import * as _ from 'lodash'; import * as net from 'net'; import { TLSSocket } from 'tls'; import * as http from 'http'; import * as http2 from 'http2'; import * as stream from 'stream'; import * as querystring from 'querystring'; import * as multipart from 'parse-multipart-data'; import now = require("performance-now"); import * as url from 'url'; import type { SUPPORTED_ENCODING } from 'http-encoding'; import { Headers, OngoingRequest, CompletedRequest, OngoingResponse, CompletedResponse, OngoingBody, CompletedBody, TimingEvents, InitiatedRequest, RawHeaders } from "../types"; import { bufferThenStream, bufferToStream, BufferInProgress, splitBuffer, streamToBuffer, asBuffer } from './buffer-utils'; import { flattenPairedRawHeaders, objectHeadersToFlat, objectHeadersToRaw, pairFlatRawHeaders, rawHeadersToObject } from './header-utils'; export const shouldKeepAlive = (req: OngoingRequest): boolean => req.httpVersion !== '1.0' && req.headers['connection'] !== 'close' && req.headers['proxy-connection'] !== 'close'; export const writeHead = ( response: http.ServerResponse | http2.Http2ServerResponse, status: number, statusMessage?: string | undefined, headers?: Headers | RawHeaders | undefined ) => { const flatHeaders: http.OutgoingHttpHeaders | string[] = headers === undefined ? {} : isHttp2(response) && Array.isArray(headers) // H2 raw headers support is poor so we map to object here. // We should revert to flat headers once the below is resolved in LTS: // https://github.com/nodejs/node/issues/51402 ? rawHeadersToObject(headers) : isHttp2(response) ? headers as Headers // H2 supports object headers just fine : !Array.isArray(headers) ? objectHeadersToFlat(headers) // RawHeaders for H1, must be flattened: : flattenPairedRawHeaders(headers); // We aim to always pass flat headers to writeHead instead of calling setHeader because // in most cases it's more flexible about supporting raw data, e.g. multiple headers with // different casing can't be represented with setHeader at all (the latter overwrites). if (statusMessage === undefined) { // Cast is required as Node H2 types don't know about raw headers: response.writeHead(status, flatHeaders as http.OutgoingHttpHeaders); } else { response.writeHead(status, statusMessage, flatHeaders as http.OutgoingHttpHeaders); } }; export function isHttp2( message: | http.IncomingMessage | http.ServerResponse | http2.Http2ServerRequest | http2.Http2ServerResponse | OngoingRequest | OngoingResponse ): message is http2.Http2ServerRequest | http2.Http2ServerResponse { return ('httpVersion' in message && !!message.httpVersion?.startsWith('2')) || // H2 request ('stream' in message && 'createPushResponse' in message); // H2 response } export async function encodeBodyBuffer(buffer: Uint8Array, headers: Headers) { const contentEncoding = headers['content-encoding']; // We skip encodeBuffer entirely if possible - this isn't strictly necessary, but it's useful // so you can drop the http-encoding package in bundling downstream without issue in cases // where you don't actually use any encodings. if (!contentEncoding) return buffer; return await (await import('http-encoding')).encodeBuffer( buffer, contentEncoding as SUPPORTED_ENCODING, { level: 1 } ); } export async function decodeBodyBuffer(buffer: Buffer, headers: Headers) { const contentEncoding = headers['content-encoding']; // We skip decodeBuffer entirely if possible - this isn't strictly necessary, but it's useful // so you can drop the http-encoding package in bundling downstream without issue in cases // where you don't actually use any encodings. if (!contentEncoding) return buffer; return await (await import('http-encoding')).decodeBuffer( buffer, contentEncoding as SUPPORTED_ENCODING ) } // Parse an in-progress request or response stream, i.e. where the body or possibly even the headers have // not been fully received/sent yet. const parseBodyStream = (bodyStream: stream.Readable, maxSize: number, getHeaders: () => Headers): OngoingBody => { let bufferPromise: BufferInProgress | null = null; let completedBuffer: Buffer | null = null; let body = { // Returns a stream for the full body, not the live streaming body. // Each call creates a new stream, which starts with the already seen // and buffered data, and then continues with the live stream, if active. // Listeners to this stream *must* be attached synchronously after this call. asStream() { // If we've already buffered the whole body, just stream it out: if (completedBuffer) return bufferToStream(completedBuffer); // Otherwise, we want to start buffering now, and wrap that with // a stream that can live-stream the buffered data