name;
let currentNodeRunIndex = 0;
if (runExecutionData.resultData.runData.hasOwnProperty(nodeName)) {
currentNodeRunIndex = runExecutionData.resultData.runData[nodeName].length;
}
addExecutionDataFunctions(
'input',
this.getNode().name,
data,
runExecutionData,
connectionType,
additionalData,
node.name,
runIndex,
currentNodeRunIndex,
).catch((error) => {
Logger.warn(
`There was a problem logging input data of node "${this.getNode().name}": ${
error.message
}`,
);
});
return { index: currentNodeRunIndex };
},
addOutputData(
connectionType: ConnectionTypes,
currentNodeRunIndex: number,
data: INodeExecutionData[][] | ExecutionError,
): void {
addExecutionDataFunctions(
'output',
this.getNode().name,
data,
runExecutionData,
connectionType,
additionalData,
node.name,
runIndex,
currentNodeRunIndex,
).catch((error) => {
Logger.warn(
`There was a problem logging output data of node "${this.getNode().name}": ${
error.message
}`,
);
});
},
helpers: {
createDeferredPromise,
...getRequestHelperFunctions(workflow, node, additionalData),
...getFileSystemHelperFunctions(node),
...getBinaryHelperFunctions(additionalData, workflow.id),
assertBinaryData: (itemIndex, propertyName) =>
assertBinaryData(inputData, node, itemIndex, propertyName, 0),
getBinaryDataBuffer: async (itemIndex, propertyName) =>
getBinaryDataBuffer(inputData, itemIndex, propertyName, 0),
returnJsonArray,
normalizeItems,
constructExecutionMetaData,
},
nodeHelpers: getNodeHelperFunctions(additionalData, workflow.id),
};
})(workflow, runExecutionData, connectionInputData, inputData, node) as IExecuteFunctions;
}
/**
* Returns the execute functions regular nodes have access to when single-function is defined.
*/
export function getExecuteSingleFunctions(
workflow: Workflow,
runExecutionData: IRunExecutionData,
runIndex: number,
connectionInputData: INodeExecutionData[],
inputData: ITaskDataConnections,
node: INode,
itemIndex: number,
additionalData: IWorkflowExecuteAdditionalData,
executeData: IExecuteData,
mode: WorkflowExecuteMode,
): IExecuteSingleFunctions {
return ((workflow, runExecutionData, connectionInputData, inputData, node, itemIndex) => {
return {
...getCommonWorkflowFunctions(workflow, node, additionalData),
continueOnFail: () => continueOnFail(node),
evaluateExpression: (expression: string, evaluateItemIndex: number | undefined) => {
evaluateItemIndex = evaluateItemIndex === undefined ? itemIndex : evaluateItemIndex;
return workflow.expression.resolveSimpleParameterValue(
`=${expression}`,
{},
runExecutionData,
runIndex,
evaluateItemIndex,
node.name,
connectionInputData,
mode,
additionalData.timezone,
getAdditionalKeys(additionalData, mode, runExecutionData),
executeData,
);
},
getContext(type: string): IContextObject {
return NodeHelpers.getContext(runExecutionData, type, node);
},
getCredentials: async (type) =>
getCredentials(
workflow,
node,
type,
additionalData,
mode,
runExecutionData,
runIndex,
connectionInputData,
itemIndex,
),
getInputData: (inputIndex = 0, inputName = 'main') => {
if (!inputData.hasOwnProperty(inputName)) {
// Return empty array because else it would throw error when nothing is connected to input
return { json: {} };
}
// TODO: Check if nodeType has input with that index defined
if (inputData[inputName].length < inputIndex) {
throw new Error(`Could not get input index "${inputIndex}" of input "${inputName}"!`);
}
const allItems = inputData[inputName][inputIndex];
if (allItems === null) {
// return [];
throw new Error(`Value "${inputIndex}" of input "${inputName}" did not get set!`);
}
if (allItems[itemIndex] === null) {
// return [];
throw new Error(
`Value "${inputIndex}" of input "${inputName}" with itemIndex "${itemIndex}" did not get set!`,
);
}
return allItems[itemIndex];
},
getInputSourceData: (inputIndex = 0, inputName = 'main') => {
if (executeData?.source === null) {
