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core.js
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'use strict';
/* eslint-disable no-use-before-define */
require('internal/util').assertCrypto();
const { async_id_symbol } = require('internal/async_hooks').symbols;
const http = require('http');
const binding = process.binding('http2');
const assert = require('assert');
const { Buffer } = require('buffer');
const EventEmitter = require('events');
const net = require('net');
const tls = require('tls');
const util = require('util');
const fs = require('fs');
const errors = require('internal/errors');
const { StreamWrap } = require('_stream_wrap');
const { Duplex } = require('stream');
const { URL } = require('url');
const { onServerStream,
Http2ServerRequest,
Http2ServerResponse,
} = require('internal/http2/compat');
const { utcDate } = require('internal/http');
const { promisify } = require('internal/util');
const { isArrayBufferView } = require('internal/util/types');
const { _connectionListener: httpConnectionListener } = require('http');
const { createPromise, promiseResolve } = process.binding('util');
const debug = util.debuglog('http2');
const kMaxFrameSize = (2 ** 24) - 1;
const kMaxInt = (2 ** 32) - 1;
const kMaxStreams = (2 ** 31) - 1;
// eslint-disable-next-line no-control-regex
const kQuotedString = /^[\x09\x20-\x5b\x5d-\x7e\x80-\xff]*$/;
const {
assertIsObject,
assertValidPseudoHeaderResponse,
assertValidPseudoHeaderTrailer,
assertWithinRange,
getDefaultSettings,
getSessionState,
getSettings,
getStreamState,
isPayloadMeaningless,
kSocket,
mapToHeaders,
NghttpError,
sessionName,
toHeaderObject,
updateOptionsBuffer,
updateSettingsBuffer
} = require('internal/http2/util');
const {
kTimeout,
setUnrefTimeout,
validateTimerDuration,
refreshFnSymbol
} = require('internal/timers');
const { ShutdownWrap, WriteWrap } = process.binding('stream_wrap');
const { constants } = binding;
const NETServer = net.Server;
const TLSServer = tls.Server;
const kInspect = require('internal/util').customInspectSymbol;
const { kIncomingMessage } = require('_http_common');
const { kServerResponse } = require('_http_server');
const kAlpnProtocol = Symbol('alpnProtocol');
const kAuthority = Symbol('authority');
const kEncrypted = Symbol('encrypted');
const kHandle = Symbol('handle');
const kID = Symbol('id');
const kInit = Symbol('init');
const kInfoHeaders = Symbol('sent-info-headers');
const kMaybeDestroy = Symbol('maybe-destroy');
const kLocalSettings = Symbol('local-settings');
const kOptions = Symbol('options');
const kOwner = Symbol('owner');
const kProceed = Symbol('proceed');
const kProtocol = Symbol('protocol');
const kProxySocket = Symbol('proxy-socket');
const kRemoteSettings = Symbol('remote-settings');
const kSentHeaders = Symbol('sent-headers');
const kSentTrailers = Symbol('sent-trailers');
const kServer = Symbol('server');
const kSession = Symbol('session');
const kState = Symbol('state');
const kType = Symbol('type');
const kUpdateTimer = Symbol('update-timer');
const kDefaultSocketTimeout = 2 * 60 * 1000;
const {
paddingBuffer,
PADDING_BUF_FRAME_LENGTH,
PADDING_BUF_MAX_PAYLOAD_LENGTH,
PADDING_BUF_RETURN_VALUE
} = binding;
const {
NGHTTP2_CANCEL,
NGHTTP2_REFUSED_STREAM,
NGHTTP2_DEFAULT_WEIGHT,
NGHTTP2_FLAG_END_STREAM,
NGHTTP2_HCAT_PUSH_RESPONSE,
NGHTTP2_HCAT_RESPONSE,
NGHTTP2_INTERNAL_ERROR,
NGHTTP2_NO_ERROR,
NGHTTP2_SESSION_CLIENT,
NGHTTP2_SESSION_SERVER,
NGHTTP2_ERR_STREAM_ID_NOT_AVAILABLE,
NGHTTP2_ERR_INVALID_ARGUMENT,
NGHTTP2_ERR_STREAM_CLOSED,
HTTP2_HEADER_AUTHORITY,
HTTP2_HEADER_DATE,
HTTP2_HEADER_METHOD,
HTTP2_HEADER_PATH,
HTTP2_HEADER_SCHEME,
HTTP2_HEADER_STATUS,