on demand: const buffer = body.asBuffer(); buffer.catch(() => {}); // Errors will be handled via the stream, so silence unhandled rejections here. return bufferThenStream(buffer, bodyStream); }, asBuffer() { if (!bufferPromise) { bufferPromise = streamToBuffer(bodyStream, maxSize); bufferPromise .then((buffer) => completedBuffer = buffer) .catch(() => {}); // If we get no body, completedBuffer stays null } return bufferPromise; }, async asDecodedBuffer() { const buffer = await body.asBuffer(); return decodeBodyBuffer(buffer, getHeaders()); }, asText(encoding: BufferEncoding = 'utf8') { return body.asDecodedBuffer().then((b) => b.toString(encoding)); }, asJson() { return body.asText().then((t) => JSON.parse(t)); }, asFormData() { return body.asText().then((t) => querystring.parse(t)); }, }; return body; } async function runAsyncOrUndefined(func: () => Promise): Promise { try { return await func(); } catch { return undefined; } } const waitForBody = async (body: OngoingBody, headers: Headers): Promise => { const bufferBody = await body.asBuffer(); return buildBodyReader(bufferBody, headers); }; export const isMockttpBody = (body: any): body is CompletedBody => { return body.hasOwnProperty('getDecodedBuffer'); } export const buildBodyReader = (body: Buffer, headers: Headers): CompletedBody => { const completedBody = { buffer: body, async getDecodedBuffer() { return runAsyncOrUndefined(async () => asBuffer( await decodeBodyBuffer(this.buffer, headers) ) ); }, async getText() { return runAsyncOrUndefined(async () => (await this.getDecodedBuffer())!.toString() ); }, async getJson() { return runAsyncOrUndefined(async () => JSON.parse((await completedBody.getText())!) ) }, async getUrlEncodedFormData() { return runAsyncOrUndefined(async () => { const contentType = headers["content-type"]; if (contentType?.includes("multipart/form-data")) return; // Actively ignore multipart data - won't work as expected const text = await completedBody.getText(); return text ? querystring.parse(text) : undefined; }); }, async getMultipartFormData() { return runAsyncOrUndefined(async () => { const contentType = headers["content-type"]; if (!contentType?.includes("multipart/form-data")) return; const boundary = contentType.match(/;\s*boundary=(\S+)/); // https://developer.mozilla.org/en-US/docs/Web/HTTP/Headers/Content-Type#boundary // `boundary` is required for multipart entities. if (!boundary) return; const multipartBodyBuffer = asBuffer(await decodeBodyBuffer(this.buffer, headers)); return multipart.parse(multipartBodyBuffer, boundary[1]); }); }, async getFormData(): Promise { return runAsyncOrUndefined(async () => { // Return multi-part data if present, or fallback to default URL-encoded // parsing for all other cases. Data is returned in the same format regardless. const multiPartBody = await completedBody.getMultipartFormData(); if (multiPartBody) { const formData: querystring.ParsedUrlQuery = {}; multiPartBody.forEach((part) => { const name = part.name; if (name === undefined) { // https://developer.mozilla.org/en-US/docs/Web/HTTP/Headers/Content-Disposition#as_a_header_for_a_multipart_body, // The header must include `name` property to identify the field name. // So we ignore parts without a name, treating it as invalid multipart form data. } else { // We do not use `filename` or `type` here, because return value of `getFormData` must be string or string array. const prevValue = formData[name]; if (prevValue === undefined) { formData[name] = part.data.toString(); } else if (Array.isArray(prevValue)) { prevValue.push(part.data.toString()); } else { formData[name] = [prevValue, part.data.toString()]; } } }); return formData; } else { return completedBody.getUrlEncodedFormData(); } }); } }; return completedBody; }; export const parseRequestBody = ( req: http.IncomingMessage | http2.Http2ServerRequest, options: { maxSize: number } ) => { let transformedRequest = req as any as OngoingRequest; transformedRequest.body = parseBodyStream(req, options.maxSize, () => req.headers); }; /** * Build an initiated request: the external representation of a request * that's just started. */ export function buildInitiatedRequest(request: OngoingRequest): InitiatedRequest { return { ..._.pick(request, 'id', 'matchedRuleId', 'protocol', 'httpVersion', 'method', 'url', 'path', 'remoteIpAddress', 'remotePort', 'hostname', 'headers', 'rawHeaders', 'tags' ), timingEvents: request.timingEvents }; } /** * Build a completed request: the external representation of a request * that's been completely received (but not necessarily replied to). */ export async function waitForCompletedRequest(request: OngoingRequest): Promise { const body = await waitForBody(request.body, request.headers); const requestData = buildInitiatedRequest(request); return { ...requestData, body, rawTrailers: request.rawTrailers ?? [], trailers: rawHeadersToObject(request.rawTrailers ?? []) }; } /** * Parse the accepted format of the headers argument for writeHead and addTrailers * into a single consistent paired-tuple format. */ const getHeaderPairsFromArgument = (headersArg: any) => { // Two legal formats of header args (flat & object), one unofficial (tuple array) if (Array.isArray(headersArg)) { if (!Array.isArray(headersArg[0])) { // Flat -> Raw tuples return pairFlatRawHeaders(headersArg); } else { // Already raw tuples, cheeky return headersArg; } } else { // Headers object -> raw tuples return objectHeadersToRaw(headersArg ?? {}); } }; export function trackResponse( response: http.ServerResponse, timingEvents: TimingEvents, tags: string[], options: { maxSize: number } ): OngoingResponse { let trackedResponse = response; trackedResponse.timingEvents = timingEvents; trackedResponse.tags = tags; // Headers are sent when .writeHead or .write() are first called const trackingStream = new stream.PassThrough(); const originalWriteHeader = trackedResponse.writeHead; const originalWrite = trackedResponse.write; const originalEnd = trackedResponse.end; const originalAddTrailers = trackedResponse.addTrailers; const originalGetHeaders = trackedResponse.getHeaders; let writtenHeaders: RawHeaders | undefined; trackedResponse.getRawHeaders = () => writtenHeaders ?? []; trackedResponse.getHeaders = () => rawHeadersToObject(trackedResponse.getRawHeaders()); trackedResponse.writeHead = function (this: typeof trackedResponse, ...args: any) { if (!timingEvents.headersSentTimestamp) { timingEvents.headersSentTimestamp = now(); } // HTTP/2 responses shouldn't have a status message: if (isHttp2(trackedResponse) && typeof args[1] === 'string') { args[1] = undefined; } let headersArg: any; if (args[2]) { headersArg = args[2]; } else if (typeof args[1] !== 'string') { headersArg = args[1]; } writtenHeaders = getHeaderPairsFromArgument(headersArg); if (isHttp2(trackedResponse)) { writtenHeaders.unshift([':status', args[0].toString()]); } // Headers might also have been set with setHeader before. They'll be combined, with headers // here taking precendence. We simulate this by pulling in all values from getHeaders() and // remembering any of those that we're not about to override. const storedHeaders = originalGetHeaders.apply(this); const writtenHeaderKeys = writtenHeaders.map(([key]) => key.toLowerCase()); const storedHeaderKeys = Object.keys(storedHeaders); if (storedHeaderKeys.length) { storedHeaderKeys .filter((key) => !writtenHeaderKeys.includes(key)) .reverse() // We're unshifting (these were set first) so we have to reverse to keep order. .forEach((key) => { const value = storedHeaders[key]; if (Array.isArray(value)) { value.reverse().forEach(v => writtenHeaders?.unshift([key, v])); } else if (value !== undefined) { writtenHeaders?.unshift([key, value]); } }); } return originalWriteHeader.apply(this, args); }; let writtenTrailers: RawHeaders | undefined; trackedResponse.getRawTrailers = () => writtenTrailers ?? []; trackedResponse.addTrailers = function (this: typeof trackedResponse, ...args: any) { const trailersArg = args[0]; writtenTrailers = getHeaderPairsFromArgument(trailersArg); return originalAddTrailers.apply(this, args); }; const trackingWrite = function (this: typeof trackedResponse, ...args: any) { trackingStream.write.apply(trackingStream, args); return originalWrite.apply(this, args); }; trackedResponse.write = trackingWrite; trackedResponse.end = function (...args: any) { // We temporarily disable write tracking here, as .end // can call this.write, but that write should not be // tracked, or we'll get duplicate writes when trackingStream // calls it on itself too. trackedResponse.write = originalWrite; trackingStream.end.apply(trackingStream, args); let result = originalEnd.apply(this, args); trackedResponse.write = trackingWrite; return result; }; trackedResponse.body = parseBodyStream( trackingStream, options.maxSize, () => trackedResponse.getHeaders() ); // Proxy errors (e.g. write-after-end) to the response, so they can be // handled elsewhere, rather than killing the process outright. trackingStream.on('error', (e) => trackedResponse.emit('error', e)); return trackedResponse; } /** * Build a completed response: the external representation of a response * that's been completely written out and sent back to the client. */ export async function waitForCompletedResponse( response: OngoingResponse | CompletedResponse ): Promise { // Ongoing response has 'getHeaders' - completed has 'headers'. if ('headers' in response) return response; const body = await waitForBody(response.body, response.getHeaders()); response.timingEvents.responseSentTimestamp = response.timingEvents.responseSentTimestamp || now(); const completedResponse: CompletedResponse = _(response).pick([ 'id', 'statusCode', 'timingEvents', 'tags' ]).assign({ statusMessage: '', headers: response.getHeaders(), rawHeaders: response.getRawHeaders(), body: body, rawTrailers: response.getRawTrailers(), trailers: rawHeadersToObject(response.getRawTrailers()) }).valueOf(); if (!