// Should never happen as n8n sets it automatically
throw new Error('Source data is missing!');
}
return executeData.source[inputName][inputIndex] as ISourceData;
},
getItemIndex: () => itemIndex,
getMode: () => mode,
getExecuteData: () => executeData,
getNodeParameter: (
parameterName: string,
fallbackValue?: any,
options?: IGetNodeParameterOptions,
): NodeParameterValueType | object => {
return getNodeParameter(
workflow,
runExecutionData,
runIndex,
connectionInputData,
node,
parameterName,
itemIndex,
mode,
additionalData.timezone,
getAdditionalKeys(additionalData, mode, runExecutionData),
executeData,
fallbackValue,
options,
);
},
getWorkflowDataProxy: (): IWorkflowDataProxyData => {
const dataProxy = new WorkflowDataProxy(
workflow,
runExecutionData,
runIndex,
itemIndex,
node.name,
connectionInputData,
{},
mode,
additionalData.timezone,
getAdditionalKeys(additionalData, mode, runExecutionData),
executeData,
);
return dataProxy.getDataProxy();
},
helpers: {
createDeferredPromise,
...getRequestHelperFunctions(workflow, node, additionalData),
...getBinaryHelperFunctions(additionalData, workflow.id),
assertBinaryData: (propertyName, inputIndex = 0) =>
assertBinaryData(inputData, node, itemIndex, propertyName, inputIndex),
getBinaryDataBuffer: async (propertyName, inputIndex = 0) =>
getBinaryDataBuffer(inputData, itemIndex, propertyName, inputIndex),
},
};
})(workflow, runExecutionData, connectionInputData, inputData, node, itemIndex);
}
export function getCredentialTestFunctions(): ICredentialTestFunctions {
return {
helpers: {
request: async (uriOrObject: string | object, options?: object) => {
return proxyRequestToAxios(undefined, undefined, undefined, uriOrObject, options);
},
},
};
}
/**
* Returns the execute functions regular nodes have access to in load-options-function.
*/
export function getLoadOptionsFunctions(
workflow: Workflow,
node: INode,
path: string,
additionalData: IWorkflowExecuteAdditionalData,
): ILoadOptionsFunctions {
return ((workflow: Workflow, node: INode, path: string) => {
return {
...getCommonWorkflowFunctions(workflow, node, additionalData),
getCredentials: async (type) =>
getCredentials(workflow, node, type, additionalData, 'internal'),
getCurrentNodeParameter: (
parameterPath: string,
options?: IGetNodeParameterOptions,
): NodeParameterValueType | object | undefined => {
const nodeParameters = additionalData.currentNodeParameters;
if (parameterPath.charAt(0) === '&') {
parameterPath = `${path.split('.').slice(1, -1).join('.')}.${parameterPath.slice(1)}`;
}
let returnData = get(nodeParameters, parameterPath);
// This is outside the try/catch because it throws errors with proper messages
if (options?.extractValue) {
const nodeType = workflow.nodeTypes.getByNameAndVersion(node.type, node.typeVersion);
if (nodeType === undefined) {
throw new Error(
`Node type "${node.type}" is not known so can not return parameter value!`,
);
}
returnData = extractValue(
returnData,
parameterPath,
node,
nodeType,
) as NodeParameterValueType;
}
return returnData;
},
getCurrentNodeParameters: () => additionalData.currentNodeParameters,
getNodeParameter: (
parameterName: string,
fallbackValue?: any,
options?: IGetNodeParameterOptions,
): NodeParameterValueType | object => {
const runExecutionData: IRunExecutionData | null = null;
const itemIndex = 0;
const runIndex = 0;
const mode = 'internal' as WorkflowExecuteMode;
const connectionInputData: INodeExecutionData[] = [];
return getNodeParameter(
workflow,
runExecutionData,
runIndex,
connectionInputData,
node,
parameterName,
itemIndex,
mode,
additionalData.timezone,
getAdditionalKeys(additionalData, mode, runExecutionData),
undefined,
fallbackValue,
options,
);
},
helpers: getRequestHelperFunctions(workflow, node, additionalData),
};
})(workflow, node, path);
}
/**
* Returns the execute functions regular nodes have access to in hook-function.
