// @flow strict import { type IncomingMessage } from 'http'; import zlib from 'zlib'; import getBody from 'raw-body'; import httpError from 'http-errors'; import querystring from 'querystring'; import contentType from 'content-type'; type $Request = IncomingMessage & { body?: ?mixed, ... }; /** * Provided a "Request" provided by express or connect (typically a node style * HTTPClientRequest), Promise the body data contained. */ export async function parseBody( req: $Request, ): Promise<{ [param: string]: mixed, ... }> { const { body } = req; // If express has already parsed a body as a keyed object, use it. if (typeof body === 'object' && !(body instanceof Buffer)) { return (body: any); } // Skip requests without content types. if (req.headers['content-type'] === undefined) { return {}; } const typeInfo = contentType.parse(req); // If express has already parsed a body as a string, and the content-type // was application/graphql, parse the string body. if (typeof body === 'string' && typeInfo.type === 'application/graphql') { return { query: body }; } // Already parsed body we didn't recognise? Parse nothing. if (body) { return {}; } const rawBody = await readBody(req, typeInfo); // Use the correct body parser based on Content-Type header. switch (typeInfo.type) { case 'application/graphql': return { query: rawBody }; case 'application/json': if (jsonObjRegex.test(rawBody)) { /* eslint-disable no-empty */ try { return JSON.parse(rawBody); } catch (error) { // Do nothing } /* eslint-enable no-empty */ } throw httpError(400, 'POST body sent invalid JSON.'); case 'application/x-www-form-urlencoded': return querystring.parse(rawBody); } // If no Content-Type header matches, parse nothing. return {}; } /** * RegExp to match an Object-opening brace "{" as the first non-space * in a string. Allowed whitespace is defined in RFC 7159: * * ' ' Space * '\t' Horizontal tab * '\n' Line feed or New line * '\r' Carriage return */ const jsonObjRegex = /^[ \t\n\r]*\{/; // Read and parse a request body. async function readBody(req, typeInfo) { const charset = (typeInfo.parameters.charset || 'utf-8').toLowerCase(); // Assert charset encoding per JSON RFC 7159 sec 8.1 if (charset.slice(0, 4) !== 'utf-') { throw httpError(415, `Unsupported charset "${charset.toUpperCase()}".`); } // Get content-encoding (e.g. gzip) const contentEncoding = req.headers['content-encoding']; const encoding = typeof contentEncoding === 'string' ? contentEncoding.toLowerCase() : 'identity'; const length = encoding === 'identity' ? req.headers['content-length'] : null; const limit = 100 * 1024; // 100kb const stream = decompressed(req, encoding); // Read body from stream. try { return await getBody(stream, { encoding: charset, length, limit }); } catch (err) { throw err.type === 'encoding.unsupported' ? httpError(415, `Unsupported charset "${charset.toUpperCase()}".`) : httpError(400, `Invalid body: ${err.message}.`); } } // Return a decompressed stream, given an encoding. function decompressed(req, encoding) { switch (encoding) { case 'identity': return req; case 'deflate': return req.pipe(zlib.createInflate()); case 'gzip': return req.pipe(zlib.createGunzip()); } throw httpError(415, `Unsupported content-encoding "${encoding}".`); }