HTTP2_HEADER_CONTENT_LENGTH,
NGHTTP2_SETTINGS_HEADER_TABLE_SIZE,
NGHTTP2_SETTINGS_ENABLE_PUSH,
NGHTTP2_SETTINGS_MAX_CONCURRENT_STREAMS,
NGHTTP2_SETTINGS_INITIAL_WINDOW_SIZE,
NGHTTP2_SETTINGS_MAX_FRAME_SIZE,
NGHTTP2_SETTINGS_MAX_HEADER_LIST_SIZE,
HTTP2_METHOD_GET,
HTTP2_METHOD_HEAD,
HTTP2_METHOD_CONNECT,
HTTP_STATUS_CONTINUE,
HTTP_STATUS_RESET_CONTENT,
HTTP_STATUS_OK,
HTTP_STATUS_NO_CONTENT,
HTTP_STATUS_NOT_MODIFIED,
HTTP_STATUS_SWITCHING_PROTOCOLS,
STREAM_OPTION_EMPTY_PAYLOAD,
STREAM_OPTION_GET_TRAILERS
} = constants;
const STREAM_FLAGS_PENDING = 0x0;
const STREAM_FLAGS_READY = 0x1;
const STREAM_FLAGS_CLOSED = 0x2;
const STREAM_FLAGS_HEADERS_SENT = 0x4;
const STREAM_FLAGS_HEAD_REQUEST = 0x8;
const STREAM_FLAGS_ABORTED = 0x10;
const SESSION_FLAGS_PENDING = 0x0;
const SESSION_FLAGS_READY = 0x1;
const SESSION_FLAGS_CLOSED = 0x2;
const SESSION_FLAGS_DESTROYED = 0x4;
// Top level to avoid creating a closure
function emit(self, ...args) {
self.emit(...args);
}
// Called when a new block of headers has been received for a given
// stream. The stream may or may not be new. If the stream is new,
// create the associated Http2Stream instance and emit the 'stream'
// event. If the stream is not new, emit the 'headers' event to pass
// the block of headers on.
function onSessionHeaders(handle, id, cat, flags, headers) {
const session = this[kOwner];
if (session.destroyed)
return;
const type = session[kType];
session[kUpdateTimer]();
debug(`Http2Stream ${id} [Http2Session ` +
`${sessionName(type)}]: headers received`);
const streams = session[kState].streams;
const endOfStream = !!(flags & NGHTTP2_FLAG_END_STREAM);
let stream = streams.get(id);
// Convert the array of header name value pairs into an object
const obj = toHeaderObject(headers);
if (stream === undefined) {
if (session.closed) {
// we are not accepting any new streams at this point. This callback
// should not be invoked at this point in time, but just in case it is,
// refuse the stream using an RST_STREAM and destroy the handle.
handle.rstStream(NGHTTP2_REFUSED_STREAM);
handle.destroy();
return;
}
const opts = { readable: !endOfStream };
// session[kType] can be only one of two possible values
if (type === NGHTTP2_SESSION_SERVER) {
stream = new ServerHttp2Stream(session, handle, id, opts, obj);
if (obj[HTTP2_HEADER_METHOD] === HTTP2_METHOD_HEAD) {
// For head requests, there must not be a body...
// end the writable side immediately.
stream.end();
stream[kState].flags |= STREAM_FLAGS_HEAD_REQUEST;
}
} else {
stream = new ClientHttp2Stream(session, handle, id, opts);
}
process.nextTick(emit, session, 'stream', stream, obj, flags, headers);
} else {
let event;
const status = obj[HTTP2_HEADER_STATUS];
if (cat === NGHTTP2_HCAT_RESPONSE) {
if (!endOfStream &&
status !== undefined &&
status >= 100 &&
status < 200) {
event = 'headers';
} else {
event = 'response';
}
} else if (cat === NGHTTP2_HCAT_PUSH_RESPONSE) {
event = 'push';
// cat === NGHTTP2_HCAT_HEADERS:
} else if (!endOfStream && status !== undefined && status >= 200) {
event = 'response';
} else {
event = endOfStream ? 'trailers' : 'headers';
}
debug(`Http2Stream ${id} [Http2Session ` +
`${sessionName(type)}]: emitting stream '${event}' event`);
process.nextTick(emit, stream, event, obj, flags, headers);
}
if (endOfStream) {
stream.push(null);
}
}
function tryClose(fd) {
// Try to close the file descriptor. If closing fails, assert because
// an error really should not happen at this point.
fs.close(fd, (err) => assert.ifError(err));
}
// Called to determine if there are trailers to be sent at the end of a
// Stream. The 'getTrailers' callback is invoked and passed a holder object.