(response instanceof http2.Http2ServerResponse)) { // H2 has no status messages, and generates a warning if you look for one completedResponse.statusMessage = response.statusMessage; } return completedResponse; } // Take raw HTTP request bytes received, have a go at parsing something useful out of them. // Very lax - this is a method to use when normal parsing has failed, not as standard export function tryToParseHttpRequest(input: Buffer, socket: net.Socket): PartiallyParsedHttpRequest { const req: PartiallyParsedHttpRequest = {}; try { req.protocol = socket.__lastHopEncrypted ? "https" : "http"; // Wild guess really // For TLS sockets, we default the hostname to the name given by SNI. Might be overridden // by the URL or Host header later, if available. if (socket instanceof TLSSocket) req.hostname = socket.servername; const lines = splitBuffer(input, '\r\n'); const requestLine = lines[0].slice(0, lines[0].length).toString('ascii'); const [method, rawUri, httpProtocol] = requestLine.split(" "); if (method) req.method = method.slice(0, 15); // With overflows this could be *anything*. Limit it slightly. // An empty line delineates the headers from the body const emptyLineIndex = _.findIndex(lines, (line) => line.length === 0); try { const headerLines = lines.slice(1, emptyLineIndex === -1 ? undefined : emptyLineIndex); const rawHeaders = headerLines .map((line) => splitBuffer(line, ':', 2)) .filter((line) => line.length > 1) .map((headerParts) => headerParts.map(p => p.toString('utf8').trim()) as [string, string] ); req.rawHeaders = rawHeaders; req.headers = rawHeadersToObject(rawHeaders); } catch (e) {} try { const parsedUrl = url.parse(rawUri); req.path = parsedUrl.path ?? undefined; const hostHeader = _.find(req.headers, (_value, key) => key.toLowerCase() === 'host'); if (hostHeader) { req.hostname = Array.isArray(hostHeader) ? hostHeader[0] : hostHeader; } else if (parsedUrl.hostname) { req.hostname = parsedUrl.hostname; } if (rawUri.includes('://') || !req.hostname) { // URI is absolute, or we have no way to guess the host at all req.url = rawUri; } else { // URI is relative (or invalid) and we have a host: use it req.url = `${req.protocol}://${req.hostname}${ rawUri.startsWith('/') ? '' : '/' // Add a slash if the URI is garbage }${rawUri}`; } } catch (e) {} try { const httpVersion = httpProtocol.split('/')[1]; req.httpVersion = httpVersion; } catch (e) {} } catch (e) {} return req; } type PartiallyParsedHttpRequest = { protocol?: string; httpVersion?: string; method?: string; url?: string; headers?: Headers; rawHeaders?: RawHeaders; hostname?: string; path?: string; } // Take raw HTTP response bytes received, parse something useful out of them. This is *not* // very lax, and will throw errors due to unexpected response data, but it's used when we // ourselves generate the data (for websocket responses that 'ws' writes directly to the // socket invisibly). Fortunately all responses are very simple: export function parseRawHttpResponse(input: Buffer, request: OngoingRequest): CompletedResponse { const { id, tags, timingEvents} = request; const lines = splitBuffer(input, '\r\n'); const responseLine = lines[0].subarray(0, lines[0].length).toString('ascii'); const [_httpVersion, rawStatusCode, ...restResponseLine] = responseLine.split(" "); const statusCode = parseInt(rawStatusCode, 10); const statusMessage = restResponseLine.join(' '); // An empty line delineates the headers from the body const emptyLineIndex = _.findIndex(lines, (line) => line.length === 0); const headerLines = lines.slice(1, emptyLineIndex === -1 ? undefined : emptyLineIndex); const rawHeaders = headerLines .map((line) => splitBuffer(line, ':', 2)) .map((headerParts) => headerParts.map(p => p.toString('utf8').trim()) as [string, string] ); const headers = rawHeadersToObject(rawHeaders); const body = buildBodyReader(Buffer.from([]), {}); return { id, tags, timingEvents, statusCode, statusMessage, rawHeaders, headers, body, rawTrailers: [], trailers: {} }; }