*/
export function getExecuteHookFunctions(
workflow: Workflow,
node: INode,
additionalData: IWorkflowExecuteAdditionalData,
mode: WorkflowExecuteMode,
activation: WorkflowActivateMode,
isTest?: boolean,
webhookData?: IWebhookData,
): IHookFunctions {
return ((workflow: Workflow, node: INode) => {
return {
...getCommonWorkflowFunctions(workflow, node, additionalData),
getCredentials: async (type) => getCredentials(workflow, node, type, additionalData, mode),
getMode: () => mode,
getActivationMode: () => activation,
getNodeParameter: (
parameterName: string,
fallbackValue?: any,
options?: IGetNodeParameterOptions,
): NodeParameterValueType | object => {
const runExecutionData: IRunExecutionData | null = null;
const itemIndex = 0;
const runIndex = 0;
const connectionInputData: INodeExecutionData[] = [];
return getNodeParameter(
workflow,
runExecutionData,
runIndex,
connectionInputData,
node,
parameterName,
itemIndex,
mode,
additionalData.timezone,
getAdditionalKeys(additionalData, mode, runExecutionData),
undefined,
fallbackValue,
options,
);
},
getNodeWebhookUrl: (name: string): string | undefined => {
return getNodeWebhookUrl(
name,
workflow,
node,
additionalData,
mode,
additionalData.timezone,
getAdditionalKeys(additionalData, mode, null),
isTest,
);
},
getWebhookName(): string {
if (webhookData === undefined) {
throw new Error('Is only supported in webhook functions!');
}
return webhookData.webhookDescription.name;
},
getWebhookDescription: (name) => getWebhookDescription(name, workflow, node),
helpers: getRequestHelperFunctions(workflow, node, additionalData),
};
})(workflow, node);
}
/**
* Returns the execute functions regular nodes have access to when webhook-function is defined.
*/
export function getExecuteWebhookFunctions(
workflow: Workflow,
node: INode,
additionalData: IWorkflowExecuteAdditionalData,
mode: WorkflowExecuteMode,
webhookData: IWebhookData,
): IWebhookFunctions {
return ((workflow: Workflow, node: INode) => {
return {
...getCommonWorkflowFunctions(workflow, node, additionalData),
getBodyData(): IDataObject {
if (additionalData.httpRequest === undefined) {
throw new Error('Request is missing!');
}
return additionalData.httpRequest.body;
},
getCredentials: async (type) => getCredentials(workflow, node, type, additionalData, mode),
getHeaderData(): IncomingHttpHeaders {
if (additionalData.httpRequest === undefined) {
throw new Error('Request is missing!');
}
return additionalData.httpRequest.headers;
},
getMode: () => mode,
getNodeParameter: (
parameterName: string,
fallbackValue?: any,
options?: IGetNodeParameterOptions,
): NodeParameterValueType | object => {
const runExecutionData: IRunExecutionData | null = null;
const itemIndex = 0;
const runIndex = 0;
const connectionInputData: INodeExecutionData[] = [];
return getNodeParameter(
workflow,
runExecutionData,
runIndex,
connectionInputData,
node,
parameterName,
itemIndex,
mode,
additionalData.timezone,
getAdditionalKeys(additionalData, mode, null),
undefined,
fallbackValue,
options,
);
},
getParamsData(): object {
if (additionalData.httpRequest === undefined) {
throw new Error('Request is missing!');
}
return additionalData.httpRequest.params;
},
getQueryData(): object {
if (additionalData.httpRequest === undefined) {
throw new Error('Request is missing!');
}
return additionalData.httpRequest.query;
},
getRequestObject(): Request {
if (additionalData.httpRequest === undefined) {
throw new Error('Request is missing!');
}
return additionalData.httpRequest;
},
getResponseObject(): Response {
if (additionalData.httpResponse === undefined) {
throw new Error('Response is missing!');
}
return additionalData.httpResponse;
},
getNodeWebhookUrl: (name: string): string | undefined =>
getNodeWebhookUrl(
name,
workflow,
node,
additionalData,
mode,
additionalData.timezone,
getAdditionalKeys(additionalData, mode, null),
),
getWebhookName: () => webhookData.webhookDescription.name,
helpers: {
createDeferredPromise,
...getRequestHelperFunctions(workflow, node, additionalData),
...getBinaryHelperFunctions(additionalData, workflow.id),
returnJsonArray,
},
nodeHelpers: getNodeHelperFunctions(additionalData, workflow.id),
};
})(workflow, node);
}