// The trailers to return are set on that object by the handler. Once the
// event handler returns, those are sent off for processing. Note that this
// is a necessarily synchronous operation. We need to know immediately if
// there are trailing headers to send.
function onStreamTrailers() {
const stream = this[kOwner];
if (stream.destroyed)
return [];
const trailers = Object.create(null);
stream[kState].getTrailers.call(stream, trailers);
const headersList = mapToHeaders(trailers, assertValidPseudoHeaderTrailer);
if (!Array.isArray(headersList)) {
stream.destroy(headersList);
return [];
}
stream[kSentTrailers] = trailers;
return headersList;
}
// Submit an RST-STREAM frame to be sent to the remote peer.
// This will cause the Http2Stream to be closed.
function submitRstStream(code) {
if (this[kHandle] !== undefined) {
this[kHandle].rstStream(code);
}
}
// Called when the stream is closed either by sending or receiving an
// RST_STREAM frame, or through a natural end-of-stream.
// If the writable and readable sides of the stream are still open at this
// point, close them. If there is an open fd for file send, close that also.
// At this point the underlying node::http2:Http2Stream handle is no
// longer usable so destroy it also.
function onStreamClose(code) {
const stream = this[kOwner];
if (stream.destroyed)
return;
const state = stream[kState];
debug(`Http2Stream ${stream[kID]} [Http2Session ` +
`${sessionName(stream[kSession][kType])}]: closed with code ${code}`);
if (!stream.closed) {
// Clear timeout and remove timeout listeners
stream.setTimeout(0);
stream.removeAllListeners('timeout');
// Set the state flags
state.flags |= STREAM_FLAGS_CLOSED;
state.rstCode = code;
// Close the writable side of the stream
abort(stream);
stream.end();
}
if (state.fd !== undefined)
tryClose(state.fd);
stream.push(null);
stream[kMaybeDestroy](null, code);
}
// Receives a chunk of data for a given stream and forwards it on
// to the Http2Stream Duplex for processing.
function onStreamRead(nread, buf) {
const stream = this[kOwner];
if (nread >= 0 && !stream.destroyed) {
debug(`Http2Stream ${stream[kID]} [Http2Session ` +
`${sessionName(stream[kSession][kType])}]: receiving data chunk ` +
`of size ${nread}`);
stream[kUpdateTimer]();
if (!stream.push(buf)) {
if (!stream.destroyed) // we have to check a second time
this.readStop();
}
return;
}
// Last chunk was received. End the readable side.
debug(`Http2Stream ${stream[kID]} [Http2Session ` +
`${sessionName(stream[kSession][kType])}]: ending readable.`);
stream.push(null);
stream[kMaybeDestroy]();
}
// Called when the remote peer settings have been updated.
// Resets the cached settings.
function onSettings() {
const session = this[kOwner];
if (session.destroyed)
return;
session[kUpdateTimer]();
debug(`Http2Session ${sessionName(session[kType])}: new settings received`);
session[kRemoteSettings] = undefined;
process.nextTick(emit, session, 'remoteSettings', session.remoteSettings);
}
// If the stream exists, an attempt will be made to emit an event
// on the stream object itself. Otherwise, forward it on to the
// session (which may, in turn, forward it on to the server)
function onPriority(id, parent, weight, exclusive) {
const session = this[kOwner];
if (session.destroyed)
return;
debug(`Http2Stream ${id} [Http2Session ` +
`${sessionName(session[kType])}]: priority [parent: ${parent}, ` +
`weight: ${weight}, exclusive: ${exclusive}]`);
const emitter = session[kState].streams.get(id) || session;
if (!emitter.destroyed) {
emitter[kUpdateTimer]();
process.nextTick(emit, emitter, 'priority', id, parent, weight, exclusive);
}
}
// Called by the native layer when an error has occurred sending a
// frame. This should be exceedingly rare.
