// Copyright Joyent, Inc. and other Node contributors. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to permit // persons to whom the Software is furnished to do so, subject to the // following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN // NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, // DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE // USE OR OTHER DEALINGS IN THE SOFTWARE. 'use strict'; const assert = require('assert').ok; const Stream = require('stream'); const util = require('util'); const internalUtil = require('internal/util'); const internalHttp = require('internal/http'); const Buffer = require('buffer').Buffer; const common = require('_http_common'); const checkIsHttpToken = common._checkIsHttpToken; const checkInvalidHeaderChar = common._checkInvalidHeaderChar; const outHeadersKey = require('internal/http').outHeadersKey; const async_id_symbol = process.binding('async_wrap').async_id_symbol; const nextTick = require('internal/process/next_tick').nextTick; const errors = require('internal/errors'); const CRLF = common.CRLF; const debug = common.debug; const utcDate = internalHttp.utcDate; var RE_FIELDS = /^(?:Connection|Transfer-Encoding|Content-Length|Date|Expect|Trailer|Upgrade)$/i; var RE_CONN_VALUES = /(?:^|\W)close|upgrade(?:$|\W)/ig; var RE_TE_CHUNKED = common.chunkExpression; // isCookieField performs a case-insensitive comparison of a provided string // against the word "cookie." This method (at least as of V8 5.4) is faster than // the equivalent case-insensitive regexp, even if isCookieField does not get // inlined. function isCookieField(s) { if (s.length !== 6) return false; var ch = s.charCodeAt(0); if (ch !== 99 && ch !== 67) return false; ch = s.charCodeAt(1); if (ch !== 111 && ch !== 79) return false; ch = s.charCodeAt(2); if (ch !== 111 && ch !== 79) return false; ch = s.charCodeAt(3); if (ch !== 107 && ch !== 75) return false; ch = s.charCodeAt(4); if (ch !== 105 && ch !== 73) return false; ch = s.charCodeAt(5); if (ch !== 101 && ch !== 69) return false; return true; } function noopPendingOutput(amount) {} function OutgoingMessage() { Stream.call(this); // Queue that holds all currently pending data, until the response will be // assigned to the socket (until it will its turn in the HTTP pipeline). this.output = []; this.outputEncodings = []; this.outputCallbacks = []; // `outputSize` is an approximate measure of how much data is queued on this // response. `_onPendingData` will be invoked to update similar global // per-connection counter. That counter will be used to pause/unpause the // TCP socket and HTTP Parser and thus handle the backpressure. this.outputSize = 0; this.writable = true; this._last = false; this.upgrading = false; this.chunkedEncoding = false; this.shouldKeepAlive = true; this.useChunkedEncodingByDefault = true; this.sendDate = false; this._removedConnection = false; this._removedContLen = false; this._removedTE = false; this._contentLength = null; this._hasBody = true; this._trailer = ''; this.finished = false; this._headerSent = false; this.socket = null; this.connection = null; this._header = null; this[outHeadersKey] = null; this._onPendingData = noopPendingOutput; } util.inherits(OutgoingMessage, Stream); Object.defineProperty(OutgoingMessage.prototype, '_headers', { get: function() { return this.getHeaders(); }, set: function(val) { if (val == null) { this[outHeadersKey] = null; } else if (typeof val === 'object') { const headers = this[outHeadersKey] = {}; const keys = Object.keys(val); for (var i = 0; i < keys.length; ++i) { const name = keys[i]; headers[name.toLowerCase()] = [name, val[name]]; } } } }); Object.defineProperty(OutgoingMessage.prototype, '_headerNames', { get: function() { const headers = this[outHeadersKey]; if (headers) { const out = Object.create(null); const keys = Object.keys(headers); for (var i = 0; i < keys.length; ++i) { const key = keys[i]; const val = headers[key][0]; out[key] = val; } return out; } else { return headers; } }, set: function(val) { if (typeof val === 'object' && val !