/* Copyright 2019-2020 Intel Corporation Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ var PROC_THREAD_ATTRIBUTE_PSEUDOCONSOLE = 0x00020016; var EXTENDED_STARTUPINFO_PRESENT = 0x00080000; var HEAP_ZERO_MEMORY = 0x00000008; var duplex = require('stream').Duplex; function vt() { this._ObjectID = 'win-virtual-terminal'; Object.defineProperty(this, 'supported', { value: (function () { var gm = require('_GenericMarshal'); var k32 = gm.CreateNativeProxy('kernel32.dll'); try { k32.CreateMethod('CreatePseudoConsole'); } catch(e) { return (false); } return (true); })() }); this.Create = function Create(path, width, height) { if (!this.supported) { throw ('This build of Windows does not have support for PseudoConsoles'); } if (!width) { width = 80; } if (!height) { height = 25; } var GM = require('_GenericMarshal'); var k32 = GM.CreateNativeProxy('kernel32.dll'); k32.CreateMethod('CreatePipe'); k32.CreateMethod('CreateProcessW'); k32.CreateMethod('CreatePseudoConsole'); k32.CreateMethod('GetProcessHeap'); k32.CreateMethod('HeapAlloc'); k32.CreateMethod('InitializeProcThreadAttributeList'); k32.CreateMethod('UpdateProcThreadAttribute'); k32.CreateMethod('WriteFile'); k32.CreateMethod('ReadFile'); k32.CreateMethod('TerminateProcess'); var ret = { _h: GM.CreatePointer(), _consoleInput: GM.CreatePointer(), _consoleOutput: GM.CreatePointer(), _input: GM.CreatePointer(), _output: GM.CreatePointer(), k32: k32 }; var attrSize = GM.CreateVariable(8); var attrList; var pi = GM.CreateVariable(GM.PointerSize == 4 ? 16 : 24); // Create the necessary pipes if (k32.CreatePipe(ret._consoleInput, ret._input, 0, 0).Val == 0) { console.log('PIPE/FAIL'); } if (k32.CreatePipe(ret._output, ret._consoleOutput, 0, 0).Val == 0) { console.log('PIPE/FAIL'); } if (k32.CreatePseudoConsole((height << 16) | width, ret._consoleInput.Deref(), ret._consoleOutput.Deref(), 0, ret._h).Val != 0) { throw ('Error calling CreatePseudoConsole()'); } k32.InitializeProcThreadAttributeList(0, 1, 0, attrSize); attrList = GM.CreateVariable(attrSize.toBuffer().readUInt32LE()); var startupinfoex = GM.CreateVariable(GM.PointerSize == 8 ? 112 : 72); startupinfoex.toBuffer().writeUInt32LE(GM.PointerSize == 8 ? 112 : 72, 0); attrList.pointerBuffer().copy(startupinfoex.Deref(GM.PointerSize == 8 ? 104 : 68, GM.PointerSize).toBuffer()); if (k32.InitializeProcThreadAttributeList(attrList, 1, 0, attrSize).Val != 0) { if (k32.UpdateProcThreadAttribute(attrList, 0, PROC_THREAD_ATTRIBUTE_PSEUDOCONSOLE, ret._h.Deref(), GM.PointerSize, 0, 0).Val != 0) { if (k32.CreateProcessW(0, GM.CreateVariable(path, { wide: true }), 0, 0, 1, EXTENDED_STARTUPINFO_PRESENT, 0, 0, startupinfoex, pi).Val != 0) { ret._startupinfoex = startupinfoex; ret._process = pi.Deref(0); ret._pid = pi.Deref(GM.PointerSize == 4 ? 8 : 16, 4).toBuffer().readUInt32LE(); var ds = new duplex( { 'write': function (chunk, flush) { var written = require('_GenericMarshal').CreateVariable(4); this.terminal.k32.WriteFile(this.terminal._input.Deref(), require('_GenericMarshal').CreateVariable(chunk), chunk.length, written, 0); flush(); return (true); }, 'final': function (flush) { if (this.terminal._process) { this.terminal.k32.TerminateProcess(this.terminal._process, 0); this.terminal._process = null; this.terminal.k32.ReadFile.async.abort(); } flush(); } }); ret._waiter = require('DescriptorEvents').addDescriptor(pi.Deref(0)); ret._waiter.ds = ds; ret._waiter.on('signaled', function () { this.ds.push(null); }); ds.terminal = ret; ds._rpbuf = GM.CreateVariable(4096); ds._rpbufRead = GM.CreateVariable(4); ds.__read = function __read() { this._rp = this.terminal.k32.ReadFile.async(this.terminal._output.Deref(), this._rpbuf, this._rpbuf._size, this._rpbufRead, 0); this._rp.then(function () { var len = this.parent._rpbufRead.toBuffer().readUInt32LE(); this.parent.push(this.parent._rpbuf.toBuffer().slice(0, len)); this.parent.__read(); }); this._rp.parent = this; }; ds.__read(); return (ds); } else { console.log('FAILED!'); } } } throw ('Internal Error'); } this.PowerShellCapable = function () { if (require('os').arch() == 'x64') { return (require('fs').existsSync(process.env['windir'] + '\\SysWow64\\WindowsPowerShell\\v1.0\\powershell.exe')); } else { return (require('fs').existsSync(process.env['windir'] + '\\System32\\WindowsPowerShell\\v1.0\\powershell.exe')); } } this.Start = function Start(CONSOLE_SCREEN_WIDTH, CONSOLE_SCREEN_HEIGHT) { return (this.Create(process.env['windir'] + '\\System32\\cmd.exe', CONSOLE_SCREEN_WIDTH, CONSOLE_SCREEN_HEIGHT)); } this.StartPowerShell = function StartPowerShell(CONSOLE_SCREEN_WIDTH, CONSOLE_SCREEN_HEIGHT) { if (require('os').arch() == 'x64') { return (this.Create(process.env['windir'] + '\\SysWow64\\WindowsPowerShell\\v1.0\\powershell.exe', CONSOLE_SCREEN_WIDTH, CONSOLE_SCREEN_HEIGHT)); } else { return (this.Create(process.env['windir'] + '\\System32\\WindowsPowerShell\\v1.0\\powershell.exe', CONSOLE_SCREEN_WIDTH, CONSOLE_SCREEN_HEIGHT)); } } } if (process.platform == 'win32') { module.exports = new vt(); }