function onFrameError(id, type, code) {
const session = this[kOwner];
if (session.destroyed)
return;
debug(`Http2Session ${sessionName(session[kType])}: error sending frame ` +
`type ${type} on stream ${id}, code: ${code}`);
const emitter = session[kState].streams.get(id) || session;
emitter[kUpdateTimer]();
process.nextTick(emit, emitter, 'frameError', type, code, id);
}
function onAltSvc(stream, origin, alt) {
const session = this[kOwner];
if (session.destroyed)
return;
debug(`Http2Session ${sessionName(session[kType])}: altsvc received: ` +
`stream: ${stream}, origin: ${origin}, alt: ${alt}`);
session[kUpdateTimer]();
process.nextTick(emit, session, 'altsvc', alt, origin, stream);
}
// Receiving a GOAWAY frame from the connected peer is a signal that no
// new streams should be created. If the code === NGHTTP2_NO_ERROR, we
// are going to send our close, but allow existing frames to close
// normally. If code !== NGHTTP2_NO_ERROR, we are going to send our own
// close using the same code then destroy the session with an error.
// The goaway event will be emitted on next tick.
function onGoawayData(code, lastStreamID, buf) {
const session = this[kOwner];
if (session.destroyed)
return;
debug(`Http2Session ${sessionName(session[kType])}: goaway ${code} ` +
`received [last stream id: ${lastStreamID}]`);
const state = session[kState];
state.goawayCode = code;
state.goawayLastStreamID = lastStreamID;
session.emit('goaway', code, lastStreamID, buf);
if (code === NGHTTP2_NO_ERROR) {
// If this is a no error goaway, begin shutting down.
// No new streams permitted, but existing streams may
// close naturally on their own.
session.close();
} else {
// However, if the code is not NGHTTP_NO_ERROR, destroy the
// session immediately. We destroy with an error but send a
// goaway using NGHTTP2_NO_ERROR because there was no error
// condition on this side of the session that caused the
// shutdown.
session.destroy(new errors.Error('ERR_HTTP2_SESSION_ERROR', code),
{ errorCode: NGHTTP2_NO_ERROR });
}
}
// Returns the padding to use per frame. The selectPadding callback is set
// on the options. It is invoked with two arguments, the frameLen, and the
// maxPayloadLen. The method must return a numeric value within the range
// frameLen <= n <= maxPayloadLen.
function onSelectPadding(fn) {
return function getPadding() {
const frameLen = paddingBuffer[PADDING_BUF_FRAME_LENGTH];
const maxFramePayloadLen = paddingBuffer[PADDING_BUF_MAX_PAYLOAD_LENGTH];
paddingBuffer[PADDING_BUF_RETURN_VALUE] = fn(frameLen, maxFramePayloadLen);
};
}
// When a ClientHttp2Session is first created, the socket may not yet be
// connected. If request() is called during this time, the actual request
// will be deferred until the socket is ready to go.
function requestOnConnect(headers, options) {
const session = this[kSession];
// At this point, the stream should have already been destroyed during
// the session.destroy() method. Do nothing else.
if (session.destroyed)
return;
// If the session was closed while waiting for the connect, destroy
// the stream and do not continue with the request.
if (session.closed) {
const err = new errors.Error('ERR_HTTP2_GOAWAY_SESSION');
this.destroy(err);
return;
}
debug(`Http2Session ${sessionName(session[kType])}: connected, ` +
'initializing request');
let streamOptions = 0;
if (options.endStream)
streamOptions |= STREAM_OPTION_EMPTY_PAYLOAD;
if (typeof options.getTrailers === 'function') {
streamOptions |= STREAM_OPTION_GET_TRAILERS;
this[kState].getTrailers = options.getTrailers;
}
// ret will be either the reserved stream ID (if positive)
// or an error code (if negative)
const ret = session[kHandle].request(headers,
streamOptions,
options.parent | 0,
options.weight | 0,
!!options.exclusive);
// In an error condition, one of three possible response codes will be
// possible:
// * NGHTTP2_ERR_STREAM_ID_NOT_AVAILABLE - Maximum stream ID is reached, this
// is fatal for the session
// * NGHTTP2_ERR_INVALID_ARGUMENT - Stream was made dependent on itself, this
// impacts on this stream.