== null) { const headers = this[outHeadersKey]; if (!headers) return; const keys = Object.keys(val); for (var i = 0; i < keys.length; ++i) { const header = headers[keys[i]]; if (header) header[0] = val[keys[i]]; } } } }); OutgoingMessage.prototype._renderHeaders = function _renderHeaders() { if (this._header) { throw new errors.Error('ERR_HTTP_HEADERS_SENT', 'render'); } var headersMap = this[outHeadersKey]; if (!headersMap) return {}; var headers = {}; var keys = Object.keys(headersMap); for (var i = 0, l = keys.length; i < l; i++) { var key = keys[i]; headers[headersMap[key][0]] = headersMap[key][1]; } return headers; }; exports.OutgoingMessage = OutgoingMessage; OutgoingMessage.prototype.setTimeout = function setTimeout(msecs, callback) { if (callback) { this.on('timeout', callback); } if (!this.socket) { this.once('socket', function(socket) { socket.setTimeout(msecs); }); } else { this.socket.setTimeout(msecs); } return this; }; // It's possible that the socket will be destroyed, and removed from // any messages, before ever calling this. In that case, just skip // it, since something else is destroying this connection anyway. OutgoingMessage.prototype.destroy = function destroy(error) { if (this.socket) { this.socket.destroy(error); } else { this.once('socket', function(socket) { socket.destroy(error); }); } }; // This abstract either writing directly to the socket or buffering it. OutgoingMessage.prototype._send = function _send(data, encoding, callback) { // This is a shameful hack to get the headers and first body chunk onto // the same packet. Future versions of Node are going to take care of // this at a lower level and in a more general way. if (!this._headerSent) { if (typeof data === 'string' && (encoding === 'utf8' || encoding === 'latin1' || !encoding)) { data = this._header + data; } else { var header = this._header; if (this.output.length === 0) { this.output = [header]; this.outputEncodings = ['latin1']; this.outputCallbacks = [null]; } else { this.output.unshift(header); this.outputEncodings.unshift('latin1'); this.outputCallbacks.unshift(null); } this.outputSize += header.length; this._onPendingData(header.length); } this._headerSent = true; } return this._writeRaw(data, encoding, callback); }; OutgoingMessage.prototype._writeRaw = _writeRaw; function _writeRaw(data, encoding, callback) { const conn = this.connection; if (conn && conn.destroyed) { // The socket was destroyed. If we're still trying to write to it, // then we haven't gotten the 'close' event yet. return false; } if (typeof encoding === 'function') { callback = encoding; encoding = null; } if (conn && conn._httpMessage === this && conn.writable && !conn.destroyed) { // There might be pending data in the this.output buffer. if (this.output.length) { this._flushOutput(conn); } else if (!data.length) { if (typeof callback === 'function') { nextTick(this.socket[async_id_symbol], callback); } return true; } // Directly write to socket. return conn.write(data, encoding, callback); } // Buffer, as long as we're not destroyed. this.output.push(data); this.outputEncodings.push(encoding); this.outputCallbacks.push(callback); this.outputSize += data.length; this._onPendingData(data.length); return false; } OutgoingMessage.prototype._storeHeader = _storeHeader; function _storeHeader(firstLine, headers) { // firstLine in the case of request is: 'GET /index.html HTTP/1.1\r\n' // in the case of response it is: 'HTTP/1.1 200 OK\r\n' var state = { connection: false, connUpgrade: false, contLen: false, te: false, date: false, expect: false, trailer: false, upgrade: false, header: firstLine }; var field; var key; var value; var i; var j; if (headers === this[outHeadersKey]) { for (key in headers) { var entry = headers[key]; field = entry[0]; value = entry[1]; if (value instanceof Array) { if (value.length < 2 || !isCookieField(field)) { for (j = 0; j < value.length; j++) storeHeader(this, state, field, value[j], false); continue; } value = value.join('; '); } storeHeader(this, state, field, value, false); } } else if (headers instanceof Array) { for (i = 0; i < headers.length; i++) { field = headers[i][0]; value = headers[i][1]; if (value instanceof Array) { for (j = 0; j < value.length; j++) { storeHeader(this, state, field, value[j], true); } } else { storeHeader(this, state, field, value, true); } } } else if (headers) { var keys = Object.keys(headers); for (i = 0; i < keys.length; i++) { field = keys[i]; value = headers[field]; if (value instanceof Array) { if (value.length < 2 || !isCookieField(field)) { for (j = 0; j < value.length; j++) storeHeader(this, state, field, value[j], true); continue; } value = value.join('; '); } storeHeader(this, state, field, value, true); } } // Are we upgrading the connection? if (state.connUpgrade && state.upgrade) this.upgrading = true; // Date header if (this.sendDate && !state.date) { state.header += 'Date: ' + utcDate() + CRLF; } // Force the connection to close when the response is a 204 No Content or // a 304 Not Modified and the user has set a "Transfer-Encoding: chunked" // header. // // RFC 2616 mandates that 204 and 304 responses MUST NOT have a body but // node.js used to send out a zero chunk anyway to accommodate clients // that don't have special handling for those responses. // // It was pointed out that this might confuse reverse proxies to the point // of creating security liabilities, so suppress the zero chunk and force // the connection to close. var statusCode = this.statusCode; if ((statusCode === 204 || statusCode === 304) && this.chunkedEncoding) { debug(statusCode + ' response should not use chunked encoding,' + ' closing connection.'); this.chunkedEncoding = false; this.shouldKeepAlive = false; } // keep-alive logic if (this._removedConnection) { this._last = true; this.shouldKeepAlive = false; } else if (!state.connection) { var shouldSendKeepAlive = this.shouldKeepAlive && (state.contLen || this.useChunkedEncodingByDefault || this.agent); if (shouldSendKeepAlive) { state.header += 'Connection: keep-alive\r\n'; } else { this._last = true; state.header += 'Connection: close\r\n'; } } if (!state.contLen && !state.te) { if (!this._hasBody) { // Make sure we don't end the 0\r\n\r\n at the end of the message. this.chunkedEncoding = false; } else if (!this.useChunkedEncodingByDefault) { this._last = true; } else { if (!state.trailer && !this._removedContLen && typeof this._contentLength === 'number') { state.header += 'Content-Length: ' + this._contentLength + CRLF; } else if (!this._removedTE) { state.header += 'Transfer-Encoding: chunked\r\n'; this.chunkedEncoding = true; } else { // We should only be able to get here if both Content-Length and // Transfer-Encoding are removed by the user. // See: test/parallel/test-http-remove-header-stays-removed.js debug('Both Content-Length and Transfer-Encoding are removed'); } } } // Test non-chunked message does not have trailer header set, // message will be terminated by the first empty line after the // header fields, regardless of the header fields present in the // message, and thus cannot contain a message body or 'trailers'. if (this.chunkedEncoding !== true && state.trailer) { throw new errors.Error('ERR_HTTP_TRAILER_INVALID'); } this._header = state.header + CRLF; this._headerSent = false; // wait until the first body chunk, or close(), is sent to flush, // UNLESS we're sending Expect: 100-continue. if (state.expect) this._send(''); } function storeHeader(self, state, key, value, validate) { if (validate) { if (typeof key !== 'string' || !key || !checkIsHttpToken(key)) { throw new errors.TypeError( 'ERR_INVALID_HTTP_TOKEN', 'Header name', key); } if (value === undefined) { throw new errors.TypeError('ERR_MISSING_ARGS', `header "${key}"`); } else if (checkInvalidHeaderChar(value)) { debug('Header "%s" contains invalid characters', key); throw new errors.TypeError('ERR_INVALID_CHAR', 'header content', key); } } state.header += key + ': ' + escapeHeaderValue(value) + CRLF; matchHeader(self, state, key, value); } function matchConnValue(self, state, value) { var sawClose = false; var m = RE_CONN_VALUES.exec(value); while (m) { if (m[0].length === 5) sawClose = true; else state.connUpgrade = true; m = RE_CONN_VALUES.exec(value); } if (sawClose) self._last = true; else self.shouldKeepAlive = true; } function matchHeader(self, state, field, value) { var m = RE_FIELDS.exec(field); if (!m) return; var len = m[0].length; if (len === 10) { state.connection = true; matchConnValue(self, state, value); } else if (len === 17) { state.te = true; if (RE_TE_CHUNKED.test(value)) self.chunkedEncoding = true; } else if (len === 14) { state.contLen = true; } else if (len === 4) { state.date = true; } else if (len === 6) { state.expect = true; } else if (len === 7) { var ch = m[0].charCodeAt(0); if (ch === 85 || ch === 117) state.upgrade = true; else state.trailer = true; } } function validateHeader(msg, name, value) { if (typeof name !