// For the first two, emit the error on the session,
// For the third, emit the error on the stream, it will bubble up to the
// session if not handled.
if (typeof ret === 'number') {
let err;
switch (ret) {
case NGHTTP2_ERR_STREAM_ID_NOT_AVAILABLE:
err = new errors.Error('ERR_HTTP2_OUT_OF_STREAMS');
this.destroy(err);
break;
case NGHTTP2_ERR_INVALID_ARGUMENT:
err = new errors.Error('ERR_HTTP2_STREAM_SELF_DEPENDENCY');
this.destroy(err);
break;
default:
session.destroy(new NghttpError(ret));
}
return;
}
this[kInit](ret.id(), ret);
}
// Validates that priority options are correct, specifically:
// 1. options.weight must be a number
// 2. options.parent must be a positive number
// 3. options.exclusive must be a boolean
// 4. if specified, options.silent must be a boolean
//
// Also sets the default priority options if they are not set.
function validatePriorityOptions(options) {
let err;
if (options.weight === undefined) {
options.weight = NGHTTP2_DEFAULT_WEIGHT;
} else if (typeof options.weight !== 'number') {
err = new errors.TypeError('ERR_INVALID_OPT_VALUE',
'weight',
options.weight);
}
if (options.parent === undefined) {
options.parent = 0;
} else if (typeof options.parent !== 'number' || options.parent < 0) {
err = new errors.TypeError('ERR_INVALID_OPT_VALUE',
'parent',
options.parent);
}
if (options.exclusive === undefined) {
options.exclusive = false;
} else if (typeof options.exclusive !== 'boolean') {
err = new errors.TypeError('ERR_INVALID_OPT_VALUE',
'exclusive',
options.exclusive);
}
if (options.silent === undefined) {
options.silent = false;
} else if (typeof options.silent !== 'boolean') {
err = new errors.TypeError('ERR_INVALID_OPT_VALUE',
'silent',
options.silent);
}
if (err) {
Error.captureStackTrace(err, validatePriorityOptions);
throw err;
}
}
// When an error occurs internally at the binding level, immediately
// destroy the session.
function onSessionInternalError(code) {
if (this[kOwner] !== undefined)
this[kOwner].destroy(new NghttpError(code));
}
function settingsCallback(cb, ack, duration) {
this[kState].pendingAck--;
this[kLocalSettings] = undefined;
if (ack) {
debug(`Http2Session ${sessionName(this[kType])}: settings received`);
const settings = this.localSettings;
if (typeof cb === 'function')
cb(null, settings, duration);
this.emit('localSettings', settings);
} else {
debug(`Http2Session ${sessionName(this[kType])}: settings canceled`);
if (typeof cb === 'function')
cb(new errors.Error('ERR_HTTP2_SETTINGS_CANCEL'));
}
}
// Submits a SETTINGS frame to be sent to the remote peer.
function submitSettings(settings, callback) {
if (this.destroyed)
return;
debug(`Http2Session ${sessionName(this[kType])}: submitting settings`);
this[kUpdateTimer]();
updateSettingsBuffer(settings);
if (!this[kHandle].settings(settingsCallback.bind(this, callback))) {
this.destroy(new errors.Error('ERR_HTTP2_MAX_PENDING_SETTINGS_ACK'));
}
}
// Submits a PRIORITY frame to be sent to the remote peer
// Note: If the silent option is true, the change will be made
// locally with no PRIORITY frame sent.
function submitPriority(options) {
if (this.destroyed)
return;
this[kUpdateTimer]();
// If the parent is the id, do nothing because a
// stream cannot be made to depend on itself.
if (options.parent === this[kID])
return;
this[kHandle].priority(options.parent | 0,
options.weight | 0,
!!options.exclusive,
!!options.silent);
}
// Submit a GOAWAY frame to be sent to the remote peer.
// If the lastStreamID is set to <= 0, then the lastProcStreamID will
// be used. The opaqueData must either be a typed array or undefined
// (which will be checked elsewhere).
function submitGoaway(code, lastStreamID, opaqueData) {
if (this.destroyed)
return;
debug(`Http2Session ${sessionName(this[kType])}: submitting goaway`);
this[kUpdateTimer]();
this[kHandle].goaway(code, lastStreamID, opaqueData);
}
const proxySocketHandler = {
get(session, prop) {
switch (prop) {
case 'setTimeout':
return session.setTimeout.bind(session);
case 'destroy':
case 'emit':
case 'end':
case 'pause':
case 'read':
case 'resume':
case 'write':
throw new errors.Error('ERR_HTTP2_NO_SOCKET_MANIPULATION');
default:
const socket = session[kSocket];
const value = socket[prop];
return typeof value === 'function' ? value.bind(socket) : value;
}
},
getPrototypeOf(session) {
return Reflect.getPrototypeOf(session[kSocket]);
},
set(session, prop, value) {
switch (prop) {
case 'setTimeout':
session.setTimeout = value;
return true;
case 'destroy':
case 'emit':
case 'end':
case 'pause':
case 'read':
case 'resume':
case 'write':
throw new errors.Error('ERR_HTTP2_NO_SOCKET_MANIPULATION');
default:
session[kSocket][prop] = value;
return true;
}
}
};
// pingCallback() returns a function that is invoked when an HTTP2 PING
// frame acknowledgement is received. The ack is either true or false to
// indicate if the ping was successful or not. The duration indicates the
// number of milliseconds elapsed since the ping was sent and the ack
// received. The payload is a Buffer containing the 8 bytes of payload
// data received on the PING acknowlegement.
function pingCallback(cb) {
return function pingCallback(ack, duration, payload) {
const err = ack ? null : new errors.Error('ERR_HTTP2_PING_CANCEL');
cb(err, duration, payload);
};
}
// Validates the values in a settings object. Specifically:
// 1. headerTableSize must be a number in the range 0 <= n <= kMaxInt
// 2. initialWindowSize must be a number in the range 0 <= n <= kMaxInt
// 3. maxFrameSize must be a number in the range 16384 <= n <= kMaxFrameSize
// 4. maxConcurrentStreams must be a number in the range 0 <= n <= kMaxStreams
// 5. maxHeaderListSize must be a number in the range 0 <= n <= kMaxInt
// 6. enablePush must be a boolean
// All settings are optional and may be left undefined
function validateSettings(settings) {
settings = Object.assign({}, settings);
assertWithinRange('headerTableSize',
settings.headerTableSize,
0, kMaxInt);
assertWithinRange('initialWindowSize',
settings.initialWindowSize,
0, kMaxInt);
assertWithinRange('maxFrameSize',
settings.maxFrameSize,
16384, kMaxFrameSize);
assertWithinRange('maxConcurrentStreams',
settings.maxConcurrentStreams,
0, kMaxStreams);
assertWithinRange('maxHeaderListSize',
settings.maxHeaderListSize,
0, kMaxInt);
if (settings.enablePush !== undefined &&
typeof settings.enablePush !== 'boolean') {
const err = new errors.TypeError('ERR_HTTP2_INVALID_SETTING_VALUE',
'enablePush', settings.enablePush);
err.actual = settings.enablePush;
Error.captureStackTrace(err, 'validateSettings');
throw err;
}
return settings;
}
// Creates the internal binding.Http2Session handle for an Http2Session
// instance. This occurs only after the socket connection has been
// established. Note: the binding.Http2Session will take over ownership
// of the socket. No other code should read from or write to the socket.
function setupHandle(socket, type, options) {
// If the session has been destroyed, go ahead and emit 'connect',
// but do nothing else. The various on('connect') handlers set by
// core will check for session.destroyed before progressing, this
// ensures that those at l`east get cleared out.
if (this.destroyed) {
process.nextTick(emit, this, 'connect', this, socket);
return;
}
debug(`Http2Session ${sessionName(type)}: setting up session handle`);
this[kState].flags |= SESSION_FLAGS_READY;
updateOptionsBuffer(options);
const handle = new binding.Http2Session(type);
handle[kOwner] = this;
handle.error = onSessionInternalError;
handle.onpriority = onPriority;
handle.onsettings = onSettings;
handle.onheaders = onSessionHeaders;
handle.onframeerror = onFrameError;
handle.ongoawaydata = onGoawayData;
handle.onaltsvc = onAltSvc;
if (typeof options.selectPadding === 'function')
handle.ongetpadding = onSelectPadding(options.selectPadding);
assert(socket._handle !== undefined,
'Internal HTTP/2 Failure. The socket is not connected. Please ' +
'report this as a bug in Node.js');
handle.consume(socket._handle._externalStream);
this[kHandle] = handle;
if (socket.encrypted) {
this[kAlpnProtocol] = socket.alpnProtocol;
this[kEncrypted] = true;
} else {
// 'h2c' is the protocol identifier for HTTP/2 over plain-text. We use
// it here to identify any session that is not explicitly using an
// encrypted socket.