== 'string' || !name || !checkIsHttpToken(name)) throw new errors.TypeError('ERR_INVALID_HTTP_TOKEN', 'Header name', name); if (value === undefined) throw new errors.TypeError('ERR_MISSING_ARGS', 'value'); if (msg._header) throw new errors.Error('ERR_HTTP_HEADERS_SENT', 'set'); if (checkInvalidHeaderChar(value)) { debug('Header "%s" contains invalid characters', name); throw new errors.TypeError('ERR_INVALID_CHAR', 'header content', name); } } OutgoingMessage.prototype.setHeader = function setHeader(name, value) { validateHeader(this, name, value); if (!this[outHeadersKey]) this[outHeadersKey] = {}; const key = name.toLowerCase(); this[outHeadersKey][key] = [name, value]; switch (key.length) { case 10: if (key === 'connection') this._removedConnection = false; break; case 14: if (key === 'content-length') this._removedContLen = false; break; case 17: if (key === 'transfer-encoding') this._removedTE = false; break; } }; OutgoingMessage.prototype.getHeader = function getHeader(name) { if (typeof name !== 'string') { throw new errors.TypeError('ERR_INVALID_ARG_TYPE', 'name', 'string'); } if (!this[outHeadersKey]) return; var entry = this[outHeadersKey][name.toLowerCase()]; if (!entry) return; return entry[1]; }; // Returns an array of the names of the current outgoing headers. OutgoingMessage.prototype.getHeaderNames = function getHeaderNames() { return (this[outHeadersKey] ? Object.keys(this[outHeadersKey]) : []); }; // Returns a shallow copy of the current outgoing headers. OutgoingMessage.prototype.getHeaders = function getHeaders() { const headers = this[outHeadersKey]; const ret = Object.create(null); if (headers) { const keys = Object.keys(headers); for (var i = 0; i < keys.length; ++i) { const key = keys[i]; const val = headers[key][1]; ret[key] = val; } } return ret; }; OutgoingMessage.prototype.hasHeader = function hasHeader(name) { if (typeof name !== 'string') { throw new errors.TypeError('ERR_INVALID_ARG_TYPE', 'name', 'string'); } return !!(this[outHeadersKey] && this[outHeadersKey][name.toLowerCase()]); }; OutgoingMessage.prototype.removeHeader = function removeHeader(name) { if (typeof name !== 'string') { throw new errors.TypeError('ERR_INVALID_ARG_TYPE', 'name', 'string'); } if (this._header) { throw new errors.Error('ERR_HTTP_HEADERS_SENT', 'remove'); } var key = name.toLowerCase(); switch (key.length) { case 10: if (key === 'connection') this._removedConnection = true; break; case 14: if (key === 'content-length') this._removedContLen = true; break; case 17: if (key === 'transfer-encoding') this._removedTE = true; break; case 4: if (key === 'date') this.sendDate = false; break; } if (this[outHeadersKey]) { delete this[outHeadersKey][key]; } }; OutgoingMessage.prototype._implicitHeader = function _implicitHeader() { throw new errors.Error('ERR_METHOD_NOT_IMPLEMENTED', '_implicitHeader()'); }; Object.defineProperty(OutgoingMessage.prototype, 'headersSent', { configurable: true, enumerable: true, get: function() { return !!this._header; } }); const crlf_buf = Buffer.from('\r\n'); OutgoingMessage.prototype.write = function write(chunk, encoding, callback) { return write_(this, chunk, encoding, callback, false); }; function write_(msg, chunk, encoding, callback, fromEnd) { if (msg.finished) { var err = new Error('write after end'); nextTick(msg.socket && msg.socket[async_id_symbol], writeAfterEndNT.bind(msg), err, callback); return true; } if (!msg._header) { msg._implicitHeader(); } if (!msg._hasBody) { debug('This type of response MUST NOT have a body. ' + 'Ignoring write() calls.'); return true; } if (!fromEnd && typeof chunk !== 'string' && !(chunk instanceof Buffer)) { throw new errors.TypeError('ERR_INVALID_ARG_TYPE', 'first argument', ['string', 'buffer']); } // If we get an empty string or buffer, then just do nothing, and // signal the user to keep writing. if (chunk.length === 0) return true; if (!fromEnd && msg.connection && !msg.connection.corked) { msg.connection.cork(); process.nextTick(connectionCorkNT, msg.connection); } var len, ret; if (msg.chunkedEncoding) { if (typeof chunk === 'string') len = Buffer.byteLength(chunk, encoding); else len = chunk.length; msg._send(len.toString(16), 'latin1', null); msg._send(crlf_buf, null, null); msg._send(chunk, encoding, null); ret = msg._send(crlf_buf, null, callback); } else { ret = msg._send(chunk, encoding, callback); } debug('write ret = ' + ret); return ret; } function writeAfterEndNT(err, callback) { this.emit('error', err); if (callback) callback(err); } function connectionCorkNT(conn) { conn.uncork(); } function escapeHeaderValue(value) { // Protect against response splitting. The regex test is there to // minimize the performance impact in the common case. return /[\r\n]/.test(value) ? value.replace(/[\r\n]+[ \t]*/g, '') : value; } OutgoingMessage.prototype.addTrailers = function addTrailers(headers) { this._trailer = ''; var keys = Object.keys(headers); var isArray = Array.isArray(headers); var field, value; for (var i = 0, l = keys.length; i < l; i++) { var key = keys[i]; if (isArray) { field = headers[key][0]; value = headers[key][1]; } else { field = key; value = headers[key]; } if (typeof field !