this[kAlpnProtocol] = 'h2c';
this[kEncrypted] = false;
}
const settings = typeof options.settings === 'object' ?
options.settings : {};
this.settings(settings);
process.nextTick(emit, this, 'connect', this, socket);
}
// Emits a close event followed by an error event if err is truthy. Used
// by Http2Session.prototype.destroy()
function emitClose(self, error) {
if (error)
self.emit('error', error);
self.emit('close');
}
// Upon creation, the Http2Session takes ownership of the socket. The session
// may not be ready to use immediately if the socket is not yet fully connected.
// In that case, the Http2Session will wait for the socket to connect. Once
// the Http2Session is ready, it will emit its own 'connect' event.
//
// The Http2Session.goaway() method will send a GOAWAY frame, signalling
// to the connected peer that a shutdown is in progress. Sending a goaway
// frame has no other effect, however.
//
// Receiving a GOAWAY frame will cause the Http2Session to first emit a 'goaway'
// event notifying the user that a shutdown is in progress. If the goaway
// error code equals 0 (NGHTTP2_NO_ERROR), session.close() will be called,
// causing the Http2Session to send its own GOAWAY frame and switch itself
// into a graceful closing state. In this state, new inbound or outbound
// Http2Streams will be rejected. Existing *pending* streams (those created
// but without an assigned stream ID or handle) will be destroyed with a
// cancel error. Existing open streams will be permitted to complete on their
// own. Once all existing streams close, session.destroy() will be called
// automatically.
//
// Calling session.destroy() will tear down the Http2Session immediately,
// making it no longer usable. Pending and existing streams will be destroyed.
// The bound socket will be destroyed. Once all resources have been freed up,
// the 'close' event will be emitted. Note that pending streams will be
// destroyed using a specific "ERR_HTTP2_STREAM_CANCEL" error. Existing open
// streams will be destroyed using the same error passed to session.destroy()
//
// If destroy is called with an error, an 'error' event will be emitted
// immediately following the 'close' event.
//
// The socket and Http2Session lifecycles are tightly bound. Once one is
// destroyed, the other should also be destroyed. When the socket is destroyed
// with an error, session.destroy() will be called with that same error.
// Likewise, when session.destroy() is called with an error, the same error
// will be sent to the socket.
class Http2Session extends EventEmitter {
constructor(type, options, socket) {
super();
if (!socket._handle || !socket._handle._externalStream) {
socket = new StreamWrap(socket);
}
// No validation is performed on the input parameters because this
// constructor is not exported directly for users.
// If the session property already exists on the socket,
// then it has already been bound to an Http2Session instance
// and cannot be attached again.
if (socket[kSession] !== undefined)
throw new errors.Error('ERR_HTTP2_SOCKET_BOUND');
socket[kSession] = this;
this[kState] = {
flags: SESSION_FLAGS_PENDING,
streams: new Map(),
pendingStreams: new Set(),
pendingAck: 0,
writeQueueSize: 0,
originSet: undefined
};
this[kEncrypted] = undefined;
this[kAlpnProtocol] = undefined;
this[kType] = type;
this[kProxySocket] = null;
this[kSocket] = socket;
this[kTimeout] = null;
// Do not use nagle's algorithm
if (typeof socket.setNoDelay === 'function')
socket.setNoDelay();
// Disable TLS renegotiation on the socket
if (typeof socket.disableRenegotiation === 'function')
socket.disableRenegotiation();
const setupFn = setupHandle.bind(this, socket, type, options);
if (socket.connecting) {
const connectEvent =
socket instanceof tls.TLSSocket ? 'secureConnect' : 'connect';
socket.once(connectEvent, setupFn);
} else {
setupFn();
}
debug(`Http2Session ${sessionName(type)}: created`);
}
// Returns undefined if the socket is not yet connected, true if the
// socket is a TLSSocket, and false if it is not.
get encrypted() {
return this[kEncrypted];
}
// Returns undefined if the socket is not yet connected, `h2` if the
// socket is a TLSSocket and the alpnProtocol is `h2`, or `h2c` if the
// socket is not a TLSSocket.
get alpnProtocol() {
return this[kAlpnProtocol];
}
// TODO(jasnell): originSet is being added in preparation for ORIGIN frame
// support. At the current time, the ORIGIN frame specification is awaiting
// publication as an RFC and is awaiting implementation in nghttp2. Once
// added, an ORIGIN frame will add to the origins included in the origin
// set. 421 responses will remove origins from the set.
get originSet() {
if (!this.encrypted || this.destroyed)
return undefined;
let originSet = this[kState].originSet;
if (originSet === undefined) {
const socket = this[kSocket];
this[kState].originSet = originSet = new Set();
if (socket.servername != null) {
let originString = `https://${socket.servername}`;
if (socket.remotePort != null)
originString += `:${socket.remotePort}`;
// We have to ensure that it is a properly serialized
// ASCII origin string. The socket.servername might not
// be properly ASCII encoded.
originSet.add((new URL(originString)).origin);
}
}
return Array.from(originSet);
}
// True if the Http2Session is still waiting for the socket to connect
get connecting() {
return (this[kState].flags & SESSION_FLAGS_READY) === 0;
}
// True if Http2Session.prototype.close() has been called
get closed() {
return !!(this[kState].flags & SESSION_FLAGS_CLOSED);
}
// True if Http2Session.prototype.destroy() has been called
get destroyed() {
return !!(this[kState].flags & SESSION_FLAGS_DESTROYED);
}
// Resets the timeout counter
[kUpdateTimer]() {
if (this.destroyed)
return;
if (this[kTimeout]) this[kTimeout][refreshFnSymbol]();
}
// Sets the id of the next stream to be created by this Http2Session.
// The value must be a number in the range 0 <= n <= kMaxStreams. The
// value also needs to be larger than the current next stream ID.
setNextStreamID(id) {
if (this.destroyed)
throw new errors.Error('ERR_HTTP2_INVALID_SESSION');
if (typeof id !== 'number')
throw new errors.TypeError('ERR_INVALID_ARG_TYPE', 'id', 'number');
if (id <= 0 || id > kMaxStreams)
throw new errors.RangeError('ERR_OUT_OF_RANGE', 'id',
`> 0 and <= ${kMaxStreams}`, id);
this[kHandle].setNextStreamID(id);
}
// If ping is called while we are still connecting, or after close() has
// been called, the ping callback will be invoked immediately will a ping
// cancelled error and a duration of 0.0.
ping(payload, callback) {
if (this.destroyed)
throw new errors.Error('ERR_HTTP2_INVALID_SESSION');
if (typeof payload === 'function') {
callback = payload;
payload = undefined;
}
if (payload && !isArrayBufferView(payload)) {
throw new errors.TypeError('ERR_INVALID_ARG_TYPE',
'payload',
['Buffer', 'TypedArray', 'DataView']);
}
if (payload && payload.length !== 8) {
throw new errors.RangeError('ERR_HTTP2_PING_LENGTH');
}
if (typeof callback !== 'function')
throw new errors.TypeError('ERR_INVALID_CALLBACK');
const cb = pingCallback(callback);
if (this.connecting || this.closed) {
process.nextTick(cb, false, 0.0, payload);
return;
}
return this[kHandle].ping(payload, cb);
}
[kInspect](depth, opts) {
const obj = {
type: this[kType],
closed: this.closed,
destroyed: this.destroyed,
state: this.state,
localSettings: this.localSettings,
remoteSettings: this.remoteSettings
};
return `Http2Session ${util.format(obj)}`;
}
// The socket owned by this session
get socket() {
const proxySocket = this[kProxySocket];
if (proxySocket === null)
return this[kProxySocket] = new Proxy(this, proxySocketHandler);
return proxySocket;
}
// The session type
get type() {
return this[kType];
}
// If a GOAWAY frame has been received, gives the error code specified
get goawayCode() {
return this[kState].goawayCode || NGHTTP2_NO_ERROR;
}
// If a GOAWAY frame has been received, gives the last stream ID reported
get goawayLastStreamID() {
return this[kState].goawayLastStreamID || 0;
}