== 'string' || !field || !checkIsHttpToken(field)) { throw new errors.TypeError('ERR_INVALID_HTTP_TOKEN', 'Trailer name', field); } if (checkInvalidHeaderChar(value)) { debug('Trailer "%s" contains invalid characters', field); throw new errors.TypeError('ERR_INVALID_CHAR', 'trailer content', field); } this._trailer += field + ': ' + escapeHeaderValue(value) + CRLF; } }; function onFinish(outmsg) { outmsg.emit('finish'); } OutgoingMessage.prototype.end = function end(chunk, encoding, callback) { if (typeof chunk === 'function') { callback = chunk; chunk = null; } else if (typeof encoding === 'function') { callback = encoding; encoding = null; } if (this.finished) { return false; } var uncork; if (chunk) { if (typeof chunk !== 'string' && !(chunk instanceof Buffer)) { throw new errors.TypeError('ERR_INVALID_ARG_TYPE', 'first argument', ['string', 'buffer']); } if (!this._header) { if (typeof chunk === 'string') this._contentLength = Buffer.byteLength(chunk, encoding); else this._contentLength = chunk.length; } if (this.connection) { this.connection.cork(); uncork = true; } write_(this, chunk, encoding, null, true); } else if (!this._header) { this._contentLength = 0; this._implicitHeader(); } if (typeof callback === 'function') this.once('finish', callback); var finish = onFinish.bind(undefined, this); var ret; if (this._hasBody && this.chunkedEncoding) { ret = this._send('0\r\n' + this._trailer + '\r\n', 'latin1', finish); } else { // Force a flush, HACK. ret = this._send('', 'latin1', finish); } if (uncork) this.connection.uncork(); this.finished = true; // There is the first message on the outgoing queue, and we've sent // everything to the socket. debug('outgoing message end.'); if (this.output.length === 0 && this.connection && this.connection._httpMessage === this) { this._finish(); } return ret; }; OutgoingMessage.prototype._finish = function _finish() { assert(this.connection); this.emit('prefinish'); }; // This logic is probably a bit confusing. Let me explain a bit: // // In both HTTP servers and clients it is possible to queue up several // outgoing messages. This is easiest to imagine in the case of a client. // Take the following situation: // // req1 = client.request('GET', '/'); // req2 = client.request('POST', '/'); // // When the user does // // req2.write('hello world\n'); // // it's possible that the first request has not been completely flushed to // the socket yet. Thus the outgoing messages need to be prepared to queue // up data internally before sending it on further to the socket's queue. // // This function, outgoingFlush(), is called by both the Server and Client // to attempt to flush any pending messages out to the socket. OutgoingMessage.prototype._flush = function _flush() { var socket = this.socket; var ret; if (socket && socket.writable) { // There might be remaining data in this.output; write it out ret = this._flushOutput(socket); if (this.finished) { // This is a queue to the server or client to bring in the next this. this._finish(); } else if (ret) { // This is necessary to prevent https from breaking this.emit('drain'); } } }; OutgoingMessage.prototype._flushOutput = function _flushOutput(socket) { var ret; var outputLength = this.output.length; if (outputLength <= 0) return ret; var output = this.output; var outputEncodings = this.outputEncodings; var outputCallbacks = this.outputCallbacks; socket.cork(); for (var i = 0; i < outputLength; i++) { ret = socket.write(output[i], outputEncodings[i], outputCallbacks[i]); } socket.uncork(); this.output = []; this.outputEncodings = []; this.outputCallbacks = []; this._onPendingData(-this.outputSize); this.outputSize = 0; return ret; }; OutgoingMessage.prototype.flushHeaders = function flushHeaders() { if (!this._header) { this._implicitHeader(); } // Force-flush the headers. this._send(''); }; OutgoingMessage.prototype.flush = internalUtil.deprecate(function() { this.flushHeaders(); }, 'OutgoingMessage.flush is deprecated. Use flushHeaders instead.', 'DEP0001'); OutgoingMessage.prototype.pipe = function pipe() { // OutgoingMessage should be write-only. Piping from it is disabled. this.emit('error', new Error('Cannot pipe, not readable')); }; module.exports = { OutgoingMessage };